Archivist
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raylib-src
镜像自地址 https://github.com/raysan5/raylib


								// The Module object: Our interface to the outside world. We import

								// and export values on it, and do the work to get that through

								// closure compiler if necessary. There are various ways Module can be used:

								// 1. Not defined. We create it here

								// 2. A function parameter, function(Module) { ..generated code.. }

								// 3. pre-run appended it, var Module = {}; ..generated code..

								// 4. External script tag defines var Module.

								// We need to do an eval in order to handle the closure compiler

								// case, where this code here is minified but Module was defined

								// elsewhere (e.g. case 4 above). We also need to check if Module

								// already exists (e.g. case 3 above).

								// Note that if you want to run closure, and also to use Module

								// after the generated code, you will need to define   var Module = {};

								// before the code. Then that object will be used in the code, and you

								// can continue to use Module afterwards as well.

								var Module;

								if (!Module) Module = (typeof Module !== 'undefined' ? Module : null) || {};


								// Sometimes an existing Module object exists with properties

								// meant to overwrite the default module functionality. Here

								// we collect those properties and reapply _after_ we configure

								// the current environment's defaults to avoid having to be so

								// defensive during initialization.

								var moduleOverrides = {};

								for (var key in Module) {

								  if (Module.hasOwnProperty(key)) {

								    moduleOverrides[key] = Module[key];

								  }

								}


								// The environment setup code below is customized to use Module.

								// *** Environment setup code ***

								var ENVIRONMENT_IS_WEB = false;

								var ENVIRONMENT_IS_WORKER = false;

								var ENVIRONMENT_IS_NODE = false;

								var ENVIRONMENT_IS_SHELL = false;


								// Three configurations we can be running in:

								// 1) We could be the application main() thread running in the main JS UI thread. (ENVIRONMENT_IS_WORKER == false and ENVIRONMENT_IS_PTHREAD == false)

								// 2) We could be the application main() thread proxied to worker. (with Emscripten -s PROXY_TO_WORKER=1) (ENVIRONMENT_IS_WORKER == true, ENVIRONMENT_IS_PTHREAD == false)

								// 3) We could be an application pthread running in a worker. (ENVIRONMENT_IS_WORKER == true and ENVIRONMENT_IS_PTHREAD == true)


								if (Module['ENVIRONMENT']) {

								  if (Module['ENVIRONMENT'] === 'WEB') {

								    ENVIRONMENT_IS_WEB = true;

								  } else if (Module['ENVIRONMENT'] === 'WORKER') {

								    ENVIRONMENT_IS_WORKER = true;

								  } else if (Module['ENVIRONMENT'] === 'NODE') {

								    ENVIRONMENT_IS_NODE = true;

								  } else if (Module['ENVIRONMENT'] === 'SHELL') {

								    ENVIRONMENT_IS_SHELL = true;

								  } else {

								    throw new Error('The provided Module[\'ENVIRONMENT\'] value is not valid. It must be one of: WEB|WORKER|NODE|SHELL.');

								  }

								} else {

								  ENVIRONMENT_IS_WEB = typeof window === 'object';

								  ENVIRONMENT_IS_WORKER = typeof importScripts === 'function';

								  ENVIRONMENT_IS_NODE = typeof process === 'object' && typeof require === 'function' && !ENVIRONMENT_IS_WEB && !ENVIRONMENT_IS_WORKER;

								  ENVIRONMENT_IS_SHELL = !ENVIRONMENT_IS_WEB && !ENVIRONMENT_IS_NODE && !ENVIRONMENT_IS_WORKER;

								}


								var ENVIRONMENT_IS_PTHREAD;

								if (!ENVIRONMENT_IS_PTHREAD) ENVIRONMENT_IS_PTHREAD = false; // ENVIRONMENT_IS_PTHREAD=true will have been preset in pthread-main.js. Make it false in the main runtime thread.

								var PthreadWorkerInit; // Collects together variables that are needed at initialization time for the web workers that host pthreads.

								if (!ENVIRONMENT_IS_PTHREAD) PthreadWorkerInit = {};

								var currentScriptUrl = ENVIRONMENT_IS_WORKER ? undefined : document.currentScript.src;


								if (ENVIRONMENT_IS_NODE) {

								  // Expose functionality in the same simple way that the shells work

								  // Note that we pollute the global namespace here, otherwise we break in node

								  if (!Module['print']) Module['print'] = console.log;

								  if (!Module['printErr']) Module['printErr'] = console.warn;


								  var nodeFS;

								  var nodePath;


								  Module['read'] = function read(filename, binary) {

								    if (!nodeFS) nodeFS = require('fs');

								    if (!nodePath) nodePath = require('path');

								    filename = nodePath['normalize'](filename);

								    var ret = nodeFS['readFileSync'](filename);

								    return binary ? ret : ret.toString();

								  };


								  Module['readBinary'] = function readBinary(filename) {

								    var ret = Module['read'](filename, true);

								    if (!ret.buffer) {

								      ret = new Uint8Array(ret);

								    }

								    assert(ret.buffer);

								    return ret;

								  };


								  Module['load'] = function load(f) {

								    globalEval(read(f));

								  };


								  if (!Module['thisProgram']) {

								    if (process['argv'].length > 1) {

								      Module['thisProgram'] = process['argv'][1].replace(/\\/g, '/');

								    } else {

								      Module['thisProgram'] = 'unknown-program';

								    }

								  }


								  Module['arguments'] = process['argv'].slice(2);


								  if (typeof module !== 'undefined') {

								    module['exports'] = Module;

								  }


								  process['on']('uncaughtException', function(ex) {

								    // suppress ExitStatus exceptions from showing an error

								    if (!(ex instanceof ExitStatus)) {

								      throw ex;

								    }

								  });


								  Module['inspect'] = function () { return '[Emscripten Module object]'; };

								}

								else if (ENVIRONMENT_IS_SHELL) {

								  if (!Module['print']) Module['print'] = print;

								  if (typeof printErr != 'undefined') Module['printErr'] = printErr; // not present in v8 or older sm


								  if (typeof read != 'undefined') {

								    Module['read'] = read;

								  } else {

								    Module['read'] = function read() { throw 'no read() available' };

								  }


								  Module['readBinary'] = function readBinary(f) {

								    if (typeof readbuffer === 'function') {

								      return new Uint8Array(readbuffer(f));

								    }

								    var data = read(f, 'binary');

								    assert(typeof data === 'object');

								    return data;

								  };


								  if (typeof scriptArgs != 'undefined') {

								    Module['arguments'] = scriptArgs;

								  } else if (typeof arguments != 'undefined') {

								    Module['arguments'] = arguments;

								  }


								  if (typeof quit === 'function') {

								    Module['quit'] = function(status, toThrow) {

								      quit(status);

								    }

								  }


								}

								else if (ENVIRONMENT_IS_WEB || ENVIRONMENT_IS_WORKER) {

								  Module['read'] = function read(url) {

								    var xhr = new XMLHttpRequest();

								    xhr.open('GET', url, false);

								    xhr.send(null);

								    return xhr.responseText;

								  };


								  if (ENVIRONMENT_IS_WORKER) {

								    Module['readBinary'] = function read(url) {

								      var xhr = new XMLHttpRequest();

								      xhr.open('GET', url, false);

								      xhr.responseType = 'arraybuffer';

								      xhr.send(null);

								      return xhr.response;

								    };

								  }


								  Module['readAsync'] = function readAsync(url, onload, onerror) {

								    var xhr = new XMLHttpRequest();

								    xhr.open('GET', url, true);

								    xhr.responseType = 'arraybuffer';

								    xhr.onload = function xhr_onload() {

								      if (xhr.status == 200 || (xhr.status == 0 && xhr.response)) { // file URLs can return 0

								        onload(xhr.response);

								      } else {

								        onerror();

								      }

								    };

								    xhr.onerror = onerror;

								    xhr.send(null);

								  };


								  if (typeof arguments != 'undefined') {

								    Module['arguments'] = arguments;

								  }


								  if (typeof console !== 'undefined') {

								    if (!Module['print']) Module['print'] = function print(x) {

								      console.log(x);

								    };

								    if (!Module['printErr']) Module['printErr'] = function printErr(x) {

								      console.warn(x);

								    };

								  } else {

								    // Probably a worker, and without console.log. We can do very little here...

								    var TRY_USE_DUMP = false;

								    if (!Module['print']) Module['print'] = (TRY_USE_DUMP && (typeof(dump) !== "undefined") ? (function(x) {

								      dump(x);

								    }) : (function(x) {

								      // self.postMessage(x); // enable this if you want stdout to be sent as messages

								    }));

								  }


								  if (ENVIRONMENT_IS_WORKER) {

								    Module['load'] = importScripts;

								  }


								  if (typeof Module['setWindowTitle'] === 'undefined') {

								    Module['setWindowTitle'] = function(title) { document.title = title };

								  }

								}

								else {

								  // Unreachable because SHELL is dependant on the others

								  throw 'Unknown runtime environment. Where are we?';

								}


								function globalEval(x) {

								  eval.call(null, x);

								}

								if (!Module['load'] && Module['read']) {

								  Module['load'] = function load(f) {

								    globalEval(Module['read'](f));

								  };

								}

								if (!Module['print']) {

								  Module['print'] = function(){};

								}

								if (!Module['printErr']) {

								  Module['printErr'] = Module['print'];

								}

								if (!Module['arguments']) {

								  Module['arguments'] = [];

								}

								if (!Module['thisProgram']) {

								  Module['thisProgram'] = './this.program';

								}

								if (!Module['quit']) {

								  Module['quit'] = function(status, toThrow) {

								    throw toThrow;

								  }

								}


								// *** Environment setup code ***


								// Closure helpers

								Module.print = Module['print'];

								Module.printErr = Module['printErr'];


								// Callbacks

								Module['preRun'] = [];

								Module['postRun'] = [];


								// Merge back in the overrides

								for (var key in moduleOverrides) {

								  if (moduleOverrides.hasOwnProperty(key)) {

								    Module[key] = moduleOverrides[key];

								  }

								}

								// Free the object hierarchy contained in the overrides, this lets the GC

								// reclaim data used e.g. in memoryInitializerRequest, which is a large typed array.

								moduleOverrides = undefined;


								// {{PREAMBLE_ADDITIONS}}


								// === Preamble library stuff ===


								// Documentation for the public APIs defined in this file must be updated in:

								//    site/source/docs/api_reference/preamble.js.rst

								// A prebuilt local version of the documentation is available at:

								//    site/build/text/docs/api_reference/preamble.js.txt

								// You can also build docs locally as HTML or other formats in site/

								// An online HTML version (which may be of a different version of Emscripten)

								//    is up at http://kripken.github.io/emscripten-site/docs/api_reference/preamble.js.html


								//========================================

								// Runtime code shared with compiler

								//========================================


								var Runtime = {

								  setTempRet0: function (value) {

								    tempRet0 = value;

								    return value;

								  },

								  getTempRet0: function () {

								    return tempRet0;

								  },

								  stackSave: function () {

								    return STACKTOP;

								  },

								  stackRestore: function (stackTop) {

								    STACKTOP = stackTop;

								  },

								  getNativeTypeSize: function (type) {

								    switch (type) {

								      case 'i1': case 'i8': return 1;

								      case 'i16': return 2;

								      case 'i32': return 4;

								      case 'i64': return 8;

								      case 'float': return 4;

								      case 'double': return 8;

								      default: {

								        if (type[type.length-1] === '*') {

								          return Runtime.QUANTUM_SIZE; // A pointer

								        } else if (type[0] === 'i') {

								          var bits = parseInt(type.substr(1));

								          assert(bits % 8 === 0);

								          return bits/8;

								        } else {

								          return 0;

								        }

								      }

								    }

								  },

								  getNativeFieldSize: function (type) {

								    return Math.max(Runtime.getNativeTypeSize(type), Runtime.QUANTUM_SIZE);

								  },

								  STACK_ALIGN: 16,

								  prepVararg: function (ptr, type) {

								    if (type === 'double' || type === 'i64') {

								      // move so the load is aligned

								      if (ptr & 7) {

								        assert((ptr & 7) === 4);

								        ptr += 4;

								      }

								    } else {

								      assert((ptr & 3) === 0);

								    }

								    return ptr;

								  },

								  getAlignSize: function (type, size, vararg) {

								    // we align i64s and doubles on 64-bit boundaries, unlike x86

								    if (!vararg && (type == 'i64' || type == 'double')) return 8;

								    if (!type) return Math.min(size, 8); // align structures internally to 64 bits

								    return Math.min(size || (type ? Runtime.getNativeFieldSize(type) : 0), Runtime.QUANTUM_SIZE);

								  },

								  dynCall: function (sig, ptr, args) {

								    if (args && args.length) {

								      assert(args.length == sig.length-1);

								      assert(('dynCall_' + sig) in Module, 'bad function pointer type - no table for sig \'' + sig + '\'');

								      return Module['dynCall_' + sig].apply(null, [ptr].concat(args));

								    } else {

								      assert(sig.length == 1);

								      assert(('dynCall_' + sig) in Module, 'bad function pointer type - no table for sig \'' + sig + '\'');

								      return Module['dynCall_' + sig].call(null, ptr);

								    }

								  },

								  functionPointers: [],

								  addFunction: function (func) {

								    for (var i = 0; i < Runtime.functionPointers.length; i++) {

								      if (!Runtime.functionPointers[i]) {

								        Runtime.functionPointers[i] = func;

								        return 2*(1 + i);

								      }

								    }

								    throw 'Finished up all reserved function pointers. Use a higher value for RESERVED_FUNCTION_POINTERS.';

								  },

								  removeFunction: function (index) {

								    Runtime.functionPointers[(index-2)/2] = null;

								  },

								  warnOnce: function (text) {

								    if (!Runtime.warnOnce.shown) Runtime.warnOnce.shown = {};

								    if (!Runtime.warnOnce.shown[text]) {

								      Runtime.warnOnce.shown[text] = 1;

								      Module.printErr(text);

								    }

								  },

								  funcWrappers: {},

								  getFuncWrapper: function (func, sig) {

								    assert(sig);

								    if (!Runtime.funcWrappers[sig]) {

								      Runtime.funcWrappers[sig] = {};

								    }

								    var sigCache = Runtime.funcWrappers[sig];

								    if (!sigCache[func]) {

								      // optimize away arguments usage in common cases

								      if (sig.length === 1) {

								        sigCache[func] = function dynCall_wrapper() {

								          return Runtime.dynCall(sig, func);

								        };

								      } else if (sig.length === 2) {

								        sigCache[func] = function dynCall_wrapper(arg) {

								          return Runtime.dynCall(sig, func, [arg]);

								        };

								      } else {

								        // general case

								        sigCache[func] = function dynCall_wrapper() {

								          return Runtime.dynCall(sig, func, Array.prototype.slice.call(arguments));

								        };

								      }

								    }

								    return sigCache[func];

								  },

								  getCompilerSetting: function (name) {

								    throw 'You must build with -s RETAIN_COMPILER_SETTINGS=1 for Runtime.getCompilerSetting or emscripten_get_compiler_setting to work';

								  },

								  stackAlloc: function (size) { var ret = STACKTOP;STACKTOP = (STACKTOP + size)|0;STACKTOP = (((STACKTOP)+15)&-16);(assert((((STACKTOP|0) < (STACK_MAX|0))|0))|0); return ret; },

								  staticAlloc: function (size) { var ret = STATICTOP;STATICTOP = (STATICTOP + (assert(!staticSealed),size))|0;STATICTOP = (((STATICTOP)+15)&-16); return ret; },

								  dynamicAlloc: function (size) { assert(DYNAMICTOP_PTR);var ret = HEAP32[DYNAMICTOP_PTR>>2];var end = (((ret + size + 15)|0) & -16);HEAP32[DYNAMICTOP_PTR>>2] = end;if (end >= TOTAL_MEMORY) {var success = enlargeMemory();if (!success) {HEAP32[DYNAMICTOP_PTR>>2] = ret;return 0;}}return ret;},

								  alignMemory: function (size,quantum) { var ret = size = Math.ceil((size)/(quantum ? quantum : 16))*(quantum ? quantum : 16); return ret; },

								  makeBigInt: function (low,high,unsigned) { var ret = (unsigned ? ((+((low>>>0)))+((+((high>>>0)))*4294967296.0)) : ((+((low>>>0)))+((+((high|0)))*4294967296.0))); return ret; },

								  GLOBAL_BASE: 8,

								  QUANTUM_SIZE: 4,

								  __dummy__: 0

								}


								Module["Runtime"] = Runtime;


								//========================================

								// Runtime essentials

								//========================================


								var ABORT = 0; // whether we are quitting the application. no code should run after this. set in exit() and abort()

								var EXITSTATUS = 0;


								function assert(condition, text) {

								  if (!condition) {

								    abort('Assertion failed: ' + text);

								  }

								}


								var globalScope = this;


								// Returns the C function with a specified identifier (for C++, you need to do manual name mangling)

								function getCFunc(ident) {

								  var func = Module['_' + ident]; // closure exported function

								  if (!func) {

								    try { func = eval('_' + ident); } catch(e) {}

								  }

								  assert(func, 'Cannot call unknown function ' + ident + ' (perhaps LLVM optimizations or closure removed it?)');

								  return func;

								}


								var cwrap, ccall;

								(function(){

								  var JSfuncs = {

								    // Helpers for cwrap -- it can't refer to Runtime directly because it might

								    // be renamed by closure, instead it calls JSfuncs['stackSave'].body to find

								    // out what the minified function name is.

								    'stackSave': function() {

								      Runtime.stackSave()

								    },

								    'stackRestore': function() {

								      Runtime.stackRestore()

								    },

								    // type conversion from js to c

								    'arrayToC' : function(arr) {

								      var ret = Runtime.stackAlloc(arr.length);

								      writeArrayToMemory(arr, ret);

								      return ret;

								    },

								    'stringToC' : function(str) {

								      var ret = 0;

								      if (str !== null && str !== undefined && str !== 0) { // null string

								        // at most 4 bytes per UTF-8 code point, +1 for the trailing '\0'

								        var len = (str.length << 2) + 1;

								        ret = Runtime.stackAlloc(len);

								        stringToUTF8(str, ret, len);

								      }

								      return ret;

								    }

								  };

								  // For fast lookup of conversion functions

								  var toC = {'string' : JSfuncs['stringToC'], 'array' : JSfuncs['arrayToC']};


								  // C calling interface.

								  ccall = function ccallFunc(ident, returnType, argTypes, args, opts) {

								    var func = getCFunc(ident);

								    var cArgs = [];

								    var stack = 0;

								    assert(returnType !== 'array', 'Return type should not be "array".');

								    if (args) {

								      for (var i = 0; i < args.length; i++) {

								        var converter = toC[argTypes[i]];

								        if (converter) {

								          if (stack === 0) stack = Runtime.stackSave();

								          cArgs[i] = converter(args[i]);

								        } else {

								          cArgs[i] = args[i];

								        }

								      }

								    }

								    var ret = func.apply(null, cArgs);

								    if ((!opts || !opts.async) && typeof EmterpreterAsync === 'object') {

								      assert(!EmterpreterAsync.state, 'cannot start async op with normal JS calling ccall');

								    }

								    if (opts && opts.async) assert(!returnType, 'async ccalls cannot return values');

								    if (returnType === 'string') ret = Pointer_stringify(ret);

								    if (stack !== 0) {

								      if (opts && opts.async) {

								        EmterpreterAsync.asyncFinalizers.push(function() {

								          Runtime.stackRestore(stack);

								        });

								        return;

								      }

								      Runtime.stackRestore(stack);

								    }

								    return ret;

								  }


								  var sourceRegex = /^function\s*[a-zA-Z$_0-9]*\s*\(([^)]*)\)\s*{\s*([^*]*?)[\s;]*(?:return\s*(.*?)[;\s]*)?}$/;

								  function parseJSFunc(jsfunc) {

								    // Match the body and the return value of a javascript function source

								    var parsed = jsfunc.toString().match(sourceRegex).slice(1);

								    return {arguments : parsed[0], body : parsed[1], returnValue: parsed[2]}

								  }


								  // sources of useful functions. we create this lazily as it can trigger a source decompression on this entire file

								  var JSsource = null;

								  function ensureJSsource() {

								    if (!JSsource) {

								      JSsource = {};

								      for (var fun in JSfuncs) {

								        if (JSfuncs.hasOwnProperty(fun)) {

								          // Elements of toCsource are arrays of three items:

								          // the code, and the return value

								          JSsource[fun] = parseJSFunc(JSfuncs[fun]);

								        }

								      }

								    }

								  }


								  cwrap = function cwrap(ident, returnType, argTypes) {

								    argTypes = argTypes || [];

								    var cfunc = getCFunc(ident);

								    // When the function takes numbers and returns a number, we can just return

								    // the original function

								    var numericArgs = argTypes.every(function(type){ return type === 'number'});

								    var numericRet = (returnType !== 'string');

								    if ( numericRet && numericArgs) {

								      return cfunc;

								    }

								    // Creation of the arguments list (["$1","$2",...,"$nargs"])

								    var argNames = argTypes.map(function(x,i){return '$'+i});

								    var funcstr = "(function(" + argNames.join(',') + ") {";

								    var nargs = argTypes.length;

								    if (!numericArgs) {

								      // Generate the code needed to convert the arguments from javascript

								      // values to pointers

								      ensureJSsource();

								      funcstr += 'var stack = ' + JSsource['stackSave'].body + ';';

								      for (var i = 0; i < nargs; i++) {

								        var arg = argNames[i], type = argTypes[i];

								        if (type === 'number') continue;

								        var convertCode = JSsource[type + 'ToC']; // [code, return]

								        funcstr += 'var ' + convertCode.arguments + ' = ' + arg + ';';

								        funcstr += convertCode.body + ';';

								        funcstr += arg + '=(' + convertCode.returnValue + ');';

								      }

								    }


								    // When the code is compressed, the name of cfunc is not literally 'cfunc' anymore

								    var cfuncname = parseJSFunc(function(){return cfunc}).returnValue;

								    // Call the function

								    funcstr += 'var ret = ' + cfuncname + '(' + argNames.join(',') + ');';

								    if (!numericRet) { // Return type can only by 'string' or 'number'

								      // Convert the result to a string

								      var strgfy = parseJSFunc(function(){return Pointer_stringify}).returnValue;

								      funcstr += 'ret = ' + strgfy + '(ret);';

								    }

								    funcstr += "if (typeof EmterpreterAsync === 'object') { assert(!EmterpreterAsync.state, 'cannot start async op with normal JS calling cwrap') }";

								    if (!numericArgs) {

								      // If we had a stack, restore it

								      ensureJSsource();

								      funcstr += JSsource['stackRestore'].body.replace('()', '(stack)') + ';';

								    }

								    funcstr += 'return ret})';

								    return eval(funcstr);

								  };

								})();

								Module["ccall"] = ccall;

								Module["cwrap"] = cwrap;


								function setValue(ptr, value, type, noSafe) {

								  type = type || 'i8';

								  if (type.charAt(type.length-1) === '*') type = 'i32'; // pointers are 32-bit

								    switch(type) {

								      case 'i1': HEAP8[((ptr)>>0)]=value; break;

								      case 'i8': HEAP8[((ptr)>>0)]=value; break;

								      case 'i16': HEAP16[((ptr)>>1)]=value; break;

								      case 'i32': HEAP32[((ptr)>>2)]=value; break;

								      case 'i64': (tempI64 = [value>>>0,(tempDouble=value,(+(Math_abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math_min((+(Math_floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math_ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[((ptr)>>2)]=tempI64[0],HEAP32[(((ptr)+(4))>>2)]=tempI64[1]); break;

								      case 'float': HEAPF32[((ptr)>>2)]=value; break;

								      case 'double': HEAPF64[((ptr)>>3)]=value; break;

								      default: abort('invalid type for setValue: ' + type);

								    }

								}

								Module["setValue"] = setValue;


								function getValue(ptr, type, noSafe) {

								  type = type || 'i8';

								  if (type.charAt(type.length-1) === '*') type = 'i32'; // pointers are 32-bit

								    switch(type) {

								      case 'i1': return HEAP8[((ptr)>>0)];

								      case 'i8': return HEAP8[((ptr)>>0)];

								      case 'i16': return HEAP16[((ptr)>>1)];

								      case 'i32': return HEAP32[((ptr)>>2)];

								      case 'i64': return HEAP32[((ptr)>>2)];

								      case 'float': return HEAPF32[((ptr)>>2)];

								      case 'double': return HEAPF64[((ptr)>>3)];

								      default: abort('invalid type for setValue: ' + type);

								    }

								  return null;

								}

								Module["getValue"] = getValue;


								var ALLOC_NORMAL = 0; // Tries to use _malloc()

								var ALLOC_STACK = 1; // Lives for the duration of the current function call

								var ALLOC_STATIC = 2; // Cannot be freed

								var ALLOC_DYNAMIC = 3; // Cannot be freed except through sbrk

								var ALLOC_NONE = 4; // Do not allocate

								Module["ALLOC_NORMAL"] = ALLOC_NORMAL;

								Module["ALLOC_STACK"] = ALLOC_STACK;

								Module["ALLOC_STATIC"] = ALLOC_STATIC;

								Module["ALLOC_DYNAMIC"] = ALLOC_DYNAMIC;

								Module["ALLOC_NONE"] = ALLOC_NONE;


								// allocate(): This is for internal use. You can use it yourself as well, but the interface

								//             is a little tricky (see docs right below). The reason is that it is optimized

								//             for multiple syntaxes to save space in generated code. So you should

								//             normally not use allocate(), and instead allocate memory using _malloc(),

								//             initialize it with setValue(), and so forth.

								// @slab: An array of data, or a number. If a number, then the size of the block to allocate,

								//        in *bytes* (note that this is sometimes confusing: the next parameter does not

								//        affect this!)

								// @types: Either an array of types, one for each byte (or 0 if no type at that position),

								//         or a single type which is used for the entire block. This only matters if there

								//         is initial data - if @slab is a number, then this does not matter at all and is

								//         ignored.

								// @allocator: How to allocate memory, see ALLOC_*

								function allocate(slab, types, allocator, ptr) {

								  var zeroinit, size;

								  if (typeof slab === 'number') {

								    zeroinit = true;

								    size = slab;

								  } else {

								    zeroinit = false;

								    size = slab.length;

								  }


								  var singleType = typeof types === 'string' ? types : null;


								  var ret;

								  if (allocator == ALLOC_NONE) {

								    ret = ptr;

								  } else {

								    ret = [typeof _malloc === 'function' ? _malloc : Runtime.staticAlloc, Runtime.stackAlloc, Runtime.staticAlloc, Runtime.dynamicAlloc][allocator === undefined ? ALLOC_STATIC : allocator](Math.max(size, singleType ? 1 : types.length));

								  }


								  if (zeroinit) {

								    var ptr = ret, stop;

								    assert((ret & 3) == 0);

								    stop = ret + (size & ~3);

								    for (; ptr < stop; ptr += 4) {

								      HEAP32[((ptr)>>2)]=0;

								    }

								    stop = ret + size;

								    while (ptr < stop) {

								      HEAP8[((ptr++)>>0)]=0;

								    }

								    return ret;

								  }


								  if (singleType === 'i8') {

								    if (slab.subarray || slab.slice) {

								      HEAPU8.set(slab, ret);

								    } else {

								      HEAPU8.set(new Uint8Array(slab), ret);

								    }

								    return ret;

								  }


								  var i = 0, type, typeSize, previousType;

								  while (i < size) {

								    var curr = slab[i];


								    if (typeof curr === 'function') {

								      curr = Runtime.getFunctionIndex(curr);

								    }


								    type = singleType || types[i];

								    if (type === 0) {

								      i++;

								      continue;

								    }

								    assert(type, 'Must know what type to store in allocate!');


								    if (type == 'i64') type = 'i32'; // special case: we have one i32 here, and one i32 later


								    setValue(ret+i, curr, type);


								    // no need to look up size unless type changes, so cache it

								    if (previousType !== type) {

								      typeSize = Runtime.getNativeTypeSize(type);

								      previousType = type;

								    }

								    i += typeSize;

								  }


								  return ret;

								}

								Module["allocate"] = allocate;


								// Allocate memory during any stage of startup - static memory early on, dynamic memory later, malloc when ready

								function getMemory(size) {

								  if (!staticSealed) return Runtime.staticAlloc(size);

								  if (!runtimeInitialized) return Runtime.dynamicAlloc(size);

								  return _malloc(size);

								}

								Module["getMemory"] = getMemory;


								function Pointer_stringify(ptr, /* optional */ length) {

								  if (length === 0 || !ptr) return '';

								  // TODO: use TextDecoder

								  // Find the length, and check for UTF while doing so

								  var hasUtf = 0;

								  var t;

								  var i = 0;

								  while (1) {

								    assert(ptr + i < TOTAL_MEMORY);

								    t = HEAPU8[(((ptr)+(i))>>0)];

								    hasUtf |= t;

								    if (t == 0 && !length) break;

								    i++;

								    if (length && i == length) break;

								  }

								  if (!length) length = i;


								  var ret = '';


								  if (hasUtf < 128) {

								    var MAX_CHUNK = 1024; // split up into chunks, because .apply on a huge string can overflow the stack

								    var curr;

								    while (length > 0) {

								      curr = String.fromCharCode.apply(String, HEAPU8.subarray(ptr, ptr + Math.min(length, MAX_CHUNK)));

								      ret = ret ? ret + curr : curr;

								      ptr += MAX_CHUNK;

								      length -= MAX_CHUNK;

								    }

								    return ret;

								  }

								  return Module['UTF8ToString'](ptr);

								}

								Module["Pointer_stringify"] = Pointer_stringify;


								// Given a pointer 'ptr' to a null-terminated ASCII-encoded string in the emscripten HEAP, returns

								// a copy of that string as a Javascript String object.


								function AsciiToString(ptr) {

								  var str = '';

								  while (1) {

								    var ch = HEAP8[((ptr++)>>0)];

								    if (!ch) return str;

								    str += String.fromCharCode(ch);

								  }

								}

								Module["AsciiToString"] = AsciiToString;


								// Copies the given Javascript String object 'str' to the emscripten HEAP at address 'outPtr',

								// null-terminated and encoded in ASCII form. The copy will require at most str.length+1 bytes of space in the HEAP.


								function stringToAscii(str, outPtr) {

								  return writeAsciiToMemory(str, outPtr, false);

								}

								Module["stringToAscii"] = stringToAscii;


								// Given a pointer 'ptr' to a null-terminated UTF8-encoded string in the given array that contains uint8 values, returns

								// a copy of that string as a Javascript String object.


								var UTF8Decoder = typeof TextDecoder !== 'undefined' ? new TextDecoder('utf8') : undefined;

								function UTF8ArrayToString(u8Array, idx) {

								  var endPtr = idx;

								  // TextDecoder needs to know the byte length in advance, it doesn't stop on null terminator by itself.

								  // Also, use the length info to avoid running tiny strings through TextDecoder, since .subarray() allocates garbage.

								  while (u8Array[endPtr]) ++endPtr;


								  if (endPtr - idx > 16 && u8Array.subarray && UTF8Decoder) {

								    return UTF8Decoder.decode(u8Array.subarray(idx, endPtr));

								  } else {

								    var u0, u1, u2, u3, u4, u5;


								    var str = '';

								    while (1) {

								      // For UTF8 byte structure, see http://en.wikipedia.org/wiki/UTF-8#Description and https://www.ietf.org/rfc/rfc2279.txt and https://tools.ietf.org/html/rfc3629

								      u0 = u8Array[idx++];

								      if (!u0) return str;

								      if (!(u0 & 0x80)) { str += String.fromCharCode(u0); continue; }

								      u1 = u8Array[idx++] & 63;

								      if ((u0 & 0xE0) == 0xC0) { str += String.fromCharCode(((u0 & 31) << 6) | u1); continue; }

								      u2 = u8Array[idx++] & 63;

								      if ((u0 & 0xF0) == 0xE0) {

								        u0 = ((u0 & 15) << 12) | (u1 << 6) | u2;

								      } else {

								        u3 = u8Array[idx++] & 63;

								        if ((u0 & 0xF8) == 0xF0) {

								          u0 = ((u0 & 7) << 18) | (u1 << 12) | (u2 << 6) | u3;

								        } else {

								          u4 = u8Array[idx++] & 63;

								          if ((u0 & 0xFC) == 0xF8) {

								            u0 = ((u0 & 3) << 24) | (u1 << 18) | (u2 << 12) | (u3 << 6) | u4;

								          } else {

								            u5 = u8Array[idx++] & 63;

								            u0 = ((u0 & 1) << 30) | (u1 << 24) | (u2 << 18) | (u3 << 12) | (u4 << 6) | u5;

								          }

								        }

								      }

								      if (u0 < 0x10000) {

								        str += String.fromCharCode(u0);

								      } else {

								        var ch = u0 - 0x10000;

								        str += String.fromCharCode(0xD800 | (ch >> 10), 0xDC00 | (ch & 0x3FF));

								      }

								    }

								  }

								}

								Module["UTF8ArrayToString"] = UTF8ArrayToString;


								// Given a pointer 'ptr' to a null-terminated UTF8-encoded string in the emscripten HEAP, returns

								// a copy of that string as a Javascript String object.


								function UTF8ToString(ptr) {

								  return UTF8ArrayToString(HEAPU8,ptr);

								}

								Module["UTF8ToString"] = UTF8ToString;


								// Copies the given Javascript String object 'str' to the given byte array at address 'outIdx',

								// encoded in UTF8 form and null-terminated. The copy will require at most str.length*4+1 bytes of space in the HEAP.

								// Use the function lengthBytesUTF8 to compute the exact number of bytes (excluding null terminator) that this function will write.

								// Parameters:

								//   str: the Javascript string to copy.

								//   outU8Array: the array to copy to. Each index in this array is assumed to be one 8-byte element.

								//   outIdx: The starting offset in the array to begin the copying.

								//   maxBytesToWrite: The maximum number of bytes this function can write to the array. This count should include the null

								//                    terminator, i.e. if maxBytesToWrite=1, only the null terminator will be written and nothing else.

								//                    maxBytesToWrite=0 does not write any bytes to the output, not even the null terminator.

								// Returns the number of bytes written, EXCLUDING the null terminator.


								function stringToUTF8Array(str, outU8Array, outIdx, maxBytesToWrite) {

								  if (!(maxBytesToWrite > 0)) // Parameter maxBytesToWrite is not optional. Negative values, 0, null, undefined and false each don't write out any bytes.

								    return 0;


								  var startIdx = outIdx;

								  var endIdx = outIdx + maxBytesToWrite - 1; // -1 for string null terminator.

								  for (var i = 0; i < str.length; ++i) {

								    // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! So decode UTF16->UTF32->UTF8.

								    // See http://unicode.org/faq/utf_bom.html#utf16-3

								    // For UTF8 byte structure, see http://en.wikipedia.org/wiki/UTF-8#Description and https://www.ietf.org/rfc/rfc2279.txt and https://tools.ietf.org/html/rfc3629

								    var u = str.charCodeAt(i); // possibly a lead surrogate

								    if (u >= 0xD800 && u <= 0xDFFF) u = 0x10000 + ((u & 0x3FF) << 10) | (str.charCodeAt(++i) & 0x3FF);

								    if (u <= 0x7F) {

								      if (outIdx >= endIdx) break;

								      outU8Array[outIdx++] = u;

								    } else if (u <= 0x7FF) {

								      if (outIdx + 1 >= endIdx) break;

								      outU8Array[outIdx++] = 0xC0 | (u >> 6);

								      outU8Array[outIdx++] = 0x80 | (u & 63);

								    } else if (u <= 0xFFFF) {

								      if (outIdx + 2 >= endIdx) break;

								      outU8Array[outIdx++] = 0xE0 | (u >> 12);

								      outU8Array[outIdx++] = 0x80 | ((u >> 6) & 63);

								      outU8Array[outIdx++] = 0x80 | (u & 63);

								    } else if (u <= 0x1FFFFF) {

								      if (outIdx + 3 >= endIdx) break;

								      outU8Array[outIdx++] = 0xF0 | (u >> 18);

								      outU8Array[outIdx++] = 0x80 | ((u >> 12) & 63);

								      outU8Array[outIdx++] = 0x80 | ((u >> 6) & 63);

								      outU8Array[outIdx++] = 0x80 | (u & 63);

								    } else if (u <= 0x3FFFFFF) {

								      if (outIdx + 4 >= endIdx) break;

								      outU8Array[outIdx++] = 0xF8 | (u >> 24);

								      outU8Array[outIdx++] = 0x80 | ((u >> 18) & 63);

								      outU8Array[outIdx++] = 0x80 | ((u >> 12) & 63);

								      outU8Array[outIdx++] = 0x80 | ((u >> 6) & 63);

								      outU8Array[outIdx++] = 0x80 | (u & 63);

								    } else {

								      if (outIdx + 5 >= endIdx) break;

								      outU8Array[outIdx++] = 0xFC | (u >> 30);

								      outU8Array[outIdx++] = 0x80 | ((u >> 24) & 63);

								      outU8Array[outIdx++] = 0x80 | ((u >> 18) & 63);

								      outU8Array[outIdx++] = 0x80 | ((u >> 12) & 63);

								      outU8Array[outIdx++] = 0x80 | ((u >> 6) & 63);

								      outU8Array[outIdx++] = 0x80 | (u & 63);

								    }

								  }

								  // Null-terminate the pointer to the buffer.

								  outU8Array[outIdx] = 0;

								  return outIdx - startIdx;

								}

								Module["stringToUTF8Array"] = stringToUTF8Array;


								// Copies the given Javascript String object 'str' to the emscripten HEAP at address 'outPtr',

								// null-terminated and encoded in UTF8 form. The copy will require at most str.length*4+1 bytes of space in the HEAP.

								// Use the function lengthBytesUTF8 to compute the exact number of bytes (excluding null terminator) that this function will write.

								// Returns the number of bytes written, EXCLUDING the null terminator.


								function stringToUTF8(str, outPtr, maxBytesToWrite) {

								  assert(typeof maxBytesToWrite == 'number', 'stringToUTF8(str, outPtr, maxBytesToWrite) is missing the third parameter that specifies the length of the output buffer!');

								  return stringToUTF8Array(str, HEAPU8,outPtr, maxBytesToWrite);

								}

								Module["stringToUTF8"] = stringToUTF8;


								// Returns the number of bytes the given Javascript string takes if encoded as a UTF8 byte array, EXCLUDING the null terminator byte.


								function lengthBytesUTF8(str) {

								  var len = 0;

								  for (var i = 0; i < str.length; ++i) {

								    // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! So decode UTF16->UTF32->UTF8.

								    // See http://unicode.org/faq/utf_bom.html#utf16-3

								    var u = str.charCodeAt(i); // possibly a lead surrogate

								    if (u >= 0xD800 && u <= 0xDFFF) u = 0x10000 + ((u & 0x3FF) << 10) | (str.charCodeAt(++i) & 0x3FF);

								    if (u <= 0x7F) {

								      ++len;

								    } else if (u <= 0x7FF) {

								      len += 2;

								    } else if (u <= 0xFFFF) {

								      len += 3;

								    } else if (u <= 0x1FFFFF) {

								      len += 4;

								    } else if (u <= 0x3FFFFFF) {

								      len += 5;

								    } else {

								      len += 6;

								    }

								  }

								  return len;

								}

								Module["lengthBytesUTF8"] = lengthBytesUTF8;


								// Given a pointer 'ptr' to a null-terminated UTF16LE-encoded string in the emscripten HEAP, returns

								// a copy of that string as a Javascript String object.


								var UTF16Decoder = typeof TextDecoder !== 'undefined' ? new TextDecoder('utf-16le') : undefined;

								function UTF16ToString(ptr) {

								  assert(ptr % 2 == 0, 'Pointer passed to UTF16ToString must be aligned to two bytes!');

								  var endPtr = ptr;

								  // TextDecoder needs to know the byte length in advance, it doesn't stop on null terminator by itself.

								  // Also, use the length info to avoid running tiny strings through TextDecoder, since .subarray() allocates garbage.

								  var idx = endPtr >> 1;

								  while (HEAP16[idx]) ++idx;

								  endPtr = idx << 1;


								  if (endPtr - ptr > 32 && UTF16Decoder) {

								    return UTF16Decoder.decode(HEAPU8.subarray(ptr, endPtr));

								  } else {

								    var i = 0;


								    var str = '';

								    while (1) {

								      var codeUnit = HEAP16[(((ptr)+(i*2))>>1)];

								      if (codeUnit == 0) return str;

								      ++i;

								      // fromCharCode constructs a character from a UTF-16 code unit, so we can pass the UTF16 string right through.

								      str += String.fromCharCode(codeUnit);

								    }

								  }

								}


								// Copies the given Javascript String object 'str' to the emscripten HEAP at address 'outPtr',

								// null-terminated and encoded in UTF16 form. The copy will require at most str.length*4+2 bytes of space in the HEAP.

								// Use the function lengthBytesUTF16() to compute the exact number of bytes (excluding null terminator) that this function will write.

								// Parameters:

								//   str: the Javascript string to copy.

								//   outPtr: Byte address in Emscripten HEAP where to write the string to.

								//   maxBytesToWrite: The maximum number of bytes this function can write to the array. This count should include the null

								//                    terminator, i.e. if maxBytesToWrite=2, only the null terminator will be written and nothing else.

								//                    maxBytesToWrite<2 does not write any bytes to the output, not even the null terminator.

								// Returns the number of bytes written, EXCLUDING the null terminator.


								function stringToUTF16(str, outPtr, maxBytesToWrite) {

								  assert(outPtr % 2 == 0, 'Pointer passed to stringToUTF16 must be aligned to two bytes!');

								  assert(typeof maxBytesToWrite == 'number', 'stringToUTF16(str, outPtr, maxBytesToWrite) is missing the third parameter that specifies the length of the output buffer!');

								  // Backwards compatibility: if max bytes is not specified, assume unsafe unbounded write is allowed.

								  if (maxBytesToWrite === undefined) {

								    maxBytesToWrite = 0x7FFFFFFF;

								  }

								  if (maxBytesToWrite < 2) return 0;

								  maxBytesToWrite -= 2; // Null terminator.

								  var startPtr = outPtr;

								  var numCharsToWrite = (maxBytesToWrite < str.length*2) ? (maxBytesToWrite / 2) : str.length;

								  for (var i = 0; i < numCharsToWrite; ++i) {

								    // charCodeAt returns a UTF-16 encoded code unit, so it can be directly written to the HEAP.

								    var codeUnit = str.charCodeAt(i); // possibly a lead surrogate

								    HEAP16[((outPtr)>>1)]=codeUnit;

								    outPtr += 2;

								  }

								  // Null-terminate the pointer to the HEAP.

								  HEAP16[((outPtr)>>1)]=0;

								  return outPtr - startPtr;

								}


								// Returns the number of bytes the given Javascript string takes if encoded as a UTF16 byte array, EXCLUDING the null terminator byte.


								function lengthBytesUTF16(str) {

								  return str.length*2;

								}


								function UTF32ToString(ptr) {

								  assert(ptr % 4 == 0, 'Pointer passed to UTF32ToString must be aligned to four bytes!');

								  var i = 0;


								  var str = '';

								  while (1) {

								    var utf32 = HEAP32[(((ptr)+(i*4))>>2)];

								    if (utf32 == 0)

								      return str;

								    ++i;

								    // Gotcha: fromCharCode constructs a character from a UTF-16 encoded code (pair), not from a Unicode code point! So encode the code point to UTF-16 for constructing.

								    // See http://unicode.org/faq/utf_bom.html#utf16-3

								    if (utf32 >= 0x10000) {

								      var ch = utf32 - 0x10000;

								      str += String.fromCharCode(0xD800 | (ch >> 10), 0xDC00 | (ch & 0x3FF));

								    } else {

								      str += String.fromCharCode(utf32);

								    }

								  }

								}


								// Copies the given Javascript String object 'str' to the emscripten HEAP at address 'outPtr',

								// null-terminated and encoded in UTF32 form. The copy will require at most str.length*4+4 bytes of space in the HEAP.

								// Use the function lengthBytesUTF32() to compute the exact number of bytes (excluding null terminator) that this function will write.

								// Parameters:

								//   str: the Javascript string to copy.

								//   outPtr: Byte address in Emscripten HEAP where to write the string to.

								//   maxBytesToWrite: The maximum number of bytes this function can write to the array. This count should include the null

								//                    terminator, i.e. if maxBytesToWrite=4, only the null terminator will be written and nothing else.

								//                    maxBytesToWrite<4 does not write any bytes to the output, not even the null terminator.

								// Returns the number of bytes written, EXCLUDING the null terminator.


								function stringToUTF32(str, outPtr, maxBytesToWrite) {

								  assert(outPtr % 4 == 0, 'Pointer passed to stringToUTF32 must be aligned to four bytes!');

								  assert(typeof maxBytesToWrite == 'number', 'stringToUTF32(str, outPtr, maxBytesToWrite) is missing the third parameter that specifies the length of the output buffer!');

								  // Backwards compatibility: if max bytes is not specified, assume unsafe unbounded write is allowed.

								  if (maxBytesToWrite === undefined) {

								    maxBytesToWrite = 0x7FFFFFFF;

								  }

								  if (maxBytesToWrite < 4) return 0;

								  var startPtr = outPtr;

								  var endPtr = startPtr + maxBytesToWrite - 4;

								  for (var i = 0; i < str.length; ++i) {

								    // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! We must decode the string to UTF-32 to the heap.

								    // See http://unicode.org/faq/utf_bom.html#utf16-3

								    var codeUnit = str.charCodeAt(i); // possibly a lead surrogate

								    if (codeUnit >= 0xD800 && codeUnit <= 0xDFFF) {

								      var trailSurrogate = str.charCodeAt(++i);

								      codeUnit = 0x10000 + ((codeUnit & 0x3FF) << 10) | (trailSurrogate & 0x3FF);

								    }

								    HEAP32[((outPtr)>>2)]=codeUnit;

								    outPtr += 4;

								    if (outPtr + 4 > endPtr) break;

								  }

								  // Null-terminate the pointer to the HEAP.

								  HEAP32[((outPtr)>>2)]=0;

								  return outPtr - startPtr;

								}


								// Returns the number of bytes the given Javascript string takes if encoded as a UTF16 byte array, EXCLUDING the null terminator byte.


								function lengthBytesUTF32(str) {

								  var len = 0;

								  for (var i = 0; i < str.length; ++i) {

								    // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! We must decode the string to UTF-32 to the heap.

								    // See http://unicode.org/faq/utf_bom.html#utf16-3

								    var codeUnit = str.charCodeAt(i);

								    if (codeUnit >= 0xD800 && codeUnit <= 0xDFFF) ++i; // possibly a lead surrogate, so skip over the tail surrogate.

								    len += 4;

								  }


								  return len;

								}


								function demangle(func) {

								  var __cxa_demangle_func = Module['___cxa_demangle'] || Module['__cxa_demangle'];

								  if (__cxa_demangle_func) {

								    try {

								      var s =

								        func.substr(1);

								      var len = lengthBytesUTF8(s)+1;

								      var buf = _malloc(len);

								      stringToUTF8(s, buf, len);

								      var status = _malloc(4);

								      var ret = __cxa_demangle_func(buf, 0, 0, status);

								      if (getValue(status, 'i32') === 0 && ret) {

								        return Pointer_stringify(ret);

								      }

								      // otherwise, libcxxabi failed

								    } catch(e) {

								      // ignore problems here

								    } finally {

								      if (buf) _free(buf);

								      if (status) _free(status);

								      if (ret) _free(ret);

								    }

								    // failure when using libcxxabi, don't demangle

								    return func;

								  }

								  Runtime.warnOnce('warning: build with  -s DEMANGLE_SUPPORT=1  to link in libcxxabi demangling');

								  return func;

								}


								function demangleAll(text) {

								  var regex =

								    /__Z[\w\d_]+/g;

								  return text.replace(regex,

								    function(x) {

								      var y = demangle(x);

								      return x === y ? x : (x + ' [' + y + ']');

								    });

								}


								function jsStackTrace() {

								  var err = new Error();

								  if (!err.stack) {

								    // IE10+ special cases: It does have callstack info, but it is only populated if an Error object is thrown,

								    // so try that as a special-case.

								    try {

								      throw new Error(0);

								    } catch(e) {

								      err = e;

								    }

								    if (!err.stack) {

								      return '(no stack trace available)';

								    }

								  }

								  return err.stack.toString();

								}


								function stackTrace() {

								  var js = jsStackTrace();

								  if (Module['extraStackTrace']) js += '\n' + Module['extraStackTrace']();

								  return demangleAll(js);

								}

								Module["stackTrace"] = stackTrace;


								// Memory management


								var PAGE_SIZE = 16384;

								var WASM_PAGE_SIZE = 65536;

								var ASMJS_PAGE_SIZE = 16777216;

								var MIN_TOTAL_MEMORY = 16777216;


								function alignUp(x, multiple) {

								  if (x % multiple > 0) {

								    x += multiple - (x % multiple);

								  }

								  return x;

								}


								var HEAP;

								var buffer;

								var HEAP8, HEAPU8, HEAP16, HEAPU16, HEAP32, HEAPU32, HEAPF32, HEAPF64;


								function updateGlobalBuffer(buf) {

								  Module['buffer'] = buffer = buf;

								}


								function updateGlobalBufferViews() {

								  Module['HEAP8'] = HEAP8 = new Int8Array(buffer);

								  Module['HEAP16'] = HEAP16 = new Int16Array(buffer);

								  Module['HEAP32'] = HEAP32 = new Int32Array(buffer);

								  Module['HEAPU8'] = HEAPU8 = new Uint8Array(buffer);

								  Module['HEAPU16'] = HEAPU16 = new Uint16Array(buffer);

								  Module['HEAPU32'] = HEAPU32 = new Uint32Array(buffer);

								  Module['HEAPF32'] = HEAPF32 = new Float32Array(buffer);

								  Module['HEAPF64'] = HEAPF64 = new Float64Array(buffer);

								}


								var STATIC_BASE, STATICTOP, staticSealed; // static area

								var STACK_BASE, STACKTOP, STACK_MAX; // stack area

								var DYNAMIC_BASE, DYNAMICTOP_PTR; // dynamic area handled by sbrk


								if (!ENVIRONMENT_IS_PTHREAD) { // Pthreads have already initialized these variables in src/pthread-main.js, where they were passed to the thread worker at startup time

								  STATIC_BASE = STATICTOP = STACK_BASE = STACKTOP = STACK_MAX = DYNAMIC_BASE = DYNAMICTOP_PTR = 0;

								  staticSealed = false;

								}


								if (ENVIRONMENT_IS_PTHREAD) {

								  staticSealed = true; // The static memory area has been initialized already in the main thread, pthreads skip this.

								}


								// Initializes the stack cookie. Called at the startup of main and at the startup of each thread in pthreads mode.

								function writeStackCookie() {

								  assert((STACK_MAX & 3) == 0);

								  HEAPU32[(STACK_MAX >> 2)-1] = 0x02135467;

								  HEAPU32[(STACK_MAX >> 2)-2] = 0x89BACDFE;

								}


								function checkStackCookie() {

								  if (HEAPU32[(STACK_MAX >> 2)-1] != 0x02135467 || HEAPU32[(STACK_MAX >> 2)-2] != 0x89BACDFE) {

								    abort('Stack overflow! Stack cookie has been overwritten, expected hex dwords 0x89BACDFE and 0x02135467, but received 0x' + HEAPU32[(STACK_MAX >> 2)-2].toString(16) + ' ' + HEAPU32[(STACK_MAX >> 2)-1].toString(16));

								  }

								  // Also test the global address 0 for integrity. This check is not compatible with SAFE_SPLIT_MEMORY though, since that mode already tests all address 0 accesses on its own.

								  if (HEAP32[0] !== 0x63736d65 /* 'emsc' */) throw 'Runtime error: The application has corrupted its heap memory area (address zero)!';

								}


								function abortStackOverflow(allocSize) {

								  abort('Stack overflow! Attempted to allocate ' + allocSize + ' bytes on the stack, but stack has only ' + (STACK_MAX - asm.stackSave() + allocSize) + ' bytes available!');

								}


								function abortOnCannotGrowMemory() {

								  abort('Cannot enlarge memory arrays. Either (1) compile with  -s TOTAL_MEMORY=X  with X higher than the current value ' + TOTAL_MEMORY + ', (2) compile with  -s ALLOW_MEMORY_GROWTH=1  which adjusts the size at runtime but prevents some optimizations, (3) set Module.TOTAL_MEMORY to a higher value before the program runs, or if you want malloc to return NULL (0) instead of this abort, compile with  -s ABORTING_MALLOC=0 ');

								}


								function enlargeMemory() {

								  abort('Cannot enlarge memory arrays, since compiling with pthreads support enabled (-s USE_PTHREADS=1).');

								}


								var TOTAL_STACK = Module['TOTAL_STACK'] || 5242880;

								var TOTAL_MEMORY = Module['TOTAL_MEMORY'] || 16777216;

								if (TOTAL_MEMORY < TOTAL_STACK) Module.printErr('TOTAL_MEMORY should be larger than TOTAL_STACK, was ' + TOTAL_MEMORY + '! (TOTAL_STACK=' + TOTAL_STACK + ')');


								// Initialize the runtime's memory

								// check for full engine support (use string 'subarray' to avoid closure compiler confusion)

								assert(typeof Int32Array !== 'undefined' && typeof Float64Array !== 'undefined' && !!(new Int32Array(1)['subarray']) && !!(new Int32Array(1)['set']),

								       'JS engine does not provide full typed array support');


								if (typeof SharedArrayBuffer !== 'undefined') {

								  if (!ENVIRONMENT_IS_PTHREAD) buffer = new SharedArrayBuffer(TOTAL_MEMORY);

								  // Currently SharedArrayBuffer does not have a slice() operation, so polyfill it in.

								  // Adapted from https://github.com/ttaubert/node-arraybuffer-slice, (c) 2014 Tim Taubert

								  // arraybuffer-slice may be freely distributed under the MIT license.

								  (function (undefined) {

								    "use strict";

								    function clamp(val, length) {

								      val = (val|0) || 0;

								      if (val < 0) return Math.max(val + length, 0);

								      return Math.min(val, length);

								    }

								    if (typeof SharedArrayBuffer !== 'undefined' && !SharedArrayBuffer.prototype.slice) {

								      SharedArrayBuffer.prototype.slice = function (from, to) {

								        var length = this.byteLength;

								        var begin = clamp(from, length);

								        var end = length;

								        if (to !== undefined) end = clamp(to, length);

								        if (begin > end) return new ArrayBuffer(0);

								        var num = end - begin;

								        var target = new ArrayBuffer(num);

								        var targetArray = new Uint8Array(target);

								        var sourceArray = new Uint8Array(this, begin, num);

								        targetArray.set(sourceArray);

								        return target;

								      };

								    }

								  })();

								} else {

								  if (!ENVIRONMENT_IS_PTHREAD) buffer = new ArrayBuffer(TOTAL_MEMORY);

								}

								updateGlobalBufferViews();


								if (typeof Atomics === 'undefined') {

								  // Polyfill singlethreaded atomics ops from http://lars-t-hansen.github.io/ecmascript_sharedmem/shmem.html#Atomics.add

								  // No thread-safety needed since we don't have multithreading support.

								  Atomics = {};

								  Atomics['add'] = function(t, i, v) { var w = t[i]; t[i] += v; return w; }

								  Atomics['and'] = function(t, i, v) { var w = t[i]; t[i] &= v; return w; }

								  Atomics['compareExchange'] = function(t, i, e, r) { var w = t[i]; if (w == e) t[i] = r; return w; }

								  Atomics['exchange'] = function(t, i, v) { var w = t[i]; t[i] = v; return w; }

								  Atomics['wait'] = function(t, i, v, o) { if (t[i] != v) return 'not-equal'; else return 'timed-out'; }

								  Atomics['wake'] = function(t, i, c) { return 0; }

								  Atomics['wakeOrRequeue'] = function(t, i1, c, i2, v) { return 0; }

								  Atomics['isLockFree'] = function(s) { return true; }

								  Atomics['load'] = function(t, i) { return t[i]; }

								  Atomics['or'] = function(t, i, v) { var w = t[i]; t[i] |= v; return w; }

								  Atomics['store'] = function(t, i, v) { t[i] = v; return v; }

								  Atomics['sub'] = function(t, i, v) { var w = t[i]; t[i] -= v; return w; }

								  Atomics['xor'] = function(t, i, v) { var w = t[i]; t[i] ^= v; return w; }

								}


								function getTotalMemory() {

								  return TOTAL_MEMORY;

								}


								// Endianness check (note: assumes compiler arch was little-endian)

								if (!ENVIRONMENT_IS_PTHREAD) {

								  HEAP32[0] = 0x63736d65; /* 'emsc' */

								} else {

								  if (HEAP32[0] !== 0x63736d65) throw 'Runtime error: The application has corrupted its heap memory area (address zero)!';

								}

								HEAP16[1] = 0x6373;

								if (HEAPU8[2] !== 0x73 || HEAPU8[3] !== 0x63) throw 'Runtime error: expected the system to be little-endian!';


								Module['HEAP'] = HEAP;

								Module['buffer'] = buffer;

								Module['HEAP8'] = HEAP8;

								Module['HEAP16'] = HEAP16;

								Module['HEAP32'] = HEAP32;

								Module['HEAPU8'] = HEAPU8;

								Module['HEAPU16'] = HEAPU16;

								Module['HEAPU32'] = HEAPU32;

								Module['HEAPF32'] = HEAPF32;

								Module['HEAPF64'] = HEAPF64;


								function callRuntimeCallbacks(callbacks) {

								  while(callbacks.length > 0) {

								    var callback = callbacks.shift();

								    if (typeof callback == 'function') {

								      callback();

								      continue;

								    }

								    var func = callback.func;

								    if (typeof func === 'number') {

								      if (callback.arg === undefined) {

								        Module['dynCall_v'](func);

								      } else {

								        Module['dynCall_vi'](func, callback.arg);

								      }

								    } else {

								      func(callback.arg === undefined ? null : callback.arg);

								    }

								  }

								}


								var __ATPRERUN__  = []; // functions called before the runtime is initialized

								var __ATINIT__    = []; // functions called during startup

								var __ATMAIN__    = []; // functions called when main() is to be run

								var __ATEXIT__    = []; // functions called during shutdown

								var __ATPOSTRUN__ = []; // functions called after the runtime has exited


								var runtimeInitialized = false;

								var runtimeExited = false;


								if (ENVIRONMENT_IS_PTHREAD) runtimeInitialized = true; // The runtime is hosted in the main thread, and bits shared to pthreads via SharedArrayBuffer. No need to init again in pthread.


								function preRun() {

								  if (ENVIRONMENT_IS_PTHREAD) return; // PThreads reuse the runtime from the main thread.

								  // compatibility - merge in anything from Module['preRun'] at this time

								  if (Module['preRun']) {

								    if (typeof Module['preRun'] == 'function') Module['preRun'] = [Module['preRun']];

								    while (Module['preRun'].length) {

								      addOnPreRun(Module['preRun'].shift());

								    }

								  }

								  callRuntimeCallbacks(__ATPRERUN__);

								}


								function ensureInitRuntime() {

								  checkStackCookie();

								  if (ENVIRONMENT_IS_PTHREAD) return; // PThreads reuse the runtime from the main thread.

								  if (runtimeInitialized) return;

								  runtimeInitialized = true;

								  callRuntimeCallbacks(__ATINIT__);

								}


								function preMain() {

								  checkStackCookie();

								  if (ENVIRONMENT_IS_PTHREAD) return; // PThreads reuse the runtime from the main thread.

								  callRuntimeCallbacks(__ATMAIN__);

								}


								function exitRuntime() {

								  checkStackCookie();

								  if (ENVIRONMENT_IS_PTHREAD) return; // PThreads reuse the runtime from the main thread.

								  callRuntimeCallbacks(__ATEXIT__);

								  runtimeExited = true;

								}


								function postRun() {

								  checkStackCookie();

								  if (ENVIRONMENT_IS_PTHREAD) return; // PThreads reuse the runtime from the main thread.

								  // compatibility - merge in anything from Module['postRun'] at this time

								  if (Module['postRun']) {

								    if (typeof Module['postRun'] == 'function') Module['postRun'] = [Module['postRun']];

								    while (Module['postRun'].length) {

								      addOnPostRun(Module['postRun'].shift());

								    }

								  }

								  callRuntimeCallbacks(__ATPOSTRUN__);

								}


								function addOnPreRun(cb) {

								  __ATPRERUN__.unshift(cb);

								}

								Module["addOnPreRun"] = addOnPreRun;


								function addOnInit(cb) {

								  __ATINIT__.unshift(cb);

								}

								Module["addOnInit"] = addOnInit;


								function addOnPreMain(cb) {

								  __ATMAIN__.unshift(cb);

								}

								Module["addOnPreMain"] = addOnPreMain;


								function addOnExit(cb) {

								  __ATEXIT__.unshift(cb);

								}

								Module["addOnExit"] = addOnExit;


								function addOnPostRun(cb) {

								  __ATPOSTRUN__.unshift(cb);

								}

								Module["addOnPostRun"] = addOnPostRun;


								// Tools


								function intArrayFromString(stringy, dontAddNull, length /* optional */) {

								  var len = length > 0 ? length : lengthBytesUTF8(stringy)+1;

								  var u8array = new Array(len);

								  var numBytesWritten = stringToUTF8Array(stringy, u8array, 0, u8array.length);

								  if (dontAddNull) u8array.length = numBytesWritten;

								  return u8array;

								}

								Module["intArrayFromString"] = intArrayFromString;


								function intArrayToString(array) {

								  var ret = [];

								  for (var i = 0; i < array.length; i++) {

								    var chr = array[i];

								    if (chr > 0xFF) {

								      assert(false, 'Character code ' + chr + ' (' + String.fromCharCode(chr) + ')  at offset ' + i + ' not in 0x00-0xFF.');

								      chr &= 0xFF;

								    }

								    ret.push(String.fromCharCode(chr));

								  }

								  return ret.join('');

								}

								Module["intArrayToString"] = intArrayToString;


								// Deprecated: This function should not be called because it is unsafe and does not provide

								// a maximum length limit of how many bytes it is allowed to write. Prefer calling the

								// function stringToUTF8Array() instead, which takes in a maximum length that can be used

								// to be secure from out of bounds writes.

								function writeStringToMemory(string, buffer, dontAddNull) {

								  Runtime.warnOnce('writeStringToMemory is deprecated and should not be called! Use stringToUTF8() instead!');


								  var lastChar, end;

								  if (dontAddNull) {

								    // stringToUTF8Array always appends null. If we don't want to do that, remember the

								    // character that existed at the location where the null will be placed, and restore

								    // that after the write (below).

								    end = buffer + lengthBytesUTF8(string);

								    lastChar = HEAP8[end];

								  }

								  stringToUTF8(string, buffer, Infinity);

								  if (dontAddNull) HEAP8[end] = lastChar; // Restore the value under the null character.

								}

								Module["writeStringToMemory"] = writeStringToMemory;


								function writeArrayToMemory(array, buffer) {

								  assert(array.length >= 0, 'writeArrayToMemory array must have a length (should be an array or typed array)')

								  HEAP8.set(array, buffer);

								}

								Module["writeArrayToMemory"] = writeArrayToMemory;


								function writeAsciiToMemory(str, buffer, dontAddNull) {

								  for (var i = 0; i < str.length; ++i) {

								    assert(str.charCodeAt(i) === str.charCodeAt(i)&0xff);

								    HEAP8[((buffer++)>>0)]=str.charCodeAt(i);

								  }

								  // Null-terminate the pointer to the HEAP.

								  if (!dontAddNull) HEAP8[((buffer)>>0)]=0;

								}

								Module["writeAsciiToMemory"] = writeAsciiToMemory;


								function unSign(value, bits, ignore) {

								  if (value >= 0) {

								    return value;

								  }

								  return bits <= 32 ? 2*Math.abs(1 << (bits-1)) + value // Need some trickery, since if bits == 32, we are right at the limit of the bits JS uses in bitshifts

								                    : Math.pow(2, bits)         + value;

								}

								function reSign(value, bits, ignore) {

								  if (value <= 0) {

								    return value;

								  }

								  var half = bits <= 32 ? Math.abs(1 << (bits-1)) // abs is needed if bits == 32

								                        : Math.pow(2, bits-1);

								  if (value >= half && (bits <= 32 || value > half)) { // for huge values, we can hit the precision limit and always get true here. so don't do that

								                                                       // but, in general there is no perfect solution here. With 64-bit ints, we get rounding and errors

								                                                       // TODO: In i64 mode 1, resign the two parts separately and safely

								    value = -2*half + value; // Cannot bitshift half, as it may be at the limit of the bits JS uses in bitshifts

								  }

								  return value;

								}


								// Atomics.exchange is not yet implemented in the spec, so polyfill that in via compareExchange in the meanwhile.

								// TODO: Keep an eye out for the opportunity to remove this once Atomics.exchange is available.

								if (typeof Atomics !== 'undefined' && !Atomics['exchange']) {

								  Atomics['exchange'] = function(heap, index, val) {

								    var oldVal, oldVal2;

								    do {

								      oldVal = Atomics['load'](heap, index);

								      oldVal2 = Atomics['compareExchange'](heap, index, oldVal, val);

								    } while(oldVal != oldVal2);

								    return oldVal;

								  }

								}


								// check for imul support, and also for correctness ( https://bugs.webkit.org/show_bug.cgi?id=126345 )

								if (!Math['imul'] || Math['imul'](0xffffffff, 5) !== -5) Math['imul'] = function imul(a, b) {

								  var ah  = a >>> 16;

								  var al = a & 0xffff;

								  var bh  = b >>> 16;

								  var bl = b & 0xffff;

								  return (al*bl + ((ah*bl + al*bh) << 16))|0;

								};

								Math.imul = Math['imul'];


								if (!Math['clz32']) Math['clz32'] = function(x) {

								  x = x >>> 0;

								  for (var i = 0; i < 32; i++) {

								    if (x & (1 << (31 - i))) return i;

								  }

								  return 32;

								};

								Math.clz32 = Math['clz32']


								if (!Math['trunc']) Math['trunc'] = function(x) {

								  return x < 0 ? Math.ceil(x) : Math.floor(x);

								};

								Math.trunc = Math['trunc'];


								var Math_abs = Math.abs;

								var Math_cos = Math.cos;

								var Math_sin = Math.sin;

								var Math_tan = Math.tan;

								var Math_acos = Math.acos;

								var Math_asin = Math.asin;

								var Math_atan = Math.atan;

								var Math_atan2 = Math.atan2;

								var Math_exp = Math.exp;

								var Math_log = Math.log;

								var Math_sqrt = Math.sqrt;

								var Math_ceil = Math.ceil;

								var Math_floor = Math.floor;

								var Math_pow = Math.pow;

								var Math_imul = Math.imul;

								var Math_fround = Math.fround;

								var Math_round = Math.round;

								var Math_min = Math.min;

								var Math_clz32 = Math.clz32;

								var Math_trunc = Math.trunc;


								// A counter of dependencies for calling run(). If we need to

								// do asynchronous work before running, increment this and

								// decrement it. Incrementing must happen in a place like

								// PRE_RUN_ADDITIONS (used by emcc to add file preloading).

								// Note that you can add dependencies in preRun, even though

								// it happens right before run - run will be postponed until

								// the dependencies are met.

								var runDependencies = 0;

								var runDependencyWatcher = null;

								var dependenciesFulfilled = null; // overridden to take different actions when all run dependencies are fulfilled

								var runDependencyTracking = {};


								function getUniqueRunDependency(id) {

								  var orig = id;

								  while (1) {

								    if (!runDependencyTracking[id]) return id;

								    id = orig + Math.random();

								  }

								  return id;

								}


								function addRunDependency(id) {

								  // We should never get here in pthreads (could no-op this out if called in pthreads, but that might indicate a bug in caller side,

								  // so good to be very explicit)

								  assert(!ENVIRONMENT_IS_PTHREAD);

								  runDependencies++;

								  if (Module['monitorRunDependencies']) {

								    Module['monitorRunDependencies'](runDependencies);

								  }

								  if (id) {

								    assert(!runDependencyTracking[id]);

								    runDependencyTracking[id] = 1;

								    if (runDependencyWatcher === null && typeof setInterval !== 'undefined') {

								      // Check for missing dependencies every few seconds

								      runDependencyWatcher = setInterval(function() {

								        if (ABORT) {

								          clearInterval(runDependencyWatcher);

								          runDependencyWatcher = null;

								          return;

								        }

								        var shown = false;

								        for (var dep in runDependencyTracking) {

								          if (!shown) {

								            shown = true;

								            Module.printErr('still waiting on run dependencies:');

								          }

								          Module.printErr('dependency: ' + dep);

								        }

								        if (shown) {

								          Module.printErr('(end of list)');

								        }

								      }, 10000);

								    }

								  } else {

								    Module.printErr('warning: run dependency added without ID');

								  }

								}

								Module["addRunDependency"] = addRunDependency;


								function removeRunDependency(id) {

								  runDependencies--;

								  if (Module['monitorRunDependencies']) {

								    Module['monitorRunDependencies'](runDependencies);

								  }

								  if (id) {

								    assert(runDependencyTracking[id]);

								    delete runDependencyTracking[id];

								  } else {

								    Module.printErr('warning: run dependency removed without ID');

								  }

								  if (runDependencies == 0) {

								    if (runDependencyWatcher !== null) {

								      clearInterval(runDependencyWatcher);

								      runDependencyWatcher = null;

								    }

								    if (dependenciesFulfilled) {

								      var callback = dependenciesFulfilled;

								      dependenciesFulfilled = null;

								      callback(); // can add another dependenciesFulfilled

								    }

								  }

								}

								Module["removeRunDependency"] = removeRunDependency;


								Module["preloadedImages"] = {}; // maps url to image data

								Module["preloadedAudios"] = {}; // maps url to audio data


								var memoryInitializer = null;


								// === Body ===


								var ASM_CONSTS = [function($0, $1) { { Module.printErr('bad name in getProcAddress: ' + [Pointer_stringify($0), Pointer_stringify($1)]); } },

								 function() { postMessage({ cmd: 'processQueuedMainThreadWork' }) }];


								function _emscripten_asm_const_iii(code, a0, a1) {

								 return ASM_CONSTS[code](a0, a1);

								}


								function _emscripten_asm_const_v(code) {

								 return ASM_CONSTS[code]();

								}


								STATIC_BASE = 8;


								STATICTOP = STATIC_BASE + 38384;

								  /* global initializers */ if (!ENVIRONMENT_IS_PTHREAD) __ATINIT__.push({ func: function() { ___emscripten_pthread_data_constructor() } });


								if (!ENVIRONMENT_IS_PTHREAD) {

								/* memory initializer */ allocate([32,3,0,0,194,1,0,0,15,0,0,0,32,186,32,60,255,255,255,255,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,32,0,32,0,0,176,1,0,0,0,0,0,0,0,0,0,32,37,249,142,0,10,2,0,0,128,190,125,95,244,125,31,160,242,43,74,30,9,82,8,0,64,34,65,80,20,4,16,32,32,41,46,18,8,34,8,0,32,34,65,80,20,4,16,32,32,249,16,76,8,250,62,60,16,34,125,222,247,125,16,32,32,161,232,50,8,34,8,0,8,34,5,16,4,69,16,0,240,163,164,50,8,82,8,0,4,34,5,16,4,69,16,32,32,249,226,94,8,2,0,129,2,62,125,31,244,125,16,0,0,32,0,0,176,1,128,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,190,15,0,192,15,224,247,251,125,126,191,95,232,190,80,0,162,8,8,68,232,47,20,10,133,2,129,80,72,160,80,0,162,40,228,73,40,40,20,10,132,2,129,64,72,160,72,0,190,15,2,16,175,235,247,9,132,62,159,216,79,160,71,0,34,136,228,9,161,42,20,10,132,2,129,80,72,160,72,0,34,40,8,4,160,47,20,10,133,2,129,80,72,162,80,0,190,143,0,0,33,32,244,251,125,126,129,95,232,156,208,7,0,128,0,0,224,15,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,128,1,12,0,130,66,191,223,239,247,251,11,5,5,133,66,191,4,72,0,198,66,161,80,40,20,64,8,5,37,133,66,160,8,168,0,170,70,161,80,40,20,64,8,5,37,133,66,144,16,8,0,146,74,161,95,232,247,67,8,5,37,121,126,136,32,8,0,130,82,161,64,40,1,66,8,137,36,133,64,132,64,8,0,130,98,161,64,42,2,66,8,81,36,133,64,130,128,8,0,130,66,191,192,47,244,67,248,33,252,133,126,191,0,9,62,0,0,0,0,4,0,0,0,0,0,0,0,128,1,12,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,2,4,0,4,0,32,72,65,0,0,0,0,0,8,0,0,4,4,0,4,60,32,0,65,0,0,0,0,0,8,0,0,240,125,223,247,133,239,75,81,190,239,251,190,239,59,81,4,0,69,65,20,133,40,74,73,170,40,138,162,32,8,81,4,240,69,65,244,157,40,74,71,170,40,138,162,224,11,81,4,16,69,65,20,132,40,74,73,170,40,138,162,0,10,145,2,240,125,223,247,133,47,74,209,170,232,251,190,224,123,31,1,0,0,0,0,4,8,64,0,0,0,8,32,0,0,0,0,0,0,0,0,132,15,96,0,0,0,8,32,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,172,1,15,0,0,0,0,0,0,0,0,0,0,0,0,0,36,1,9,0,0,0,0,0,0,0,0,0,6,0,0,0,36,1,9,0,0,0,0,0,0,0,128,16,9,162,40,250,36,1,9,0,0,0,0,0,0,0,0,62,1,42,37,66,34,82,9,0,0,0,0,0,0,0,128,138,3,42,34,34,36,41,9,0,0,0,0,0,0,0,128,10,1,42,37,18,36,1,9,0,0,0,0,0,0,0,128,10,1,190,232,251,36,1,9,0,0,0,0,0,0,0,128,190,14,0,0,2,172,1,15,0,0,0,0,0,0,0,128,4,0,0,224,3,0,0,0,0,0,0,0,0,0,0,128,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,56,0,0,0,14,184,67,132,3,58,32,0,128,160,190,2,32,0,0,240,138,32,82,196,2,43,32,4,34,145,2,248,59,0,240,7,142,56,75,228,2,58,32,2,28,138,30,8,42,233,17,4,224,11,66,244,2,130,36,1,20,4,20,232,186,4,209,5,128,184,195,231,10,58,137,0,28,14,60,40,2,9,80,4,128,0,64,196,2,128,68,0,34,132,32,232,2,0,80,4,0,0,64,128,2,0,32,5,0,142,62,8,2,0,16,4,224,3,64,128,66,0,0,7,0,132,0,248,3,0,240,7,0,0,64,128,34,0,0,4,0,0,0,0,0,0,0,0,0,0,64,128,2,0,0,4,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,2,7,128,0,194,160,72,24,0,0,1,132,33,9,146,2,66,38,4,1,33,81,0,0,127,63,2,66,2,16,41,0,34,20,192,239,247,251,253,126,9,161,223,239,247,187,187,3,18,15,68,40,20,10,133,66,9,129,64,32,16,16,17,1,8,4,68,40,20,10,133,66,127,129,64,32,16,16,17,1,4,130,199,239,247,251,253,126,9,129,207,231,243,17,17,1,50,169,80,40,20,10,133,66,9,161,64,32,16,16,17,1,64,184,80,40,20,10,133,66,121,191,223,239,247,187,187,3,32,160,31,0,0,0,0,0,0,16,0,0,0,0,0,0,112,32,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,40,2,8,131,34,1,0,2,8,67,2,1,0,1,1,124,20,4,132,68,1,0,32,4,132,4,128,8,63,130,0,132,66,191,223,239,247,3,126,161,80,40,20,10,33,0,0,132,70,161,80,40,20,138,82,161,80,40,20,122,161,239,3,158,74,161,80,40,20,82,82,161,80,40,20,74,31,8,2,132,82,161,80,40,20,34,74,161,80,40,244,75,161,239,3,132,98,161,80,40,20,82,74,161,80,40,4,122,161,40,2,124,66,191,223,239,247,139,126,191,223,239,247,11,189,239,3,0,0,0,0,0,0,0,4,0,0,0,0,8,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,8,5,32,0,0,4,132,0,34,129,69,17,16,66,1,0,148,66,81,0,0,8,66,81,148,42,162,32,8,165,80,0,0,0,32,0,0,0,0,0,0,0,5,0,0,0,0,8,190,239,251,254,251,190,239,251,20,145,235,251,190,239,251,0,32,8,130,32,10,162,40,138,20,145,40,138,162,40,138,62,190,239,251,254,11,190,239,251,20,145,40,138,162,40,138,0,162,40,138,34,8,130,32,8,20,145,40,138,162,40,138,8,190,239,251,254,251,190,239,251,20,145,47,250,190,239,251,0,0,0,0,0,64,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,32,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,33,0,4,0,0,0,0,0,0,0,0,0,0,0,0,130,80,20,2,20,0,0,0,0,0,0,0,0,0,0,16,0,0,0,32,0,0,0,0,0,0,0,0,0,0,0,190,40,138,162,40,34,0,0,0,0,0,0,0,0,0,0,170,40,138,162,232,34,0,0,0,0,0,0,0,0,0,0,170,40,138,162,168,34,0,0,0,0,0,0,0,0,0,0,170,40,138,162,232,34,0,0,0,0,0,0,0,0,0,0,190,239,251,190,47,62,0,0,0,0,0,0,0,0,0,0,4,0,0,0,40,32,0,0,0,0,0,0,0,0,0,0,0,0,0,128,15,62,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0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"i8", ALLOC_NONE, Runtime.GLOBAL_BASE);

								/* memory initializer */ allocate([65,116,116,114,105,98,65,114,114,97,121,0,103,108,68,114,97,119,65,114,114,97,121,115,0,103,108,68,114,97,119,69,108,101,109,101,110,116,115,0,103,108,83,104,97,100,101,114,66,105,110,97,114,121,0,103,108,82,101,108,101,97,115,101,83,104,97,100,101,114,67,111,109,112,105,108,101,114,0,103,108,71,101,116,69,114,114,111,114,0,103,108,86,101,114,116,101,120,65,116,116,114,105,98,68,105,118,105,115,111,114,0,103,108,68,114,97,119,65,114,114,97,121,115,73,110,115,116,97,110,99,101,100,0,103,108,68,114,97,119,69,108,101,109,101,110,116,115,73,110,115,116,97,110,99,101,100,0,103,108,70,105,110,105,115,104,0,103,108,70,108,117,115,104,0,103,108,67,108,101,97,114,68,101,112,116,104,0,103,108,67,108,101,97,114,68,101,112,116,104,102,0,103,108,68,101,112,116,104,70,117,110,99,0,103,108,69,110,97,98,108,101,0,103,108,68,105,115,97,98,108,101,0,103,108,70,114,111,110,116,70,97,99,101,0,103,108,67,117,108,108,70,97,99,101,0,103,108,67,108,101,97,114,0,103,108,76,105,110,101,87,105,100,116,104,0,103,108,67,108,101,97,114,83,116,101,110,99,105,108,0,103,108,68,101,112,116,104,77,97,115,107,0,103,108,83,116,101,110,99,105,108,77,97,115,107,0,103,108,67,104,101,99,107,70,114,97,109,101,98,117,102,102,101,114,83,116,97,116,117,115,0,103,108,71,101,110,101,114,97,116,101,77,105,112,109,97,112,0,103,108,65,99,116,105,118,101,84,101,120,116,117,114,101,0,103,108,66,108,101,110,100,69,113,117,97,116,105,111,110,0,103,108,73,115,69,110,97,98,108,101,100,0,103,108,66,108,101,110,100,70,117,110,99,0,103,108,66,108,101,110,100,69,113,117,97,116,105,111,110,83,101,112,97,114,97,116,101,0,103,108,68,101,112,116,104,82,97,110,103,101,0,103,108,68,101,112,116,104,82,97,110,103,101,102,0,103,108,83,116,101,110,99,105,108,77,97,115,107,83,101,112,97,114,97,116,101,0,103,108,72,105,110,116,0,103,108,80,111,108,121,103,111,110,79,102,102,115,101,116,0,103,108,86,101,114,116,101,120,65,116,116,114,105,98,49,102,0,103,108,83,97,109,112,108,101,67,111,118,101,114,97,103,101,0,103,108,84,101,120,80,97,114,97,109,101,116,101,114,105,0,103,108,84,101,120,80,97,114,97,109,101,116,101,114,102,0,103,108,86,101,114,116,101,120,65,116,116,114,105,98,50,102,0,103,108,83,116,101,110,99,105,108,70,117,110,99,0,103,108,83,116,101,110,99,105,108,79,112,0,103,108,86,105,101,119,112,111,114,116,0,103,108,67,108,101,97,114,67,111,108,111,114,0,103,108,83,99,105,115,115,111,114,0,103,108,86,101,114,116,101,120,65,116,116,114,105,98,51,102,0,103,108,67,111,108,111,114,77,97,115,107,0,103,108,82,101,110,100,101,114,98,117,102,102,101,114,83,116,111,114,97,103,101,0,103,108,66,108,101,110,100,70,117,110,99,83,101,112,97,114,97,116,101,0,103,108,66,108,101,110,100,67,111,108,111,114,0,103,108,83,116,101,110,99,105,108,70,117,110,99,83,101,112,97,114,97,116,101,0,103,108,83,116,101,110,99,105,108,79,112,83,101,112,97,114,97,116,101,0,103,108,86,101,114,116,101,120,65,116,116,114,105,98,52,102,0,103,108,67,111,112,121,84,101,120,73,109,97,103,101,50,68,0,103,108,67,111,112,121,84,101,120,83,117,98,73,109,97,103,101,50,68,0,103,108,68,114,97,119,66,117,102,102,101,114,115,0,123,32,77,111,100,117,108,101,46,112,114,105,110,116,69,114,114,40,39,98,97,100,32,110,97,109,101,32,105,110,32,103,101,116,80,114,111,99,65,100,100,114,101,115,115,58,32,39,32,43,32,91,80,111,105,110,116,101,114,95,115,116,114,105,110,103,105,102,121,40,36,48,41,44,32,80,111,105,110,116,101,114,95,115,116,114,105,110,103,105,102,121,40,36,49,41,93,41,59,32,125,0,17,0,10,0,17,17,17,0,0,0,0,5,0,0,0,0,0,0,9,0,0,0,0,11,0,0,0,0,0,0,0,0,17,0,15,10,17,17,17,3,10,7,0,1,19,9,11,11,0,0,9,6,11,0,0,11,0,6,17,0,0,0,17,17,17,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,11,0,0,0,0,0,0,0,0,17,0,10,10,17,17,17,0,10,0,0,2,0,9,11,0,0,0,9,0,11,0,0,11,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,12,0,0,0,0,0,0,0,0,0,0,0,12,0,0,0,0,12,0,0,0,0,9,12,0,0,0,0,0,12,0,0,12,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,14,0,0,0,0,0,0,0,0,0,0,0,13,0,0,0,4,13,0,0,0,0,9,14,0,0,0,0,0,14,0,0,14,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,16,0,0,0,0,0,0,0,0,0,0,0,15,0,0,0,0,15,0,0,0,0,9,16,0,0,0,0,0,16,0,0,16,0,0,18,0,0,0,18,18,18,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,18,0,0,0,18,18,18,0,0,0,0,0,0,9,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,11,0,0,0,0,0,0,0,0,0,0,0,10,0,0,0,0,10,0,0,0,0,9,11,0,0,0,0,0,11,0,0,11,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,12,0,0,0,0,0,0,0,0,0,0,0,12,0,0,0,0,12,0,0,0,0,9,12,0,0,0,0,0,12,0,0,12,0,0,45,43,32,32,32,48,88,48,120,0,40,110,117,108,108,41,0,45,48,88,43,48,88,32,48,88,45,48,120,43,48,120,32,48,120,0,105,110,102,0,73,78,70,0,110,97,110,0,78,65,78,0,48,49,50,51,52,53,54,55,56,57,65,66,67,68,69,70,46,0,84,33,34,25,13,1,2,3,17,75,28,12,16,4,11,29,18,30,39,104,110,111,112,113,98,32,5,6,15,19,20,21,26,8,22,7,40,36,23,24,9,10,14,27,31,37,35,131,130,125,38,42,43,60,61,62,63,67,71,74,77,88,89,90,91,92,93,94,95,96,97,99,100,101,102,103,105,106,107,108,114,115,116,121,122,123,124,0,73,108,108,101,103,97,108,32,98,121,116,101,32,115,101,113,117,101,110,99,101,0,68,111,109,97,105,110,32,101,114,114,111,114,0,82,101,115,117,108,116,32,110,111,116,32,114,101,112,114,101,115,101,110,116,97,98,108,101,0,78,111,116,32,97,32,116,116,121,0,80,101,114,109,105,115,115,105,111,110,32,100,101,110,105,101,100,0,79,112,101,114,97,116,105,111,110,32,110,111,116,32,112,101,114,109,105,116,116,101,100,0,78,111,32,115,117,99,104,32,102,105,108,101,32,111,114,32,100,105,114,101,99,116,111,114,121,0,78,111,32,115,117,99,104,32,112,114,111,99,101,115,115,0,70,105,108,101,32,101,120,105,115,116,115,0,86,97,108,117,101,32,116,111,111,32,108,97,114,103,101,32,102,111,114,32,100,97,116,97,32,116,121,112,101,0,78,111,32,115,112,97,99,101,32,108,101,102,116,32,111,110,32,100,101,118,105,99,101,0,79,117,116,32,111,102,32,109,101,109,111,114,121,0,82,101,115,111,117,114,99,101,32,98,117,115,121,0,73,110,116,101,114,114,117,112,116,101,100,32,115,121,115,116,101,109,32,99,97,108,108,0,82,101,115,111,117,114,99,101,32,116,101,109,112,111,114,97,114,105,108,121,32,117,110,97,118,97,105,108,97,98,108,101,0,73,110,118,97,108,105,100,32,115,101,101,107,0,67,114,111,115,115,45,100,101,118,105,99,101,32,108,105,110,107,0,82,101,97,100,45,111,110,108,121,32,102,105,108,101,32,115,121,115,116,101,109,0,68,105,114,101,99,116,111,114,121,32,110,111,116,32,101,109,112,116,121,0,67,111,110,110,101,99,116,105,111,110,32,114,101,115,101,116,32,98,121,32,112,101,101,114,0,79,112,101,114,97,116,105,111,110,32,116,105,109,101,100,32,111,117,116,0,67,111,110,110,101,99,116,105,111,110,32,114,101,102,117,115,101,100,0,72,111,115,116,32,105,115,32,100,111,119,110,0,72,111,115,116,32,105,115,32,117,110,114,101,97,99,104,97,98,108,101,0,65,100,100,114,101,115,115,32,105,110,32,117,115,101,0,66,114,111,107,101,110,32,112,105,112,101,0,73,47,79,32,101,114,114,111,114,0,78,111,32,115,117,99,104,32,100,101,118,105,99,101,32,111,114,32,97,100,100,114,101,115,115,0,66,108,111,99,107,32,100,101,118,105,99,101,32,114,101,113,117,105,114,101,100,0,78,111,32,115,117,99,104,32,100,101,118,105,99,101,0,78,111,116,32,97,32,100,105,114,101,99,116,111,114,121,0,73,115,32,97,32,100,105,114,101,99,116,111,114,121,0,84,101,120,116,32,102,105,108,101,32,98,117,115,121,0,69,120,101,99,32,102,111,114,109,97,116,32,101,114,114,111,114,0,73,110,118,97,108,105,100,32,97,114,103,117,109,101,110,116,0,65,114,103,117,109,101,110,116,32,108,105,115,116,32,116,111,111,32,108,111,110,103,0,83,121,109,98,111,108,105,99,32,108,105,110,107,32,108,111,111,112,0,70,105,108,101,110,97,109,101,32,116,111,111,32,108,111,110,103,0,84,111,111,32,109,97,110,121,32,111,112,101,110,32,102,105,108,101,115,32,105,110,32,115,121,115,116,101,109,0,78,111,32,102,105,108,101,32,100,101,115,99,114,105,112,116,111,114,115,32,97,118,97,105,108,97,98,108,101,0,66,97,100,32,102,105,108,101,32,100,101,115,99,114,105,112,116,111,114,0,78,111,32,99,104,105,108,100,32,112,114,111,99,101,115,115,0,66,97,100,32,97,100,100,114,101,115,115,0,70,105,108,101,32,116,111,111,32,108,97,114,103,101,0,84,111,111,32,109,97,110,121,32,108,105,110,107,115,0,78,111,32,108,111,99,107,115,32,97,118,97,105,108,97,98,108,101,0,82,101,115,111,117,114,99,101,32,100,101,97,100,108,111,99,107,32,119,111,117,108,100,32,111,99,99,117,114,0,83,116,97,116,101,32,110,111,116,32,114,101,99,111,118,101,114,97,98,108,101,0,80,114,101,118,105,111,117,115,32,111,119,110,101,114,32,100,105,101,100,0,79,112,101,114,97,116,105,111,110,32,99,97,110,99,101,108,101,100,0,70,117,110,99,116,105,111,110,32,110,111,116,32,105,109,112,108,101,109,101,110,116,101,100,0,78,111,32,109,101,115,115,97,103,101,32,111,102,32,100,101,115,105,114,101,100,32,116,121,112,101,0,73,100,101,110,116,105,102,105,101,114,32,114,101,109,111,118,101,100,0,68,101,118,105,99,101,32,110,111,116,32,97,32,115,116,114,101,97,109,0,78,111,32,100,97,116,97,32,97,118,97,105,108,97,98,108,101,0,68,101,118,105,99,101,32,116,105,109,101,111,117,116,0,79,117,116,32,111,102,32,115,116,114,101,97,109,115,32,114,101,115,111,117,114,99,101,115,0,76,105,110,107,32,104,97,115,32,98,101,101,110,32,115,101,118,101,114,101,100,0,80,114,111,116,111,99,111,108,32,101,114,114,111,114,0,66,97,100,32,109,101,115,115,97,103,101,0,70,105,108,101,32,100,101,115,99,114,105,112,116,111,114,32,105,110,32,98,97,100,32,115,116,97,116,101,0,78,111,116,32,97,32,115,111,99,107,101,116,0,68,101,115,116,105,110,97,116,105,111,110,32,97,100,100,114,101,115,115,32,114,101,113,117,105,114,101,100,0,77,101,115,115,97,103,101,32,116,111,111,32,108,97,114,103,101,0,80,114,111,116,111,99,111,108,32,119,114,111,110,103,32,116,121,112,101,32,102,111,114,32,115,111,99,107,101,116,0,80,114,111,116,111,99,111,108,32,110,111,116,32,97,118,97,105,108,97,98,108,101,0,80,114,111,116,111,99,111,108,32,110,111,116,32,115,117,112,112,111,114,116,101,100,0,83,111,99,107,101,116,32,116,121,112,101,32,110,111,116,32,115,117,112,112,111,114,116,101,100,0,78,111,116,32,115,117,112,112,111,114,116,101,100,0,80,114,111,116,111,99,111,108,32,102,97,109,105,108,121,32,110,111,116,32,115,117,112,112,111,114,116,101,100,0,65,100,100,114,101,115,115,32,102,97,109,105,108,121,32,110,111,116,32,115,117,112,112,111,114,116,101,100,32,98,121,32,112,114,111,116,111,99,111,108,0,65,100,100,114,101,115,115,32,110,111,116,32,97,118,97,105,108,97,98,108,101,0,78,101,116,119,111,114,107,32,105,115,32,100,111,119,110,0,78,101,116,119,111,114,107,32,117,110,114,101,97,99,104,97,98,108,101,0,67,111,110,110,101,99,116,105,111,110,32,114,101,115,101,116,32,98,121,32,110,101,116,119,111,114,107,0,67,111,110,110,101,99,116,105,111,110,32,97,98,111,114,116,101,100,0,78,111,32,98,117,102,102,101,114,32,115,112,97,99,101,32,97,118,97,105,108,97,98,108,101,0,83,111,99,107,101,116,32,105,115,32,99,111,110,110,101,99,116,101,100,0,83,111,99,107,101,116,32,110,111,116,32,99,111,110,110,101,99,116,101,100,0,67,97,110,110,111,116,32,115,101,110,100,32,97,102,116,101,114,32,115,111,99,107,101,116,32,115,104,117,116,100,111,119,110,0,79,112,101,114,97,116,105,111,110,32,97,108,114,101,97,100,121,32,105,110,32,112,114,111,103,114,101,115,115,0,79,112,101,114,97,116,105,111,110,32,105,110,32,112,114,111,103,114,101,115,115,0,83,116,97,108,101,32,102,105,108,101,32,104,97,110,100,108,101,0,82,101,109,111,116,101,32,73,47,79,32,101,114,114,111,114,0,81,117,111,116,97,32,101,120,99,101,101,100,101,100,0,78,111,32,109,101,100,105,117,109,32,102,111,117,110,100,0,87,114,111,110,103,32,109,101,100,105,117,109,32,116,121,112,101,0,78,111,32,101,114,114,111,114,32,105,110,102,111,114,109,97,116,105,111,110,0,0,101,109,115,99,114,105,112,116,101,110,95,105,115,95,109,97,105,110,95,114,117,110,116,105,109,101,95,116,104,114,101,97,100,40,41,32,38,38,32,34,101,109,115,99,114,105,112,116,101,110,95,109,97,105,110,95,116,104,114,101,97,100,95,112,114,111,99,101,115,115,95,113,117,101,117,101,100,95,99,97,108,108,115,32,109,117,115,116,32,98,101,32,99,97,108,108,101,100,32,102,114,111,109,32,116,104,101,32,109,97,105,110,32,116,104,114,101,97,100,33,34,0,67,58,92,101,109,115,100,107,92,101,109,115,99,114,105,112,116,101,110,92,49,46,51,55,46,57,92,115,121,115,116,101,109,92,108,105,98,92,112,116,104,114,101,97,100,92,108,105,98,114,97,114,121,95,112,116,104,114,101,97,100,46,99,0,101,109,115,99,114,105,112,116,101,110,95,109,97,105,110,95,116,104,114,101,97,100,95,112,114,111,99,101,115,115,95,113,117,101,117,101,100,95,99,97,108,108,115,0,48,32,38,38,32,34,73,110,118,97,108,105,100,32,69,109,115,99,114,105,112,116,101,110,32,112,116,104,114,101,97,100,32,95,100,111,95,99,97,108,108,32,111,112,99,111,100,101,33,34,0,95,100,111,95,99,97,108,108,0,99,97,108,108,0,101,109,115,99,114,105,112,116,101,110,95,97,115,121,110,99,95,114,117,110,95,105,110,95,109,97,105,110,95,116,104,114,101,97,100,0,112,111,115,116,77,101,115,115,97,103,101,40,123,32,99,109,100,58,32,39,112,114,111,99,101,115,115,81,117,101,117,101,100,77,97,105,110,84,104,114,101,97,100,87,111,114,107,39,32,125,41,0], "i8", ALLOC_NONE, Runtime.GLOBAL_BASE+10240);

								}


								/* no memory initializer */

								var tempDoublePtr;


								if (!ENVIRONMENT_IS_PTHREAD) tempDoublePtr = Runtime.alignMemory(allocate(12, "i8", ALLOC_STATIC), 8);


								assert(tempDoublePtr % 8 == 0);


								function copyTempFloat(ptr) { // functions, because inlining this code increases code size too much


								  HEAP8[tempDoublePtr] = HEAP8[ptr];


								  HEAP8[tempDoublePtr+1] = HEAP8[ptr+1];


								  HEAP8[tempDoublePtr+2] = HEAP8[ptr+2];


								  HEAP8[tempDoublePtr+3] = HEAP8[ptr+3];


								}


								function copyTempDouble(ptr) {


								  HEAP8[tempDoublePtr] = HEAP8[ptr];


								  HEAP8[tempDoublePtr+1] = HEAP8[ptr+1];


								  HEAP8[tempDoublePtr+2] = HEAP8[ptr+2];


								  HEAP8[tempDoublePtr+3] = HEAP8[ptr+3];


								  HEAP8[tempDoublePtr+4] = HEAP8[ptr+4];


								  HEAP8[tempDoublePtr+5] = HEAP8[ptr+5];


								  HEAP8[tempDoublePtr+6] = HEAP8[ptr+6];


								  HEAP8[tempDoublePtr+7] = HEAP8[ptr+7];


								}


								// {{PRE_LIBRARY}}


								  var GL={counter:1,lastError:0,buffers:[],mappedBuffers:{},programs:[],framebuffers:[],renderbuffers:[],textures:[],uniforms:[],shaders:[],vaos:[],contexts:[],currentContext:null,offscreenCanvases:{},timerQueriesEXT:[],byteSizeByTypeRoot:5120,byteSizeByType:[1,1,2,2,4,4,4,2,3,4,8],programInfos:{},stringCache:{},tempFixedLengthArray:[],packAlignment:4,unpackAlignment:4,init:function () {

								        GL.miniTempBuffer = new Float32Array(GL.MINI_TEMP_BUFFER_SIZE);

								        for (var i = 0; i < GL.MINI_TEMP_BUFFER_SIZE; i++) {

								          GL.miniTempBufferViews[i] = GL.miniTempBuffer.subarray(0, i+1);

								        }


								        // For functions such as glDrawBuffers, glInvalidateFramebuffer and glInvalidateSubFramebuffer that need to pass a short array to the WebGL API,

								        // create a set of short fixed-length arrays to avoid having to generate any garbage when calling those functions.

								        for (var i = 0; i < 32; i++) {

								          GL.tempFixedLengthArray.push(new Array(i));

								        }

								      },recordError:function recordError(errorCode) {

								        if (!GL.lastError) {

								          GL.lastError = errorCode;

								        }

								      },getNewId:function (table) {

								        var ret = GL.counter++;

								        for (var i = table.length; i < ret; i++) {

								          table[i] = null;

								        }

								        return ret;

								      },MINI_TEMP_BUFFER_SIZE:256,miniTempBuffer:null,miniTempBufferViews:[0],getSource:function (shader, count, string, length) {

								        var source = '';

								        for (var i = 0; i < count; ++i) {

								          var frag;

								          if (length) {

								            var len = HEAP32[(((length)+(i*4))>>2)];

								            if (len < 0) {

								              frag = Pointer_stringify(HEAP32[(((string)+(i*4))>>2)]);

								            } else {

								              frag = Pointer_stringify(HEAP32[(((string)+(i*4))>>2)], len);

								            }

								          } else {

								            frag = Pointer_stringify(HEAP32[(((string)+(i*4))>>2)]);

								          }

								          source += frag;

								        }

								        return source;

								      },createContext:function (canvas, webGLContextAttributes) {

								        if (typeof webGLContextAttributes['majorVersion'] === 'undefined' && typeof webGLContextAttributes['minorVersion'] === 'undefined') {

								          webGLContextAttributes['majorVersion'] = 1;

								          webGLContextAttributes['minorVersion'] = 0;

								        }

								        var ctx;

								        var errorInfo = '?';

								        function onContextCreationError(event) {

								          errorInfo = event.statusMessage || errorInfo;

								        }

								        try {

								          canvas.addEventListener('webglcontextcreationerror', onContextCreationError, false);

								          try {

								            if (webGLContextAttributes['majorVersion'] == 1 && webGLContextAttributes['minorVersion'] == 0) {

								              ctx = canvas.getContext("webgl", webGLContextAttributes) || canvas.getContext("experimental-webgl", webGLContextAttributes);

								            } else if (webGLContextAttributes['majorVersion'] == 2 && webGLContextAttributes['minorVersion'] == 0) {

								              ctx = canvas.getContext("webgl2", webGLContextAttributes) || canvas.getContext("experimental-webgl2", webGLContextAttributes);

								            } else {

								              throw 'Unsupported WebGL context version ' + majorVersion + '.' + minorVersion + '!'

								            }

								          } finally {

								            canvas.removeEventListener('webglcontextcreationerror', onContextCreationError, false);

								          }

								          if (!ctx) throw ':(';

								        } catch (e) {

								          Module.print('Could not create canvas: ' + [errorInfo, e, JSON.stringify(webGLContextAttributes)]);

								          return 0;

								        }

								        // possible GL_DEBUG entry point: ctx = wrapDebugGL(ctx);


								        if (!ctx) return 0;

								        return GL.registerContext(ctx, webGLContextAttributes);

								      },registerContext:function (ctx, webGLContextAttributes) {

								        var handle = GL.getNewId(GL.contexts);

								        var context = {

								          handle: handle,

								          attributes: webGLContextAttributes,

								          version: webGLContextAttributes['majorVersion'],

								          GLctx: ctx

								        };


								        // Store the created context object so that we can access the context given a canvas without having to pass the parameters again.

								        if (ctx.canvas) ctx.canvas.GLctxObject = context;

								        GL.contexts[handle] = context;

								        if (typeof webGLContextAttributes['enableExtensionsByDefault'] === 'undefined' || webGLContextAttributes['enableExtensionsByDefault']) {

								          GL.initExtensions(context);

								        }

								        return handle;

								      },makeContextCurrent:function (contextHandle) {

								        var context = GL.contexts[contextHandle];

								        if (!context) return false;

								        GLctx = Module.ctx = context.GLctx; // Active WebGL context object.

								        GL.currentContext = context; // Active Emscripten GL layer context object.

								        return true;

								      },getContext:function (contextHandle) {

								        return GL.contexts[contextHandle];

								      },deleteContext:function (contextHandle) {

								        if (GL.currentContext === GL.contexts[contextHandle]) GL.currentContext = null;

								        if (typeof JSEvents === 'object') JSEvents.removeAllHandlersOnTarget(GL.contexts[contextHandle].GLctx.canvas); // Release all JS event handlers on the DOM element that the GL context is associated with since the context is now deleted.

								        if (GL.contexts[contextHandle] && GL.contexts[contextHandle].GLctx.canvas) GL.contexts[contextHandle].GLctx.canvas.GLctxObject = undefined; // Make sure the canvas object no longer refers to the context object so there are no GC surprises.

								        GL.contexts[contextHandle] = null;

								      },initExtensions:function (context) {

								        // If this function is called without a specific context object, init the extensions of the currently active context.

								        if (!context) context = GL.currentContext;


								        if (context.initExtensionsDone) return;

								        context.initExtensionsDone = true;


								        var GLctx = context.GLctx;


								        context.maxVertexAttribs = GLctx.getParameter(GLctx.MAX_VERTEX_ATTRIBS);


								        // Detect the presence of a few extensions manually, this GL interop layer itself will need to know if they exist.


								        if (context.version < 2) {

								          // Extension available from Firefox 26 and Google Chrome 30

								          var instancedArraysExt = GLctx.getExtension('ANGLE_instanced_arrays');

								          if (instancedArraysExt) {

								            GLctx['vertexAttribDivisor'] = function(index, divisor) { instancedArraysExt['vertexAttribDivisorANGLE'](index, divisor); };

								            GLctx['drawArraysInstanced'] = function(mode, first, count, primcount) { instancedArraysExt['drawArraysInstancedANGLE'](mode, first, count, primcount); };

								            GLctx['drawElementsInstanced'] = function(mode, count, type, indices, primcount) { instancedArraysExt['drawElementsInstancedANGLE'](mode, count, type, indices, primcount); };

								          }


								          // Extension available from Firefox 25 and WebKit

								          var vaoExt = GLctx.getExtension('OES_vertex_array_object');

								          if (vaoExt) {

								            GLctx['createVertexArray'] = function() { return vaoExt['createVertexArrayOES'](); };

								            GLctx['deleteVertexArray'] = function(vao) { vaoExt['deleteVertexArrayOES'](vao); };

								            GLctx['bindVertexArray'] = function(vao) { vaoExt['bindVertexArrayOES'](vao); };

								            GLctx['isVertexArray'] = function(vao) { return vaoExt['isVertexArrayOES'](vao); };

								          }


								          var drawBuffersExt = GLctx.getExtension('WEBGL_draw_buffers');

								          if (drawBuffersExt) {

								            GLctx['drawBuffers'] = function(n, bufs) { drawBuffersExt['drawBuffersWEBGL'](n, bufs); };

								          }

								        }


								        GLctx.disjointTimerQueryExt = GLctx.getExtension("EXT_disjoint_timer_query");


								        // These are the 'safe' feature-enabling extensions that don't add any performance impact related to e.g. debugging, and

								        // should be enabled by default so that client GLES2/GL code will not need to go through extra hoops to get its stuff working.

								        // As new extensions are ratified at http://www.khronos.org/registry/webgl/extensions/ , feel free to add your new extensions

								        // here, as long as they don't produce a performance impact for users that might not be using those extensions.

								        // E.g. debugging-related extensions should probably be off by default.

								        var automaticallyEnabledExtensions = [ "OES_texture_float", "OES_texture_half_float", "OES_standard_derivatives",

								                                               "OES_vertex_array_object", "WEBGL_compressed_texture_s3tc", "WEBGL_depth_texture",

								                                               "OES_element_index_uint", "EXT_texture_filter_anisotropic", "ANGLE_instanced_arrays",

								                                               "OES_texture_float_linear", "OES_texture_half_float_linear", "WEBGL_compressed_texture_atc",

								                                               "WEBGL_compressed_texture_pvrtc", "EXT_color_buffer_half_float", "WEBGL_color_buffer_float",

								                                               "EXT_frag_depth", "EXT_sRGB", "WEBGL_draw_buffers", "WEBGL_shared_resources",

								                                               "EXT_shader_texture_lod", "EXT_color_buffer_float"];


								        function shouldEnableAutomatically(extension) {

								          var ret = false;

								          automaticallyEnabledExtensions.forEach(function(include) {

								            if (ext.indexOf(include) != -1) {

								              ret = true;

								            }

								          });

								          return ret;

								        }


								        var exts = GLctx.getSupportedExtensions();

								        if (exts && exts.length > 0) {

								          GLctx.getSupportedExtensions().forEach(function(ext) {

								            if (automaticallyEnabledExtensions.indexOf(ext) != -1) {

								              GLctx.getExtension(ext); // Calling .getExtension enables that extension permanently, no need to store the return value to be enabled.

								            }

								          });

								        }

								      },populateUniformTable:function (program) {

								        var p = GL.programs[program];

								        GL.programInfos[program] = {

								          uniforms: {},

								          maxUniformLength: 0, // This is eagerly computed below, since we already enumerate all uniforms anyway.

								          maxAttributeLength: -1, // This is lazily computed and cached, computed when/if first asked, "-1" meaning not computed yet.

								          maxUniformBlockNameLength: -1 // Lazily computed as well

								        };


								        var ptable = GL.programInfos[program];

								        var utable = ptable.uniforms;

								        // A program's uniform table maps the string name of an uniform to an integer location of that uniform.

								        // The global GL.uniforms map maps integer locations to WebGLUniformLocations.

								        var numUniforms = GLctx.getProgramParameter(p, GLctx.ACTIVE_UNIFORMS);

								        for (var i = 0; i < numUniforms; ++i) {

								          var u = GLctx.getActiveUniform(p, i);


								          var name = u.name;

								          ptable.maxUniformLength = Math.max(ptable.maxUniformLength, name.length+1);


								          // Strip off any trailing array specifier we might have got, e.g. "[0]".

								          if (name.indexOf(']', name.length-1) !== -1) {

								            var ls = name.lastIndexOf('[');

								            name = name.slice(0, ls);

								          }


								          // Optimize memory usage slightly: If we have an array of uniforms, e.g. 'vec3 colors[3];', then

								          // only store the string 'colors' in utable, and 'colors[0]', 'colors[1]' and 'colors[2]' will be parsed as 'colors'+i.

								          // Note that for the GL.uniforms table, we still need to fetch the all WebGLUniformLocations for all the indices.

								          var loc = GLctx.getUniformLocation(p, name);

								          if (loc != null)

								          {

								            var id = GL.getNewId(GL.uniforms);

								            utable[name] = [u.size, id];

								            GL.uniforms[id] = loc;


								            for (var j = 1; j < u.size; ++j) {

								              var n = name + '['+j+']';

								              loc = GLctx.getUniformLocation(p, n);

								              id = GL.getNewId(GL.uniforms);


								              GL.uniforms[id] = loc;

								            }

								          }

								        }

								      }};function _emscripten_glIsRenderbuffer(renderbuffer) {

								      var rb = GL.renderbuffers[renderbuffer];

								      if (!rb) return 0;

								      return GLctx.isRenderbuffer(rb);

								    }


								  function _emscripten_glStencilMaskSeparate(x0, x1) { GLctx['stencilMaskSeparate'](x0, x1) }


								  function ___pthread_setcancelstate() { return 0 }


								  function _emscripten_get_now() { abort() }


								  function _emscripten_set_main_loop_timing(mode, value) {

								      Browser.mainLoop.timingMode = mode;

								      Browser.mainLoop.timingValue = value;


								      if (!Browser.mainLoop.func) {

								        console.error('emscripten_set_main_loop_timing: Cannot set timing mode for main loop since a main loop does not exist! Call emscripten_set_main_loop first to set one up.');

								        return 1; // Return non-zero on failure, can't set timing mode when there is no main loop.

								      }


								      if (mode == 0 /*EM_TIMING_SETTIMEOUT*/) {

								        Browser.mainLoop.scheduler = function Browser_mainLoop_scheduler_setTimeout() {

								          var timeUntilNextTick = Math.max(0, Browser.mainLoop.tickStartTime + value - _emscripten_get_now())|0;

								          setTimeout(Browser.mainLoop.runner, timeUntilNextTick); // doing this each time means that on exception, we stop

								        };

								        Browser.mainLoop.method = 'timeout';

								      } else if (mode == 1 /*EM_TIMING_RAF*/) {

								        Browser.mainLoop.scheduler = function Browser_mainLoop_scheduler_rAF() {

								          Browser.requestAnimationFrame(Browser.mainLoop.runner);

								        };

								        Browser.mainLoop.method = 'rAF';

								      } else if (mode == 2 /*EM_TIMING_SETIMMEDIATE*/) {

								        if (!window['setImmediate']) {

								          // Emulate setImmediate. (note: not a complete polyfill, we don't emulate clearImmediate() to keep code size to minimum, since not needed)

								          var setImmediates = [];

								          var emscriptenMainLoopMessageId = 'setimmediate';

								          function Browser_setImmediate_messageHandler(event) {

								            if (event.source === window && event.data === emscriptenMainLoopMessageId) {

								              event.stopPropagation();

								              setImmediates.shift()();

								            }

								          }

								          window.addEventListener("message", Browser_setImmediate_messageHandler, true);

								          window['setImmediate'] = function Browser_emulated_setImmediate(func) {

								            setImmediates.push(func);

								            if (ENVIRONMENT_IS_WORKER) {

								              if (Module['setImmediates'] === undefined) Module['setImmediates'] = [];

								              Module['setImmediates'].push(func);

								              window.postMessage({target: emscriptenMainLoopMessageId}); // In --proxy-to-worker, route the message via proxyClient.js

								            } else window.postMessage(emscriptenMainLoopMessageId, "*"); // On the main thread, can just send the message to itself.

								          }

								        }

								        Browser.mainLoop.scheduler = function Browser_mainLoop_scheduler_setImmediate() {

								          window['setImmediate'](Browser.mainLoop.runner);

								        };

								        Browser.mainLoop.method = 'immediate';

								      }

								      return 0;

								    }function _emscripten_set_main_loop(func, fps, simulateInfiniteLoop, arg, noSetTiming) {

								      Module['noExitRuntime'] = true;


								      assert(!Browser.mainLoop.func, 'emscripten_set_main_loop: there can only be one main loop function at once: call emscripten_cancel_main_loop to cancel the previous one before setting a new one with different parameters.');


								      Browser.mainLoop.func = func;

								      Browser.mainLoop.arg = arg;


								      var browserIterationFunc;

								      if (typeof arg !== 'undefined') {

								        browserIterationFunc = function() {

								          Module['dynCall_vi'](func, arg);

								        };

								      } else {

								        browserIterationFunc = function() {

								          Module['dynCall_v'](func);

								        };

								      }


								      var thisMainLoopId = Browser.mainLoop.currentlyRunningMainloop;


								      Browser.mainLoop.runner = function Browser_mainLoop_runner() {

								        if (ABORT) return;

								        if (Browser.mainLoop.queue.length > 0) {

								          var start = Date.now();

								          var blocker = Browser.mainLoop.queue.shift();

								          blocker.func(blocker.arg);

								          if (Browser.mainLoop.remainingBlockers) {

								            var remaining = Browser.mainLoop.remainingBlockers;

								            var next = remaining%1 == 0 ? remaining-1 : Math.floor(remaining);

								            if (blocker.counted) {

								              Browser.mainLoop.remainingBlockers = next;

								            } else {

								              // not counted, but move the progress along a tiny bit

								              next = next + 0.5; // do not steal all the next one's progress

								              Browser.mainLoop.remainingBlockers = (8*remaining + next)/9;

								            }

								          }

								          console.log('main loop blocker "' + blocker.name + '" took ' + (Date.now() - start) + ' ms'); //, left: ' + Browser.mainLoop.remainingBlockers);

								          Browser.mainLoop.updateStatus();


								          // catches pause/resume main loop from blocker execution

								          if (thisMainLoopId < Browser.mainLoop.currentlyRunningMainloop) return;


								          setTimeout(Browser.mainLoop.runner, 0);

								          return;

								        }


								        // catch pauses from non-main loop sources

								        if (thisMainLoopId < Browser.mainLoop.currentlyRunningMainloop) return;


								        // Implement very basic swap interval control

								        Browser.mainLoop.currentFrameNumber = Browser.mainLoop.currentFrameNumber + 1 | 0;

								        if (Browser.mainLoop.timingMode == 1/*EM_TIMING_RAF*/ && Browser.mainLoop.timingValue > 1 && Browser.mainLoop.currentFrameNumber % Browser.mainLoop.timingValue != 0) {

								          // Not the scheduled time to render this frame - skip.

								          Browser.mainLoop.scheduler();

								          return;

								        } else if (Browser.mainLoop.timingMode == 0/*EM_TIMING_SETTIMEOUT*/) {

								          Browser.mainLoop.tickStartTime = _emscripten_get_now();

								        }


								        // Signal GL rendering layer that processing of a new frame is about to start. This helps it optimize

								        // VBO double-buffering and reduce GPU stalls.


								        if (Browser.mainLoop.method === 'timeout' && Module.ctx) {

								          Module.printErr('Looks like you are rendering without using requestAnimationFrame for the main loop. You should use 0 for the frame rate in emscripten_set_main_loop in order to use requestAnimationFrame, as that can greatly improve your frame rates!');

								          Browser.mainLoop.method = ''; // just warn once per call to set main loop

								        }


								        Browser.mainLoop.runIter(browserIterationFunc);


								        checkStackCookie();


								        // catch pauses from the main loop itself

								        if (thisMainLoopId < Browser.mainLoop.currentlyRunningMainloop) return;


								        // Queue new audio data. This is important to be right after the main loop invocation, so that we will immediately be able

								        // to queue the newest produced audio samples.

								        // TODO: Consider adding pre- and post- rAF callbacks so that GL.newRenderingFrameStarted() and SDL.audio.queueNewAudioData()

								        //       do not need to be hardcoded into this function, but can be more generic.

								        if (typeof SDL === 'object' && SDL.audio && SDL.audio.queueNewAudioData) SDL.audio.queueNewAudioData();


								        Browser.mainLoop.scheduler();

								      }


								      if (!noSetTiming) {

								        if (fps && fps > 0) _emscripten_set_main_loop_timing(0/*EM_TIMING_SETTIMEOUT*/, 1000.0 / fps);

								        else _emscripten_set_main_loop_timing(1/*EM_TIMING_RAF*/, 1); // Do rAF by rendering each frame (no decimating)


								        Browser.mainLoop.scheduler();

								      }


								      if (simulateInfiniteLoop) {

								        throw 'SimulateInfiniteLoop';

								      }

								    }var Browser={mainLoop:{scheduler:null,method:"",currentlyRunningMainloop:0,func:null,arg:0,timingMode:0,timingValue:0,currentFrameNumber:0,queue:[],pause:function () {

								          Browser.mainLoop.scheduler = null;

								          Browser.mainLoop.currentlyRunningMainloop++; // Incrementing this signals the previous main loop that it's now become old, and it must return.

								        },resume:function () {

								          Browser.mainLoop.currentlyRunningMainloop++;

								          var timingMode = Browser.mainLoop.timingMode;

								          var timingValue = Browser.mainLoop.timingValue;

								          var func = Browser.mainLoop.func;

								          Browser.mainLoop.func = null;

								          _emscripten_set_main_loop(func, 0, false, Browser.mainLoop.arg, true /* do not set timing and call scheduler, we will do it on the next lines */);

								          _emscripten_set_main_loop_timing(timingMode, timingValue);

								          Browser.mainLoop.scheduler();

								        },updateStatus:function () {

								          if (Module['setStatus']) {

								            var message = Module['statusMessage'] || 'Please wait...';

								            var remaining = Browser.mainLoop.remainingBlockers;

								            var expected = Browser.mainLoop.expectedBlockers;

								            if (remaining) {

								              if (remaining < expected) {

								                Module['setStatus'](message + ' (' + (expected - remaining) + '/' + expected + ')');

								              } else {

								                Module['setStatus'](message);

								              }

								            } else {

								              Module['setStatus']('');

								            }

								          }

								        },runIter:function (func) {

								          if (ABORT) return;

								          if (Module['preMainLoop']) {

								            var preRet = Module['preMainLoop']();

								            if (preRet === false) {

								              return; // |return false| skips a frame

								            }

								          }

								          try {

								            func();

								          } catch (e) {

								            if (e instanceof ExitStatus) {

								              return;

								            } else {

								              if (e && typeof e === 'object' && e.stack) Module.printErr('exception thrown: ' + [e, e.stack]);

								              throw e;

								            }

								          }

								          if (Module['postMainLoop']) Module['postMainLoop']();

								        }},isFullscreen:false,pointerLock:false,moduleContextCreatedCallbacks:[],workers:[],init:function () {

								        if (!Module["preloadPlugins"]) Module["preloadPlugins"] = []; // needs to exist even in workers


								        if (Browser.initted) return;

								        Browser.initted = true;


								        try {

								          new Blob();

								          Browser.hasBlobConstructor = true;

								        } catch(e) {

								          Browser.hasBlobConstructor = false;

								          console.log("warning: no blob constructor, cannot create blobs with mimetypes");

								        }

								        Browser.BlobBuilder = typeof MozBlobBuilder != "undefined" ? MozBlobBuilder : (typeof WebKitBlobBuilder != "undefined" ? WebKitBlobBuilder : (!Browser.hasBlobConstructor ? console.log("warning: no BlobBuilder") : null));

								        Browser.URLObject = typeof window != "undefined" ? (window.URL ? window.URL : window.webkitURL) : undefined;

								        if (!Module.noImageDecoding && typeof Browser.URLObject === 'undefined') {

								          console.log("warning: Browser does not support creating object URLs. Built-in browser image decoding will not be available.");

								          Module.noImageDecoding = true;

								        }


								        // Support for plugins that can process preloaded files. You can add more of these to

								        // your app by creating and appending to Module.preloadPlugins.

								        //

								        // Each plugin is asked if it can handle a file based on the file's name. If it can,

								        // it is given the file's raw data. When it is done, it calls a callback with the file's

								        // (possibly modified) data. For example, a plugin might decompress a file, or it

								        // might create some side data structure for use later (like an Image element, etc.).


								        var imagePlugin = {};

								        imagePlugin['canHandle'] = function imagePlugin_canHandle(name) {

								          return !Module.noImageDecoding && /\.(jpg|jpeg|png|bmp)$/i.test(name);

								        };

								        imagePlugin['handle'] = function imagePlugin_handle(byteArray, name, onload, onerror) {

								          var b = null;

								          if (Browser.hasBlobConstructor) {

								            try {

								              b = new Blob([byteArray], { type: Browser.getMimetype(name) });

								              if (b.size !== byteArray.length) { // Safari bug #118630

								                // Safari's Blob can only take an ArrayBuffer

								                b = new Blob([(new Uint8Array(byteArray)).buffer], { type: Browser.getMimetype(name) });

								              }

								            } catch(e) {

								              Runtime.warnOnce('Blob constructor present but fails: ' + e + '; falling back to blob builder');

								            }

								          }

								          if (!b) {

								            var bb = new Browser.BlobBuilder();

								            bb.append((new Uint8Array(byteArray)).buffer); // we need to pass a buffer, and must copy the array to get the right data range

								            b = bb.getBlob();

								          }

								          var url = Browser.URLObject.createObjectURL(b);

								          assert(typeof url == 'string', 'createObjectURL must return a url as a string');

								          var img = new Image();

								          img.onload = function img_onload() {

								            assert(img.complete, 'Image ' + name + ' could not be decoded');

								            var canvas = document.createElement('canvas');

								            canvas.width = img.width;

								            canvas.height = img.height;

								            var ctx = canvas.getContext('2d');

								            ctx.drawImage(img, 0, 0);

								            Module["preloadedImages"][name] = canvas;

								            Browser.URLObject.revokeObjectURL(url);

								            if (onload) onload(byteArray);

								          };

								          img.onerror = function img_onerror(event) {

								            console.log('Image ' + url + ' could not be decoded');

								            if (onerror) onerror();

								          };

								          img.src = url;

								        };

								        Module['preloadPlugins'].push(imagePlugin);


								        var audioPlugin = {};

								        audioPlugin['canHandle'] = function audioPlugin_canHandle(name) {

								          return !Module.noAudioDecoding && name.substr(-4) in { '.ogg': 1, '.wav': 1, '.mp3': 1 };

								        };

								        audioPlugin['handle'] = function audioPlugin_handle(byteArray, name, onload, onerror) {

								          var done = false;

								          function finish(audio) {

								            if (done) return;

								            done = true;

								            Module["preloadedAudios"][name] = audio;

								            if (onload) onload(byteArray);

								          }

								          function fail() {

								            if (done) return;

								            done = true;

								            Module["preloadedAudios"][name] = new Audio(); // empty shim

								            if (onerror) onerror();

								          }

								          if (Browser.hasBlobConstructor) {

								            try {

								              var b = new Blob([byteArray], { type: Browser.getMimetype(name) });

								            } catch(e) {

								              return fail();

								            }

								            var url = Browser.URLObject.createObjectURL(b); // XXX we never revoke this!

								            assert(typeof url == 'string', 'createObjectURL must return a url as a string');

								            var audio = new Audio();

								            audio.addEventListener('canplaythrough', function() { finish(audio) }, false); // use addEventListener due to chromium bug 124926

								            audio.onerror = function audio_onerror(event) {

								              if (done) return;

								              console.log('warning: browser could not fully decode audio ' + name + ', trying slower base64 approach');

								              function encode64(data) {

								                var BASE = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/';

								                var PAD = '=';

								                var ret = '';

								                var leftchar = 0;

								                var leftbits = 0;

								                for (var i = 0; i < data.length; i++) {

								                  leftchar = (leftchar << 8) | data[i];

								                  leftbits += 8;

								                  while (leftbits >= 6) {

								                    var curr = (leftchar >> (leftbits-6)) & 0x3f;

								                    leftbits -= 6;

								                    ret += BASE[curr];

								                  }

								                }

								                if (leftbits == 2) {

								                  ret += BASE[(leftchar&3) << 4];

								                  ret += PAD + PAD;

								                } else if (leftbits == 4) {

								                  ret += BASE[(leftchar&0xf) << 2];

								                  ret += PAD;

								                }

								                return ret;

								              }

								              audio.src = 'data:audio/x-' + name.substr(-3) + ';base64,' + encode64(byteArray);

								              finish(audio); // we don't wait for confirmation this worked - but it's worth trying

								            };

								            audio.src = url;

								            // workaround for chrome bug 124926 - we do not always get oncanplaythrough or onerror

								            Browser.safeSetTimeout(function() {

								              finish(audio); // try to use it even though it is not necessarily ready to play

								            }, 10000);

								          } else {

								            return fail();

								          }

								        };

								        Module['preloadPlugins'].push(audioPlugin);


								        // Canvas event setup


								        function pointerLockChange() {

								          Browser.pointerLock = document['pointerLockElement'] === Module['canvas'] ||

								                                document['mozPointerLockElement'] === Module['canvas'] ||

								                                document['webkitPointerLockElement'] === Module['canvas'] ||

								                                document['msPointerLockElement'] === Module['canvas'];

								        }

								        var canvas = Module['canvas'];

								        if (canvas) {

								          // forced aspect ratio can be enabled by defining 'forcedAspectRatio' on Module

								          // Module['forcedAspectRatio'] = 4 / 3;


								          canvas.requestPointerLock = canvas['requestPointerLock'] ||

								                                      canvas['mozRequestPointerLock'] ||

								                                      canvas['webkitRequestPointerLock'] ||

								                                      canvas['msRequestPointerLock'] ||

								                                      function(){};

								          canvas.exitPointerLock = document['exitPointerLock'] ||

								                                   document['mozExitPointerLock'] ||

								                                   document['webkitExitPointerLock'] ||

								                                   document['msExitPointerLock'] ||

								                                   function(){}; // no-op if function does not exist

								          canvas.exitPointerLock = canvas.exitPointerLock.bind(document);


								          document.addEventListener('pointerlockchange', pointerLockChange, false);

								          document.addEventListener('mozpointerlockchange', pointerLockChange, false);

								          document.addEventListener('webkitpointerlockchange', pointerLockChange, false);

								          document.addEventListener('mspointerlockchange', pointerLockChange, false);


								          if (Module['elementPointerLock']) {

								            canvas.addEventListener("click", function(ev) {

								              if (!Browser.pointerLock && Module['canvas'].requestPointerLock) {

								                Module['canvas'].requestPointerLock();

								                ev.preventDefault();

								              }

								            }, false);

								          }

								        }

								      },createContext:function (canvas, useWebGL, setInModule, webGLContextAttributes) {

								        if (useWebGL && Module.ctx && canvas == Module.canvas) return Module.ctx; // no need to recreate GL context if it's already been created for this canvas.


								        var ctx;

								        var contextHandle;

								        if (useWebGL) {

								          // For GLES2/desktop GL compatibility, adjust a few defaults to be different to WebGL defaults, so that they align better with the desktop defaults.

								          var contextAttributes = {

								            antialias: false,

								            alpha: false

								          };


								          if (webGLContextAttributes) {

								            for (var attribute in webGLContextAttributes) {

								              contextAttributes[attribute] = webGLContextAttributes[attribute];

								            }

								          }


								          contextHandle = GL.createContext(canvas, contextAttributes);

								          if (contextHandle) {

								            ctx = GL.getContext(contextHandle).GLctx;

								          }

								        } else {

								          ctx = canvas.getContext('2d');

								        }


								        if (!ctx) return null;


								        if (setInModule) {

								          if (!useWebGL) assert(typeof GLctx === 'undefined', 'cannot set in module if GLctx is used, but we are a non-GL context that would replace it');


								          Module.ctx = ctx;

								          if (useWebGL) GL.makeContextCurrent(contextHandle);

								          Module.useWebGL = useWebGL;

								          Browser.moduleContextCreatedCallbacks.forEach(function(callback) { callback() });

								          Browser.init();

								        }

								        return ctx;

								      },destroyContext:function (canvas, useWebGL, setInModule) {},fullscreenHandlersInstalled:false,lockPointer:undefined,resizeCanvas:undefined,requestFullscreen:function (lockPointer, resizeCanvas, vrDevice) {

								        Browser.lockPointer = lockPointer;

								        Browser.resizeCanvas = resizeCanvas;

								        Browser.vrDevice = vrDevice;

								        if (typeof Browser.lockPointer === 'undefined') Browser.lockPointer = true;

								        if (typeof Browser.resizeCanvas === 'undefined') Browser.resizeCanvas = false;

								        if (typeof Browser.vrDevice === 'undefined') Browser.vrDevice = null;


								        var canvas = Module['canvas'];

								        function fullscreenChange() {

								          Browser.isFullscreen = false;

								          var canvasContainer = canvas.parentNode;

								          if ((document['fullscreenElement'] || document['mozFullScreenElement'] ||

								               document['msFullscreenElement'] || document['webkitFullscreenElement'] ||

								               document['webkitCurrentFullScreenElement']) === canvasContainer) {

								            canvas.exitFullscreen = document['exitFullscreen'] ||

								                                    document['cancelFullScreen'] ||

								                                    document['mozCancelFullScreen'] ||

								                                    document['msExitFullscreen'] ||

								                                    document['webkitCancelFullScreen'] ||

								                                    function() {};

								            canvas.exitFullscreen = canvas.exitFullscreen.bind(document);

								            if (Browser.lockPointer) canvas.requestPointerLock();

								            Browser.isFullscreen = true;

								            if (Browser.resizeCanvas) Browser.setFullscreenCanvasSize();

								          } else {


								            // remove the full screen specific parent of the canvas again to restore the HTML structure from before going full screen

								            canvasContainer.parentNode.insertBefore(canvas, canvasContainer);

								            canvasContainer.parentNode.removeChild(canvasContainer);


								            if (Browser.resizeCanvas) Browser.setWindowedCanvasSize();

								          }

								          if (Module['onFullScreen']) Module['onFullScreen'](Browser.isFullscreen);

								          if (Module['onFullscreen']) Module['onFullscreen'](Browser.isFullscreen);

								          Browser.updateCanvasDimensions(canvas);

								        }


								        if (!Browser.fullscreenHandlersInstalled) {

								          Browser.fullscreenHandlersInstalled = true;

								          document.addEventListener('fullscreenchange', fullscreenChange, false);

								          document.addEventListener('mozfullscreenchange', fullscreenChange, false);

								          document.addEventListener('webkitfullscreenchange', fullscreenChange, false);

								          document.addEventListener('MSFullscreenChange', fullscreenChange, false);

								        }


								        // create a new parent to ensure the canvas has no siblings. this allows browsers to optimize full screen performance when its parent is the full screen root

								        var canvasContainer = document.createElement("div");

								        canvas.parentNode.insertBefore(canvasContainer, canvas);

								        canvasContainer.appendChild(canvas);


								        // use parent of canvas as full screen root to allow aspect ratio correction (Firefox stretches the root to screen size)

								        canvasContainer.requestFullscreen = canvasContainer['requestFullscreen'] ||

								                                            canvasContainer['mozRequestFullScreen'] ||

								                                            canvasContainer['msRequestFullscreen'] ||

								                                           (canvasContainer['webkitRequestFullscreen'] ? function() { canvasContainer['webkitRequestFullscreen'](Element['ALLOW_KEYBOARD_INPUT']) } : null) ||

								                                           (canvasContainer['webkitRequestFullScreen'] ? function() { canvasContainer['webkitRequestFullScreen'](Element['ALLOW_KEYBOARD_INPUT']) } : null);


								        if (vrDevice) {

								          canvasContainer.requestFullscreen({ vrDisplay: vrDevice });

								        } else {

								          canvasContainer.requestFullscreen();

								        }

								      },requestFullScreen:function (lockPointer, resizeCanvas, vrDevice) {

								          Module.printErr('Browser.requestFullScreen() is deprecated. Please call Browser.requestFullscreen instead.');

								          Browser.requestFullScreen = function(lockPointer, resizeCanvas, vrDevice) {

								            return Browser.requestFullscreen(lockPointer, resizeCanvas, vrDevice);

								          }

								          return Browser.requestFullscreen(lockPointer, resizeCanvas, vrDevice);

								      },nextRAF:0,fakeRequestAnimationFrame:function (func) {

								        // try to keep 60fps between calls to here

								        var now = Date.now();

								        if (Browser.nextRAF === 0) {

								          Browser.nextRAF = now + 1000/60;

								        } else {

								          while (now + 2 >= Browser.nextRAF) { // fudge a little, to avoid timer jitter causing us to do lots of delay:0

								            Browser.nextRAF += 1000/60;

								          }

								        }

								        var delay = Math.max(Browser.nextRAF - now, 0);

								        setTimeout(func, delay);

								      },requestAnimationFrame:function requestAnimationFrame(func) {

								        if (typeof window === 'undefined') { // Provide fallback to setTimeout if window is undefined (e.g. in Node.js)

								          Browser.fakeRequestAnimationFrame(func);

								        } else {

								          if (!window.requestAnimationFrame) {

								            window.requestAnimationFrame = window['requestAnimationFrame'] ||

								                                           window['mozRequestAnimationFrame'] ||

								                                           window['webkitRequestAnimationFrame'] ||

								                                           window['msRequestAnimationFrame'] ||

								                                           window['oRequestAnimationFrame'] ||

								                                           Browser.fakeRequestAnimationFrame;

								          }

								          window.requestAnimationFrame(func);

								        }

								      },safeCallback:function (func) {

								        return function() {

								          if (!ABORT) return func.apply(null, arguments);

								        };

								      },allowAsyncCallbacks:true,queuedAsyncCallbacks:[],pauseAsyncCallbacks:function () {

								        Browser.allowAsyncCallbacks = false;

								      },resumeAsyncCallbacks:function () { // marks future callbacks as ok to execute, and synchronously runs any remaining ones right now

								        Browser.allowAsyncCallbacks = true;

								        if (Browser.queuedAsyncCallbacks.length > 0) {

								          var callbacks = Browser.queuedAsyncCallbacks;

								          Browser.queuedAsyncCallbacks = [];

								          callbacks.forEach(function(func) {

								            func();

								          });

								        }

								      },safeRequestAnimationFrame:function (func) {

								        return Browser.requestAnimationFrame(function() {

								          if (ABORT) return;

								          if (Browser.allowAsyncCallbacks) {

								            func();

								          } else {

								            Browser.queuedAsyncCallbacks.push(func);

								          }

								        });

								      },safeSetTimeout:function (func, timeout) {

								        Module['noExitRuntime'] = true;

								        return setTimeout(function() {

								          if (ABORT) return;

								          if (Browser.allowAsyncCallbacks) {

								            func();

								          } else {

								            Browser.queuedAsyncCallbacks.push(func);

								          }

								        }, timeout);

								      },safeSetInterval:function (func, timeout) {

								        Module['noExitRuntime'] = true;

								        return setInterval(function() {

								          if (ABORT) return;

								          if (Browser.allowAsyncCallbacks) {

								            func();

								          } // drop it on the floor otherwise, next interval will kick in

								        }, timeout);

								      },getMimetype:function (name) {

								        return {

								          'jpg': 'image/jpeg',

								          'jpeg': 'image/jpeg',

								          'png': 'image/png',

								          'bmp': 'image/bmp',

								          'ogg': 'audio/ogg',

								          'wav': 'audio/wav',

								          'mp3': 'audio/mpeg'

								        }[name.substr(name.lastIndexOf('.')+1)];

								      },getUserMedia:function (func) {

								        if(!window.getUserMedia) {

								          window.getUserMedia = navigator['getUserMedia'] ||

								                                navigator['mozGetUserMedia'];

								        }

								        window.getUserMedia(func);

								      },getMovementX:function (event) {

								        return event['movementX'] ||

								               event['mozMovementX'] ||

								               event['webkitMovementX'] ||

								               0;

								      },getMovementY:function (event) {

								        return event['movementY'] ||

								               event['mozMovementY'] ||

								               event['webkitMovementY'] ||

								               0;

								      },getMouseWheelDelta:function (event) {

								        var delta = 0;

								        switch (event.type) {

								          case 'DOMMouseScroll':

								            delta = event.detail;

								            break;

								          case 'mousewheel':

								            delta = event.wheelDelta;

								            break;

								          case 'wheel':

								            delta = event['deltaY'];

								            break;

								          default:

								            throw 'unrecognized mouse wheel event: ' + event.type;

								        }

								        return delta;

								      },mouseX:0,mouseY:0,mouseMovementX:0,mouseMovementY:0,touches:{},lastTouches:{},calculateMouseEvent:function (event) { // event should be mousemove, mousedown or mouseup

								        if (Browser.pointerLock) {

								          // When the pointer is locked, calculate the coordinates

								          // based on the movement of the mouse.

								          // Workaround for Firefox bug 764498

								          if (event.type != 'mousemove' &&

								              ('mozMovementX' in event)) {

								            Browser.mouseMovementX = Browser.mouseMovementY = 0;

								          } else {

								            Browser.mouseMovementX = Browser.getMovementX(event);

								            Browser.mouseMovementY = Browser.getMovementY(event);

								          }


								          // check if SDL is available

								          if (typeof SDL != "undefined") {

								          	Browser.mouseX = SDL.mouseX + Browser.mouseMovementX;

								          	Browser.mouseY = SDL.mouseY + Browser.mouseMovementY;

								          } else {

								          	// just add the mouse delta to the current absolut mouse position

								          	// FIXME: ideally this should be clamped against the canvas size and zero

								          	Browser.mouseX += Browser.mouseMovementX;

								          	Browser.mouseY += Browser.mouseMovementY;

								          }

								        } else {

								          // Otherwise, calculate the movement based on the changes

								          // in the coordinates.

								          var rect = Module["canvas"].getBoundingClientRect();

								          var cw = Module["canvas"].width;

								          var ch = Module["canvas"].height;


								          // Neither .scrollX or .pageXOffset are defined in a spec, but

								          // we prefer .scrollX because it is currently in a spec draft.

								          // (see: http://www.w3.org/TR/2013/WD-cssom-view-20131217/)

								          var scrollX = ((typeof window.scrollX !== 'undefined') ? window.scrollX : window.pageXOffset);

								          var scrollY = ((typeof window.scrollY !== 'undefined') ? window.scrollY : window.pageYOffset);

								          // If this assert lands, it's likely because the browser doesn't support scrollX or pageXOffset

								          // and we have no viable fallback.

								          assert((typeof scrollX !== 'undefined') && (typeof scrollY !== 'undefined'), 'Unable to retrieve scroll position, mouse positions likely broken.');


								          if (event.type === 'touchstart' || event.type === 'touchend' || event.type === 'touchmove') {

								            var touch = event.touch;

								            if (touch === undefined) {

								              return; // the "touch" property is only defined in SDL


								            }

								            var adjustedX = touch.pageX - (scrollX + rect.left);

								            var adjustedY = touch.pageY - (scrollY + rect.top);


								            adjustedX = adjustedX * (cw / rect.width);

								            adjustedY = adjustedY * (ch / rect.height);


								            var coords = { x: adjustedX, y: adjustedY };


								            if (event.type === 'touchstart') {

								              Browser.lastTouches[touch.identifier] = coords;

								              Browser.touches[touch.identifier] = coords;

								            } else if (event.type === 'touchend' || event.type === 'touchmove') {

								              var last = Browser.touches[touch.identifier];

								              if (!last) last = coords;

								              Browser.lastTouches[touch.identifier] = last;

								              Browser.touches[touch.identifier] = coords;

								            }

								            return;

								          }


								          var x = event.pageX - (scrollX + rect.left);

								          var y = event.pageY - (scrollY + rect.top);


								          // the canvas might be CSS-scaled compared to its backbuffer;

								          // SDL-using content will want mouse coordinates in terms

								          // of backbuffer units.

								          x = x * (cw / rect.width);

								          y = y * (ch / rect.height);


								          Browser.mouseMovementX = x - Browser.mouseX;

								          Browser.mouseMovementY = y - Browser.mouseY;

								          Browser.mouseX = x;

								          Browser.mouseY = y;

								        }

								      },asyncLoad:function (url, onload, onerror, noRunDep) {

								        var dep = !noRunDep ? getUniqueRunDependency('al ' + url) : '';

								        Module['readAsync'](url, function(arrayBuffer) {

								          assert(arrayBuffer, 'Loading data file "' + url + '" failed (no arrayBuffer).');

								          onload(new Uint8Array(arrayBuffer));

								          if (dep) removeRunDependency(dep);

								        }, function(event) {

								          if (onerror) {

								            onerror();

								          } else {

								            throw 'Loading data file "' + url + '" failed.';

								          }

								        });

								        if (dep) addRunDependency(dep);

								      },resizeListeners:[],updateResizeListeners:function () {

								        var canvas = Module['canvas'];

								        Browser.resizeListeners.forEach(function(listener) {

								          listener(canvas.width, canvas.height);

								        });

								      },setCanvasSize:function (width, height, noUpdates) {

								        var canvas = Module['canvas'];

								        Browser.updateCanvasDimensions(canvas, width, height);

								        if (!noUpdates) Browser.updateResizeListeners();

								      },windowedWidth:0,windowedHeight:0,setFullscreenCanvasSize:function () {

								        // check if SDL is available

								        if (typeof SDL != "undefined") {

								        	var flags = HEAPU32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)];

								        	flags = flags | 0x00800000; // set SDL_FULLSCREEN flag

								        	HEAP32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)]=flags

								        }

								        Browser.updateResizeListeners();

								      },setWindowedCanvasSize:function () {

								        // check if SDL is available

								        if (typeof SDL != "undefined") {

								        	var flags = HEAPU32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)];

								        	flags = flags & ~0x00800000; // clear SDL_FULLSCREEN flag

								        	HEAP32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)]=flags

								        }

								        Browser.updateResizeListeners();

								      },updateCanvasDimensions:function (canvas, wNative, hNative) {

								        if (wNative && hNative) {

								          canvas.widthNative = wNative;

								          canvas.heightNative = hNative;

								        } else {

								          wNative = canvas.widthNative;

								          hNative = canvas.heightNative;

								        }

								        var w = wNative;

								        var h = hNative;

								        if (Module['forcedAspectRatio'] && Module['forcedAspectRatio'] > 0) {

								          if (w/h < Module['forcedAspectRatio']) {

								            w = Math.round(h * Module['forcedAspectRatio']);

								          } else {

								            h = Math.round(w / Module['forcedAspectRatio']);

								          }

								        }

								        if (((document['fullscreenElement'] || document['mozFullScreenElement'] ||

								             document['msFullscreenElement'] || document['webkitFullscreenElement'] ||

								             document['webkitCurrentFullScreenElement']) === canvas.parentNode) && (typeof screen != 'undefined')) {

								           var factor = Math.min(screen.width / w, screen.height / h);

								           w = Math.round(w * factor);

								           h = Math.round(h * factor);

								        }

								        if (Browser.resizeCanvas) {

								          if (canvas.width  != w) canvas.width  = w;

								          if (canvas.height != h) canvas.height = h;

								          if (typeof canvas.style != 'undefined') {

								            canvas.style.removeProperty( "width");

								            canvas.style.removeProperty("height");

								          }

								        } else {

								          if (canvas.width  != wNative) canvas.width  = wNative;

								          if (canvas.height != hNative) canvas.height = hNative;

								          if (typeof canvas.style != 'undefined') {

								            if (w != wNative || h != hNative) {

								              canvas.style.setProperty( "width", w + "px", "important");

								              canvas.style.setProperty("height", h + "px", "important");

								            } else {

								              canvas.style.removeProperty( "width");

								              canvas.style.removeProperty("height");

								            }

								          }

								        }

								      },wgetRequests:{},nextWgetRequestHandle:0,getNextWgetRequestHandle:function () {

								        var handle = Browser.nextWgetRequestHandle;

								        Browser.nextWgetRequestHandle++;

								        return handle;

								      }};var GLFW={Window:function (id, width, height, title, monitor, share) {

								        this.id = id;

								        this.x = 0;

								        this.y = 0;

								        this.fullscreen = false; // Used to determine if app in fullscreen mode

								        this.storedX = 0; // Used to store X before fullscreen

								        this.storedY = 0; // Used to store Y before fullscreen

								        this.width = width;

								        this.height = height;

								        this.storedWidth = width; // Used to store width before fullscreen

								        this.storedHeight = height; // Used to store height before fullscreen

								        this.title = title;

								        this.monitor = monitor;

								        this.share = share;

								        this.attributes = GLFW.hints;

								        this.inputModes = {

								          0x00033001:0x00034001, // GLFW_CURSOR (GLFW_CURSOR_NORMAL)

								          0x00033002:0, // GLFW_STICKY_KEYS

								          0x00033003:0, // GLFW_STICKY_MOUSE_BUTTONS

								        };

								        this.buttons = 0;

								        this.keys = new Array();

								        this.shouldClose = 0;

								        this.title = null;

								        this.windowPosFunc = null; // GLFWwindowposfun

								        this.windowSizeFunc = null; // GLFWwindowsizefun

								        this.windowCloseFunc = null; // GLFWwindowclosefun

								        this.windowRefreshFunc = null; // GLFWwindowrefreshfun

								        this.windowFocusFunc = null; // GLFWwindowfocusfun

								        this.windowIconifyFunc = null; // GLFWwindowiconifyfun

								        this.framebufferSizeFunc = null; // GLFWframebuffersizefun

								        this.mouseButtonFunc = null; // GLFWmousebuttonfun

								        this.cursorPosFunc = null; // GLFWcursorposfun

								        this.cursorEnterFunc = null; // GLFWcursorenterfun

								        this.scrollFunc = null; // GLFWscrollfun

								        this.keyFunc = null; // GLFWkeyfun

								        this.charFunc = null; // GLFWcharfun

								        this.userptr = null;

								      },WindowFromId:function (id) {

								        if (id <= 0 || !GLFW.windows) return null;

								        return GLFW.windows[id - 1];

								      },errorFunc:null,monitorFunc:null,active:null,windows:null,monitors:null,monitorString:null,versionString:null,initialTime:null,extensions:null,hints:null,defaultHints:{131073:0,131074:0,131075:1,131076:1,131077:1,135169:8,135170:8,135171:8,135172:8,135173:24,135174:8,135175:0,135176:0,135177:0,135178:0,135179:0,135180:0,135181:0,135182:0,135183:0,139265:196609,139266:1,139267:0,139268:0,139269:0,139270:0,139271:0,139272:0},DOMToGLFWKeyCode:function (keycode) {

								        switch (keycode) {

								          // these keycodes are only defined for GLFW3, assume they are the same for GLFW2

								          case 0x20:return 32; // DOM_VK_SPACE -> GLFW_KEY_SPACE

								          case 0xDE:return 39; // DOM_VK_QUOTE -> GLFW_KEY_APOSTROPHE

								          case 0xBC:return 44; // DOM_VK_COMMA -> GLFW_KEY_COMMA

								          case 0xAD:return 45; // DOM_VK_HYPHEN_MINUS -> GLFW_KEY_MINUS

								          case 0xBD:return 45; // DOM_VK_MINUS -> GLFW_KEY_MINUS

								          case 0xBE:return 46; // DOM_VK_PERIOD -> GLFW_KEY_PERIOD

								          case 0xBF:return 47; // DOM_VK_SLASH -> GLFW_KEY_SLASH

								          case 0x30:return 48; // DOM_VK_0 -> GLFW_KEY_0

								          case 0x31:return 49; // DOM_VK_1 -> GLFW_KEY_1

								          case 0x32:return 50; // DOM_VK_2 -> GLFW_KEY_2

								          case 0x33:return 51; // DOM_VK_3 -> GLFW_KEY_3

								          case 0x34:return 52; // DOM_VK_4 -> GLFW_KEY_4

								          case 0x35:return 53; // DOM_VK_5 -> GLFW_KEY_5

								          case 0x36:return 54; // DOM_VK_6 -> GLFW_KEY_6

								          case 0x37:return 55; // DOM_VK_7 -> GLFW_KEY_7

								          case 0x38:return 56; // DOM_VK_8 -> GLFW_KEY_8

								          case 0x39:return 57; // DOM_VK_9 -> GLFW_KEY_9

								          case 0x3B:return 59; // DOM_VK_SEMICOLON -> GLFW_KEY_SEMICOLON

								          case 0x3D:return 61; // DOM_VK_EQUALS -> GLFW_KEY_EQUAL

								          case 0xBB:return 61; // DOM_VK_EQUALS -> GLFW_KEY_EQUAL

								          case 0x41:return 65; // DOM_VK_A -> GLFW_KEY_A

								          case 0x42:return 66; // DOM_VK_B -> GLFW_KEY_B

								          case 0x43:return 67; // DOM_VK_C -> GLFW_KEY_C

								          case 0x44:return 68; // DOM_VK_D -> GLFW_KEY_D

								          case 0x45:return 69; // DOM_VK_E -> GLFW_KEY_E

								          case 0x46:return 70; // DOM_VK_F -> GLFW_KEY_F

								          case 0x47:return 71; // DOM_VK_G -> GLFW_KEY_G

								          case 0x48:return 72; // DOM_VK_H -> GLFW_KEY_H

								          case 0x49:return 73; // DOM_VK_I -> GLFW_KEY_I

								          case 0x4A:return 74; // DOM_VK_J -> GLFW_KEY_J

								          case 0x4B:return 75; // DOM_VK_K -> GLFW_KEY_K

								          case 0x4C:return 76; // DOM_VK_L -> GLFW_KEY_L

								          case 0x4D:return 77; // DOM_VK_M -> GLFW_KEY_M

								          case 0x4E:return 78; // DOM_VK_N -> GLFW_KEY_N

								          case 0x4F:return 79; // DOM_VK_O -> GLFW_KEY_O

								          case 0x50:return 80; // DOM_VK_P -> GLFW_KEY_P

								          case 0x51:return 81; // DOM_VK_Q -> GLFW_KEY_Q

								          case 0x52:return 82; // DOM_VK_R -> GLFW_KEY_R

								          case 0x53:return 83; // DOM_VK_S -> GLFW_KEY_S

								          case 0x54:return 84; // DOM_VK_T -> GLFW_KEY_T

								          case 0x55:return 85; // DOM_VK_U -> GLFW_KEY_U

								          case 0x56:return 86; // DOM_VK_V -> GLFW_KEY_V

								          case 0x57:return 87; // DOM_VK_W -> GLFW_KEY_W

								          case 0x58:return 88; // DOM_VK_X -> GLFW_KEY_X

								          case 0x59:return 89; // DOM_VK_Y -> GLFW_KEY_Y

								          case 0x5a:return 90; // DOM_VK_Z -> GLFW_KEY_Z

								          case 0xDB:return 91; // DOM_VK_OPEN_BRACKET -> GLFW_KEY_LEFT_BRACKET

								          case 0xDC:return 92; // DOM_VK_BACKSLASH -> GLFW_KEY_BACKSLASH

								          case 0xDD:return 93; // DOM_VK_CLOSE_BRACKET -> GLFW_KEY_RIGHT_BRACKET

								          case 0xC0:return 94; // DOM_VK_BACK_QUOTE -> GLFW_KEY_GRAVE_ACCENT


								          case 0x1B:return 256; // DOM_VK_ESCAPE -> GLFW_KEY_ESCAPE

								          case 0x0D:return 257; // DOM_VK_RETURN -> GLFW_KEY_ENTER

								          case 0x09:return 258; // DOM_VK_TAB -> GLFW_KEY_TAB

								          case 0x08:return 259; // DOM_VK_BACK -> GLFW_KEY_BACKSPACE

								          case 0x2D:return 260; // DOM_VK_INSERT -> GLFW_KEY_INSERT

								          case 0x2E:return 261; // DOM_VK_DELETE -> GLFW_KEY_DELETE

								          case 0x27:return 262; // DOM_VK_RIGHT -> GLFW_KEY_RIGHT

								          case 0x25:return 263; // DOM_VK_LEFT -> GLFW_KEY_LEFT

								          case 0x28:return 264; // DOM_VK_DOWN -> GLFW_KEY_DOWN

								          case 0x26:return 265; // DOM_VK_UP -> GLFW_KEY_UP

								          case 0x21:return 266; // DOM_VK_PAGE_UP -> GLFW_KEY_PAGE_UP

								          case 0x22:return 267; // DOM_VK_PAGE_DOWN -> GLFW_KEY_PAGE_DOWN

								          case 0x24:return 268; // DOM_VK_HOME -> GLFW_KEY_HOME

								          case 0x23:return 269; // DOM_VK_END -> GLFW_KEY_END

								          case 0x14:return 280; // DOM_VK_CAPS_LOCK -> GLFW_KEY_CAPS_LOCK

								          case 0x91:return 281; // DOM_VK_SCROLL_LOCK -> GLFW_KEY_SCROLL_LOCK

								          case 0x90:return 282; // DOM_VK_NUM_LOCK -> GLFW_KEY_NUM_LOCK

								          case 0x2C:return 283; // DOM_VK_SNAPSHOT -> GLFW_KEY_PRINT_SCREEN

								          case 0x13:return 284; // DOM_VK_PAUSE -> GLFW_KEY_PAUSE

								          case 0x70:return 290; // DOM_VK_F1 -> GLFW_KEY_F1

								          case 0x71:return 291; // DOM_VK_F2 -> GLFW_KEY_F2

								          case 0x72:return 292; // DOM_VK_F3 -> GLFW_KEY_F3

								          case 0x73:return 293; // DOM_VK_F4 -> GLFW_KEY_F4

								          case 0x74:return 294; // DOM_VK_F5 -> GLFW_KEY_F5

								          case 0x75:return 295; // DOM_VK_F6 -> GLFW_KEY_F6

								          case 0x76:return 296; // DOM_VK_F7 -> GLFW_KEY_F7

								          case 0x77:return 297; // DOM_VK_F8 -> GLFW_KEY_F8

								          case 0x78:return 298; // DOM_VK_F9 -> GLFW_KEY_F9

								          case 0x79:return 299; // DOM_VK_F10 -> GLFW_KEY_F10

								          case 0x7A:return 300; // DOM_VK_F11 -> GLFW_KEY_F11

								          case 0x7B:return 301; // DOM_VK_F12 -> GLFW_KEY_F12

								          case 0x7C:return 302; // DOM_VK_F13 -> GLFW_KEY_F13

								          case 0x7D:return 303; // DOM_VK_F14 -> GLFW_KEY_F14

								          case 0x7E:return 304; // DOM_VK_F15 -> GLFW_KEY_F15

								          case 0x7F:return 305; // DOM_VK_F16 -> GLFW_KEY_F16

								          case 0x80:return 306; // DOM_VK_F17 -> GLFW_KEY_F17

								          case 0x81:return 307; // DOM_VK_F18 -> GLFW_KEY_F18

								          case 0x82:return 308; // DOM_VK_F19 -> GLFW_KEY_F19

								          case 0x83:return 309; // DOM_VK_F20 -> GLFW_KEY_F20

								          case 0x84:return 310; // DOM_VK_F21 -> GLFW_KEY_F21

								          case 0x85:return 311; // DOM_VK_F22 -> GLFW_KEY_F22

								          case 0x86:return 312; // DOM_VK_F23 -> GLFW_KEY_F23

								          case 0x87:return 313; // DOM_VK_F24 -> GLFW_KEY_F24

								          case 0x88:return 314; // 0x88 (not used?) -> GLFW_KEY_F25

								          case 0x60:return 320; // DOM_VK_NUMPAD0 -> GLFW_KEY_KP_0

								          case 0x61:return 321; // DOM_VK_NUMPAD1 -> GLFW_KEY_KP_1

								          case 0x62:return 322; // DOM_VK_NUMPAD2 -> GLFW_KEY_KP_2

								          case 0x63:return 323; // DOM_VK_NUMPAD3 -> GLFW_KEY_KP_3

								          case 0x64:return 324; // DOM_VK_NUMPAD4 -> GLFW_KEY_KP_4

								          case 0x65:return 325; // DOM_VK_NUMPAD5 -> GLFW_KEY_KP_5

								          case 0x66:return 326; // DOM_VK_NUMPAD6 -> GLFW_KEY_KP_6

								          case 0x67:return 327; // DOM_VK_NUMPAD7 -> GLFW_KEY_KP_7

								          case 0x68:return 328; // DOM_VK_NUMPAD8 -> GLFW_KEY_KP_8

								          case 0x69:return 329; // DOM_VK_NUMPAD9 -> GLFW_KEY_KP_9

								          case 0x6E:return 330; // DOM_VK_DECIMAL -> GLFW_KEY_KP_DECIMAL

								          case 0x6F:return 331; // DOM_VK_DIVIDE -> GLFW_KEY_KP_DIVIDE

								          case 0x6A:return 332; // DOM_VK_MULTIPLY -> GLFW_KEY_KP_MULTIPLY

								          case 0x6D:return 333; // DOM_VK_SUBTRACT -> GLFW_KEY_KP_SUBTRACT

								          case 0x6B:return 334; // DOM_VK_ADD -> GLFW_KEY_KP_ADD

								          // case 0x0D:return 335; // DOM_VK_RETURN -> GLFW_KEY_KP_ENTER (DOM_KEY_LOCATION_RIGHT)

								          // case 0x61:return 336; // DOM_VK_EQUALS -> GLFW_KEY_KP_EQUAL (DOM_KEY_LOCATION_RIGHT)

								          case 0x10:return 340; // DOM_VK_SHIFT -> GLFW_KEY_LEFT_SHIFT

								          case 0x11:return 341; // DOM_VK_CONTROL -> GLFW_KEY_LEFT_CONTROL

								          case 0x12:return 342; // DOM_VK_ALT -> GLFW_KEY_LEFT_ALT

								          case 0x5B:return 343; // DOM_VK_WIN -> GLFW_KEY_LEFT_SUPER

								          // case 0x10:return 344; // DOM_VK_SHIFT -> GLFW_KEY_RIGHT_SHIFT (DOM_KEY_LOCATION_RIGHT)

								          // case 0x11:return 345; // DOM_VK_CONTROL -> GLFW_KEY_RIGHT_CONTROL (DOM_KEY_LOCATION_RIGHT)

								          // case 0x12:return 346; // DOM_VK_ALT -> GLFW_KEY_RIGHT_ALT (DOM_KEY_LOCATION_RIGHT)

								          // case 0x5B:return 347; // DOM_VK_WIN -> GLFW_KEY_RIGHT_SUPER (DOM_KEY_LOCATION_RIGHT)

								          case 0x5D:return 348; // DOM_VK_CONTEXT_MENU -> GLFW_KEY_MENU

								          // XXX: GLFW_KEY_WORLD_1, GLFW_KEY_WORLD_2 what are these?

								          default:return -1; // GLFW_KEY_UNKNOWN

								        };

								      },getModBits:function (win) {

								        var mod = 0;

								        if (win.keys[340]) mod |= 0x0001; // GLFW_MOD_SHIFT

								        if (win.keys[341]) mod |= 0x0002; // GLFW_MOD_CONTROL

								        if (win.keys[342]) mod |= 0x0004; // GLFW_MOD_ALT

								        if (win.keys[343]) mod |= 0x0008; // GLFW_MOD_SUPER

								        return mod;

								      },onKeyPress:function (event) {

								        if (!GLFW.active || !GLFW.active.charFunc) return;


								        // correct unicode charCode is only available with onKeyPress event

								        var charCode = event.charCode;

								        if (charCode == 0 || (charCode >= 0x00 && charCode <= 0x1F)) return;


								        Module['dynCall_vii'](GLFW.active.charFunc, GLFW.active.id, charCode);

								      },onKeyChanged:function (event, status) {

								        if (!GLFW.active) return;


								        var key = GLFW.DOMToGLFWKeyCode(event.keyCode);

								        if (key == -1) return;


								        var repeat = status && GLFW.active.keys[key];

								        GLFW.active.keys[key] = status;

								        if (!GLFW.active.keyFunc) return;


								        if (repeat) status = 2; // GLFW_REPEAT

								        Module['dynCall_viiiii'](GLFW.active.keyFunc, GLFW.active.id, key, event.keyCode, status, GLFW.getModBits(GLFW.active));

								      },onKeydown:function (event) {

								        GLFW.onKeyChanged(event, 1); // GLFW_PRESS or GLFW_REPEAT


								        // This logic comes directly from the sdl implementation. We cannot

								        // call preventDefault on all keydown events otherwise onKeyPress will

								        // not get called

								        if (event.keyCode === 8 /* backspace */ || event.keyCode === 9 /* tab */) {

								          event.preventDefault();

								        }

								      },onKeyup:function (event) {

								        GLFW.onKeyChanged(event, 0); // GLFW_RELEASE

								      },onMousemove:function (event) {

								        if (!GLFW.active) return;


								        Browser.calculateMouseEvent(event);


								        if (event.target != Module["canvas"] || !GLFW.active.cursorPosFunc) return;


								        Module['dynCall_vidd'](GLFW.active.cursorPosFunc, GLFW.active.id, Browser.mouseX, Browser.mouseY);

								      },DOMToGLFWMouseButton:function (event) {

								        // DOM and glfw have different button codes.

								        // See http://www.w3schools.com/jsref/event_button.asp.

								        var eventButton = event['button'];

								        if (eventButton > 0) {

								          if (eventButton == 1) {

								            eventButton = 2;

								          } else {

								            eventButton = 1;

								          }

								        }

								        return eventButton;

								      },onMouseenter:function (event) {

								        if (!GLFW.active) return;


								        if (event.target != Module["canvas"] || !GLFW.active.cursorEnterFunc) return;


								        Module['dynCall_vii'](GLFW.active.cursorEnterFunc, GLFW.active.id, 1);

								      },onMouseleave:function (event) {

								        if (!GLFW.active) return;


								        if (event.target != Module["canvas"] || !GLFW.active.cursorEnterFunc) return;


								        Module['dynCall_vii'](GLFW.active.cursorEnterFunc, GLFW.active.id, 0);

								      },onMouseButtonChanged:function (event, status) {

								        if (!GLFW.active) return;


								        Browser.calculateMouseEvent(event);


								        if (event.target != Module["canvas"]) return;


								        eventButton = GLFW.DOMToGLFWMouseButton(event);


								        if (status == 1) { // GLFW_PRESS

								          GLFW.active.buttons |= (1 << eventButton);

								          try {

								            event.target.setCapture();

								          } catch (e) {}

								        } else {  // GLFW_RELEASE

								          GLFW.active.buttons &= ~(1 << eventButton);

								        }


								        if (!GLFW.active.mouseButtonFunc) return;


								        Module['dynCall_viiii'](GLFW.active.mouseButtonFunc, GLFW.active.id, eventButton, status, GLFW.getModBits(GLFW.active));

								      },onMouseButtonDown:function (event) {

								        if (!GLFW.active) return;

								        GLFW.onMouseButtonChanged(event, 1); // GLFW_PRESS

								      },onMouseButtonUp:function (event) {

								        if (!GLFW.active) return;

								        GLFW.onMouseButtonChanged(event, 0); // GLFW_RELEASE

								      },onMouseWheel:function (event) {

								        // Note the minus sign that flips browser wheel direction (positive direction scrolls page down) to native wheel direction (positive direction is mouse wheel up)

								        var delta = -Browser.getMouseWheelDelta(event);

								        delta = (delta == 0) ? 0 : (delta > 0 ? Math.max(delta, 1) : Math.min(delta, -1)); // Quantize to integer so that minimum scroll is at least +/- 1.

								        GLFW.wheelPos += delta;


								        if (!GLFW.active || !GLFW.active.scrollFunc || event.target != Module['canvas']) return;


								        var sx = 0;

								        var sy = 0;

								        if (event.type == 'mousewheel') {

								          sx = event.wheelDeltaX;

								          sy = event.wheelDeltaY;

								        } else {

								          sx = event.deltaX;

								          sy = event.deltaY;

								        }


								        Module['dynCall_vidd'](GLFW.active.scrollFunc, GLFW.active.id, sx, sy);


								        event.preventDefault();

								      },onCanvasResize:function (width, height) {

								        if (!GLFW.active) return;


								        var resizeNeeded = true;


								        // If the client is requestiong fullscreen mode

								        if (document["fullscreen"] || document["fullScreen"] || document["mozFullScreen"] || document["webkitIsFullScreen"]) {

								          GLFW.active.storedX = GLFW.active.x;

								          GLFW.active.storedY = GLFW.active.y;

								          GLFW.active.storedWidth = GLFW.active.width;

								          GLFW.active.storedHeight = GLFW.active.height;

								          GLFW.active.x = GLFW.active.y = 0;

								          GLFW.active.width = screen.width;

								          GLFW.active.height = screen.height;

								          GLFW.active.fullscreen = true;


								        // If the client is reverting from fullscreen mode

								        } else if (GLFW.active.fullscreen == true) {

								          GLFW.active.x = GLFW.active.storedX;

								          GLFW.active.y = GLFW.active.storedY;

								          GLFW.active.width = GLFW.active.storedWidth;

								          GLFW.active.height = GLFW.active.storedHeight;

								          GLFW.active.fullscreen = false;


								        // If the width/height values do not match current active window sizes

								        } else if (GLFW.active.width != width || GLFW.active.height != height) {

								            GLFW.active.width = width;

								            GLFW.active.height = height;

								        } else {

								          resizeNeeded = false;

								        }


								        // If any of the above conditions were true, we need to resize the canvas

								        if (resizeNeeded) {

								          // resets the canvas size to counter the aspect preservation of Browser.updateCanvasDimensions

								          Browser.setCanvasSize(GLFW.active.width, GLFW.active.height, true);

								          // TODO: Client dimensions (clientWidth/clientHeight) vs pixel dimensions (width/height) of

								          // the canvas should drive window and framebuffer size respectfully.

								          GLFW.onWindowSizeChanged();

								          GLFW.onFramebufferSizeChanged();

								        }

								      },onWindowSizeChanged:function () {

								        if (!GLFW.active) return;


								        if (!GLFW.active.windowSizeFunc) return;


								        Module['dynCall_viii'](GLFW.active.windowSizeFunc, GLFW.active.id, GLFW.active.width, GLFW.active.height);

								      },onFramebufferSizeChanged:function () {

								        if (!GLFW.active) return;


								        if (!GLFW.active.framebufferSizeFunc) return;


								        Module['dynCall_viii'](GLFW.active.framebufferSizeFunc, GLFW.active.id, GLFW.active.width, GLFW.active.height);

								      },requestFullscreen:function () {

								        var RFS = Module["canvas"]['requestFullscreen'] ||

								                  Module["canvas"]['mozRequestFullScreen'] ||

								                  Module["canvas"]['webkitRequestFullScreen'] ||

								                  (function() {});

								        RFS.apply(Module["canvas"], []);

								      },requestFullScreen:function () {

								        Module.printErr('GLFW.requestFullScreen() is deprecated. Please call GLFW.requestFullscreen instead.');

								        GLFW.requestFullScreen = function() {

								          return GLFW.requestFullscreen();

								        }

								        return GLFW.requestFullscreen();

								      },exitFullscreen:function () {

								        var CFS = document['exitFullscreen'] ||

								                  document['cancelFullScreen'] ||

								                  document['mozCancelFullScreen'] ||

								                  document['webkitCancelFullScreen'] ||

								            (function() {});

								        CFS.apply(document, []);

								      },cancelFullScreen:function () {

								        Module.printErr('GLFW.cancelFullScreen() is deprecated. Please call GLFW.exitFullscreen instead.');

								        GLFW.cancelFullScreen = function() {

								          return GLFW.exitFullscreen();

								        }

								        return GLFW.exitFullscreen();

								      },getTime:function () {

								        return _emscripten_get_now() / 1000;

								      },setWindowTitle:function (winid, title) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;


								        win.title = Pointer_stringify(title);

								        if (GLFW.active.id == win.id) {

								          document.title = win.title;

								        }

								      },setKeyCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.keyFunc = cbfun;

								      },setCharCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.charFunc = cbfun;

								      },setMouseButtonCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.mouseButtonFunc = cbfun;

								      },setCursorPosCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.cursorPosFunc = cbfun;

								      },setScrollCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.scrollFunc = cbfun;

								      },setWindowSizeCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.windowSizeFunc = cbfun;


								      },setWindowCloseCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.windowCloseFunc = cbfun;

								      },setWindowRefreshCallback:function (winid, cbfun) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.windowRefreshFunc = cbfun;

								      },onClickRequestPointerLock:function (e) {

								        if (!Browser.pointerLock && Module['canvas'].requestPointerLock) {

								          Module['canvas'].requestPointerLock();

								          e.preventDefault();

								        }

								      },setInputMode:function (winid, mode, value) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;


								        switch(mode) {

								          case 0x00033001: { // GLFW_CURSOR

								            switch(value) {

								              case 0x00034001: { // GLFW_CURSOR_NORMAL

								                win.inputModes[mode] = value;

								                Module['canvas'].removeEventListener('click', GLFW.onClickRequestPointerLock, true);

								                Module['canvas'].exitPointerLock();

								                break;

								              }

								              case 0x00034002: { // GLFW_CURSOR_HIDDEN

								                console.log("glfwSetInputMode called with GLFW_CURSOR_HIDDEN value not implemented.");

								                break;

								              }

								              case 0x00034003: { // GLFW_CURSOR_DISABLED

								                win.inputModes[mode] = value;

								                Module['canvas'].addEventListener('click', GLFW.onClickRequestPointerLock, true);

								                Module['canvas'].requestPointerLock();

								                break;

								              }

								              default: {

								                console.log("glfwSetInputMode called with unknown value parameter value: " + value + ".");

								                break;

								              }

								            }

								            break;

								          }

								          case 0x00033002: { // GLFW_STICKY_KEYS

								            console.log("glfwSetInputMode called with GLFW_STICKY_KEYS mode not implemented.");

								            break;

								          }

								          case 0x00033003: { // GLFW_STICKY_MOUSE_BUTTONS

								            console.log("glfwSetInputMode called with GLFW_STICKY_MOUSE_BUTTONS mode not implemented.");

								            break;

								          }

								          default: {

								            console.log("glfwSetInputMode called with unknown mode parameter value: " + mode + ".");

								            break;

								          }

								        }

								      },getKey:function (winid, key) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return 0;

								        return win.keys[key];

								      },getMouseButton:function (winid, button) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return 0;

								        return (win.buttons & (1 << button)) > 0;

								      },getCursorPos:function (winid, x, y) {

								        setValue(x, Browser.mouseX, 'double');

								        setValue(y, Browser.mouseY, 'double');

								      },getMousePos:function (winid, x, y) {

								        setValue(x, Browser.mouseX, 'i32');

								        setValue(y, Browser.mouseY, 'i32');

								      },setCursorPos:function (winid, x, y) {

								      },getWindowPos:function (winid, x, y) {

								        var wx = 0;

								        var wy = 0;


								        var win = GLFW.WindowFromId(winid);

								        if (win) {

								          wx = win.x;

								          wy = win.y;

								        }


								        setValue(x, wx, 'i32');

								        setValue(y, wy, 'i32');

								      },setWindowPos:function (winid, x, y) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;

								        win.x = x;

								        win.y = y;

								      },getWindowSize:function (winid, width, height) {

								        var ww = 0;

								        var wh = 0;


								        var win = GLFW.WindowFromId(winid);

								        if (win) {

								          ww = win.width;

								          wh = win.height;

								        }


								        setValue(width, ww, 'i32');

								        setValue(height, wh, 'i32');

								      },setWindowSize:function (winid, width, height) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;


								        if (GLFW.active.id == win.id) {

								          if (width == screen.width && height == screen.height) {

								            GLFW.requestFullscreen();

								          } else {

								            GLFW.exitFullscreen();

								            Browser.setCanvasSize(width, height);

								            win.width = width;

								            win.height = height;

								          }

								        }


								        if (!win.windowSizeFunc) return;


								        Module['dynCall_viii'](win.windowSizeFunc, win.id, width, height);

								      },createWindow:function (width, height, title, monitor, share) {

								        var i, id;

								        for (i = 0; i < GLFW.windows.length && GLFW.windows[i] !== null; i++);

								        if (i > 0) throw "glfwCreateWindow only supports one window at time currently";


								        // id for window

								        id = i + 1;


								        // not valid

								        if (width <= 0 || height <= 0) return 0;


								        if (monitor) {

								          GLFW.requestFullscreen();

								        } else {

								          Browser.setCanvasSize(width, height);

								        }


								        // Create context when there are no existing alive windows

								        for (i = 0; i < GLFW.windows.length && GLFW.windows[i] == null; i++);

								        if (i == GLFW.windows.length) {

								          var contextAttributes = {

								            antialias: (GLFW.hints[0x0002100D] > 1), // GLFW_SAMPLES

								            depth: (GLFW.hints[0x00021005] > 0),     // GLFW_DEPTH_BITS

								            stencil: (GLFW.hints[0x00021006] > 0),   // GLFW_STENCIL_BITS

								            alpha: (GLFW.hints[0x00021004] > 0)      // GLFW_ALPHA_BITS

								          }

								          Module.ctx = Browser.createContext(Module['canvas'], true, true, contextAttributes);

								        }


								        // If context creation failed, do not return a valid window

								        if (!Module.ctx) return 0;


								        // Get non alive id

								        var win = new GLFW.Window(id, width, height, title, monitor, share);


								        // Set window to array

								        if (id - 1 == GLFW.windows.length) {

								          GLFW.windows.push(win);

								        } else {

								          GLFW.windows[id - 1] = win;

								        }


								        GLFW.active = win;

								        return win.id;

								      },destroyWindow:function (winid) {

								        var win = GLFW.WindowFromId(winid);

								        if (!win) return;


								        if (win.windowCloseFunc)

								          Module['dynCall_vi'](win.windowCloseFunc, win.id);


								        GLFW.windows[win.id - 1] = null;

								        if (GLFW.active.id == win.id)

								          GLFW.active = null;


								        // Destroy context when no alive windows

								        for (var i = 0; i < GLFW.windows.length; i++)

								          if (GLFW.windows[i] !== null) return;


								        Module.ctx = Browser.destroyContext(Module['canvas'], true, true);

								      },swapBuffers:function (winid) {

								      },GLFW2ParamToGLFW3Param:function (param) {

								        table = {

								          0x00030001:0, // GLFW_MOUSE_CURSOR

								          0x00030002:0, // GLFW_STICKY_KEYS

								          0x00030003:0, // GLFW_STICKY_MOUSE_BUTTONS

								          0x00030004:0, // GLFW_SYSTEM_KEYS

								          0x00030005:0, // GLFW_KEY_REPEAT

								          0x00030006:0, // GLFW_AUTO_POLL_EVENTS

								          0x00020001:0, // GLFW_OPENED

								          0x00020002:0, // GLFW_ACTIVE

								          0x00020003:0, // GLFW_ICONIFIED

								          0x00020004:0, // GLFW_ACCELERATED

								          0x00020005:0x00021001, // GLFW_RED_BITS

								          0x00020006:0x00021002, // GLFW_GREEN_BITS

								          0x00020007:0x00021003, // GLFW_BLUE_BITS

								          0x00020008:0x00021004, // GLFW_ALPHA_BITS

								          0x00020009:0x00021005, // GLFW_DEPTH_BITS

								          0x0002000A:0x00021006, // GLFW_STENCIL_BITS

								          0x0002000B:0x0002100F, // GLFW_REFRESH_RATE

								          0x0002000C:0x00021007, // GLFW_ACCUM_RED_BITS

								          0x0002000D:0x00021008, // GLFW_ACCUM_GREEN_BITS

								          0x0002000E:0x00021009, // GLFW_ACCUM_BLUE_BITS

								          0x0002000F:0x0002100A, // GLFW_ACCUM_ALPHA_BITS

								          0x00020010:0x0002100B, // GLFW_AUX_BUFFERS

								          0x00020011:0x0002100C, // GLFW_STEREO

								          0x00020012:0, // GLFW_WINDOW_NO_RESIZE

								          0x00020013:0x0002100D, // GLFW_FSAA_SAMPLES

								          0x00020014:0x00022002, // GLFW_OPENGL_VERSION_MAJOR

								          0x00020015:0x00022003, // GLFW_OPENGL_VERSION_MINOR

								          0x00020016:0x00022006, // GLFW_OPENGL_FORWARD_COMPAT

								          0x00020017:0x00022007, // GLFW_OPENGL_DEBUG_CONTEXT

								          0x00020018:0x00022008, // GLFW_OPENGL_PROFILE

								        };

								        return table[param];

								      }};function _glfwGetVideoModes(monitor, count) {

								      setValue(count, 0, 'i32');

								      return 0;

								    }


								  function _glLinkProgram(program) {

								      GLctx.linkProgram(GL.programs[program]);

								      GL.programInfos[program] = null; // uniforms no longer keep the same names after linking

								      GL.populateUniformTable(program);

								    }


								  function _glBindTexture(target, texture) {

								      GLctx.bindTexture(target, texture ? GL.textures[texture] : null);

								    }


								  function _emscripten_glStencilFunc(x0, x1, x2) { GLctx['stencilFunc'](x0, x1, x2) }


								  function _glGetString(name_) {

								      if (GL.stringCache[name_]) return GL.stringCache[name_];

								      var ret;

								      switch(name_) {

								        case 0x1F00 /* GL_VENDOR */:

								        case 0x1F01 /* GL_RENDERER */:

								        case 0x9245 /* UNMASKED_VENDOR_WEBGL */:

								        case 0x9246 /* UNMASKED_RENDERER_WEBGL */:

								          ret = allocate(intArrayFromString(GLctx.getParameter(name_)), 'i8', ALLOC_NORMAL);

								          break;

								        case 0x1F02 /* GL_VERSION */:

								          var glVersion = GLctx.getParameter(GLctx.VERSION);

								          // return GLES version string corresponding to the version of the WebGL context

								          {

								            glVersion = 'OpenGL ES 2.0 (' + glVersion + ')';

								          }

								          ret = allocate(intArrayFromString(glVersion), 'i8', ALLOC_NORMAL);

								          break;

								        case 0x1F03 /* GL_EXTENSIONS */:

								          var exts = GLctx.getSupportedExtensions();

								          var gl_exts = [];

								          for (var i = 0; i < exts.length; ++i) {

								            gl_exts.push(exts[i]);

								            gl_exts.push("GL_" + exts[i]);

								          }

								          ret = allocate(intArrayFromString(gl_exts.join(' ')), 'i8', ALLOC_NORMAL);

								          break;

								        case 0x8B8C /* GL_SHADING_LANGUAGE_VERSION */:

								          var glslVersion = GLctx.getParameter(GLctx.SHADING_LANGUAGE_VERSION);

								          // extract the version number 'N.M' from the string 'WebGL GLSL ES N.M ...'

								          var ver_re = /^WebGL GLSL ES ([0-9]\.[0-9][0-9]?)(?:$| .*)/;

								          var ver_num = glslVersion.match(ver_re);

								          if (ver_num !== null) {

								            if (ver_num[1].length == 3) ver_num[1] = ver_num[1] + '0'; // ensure minor version has 2 digits

								            glslVersion = 'OpenGL ES GLSL ES ' + ver_num[1] + ' (' + glslVersion + ')';

								          }

								          ret = allocate(intArrayFromString(glslVersion), 'i8', ALLOC_NORMAL);

								          break;

								        default:

								          GL.recordError(0x0500/*GL_INVALID_ENUM*/);

								          return 0;

								      }

								      GL.stringCache[name_] = ret;

								      return ret;

								    }


								  function _emscripten_glUniform3iv(location, count, value) {


								      GLctx.uniform3iv(GL.uniforms[location], HEAP32.subarray((value)>>2,(value+count*12)>>2));

								    }


								  function _emscripten_glShaderSource(shader, count, string, length) {

								      var source = GL.getSource(shader, count, string, length);


								      GLctx.shaderSource(GL.shaders[shader], source);

								    }


								  function _emscripten_glReleaseShaderCompiler() {

								      // NOP (as allowed by GLES 2.0 spec)

								    }


								  function _glDeleteProgram(id) {

								      if (!id) return;

								      var program = GL.programs[id];

								      if (!program) { // glDeleteProgram actually signals an error when deleting a nonexisting object, unlike some other GL delete functions.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      GLctx.deleteProgram(program);

								      program.name = 0;

								      GL.programs[id] = null;

								      GL.programInfos[id] = null;

								    }


								  function _emscripten_glTexParameterf(x0, x1, x2) { GLctx['texParameterf'](x0, x1, x2) }


								  function _emscripten_glTexParameteri(x0, x1, x2) { GLctx['texParameteri'](x0, x1, x2) }


								  function _glCompileShader(shader) {

								      GLctx.compileShader(GL.shaders[shader]);

								    }


								  var ERRNO_CODES={EPERM:1,ENOENT:2,ESRCH:3,EINTR:4,EIO:5,ENXIO:6,E2BIG:7,ENOEXEC:8,EBADF:9,ECHILD:10,EAGAIN:11,EWOULDBLOCK:11,ENOMEM:12,EACCES:13,EFAULT:14,ENOTBLK:15,EBUSY:16,EEXIST:17,EXDEV:18,ENODEV:19,ENOTDIR:20,EISDIR:21,EINVAL:22,ENFILE:23,EMFILE:24,ENOTTY:25,ETXTBSY:26,EFBIG:27,ENOSPC:28,ESPIPE:29,EROFS:30,EMLINK:31,EPIPE:32,EDOM:33,ERANGE:34,ENOMSG:42,EIDRM:43,ECHRNG:44,EL2NSYNC:45,EL3HLT:46,EL3RST:47,ELNRNG:48,EUNATCH:49,ENOCSI:50,EL2HLT:51,EDEADLK:35,ENOLCK:37,EBADE:52,EBADR:53,EXFULL:54,ENOANO:55,EBADRQC:56,EBADSLT:57,EDEADLOCK:35,EBFONT:59,ENOSTR:60,ENODATA:61,ETIME:62,ENOSR:63,ENONET:64,ENOPKG:65,EREMOTE:66,ENOLINK:67,EADV:68,ESRMNT:69,ECOMM:70,EPROTO:71,EMULTIHOP:72,EDOTDOT:73,EBADMSG:74,ENOTUNIQ:76,EBADFD:77,EREMCHG:78,ELIBACC:79,ELIBBAD:80,ELIBSCN:81,ELIBMAX:82,ELIBEXEC:83,ENOSYS:38,ENOTEMPTY:39,ENAMETOOLONG:36,ELOOP:40,EOPNOTSUPP:95,EPFNOSUPPORT:96,ECONNRESET:104,ENOBUFS:105,EAFNOSUPPORT:97,EPROTOTYPE:91,ENOTSOCK:88,ENOPROTOOPT:92,ESHUTDOWN:108,ECONNREFUSED:111,EADDRINUSE:98,ECONNABORTED:103,ENETUNREACH:101,ENETDOWN:100,ETIMEDOUT:110,EHOSTDOWN:112,EHOSTUNREACH:113,EINPROGRESS:115,EALREADY:114,EDESTADDRREQ:89,EMSGSIZE:90,EPROTONOSUPPORT:93,ESOCKTNOSUPPORT:94,EADDRNOTAVAIL:99,ENETRESET:102,EISCONN:106,ENOTCONN:107,ETOOMANYREFS:109,EUSERS:87,EDQUOT:122,ESTALE:116,ENOTSUP:95,ENOMEDIUM:123,EILSEQ:84,EOVERFLOW:75,ECANCELED:125,ENOTRECOVERABLE:131,EOWNERDEAD:130,ESTRPIPE:86};


								  var ERRNO_MESSAGES={0:"Success",1:"Not super-user",2:"No such file or directory",3:"No such process",4:"Interrupted system call",5:"I/O error",6:"No such device or address",7:"Arg list too long",8:"Exec format error",9:"Bad file number",10:"No children",11:"No more processes",12:"Not enough core",13:"Permission denied",14:"Bad address",15:"Block device required",16:"Mount device busy",17:"File exists",18:"Cross-device link",19:"No such device",20:"Not a directory",21:"Is a directory",22:"Invalid argument",23:"Too many open files in system",24:"Too many open files",25:"Not a typewriter",26:"Text file busy",27:"File too large",28:"No space left on device",29:"Illegal seek",30:"Read only file system",31:"Too many links",32:"Broken pipe",33:"Math arg out of domain of func",34:"Math result not representable",35:"File locking deadlock error",36:"File or path name too long",37:"No record locks available",38:"Function not implemented",39:"Directory not empty",40:"Too many symbolic links",42:"No message of desired type",43:"Identifier removed",44:"Channel number out of range",45:"Level 2 not synchronized",46:"Level 3 halted",47:"Level 3 reset",48:"Link number out of range",49:"Protocol driver not attached",50:"No CSI structure available",51:"Level 2 halted",52:"Invalid exchange",53:"Invalid request descriptor",54:"Exchange full",55:"No anode",56:"Invalid request code",57:"Invalid slot",59:"Bad font file fmt",60:"Device not a stream",61:"No data (for no delay io)",62:"Timer expired",63:"Out of streams resources",64:"Machine is not on the network",65:"Package not installed",66:"The object is remote",67:"The link has been severed",68:"Advertise error",69:"Srmount error",70:"Communication error on send",71:"Protocol error",72:"Multihop attempted",73:"Cross mount point (not really error)",74:"Trying to read unreadable message",75:"Value too large for defined data type",76:"Given log. name not unique",77:"f.d. invalid for this operation",78:"Remote address changed",79:"Can   access a needed shared lib",80:"Accessing a corrupted shared lib",81:".lib section in a.out corrupted",82:"Attempting to link in too many libs",83:"Attempting to exec a shared library",84:"Illegal byte sequence",86:"Streams pipe error",87:"Too many users",88:"Socket operation on non-socket",89:"Destination address required",90:"Message too long",91:"Protocol wrong type for socket",92:"Protocol not available",93:"Unknown protocol",94:"Socket type not supported",95:"Not supported",96:"Protocol family not supported",97:"Address family not supported by protocol family",98:"Address already in use",99:"Address not available",100:"Network interface is not configured",101:"Network is unreachable",102:"Connection reset by network",103:"Connection aborted",104:"Connection reset by peer",105:"No buffer space available",106:"Socket is already connected",107:"Socket is not connected",108:"Can't send after socket shutdown",109:"Too many references",110:"Connection timed out",111:"Connection refused",112:"Host is down",113:"Host is unreachable",114:"Socket already connected",115:"Connection already in progress",116:"Stale file handle",122:"Quota exceeded",123:"No medium (in tape drive)",125:"Operation canceled",130:"Previous owner died",131:"State not recoverable"};


								  function ___setErrNo(value) {

								      if (Module['___errno_location']) HEAP32[((Module['___errno_location']())>>2)]=value;

								      else Module.printErr('failed to set errno from JS');

								      return value;

								    }


								  var PATH={splitPath:function (filename) {

								        var splitPathRe = /^(\/?|)([\s\S]*?)((?:\.{1,2}|[^\/]+?|)(\.[^.\/]*|))(?:[\/]*)$/;

								        return splitPathRe.exec(filename).slice(1);

								      },normalizeArray:function (parts, allowAboveRoot) {

								        // if the path tries to go above the root, `up` ends up > 0

								        var up = 0;

								        for (var i = parts.length - 1; i >= 0; i--) {

								          var last = parts[i];

								          if (last === '.') {

								            parts.splice(i, 1);

								          } else if (last === '..') {

								            parts.splice(i, 1);

								            up++;

								          } else if (up) {

								            parts.splice(i, 1);

								            up--;

								          }

								        }

								        // if the path is allowed to go above the root, restore leading ..s

								        if (allowAboveRoot) {

								          for (; up--; up) {

								            parts.unshift('..');

								          }

								        }

								        return parts;

								      },normalize:function (path) {

								        var isAbsolute = path.charAt(0) === '/',

								            trailingSlash = path.substr(-1) === '/';

								        // Normalize the path

								        path = PATH.normalizeArray(path.split('/').filter(function(p) {

								          return !!p;

								        }), !isAbsolute).join('/');

								        if (!path && !isAbsolute) {

								          path = '.';

								        }

								        if (path && trailingSlash) {

								          path += '/';

								        }

								        return (isAbsolute ? '/' : '') + path;

								      },dirname:function (path) {

								        var result = PATH.splitPath(path),

								            root = result[0],

								            dir = result[1];

								        if (!root && !dir) {

								          // No dirname whatsoever

								          return '.';

								        }

								        if (dir) {

								          // It has a dirname, strip trailing slash

								          dir = dir.substr(0, dir.length - 1);

								        }

								        return root + dir;

								      },basename:function (path) {

								        // EMSCRIPTEN return '/'' for '/', not an empty string

								        if (path === '/') return '/';

								        var lastSlash = path.lastIndexOf('/');

								        if (lastSlash === -1) return path;

								        return path.substr(lastSlash+1);

								      },extname:function (path) {

								        return PATH.splitPath(path)[3];

								      },join:function () {

								        var paths = Array.prototype.slice.call(arguments, 0);

								        return PATH.normalize(paths.join('/'));

								      },join2:function (l, r) {

								        return PATH.normalize(l + '/' + r);

								      },resolve:function () {

								        var resolvedPath = '',

								          resolvedAbsolute = false;

								        for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {

								          var path = (i >= 0) ? arguments[i] : FS.cwd();

								          // Skip empty and invalid entries

								          if (typeof path !== 'string') {

								            throw new TypeError('Arguments to path.resolve must be strings');

								          } else if (!path) {

								            return ''; // an invalid portion invalidates the whole thing

								          }

								          resolvedPath = path + '/' + resolvedPath;

								          resolvedAbsolute = path.charAt(0) === '/';

								        }

								        // At this point the path should be resolved to a full absolute path, but

								        // handle relative paths to be safe (might happen when process.cwd() fails)

								        resolvedPath = PATH.normalizeArray(resolvedPath.split('/').filter(function(p) {

								          return !!p;

								        }), !resolvedAbsolute).join('/');

								        return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';

								      },relative:function (from, to) {

								        from = PATH.resolve(from).substr(1);

								        to = PATH.resolve(to).substr(1);

								        function trim(arr) {

								          var start = 0;

								          for (; start < arr.length; start++) {

								            if (arr[start] !== '') break;

								          }

								          var end = arr.length - 1;

								          for (; end >= 0; end--) {

								            if (arr[end] !== '') break;

								          }

								          if (start > end) return [];

								          return arr.slice(start, end - start + 1);

								        }

								        var fromParts = trim(from.split('/'));

								        var toParts = trim(to.split('/'));

								        var length = Math.min(fromParts.length, toParts.length);

								        var samePartsLength = length;

								        for (var i = 0; i < length; i++) {

								          if (fromParts[i] !== toParts[i]) {

								            samePartsLength = i;

								            break;

								          }

								        }

								        var outputParts = [];

								        for (var i = samePartsLength; i < fromParts.length; i++) {

								          outputParts.push('..');

								        }

								        outputParts = outputParts.concat(toParts.slice(samePartsLength));

								        return outputParts.join('/');

								      }};


								  var TTY={ttys:[],init:function () {

								        // https://github.com/kripken/emscripten/pull/1555

								        // if (ENVIRONMENT_IS_NODE) {

								        //   // currently, FS.init does not distinguish if process.stdin is a file or TTY

								        //   // device, it always assumes it's a TTY device. because of this, we're forcing

								        //   // process.stdin to UTF8 encoding to at least make stdin reading compatible

								        //   // with text files until FS.init can be refactored.

								        //   process['stdin']['setEncoding']('utf8');

								        // }

								      },shutdown:function () {

								        // https://github.com/kripken/emscripten/pull/1555

								        // if (ENVIRONMENT_IS_NODE) {

								        //   // inolen: any idea as to why node -e 'process.stdin.read()' wouldn't exit immediately (with process.stdin being a tty)?

								        //   // isaacs: because now it's reading from the stream, you've expressed interest in it, so that read() kicks off a _read() which creates a ReadReq operation

								        //   // inolen: I thought read() in that case was a synchronous operation that just grabbed some amount of buffered data if it exists?

								        //   // isaacs: it is. but it also triggers a _read() call, which calls readStart() on the handle

								        //   // isaacs: do process.stdin.pause() and i'd think it'd probably close the pending call

								        //   process['stdin']['pause']();

								        // }

								      },register:function (dev, ops) {

								        TTY.ttys[dev] = { input: [], output: [], ops: ops };

								        FS.registerDevice(dev, TTY.stream_ops);

								      },stream_ops:{open:function (stream) {

								          var tty = TTY.ttys[stream.node.rdev];

								          if (!tty) {

								            throw new FS.ErrnoError(ERRNO_CODES.ENODEV);

								          }

								          stream.tty = tty;

								          stream.seekable = false;

								        },close:function (stream) {

								          // flush any pending line data

								          stream.tty.ops.flush(stream.tty);

								        },flush:function (stream) {

								          stream.tty.ops.flush(stream.tty);

								        },read:function (stream, buffer, offset, length, pos /* ignored */) {

								          if (!stream.tty || !stream.tty.ops.get_char) {

								            throw new FS.ErrnoError(ERRNO_CODES.ENXIO);

								          }

								          var bytesRead = 0;

								          for (var i = 0; i < length; i++) {

								            var result;

								            try {

								              result = stream.tty.ops.get_char(stream.tty);

								            } catch (e) {

								              throw new FS.ErrnoError(ERRNO_CODES.EIO);

								            }

								            if (result === undefined && bytesRead === 0) {

								              throw new FS.ErrnoError(ERRNO_CODES.EAGAIN);

								            }

								            if (result === null || result === undefined) break;

								            bytesRead++;

								            buffer[offset+i] = result;

								          }

								          if (bytesRead) {

								            stream.node.timestamp = Date.now();

								          }

								          return bytesRead;

								        },write:function (stream, buffer, offset, length, pos) {

								          if (!stream.tty || !stream.tty.ops.put_char) {

								            throw new FS.ErrnoError(ERRNO_CODES.ENXIO);

								          }

								          for (var i = 0; i < length; i++) {

								            try {

								              stream.tty.ops.put_char(stream.tty, buffer[offset+i]);

								            } catch (e) {

								              throw new FS.ErrnoError(ERRNO_CODES.EIO);

								            }

								          }

								          if (length) {

								            stream.node.timestamp = Date.now();

								          }

								          return i;

								        }},default_tty_ops:{get_char:function (tty) {

								          if (!tty.input.length) {

								            var result = null;

								            if (ENVIRONMENT_IS_NODE) {

								              // we will read data by chunks of BUFSIZE

								              var BUFSIZE = 256;

								              var buf = new Buffer(BUFSIZE);

								              var bytesRead = 0;


								              var isPosixPlatform = (process.platform != 'win32'); // Node doesn't offer a direct check, so test by exclusion


								              var fd = process.stdin.fd;

								              if (isPosixPlatform) {

								                // Linux and Mac cannot use process.stdin.fd (which isn't set up as sync)

								                var usingDevice = false;

								                try {

								                  fd = fs.openSync('/dev/stdin', 'r');

								                  usingDevice = true;

								                } catch (e) {}

								              }


								              try {

								                bytesRead = fs.readSync(fd, buf, 0, BUFSIZE, null);

								              } catch(e) {

								                // Cross-platform differences: on Windows, reading EOF throws an exception, but on other OSes,

								                // reading EOF returns 0. Uniformize behavior by treating the EOF exception to return 0.

								                if (e.toString().indexOf('EOF') != -1) bytesRead = 0;

								                else throw e;

								              }


								              if (usingDevice) { fs.closeSync(fd); }

								              if (bytesRead > 0) {

								                result = buf.slice(0, bytesRead).toString('utf-8');

								              } else {

								                result = null;

								              }


								            } else if (typeof window != 'undefined' &&

								              typeof window.prompt == 'function') {

								              // Browser.

								              result = window.prompt('Input: ');  // returns null on cancel

								              if (result !== null) {

								                result += '\n';

								              }

								            } else if (typeof readline == 'function') {

								              // Command line.

								              result = readline();

								              if (result !== null) {

								                result += '\n';

								              }

								            }

								            if (!result) {

								              return null;

								            }

								            tty.input = intArrayFromString(result, true);

								          }

								          return tty.input.shift();

								        },put_char:function (tty, val) {

								          if (val === null || val === 10) {

								            Module['print'](UTF8ArrayToString(tty.output, 0));

								            tty.output = [];

								          } else {

								            if (val != 0) tty.output.push(val); // val == 0 would cut text output off in the middle.

								          }

								        },flush:function (tty) {

								          if (tty.output && tty.output.length > 0) {

								            Module['print'](UTF8ArrayToString(tty.output, 0));

								            tty.output = [];

								          }

								        }},default_tty1_ops:{put_char:function (tty, val) {

								          if (val === null || val === 10) {

								            Module['printErr'](UTF8ArrayToString(tty.output, 0));

								            tty.output = [];

								          } else {

								            if (val != 0) tty.output.push(val);

								          }

								        },flush:function (tty) {

								          if (tty.output && tty.output.length > 0) {

								            Module['printErr'](UTF8ArrayToString(tty.output, 0));

								            tty.output = [];

								          }

								        }}};


								  var MEMFS={ops_table:null,mount:function (mount) {

								        return MEMFS.createNode(null, '/', 16384 | 511 /* 0777 */, 0);

								      },createNode:function (parent, name, mode, dev) {

								        if (FS.isBlkdev(mode) || FS.isFIFO(mode)) {

								          // no supported

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        if (!MEMFS.ops_table) {

								          MEMFS.ops_table = {

								            dir: {

								              node: {

								                getattr: MEMFS.node_ops.getattr,

								                setattr: MEMFS.node_ops.setattr,

								                lookup: MEMFS.node_ops.lookup,

								                mknod: MEMFS.node_ops.mknod,

								                rename: MEMFS.node_ops.rename,

								                unlink: MEMFS.node_ops.unlink,

								                rmdir: MEMFS.node_ops.rmdir,

								                readdir: MEMFS.node_ops.readdir,

								                symlink: MEMFS.node_ops.symlink

								              },

								              stream: {

								                llseek: MEMFS.stream_ops.llseek

								              }

								            },

								            file: {

								              node: {

								                getattr: MEMFS.node_ops.getattr,

								                setattr: MEMFS.node_ops.setattr

								              },

								              stream: {

								                llseek: MEMFS.stream_ops.llseek,

								                read: MEMFS.stream_ops.read,

								                write: MEMFS.stream_ops.write,

								                allocate: MEMFS.stream_ops.allocate,

								                mmap: MEMFS.stream_ops.mmap,

								                msync: MEMFS.stream_ops.msync

								              }

								            },

								            link: {

								              node: {

								                getattr: MEMFS.node_ops.getattr,

								                setattr: MEMFS.node_ops.setattr,

								                readlink: MEMFS.node_ops.readlink

								              },

								              stream: {}

								            },

								            chrdev: {

								              node: {

								                getattr: MEMFS.node_ops.getattr,

								                setattr: MEMFS.node_ops.setattr

								              },

								              stream: FS.chrdev_stream_ops

								            }

								          };

								        }

								        var node = FS.createNode(parent, name, mode, dev);

								        if (FS.isDir(node.mode)) {

								          node.node_ops = MEMFS.ops_table.dir.node;

								          node.stream_ops = MEMFS.ops_table.dir.stream;

								          node.contents = {};

								        } else if (FS.isFile(node.mode)) {

								          node.node_ops = MEMFS.ops_table.file.node;

								          node.stream_ops = MEMFS.ops_table.file.stream;

								          node.usedBytes = 0; // The actual number of bytes used in the typed array, as opposed to contents.length which gives the whole capacity.

								          // When the byte data of the file is populated, this will point to either a typed array, or a normal JS array. Typed arrays are preferred

								          // for performance, and used by default. However, typed arrays are not resizable like normal JS arrays are, so there is a small disk size

								          // penalty involved for appending file writes that continuously grow a file similar to std::vector capacity vs used -scheme.

								          node.contents = null;

								        } else if (FS.isLink(node.mode)) {

								          node.node_ops = MEMFS.ops_table.link.node;

								          node.stream_ops = MEMFS.ops_table.link.stream;

								        } else if (FS.isChrdev(node.mode)) {

								          node.node_ops = MEMFS.ops_table.chrdev.node;

								          node.stream_ops = MEMFS.ops_table.chrdev.stream;

								        }

								        node.timestamp = Date.now();

								        // add the new node to the parent

								        if (parent) {

								          parent.contents[name] = node;

								        }

								        return node;

								      },getFileDataAsRegularArray:function (node) {

								        if (node.contents && node.contents.subarray) {

								          var arr = [];

								          for (var i = 0; i < node.usedBytes; ++i) arr.push(node.contents[i]);

								          return arr; // Returns a copy of the original data.

								        }

								        return node.contents; // No-op, the file contents are already in a JS array. Return as-is.

								      },getFileDataAsTypedArray:function (node) {

								        if (!node.contents) return new Uint8Array;

								        if (node.contents.subarray) return node.contents.subarray(0, node.usedBytes); // Make sure to not return excess unused bytes.

								        return new Uint8Array(node.contents);

								      },expandFileStorage:function (node, newCapacity) {

								        // If we are asked to expand the size of a file that already exists, revert to using a standard JS array to store the file

								        // instead of a typed array. This makes resizing the array more flexible because we can just .push() elements at the back to

								        // increase the size.

								        if (node.contents && node.contents.subarray && newCapacity > node.contents.length) {

								          node.contents = MEMFS.getFileDataAsRegularArray(node);

								          node.usedBytes = node.contents.length; // We might be writing to a lazy-loaded file which had overridden this property, so force-reset it.

								        }


								        if (!node.contents || node.contents.subarray) { // Keep using a typed array if creating a new storage, or if old one was a typed array as well.

								          var prevCapacity = node.contents ? node.contents.length : 0;

								          if (prevCapacity >= newCapacity) return; // No need to expand, the storage was already large enough.

								          // Don't expand strictly to the given requested limit if it's only a very small increase, but instead geometrically grow capacity.

								          // For small filesizes (<1MB), perform size*2 geometric increase, but for large sizes, do a much more conservative size*1.125 increase to

								          // avoid overshooting the allocation cap by a very large margin.

								          var CAPACITY_DOUBLING_MAX = 1024 * 1024;

								          newCapacity = Math.max(newCapacity, (prevCapacity * (prevCapacity < CAPACITY_DOUBLING_MAX ? 2.0 : 1.125)) | 0);

								          if (prevCapacity != 0) newCapacity = Math.max(newCapacity, 256); // At minimum allocate 256b for each file when expanding.

								          var oldContents = node.contents;

								          node.contents = new Uint8Array(newCapacity); // Allocate new storage.

								          if (node.usedBytes > 0) node.contents.set(oldContents.subarray(0, node.usedBytes), 0); // Copy old data over to the new storage.

								          return;

								        }

								        // Not using a typed array to back the file storage. Use a standard JS array instead.

								        if (!node.contents && newCapacity > 0) node.contents = [];

								        while (node.contents.length < newCapacity) node.contents.push(0);

								      },resizeFileStorage:function (node, newSize) {

								        if (node.usedBytes == newSize) return;

								        if (newSize == 0) {

								          node.contents = null; // Fully decommit when requesting a resize to zero.

								          node.usedBytes = 0;

								          return;

								        }

								        if (!node.contents || node.contents.subarray) { // Resize a typed array if that is being used as the backing store.

								          var oldContents = node.contents;

								          node.contents = new Uint8Array(new ArrayBuffer(newSize)); // Allocate new storage.

								          if (oldContents) {

								            node.contents.set(oldContents.subarray(0, Math.min(newSize, node.usedBytes))); // Copy old data over to the new storage.

								          }

								          node.usedBytes = newSize;

								          return;

								        }

								        // Backing with a JS array.

								        if (!node.contents) node.contents = [];

								        if (node.contents.length > newSize) node.contents.length = newSize;

								        else while (node.contents.length < newSize) node.contents.push(0);

								        node.usedBytes = newSize;

								      },node_ops:{getattr:function (node) {

								          var attr = {};

								          // device numbers reuse inode numbers.

								          attr.dev = FS.isChrdev(node.mode) ? node.id : 1;

								          attr.ino = node.id;

								          attr.mode = node.mode;

								          attr.nlink = 1;

								          attr.uid = 0;

								          attr.gid = 0;

								          attr.rdev = node.rdev;

								          if (FS.isDir(node.mode)) {

								            attr.size = 4096;

								          } else if (FS.isFile(node.mode)) {

								            attr.size = node.usedBytes;

								          } else if (FS.isLink(node.mode)) {

								            attr.size = node.link.length;

								          } else {

								            attr.size = 0;

								          }

								          attr.atime = new Date(node.timestamp);

								          attr.mtime = new Date(node.timestamp);

								          attr.ctime = new Date(node.timestamp);

								          // NOTE: In our implementation, st_blocks = Math.ceil(st_size/st_blksize),

								          //       but this is not required by the standard.

								          attr.blksize = 4096;

								          attr.blocks = Math.ceil(attr.size / attr.blksize);

								          return attr;

								        },setattr:function (node, attr) {

								          if (attr.mode !== undefined) {

								            node.mode = attr.mode;

								          }

								          if (attr.timestamp !== undefined) {

								            node.timestamp = attr.timestamp;

								          }

								          if (attr.size !== undefined) {

								            MEMFS.resizeFileStorage(node, attr.size);

								          }

								        },lookup:function (parent, name) {

								          throw FS.genericErrors[ERRNO_CODES.ENOENT];

								        },mknod:function (parent, name, mode, dev) {

								          return MEMFS.createNode(parent, name, mode, dev);

								        },rename:function (old_node, new_dir, new_name) {

								          // if we're overwriting a directory at new_name, make sure it's empty.

								          if (FS.isDir(old_node.mode)) {

								            var new_node;

								            try {

								              new_node = FS.lookupNode(new_dir, new_name);

								            } catch (e) {

								            }

								            if (new_node) {

								              for (var i in new_node.contents) {

								                throw new FS.ErrnoError(ERRNO_CODES.ENOTEMPTY);

								              }

								            }

								          }

								          // do the internal rewiring

								          delete old_node.parent.contents[old_node.name];

								          old_node.name = new_name;

								          new_dir.contents[new_name] = old_node;

								          old_node.parent = new_dir;

								        },unlink:function (parent, name) {

								          delete parent.contents[name];

								        },rmdir:function (parent, name) {

								          var node = FS.lookupNode(parent, name);

								          for (var i in node.contents) {

								            throw new FS.ErrnoError(ERRNO_CODES.ENOTEMPTY);

								          }

								          delete parent.contents[name];

								        },readdir:function (node) {

								          var entries = ['.', '..']

								          for (var key in node.contents) {

								            if (!node.contents.hasOwnProperty(key)) {

								              continue;

								            }

								            entries.push(key);

								          }

								          return entries;

								        },symlink:function (parent, newname, oldpath) {

								          var node = MEMFS.createNode(parent, newname, 511 /* 0777 */ | 40960, 0);

								          node.link = oldpath;

								          return node;

								        },readlink:function (node) {

								          if (!FS.isLink(node.mode)) {

								            throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								          }

								          return node.link;

								        }},stream_ops:{read:function (stream, buffer, offset, length, position) {

								          var contents = stream.node.contents;

								          if (position >= stream.node.usedBytes) return 0;

								          var size = Math.min(stream.node.usedBytes - position, length);

								          assert(size >= 0);

								          if (size > 8 && contents.subarray) { // non-trivial, and typed array

								            buffer.set(contents.subarray(position, position + size), offset);

								          } else {

								            for (var i = 0; i < size; i++) buffer[offset + i] = contents[position + i];

								          }

								          return size;

								        },write:function (stream, buffer, offset, length, position, canOwn) {

								          if (!length) return 0;

								          var node = stream.node;

								          node.timestamp = Date.now();


								          if (buffer.subarray && (!node.contents || node.contents.subarray)) { // This write is from a typed array to a typed array?

								            if (canOwn) {

								              assert(position === 0, 'canOwn must imply no weird position inside the file');

								              node.contents = buffer.subarray(offset, offset + length);

								              node.usedBytes = length;

								              return length;

								            } else if (node.usedBytes === 0 && position === 0) { // If this is a simple first write to an empty file, do a fast set since we don't need to care about old data.

								              node.contents = new Uint8Array(buffer.subarray(offset, offset + length));

								              node.usedBytes = length;

								              return length;

								            } else if (position + length <= node.usedBytes) { // Writing to an already allocated and used subrange of the file?

								              node.contents.set(buffer.subarray(offset, offset + length), position);

								              return length;

								            }

								          }


								          // Appending to an existing file and we need to reallocate, or source data did not come as a typed array.

								          MEMFS.expandFileStorage(node, position+length);

								          if (node.contents.subarray && buffer.subarray) node.contents.set(buffer.subarray(offset, offset + length), position); // Use typed array write if available.

								          else {

								            for (var i = 0; i < length; i++) {

								             node.contents[position + i] = buffer[offset + i]; // Or fall back to manual write if not.

								            }

								          }

								          node.usedBytes = Math.max(node.usedBytes, position+length);

								          return length;

								        },llseek:function (stream, offset, whence) {

								          var position = offset;

								          if (whence === 1) {  // SEEK_CUR.

								            position += stream.position;

								          } else if (whence === 2) {  // SEEK_END.

								            if (FS.isFile(stream.node.mode)) {

								              position += stream.node.usedBytes;

								            }

								          }

								          if (position < 0) {

								            throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								          }

								          return position;

								        },allocate:function (stream, offset, length) {

								          MEMFS.expandFileStorage(stream.node, offset + length);

								          stream.node.usedBytes = Math.max(stream.node.usedBytes, offset + length);

								        },mmap:function (stream, buffer, offset, length, position, prot, flags) {

								          if (!FS.isFile(stream.node.mode)) {

								            throw new FS.ErrnoError(ERRNO_CODES.ENODEV);

								          }

								          var ptr;

								          var allocated;

								          var contents = stream.node.contents;

								          // Only make a new copy when MAP_PRIVATE is specified.

								          if ( !(flags & 2) &&

								                (contents.buffer === buffer || contents.buffer === buffer.buffer) ) {

								            // We can't emulate MAP_SHARED when the file is not backed by the buffer

								            // we're mapping to (e.g. the HEAP buffer).

								            allocated = false;

								            ptr = contents.byteOffset;

								          } else {

								            // Try to avoid unnecessary slices.

								            if (position > 0 || position + length < stream.node.usedBytes) {

								              if (contents.subarray) {

								                contents = contents.subarray(position, position + length);

								              } else {

								                contents = Array.prototype.slice.call(contents, position, position + length);

								              }

								            }

								            allocated = true;

								            ptr = _malloc(length);

								            if (!ptr) {

								              throw new FS.ErrnoError(ERRNO_CODES.ENOMEM);

								            }

								            buffer.set(contents, ptr);

								          }

								          return { ptr: ptr, allocated: allocated };

								        },msync:function (stream, buffer, offset, length, mmapFlags) {

								          if (!FS.isFile(stream.node.mode)) {

								            throw new FS.ErrnoError(ERRNO_CODES.ENODEV);

								          }

								          if (mmapFlags & 2) {

								            // MAP_PRIVATE calls need not to be synced back to underlying fs

								            return 0;

								          }


								          var bytesWritten = MEMFS.stream_ops.write(stream, buffer, 0, length, offset, false);

								          // should we check if bytesWritten and length are the same?

								          return 0;

								        }}};


								  var IDBFS={dbs:{},indexedDB:function () {

								        if (typeof indexedDB !== 'undefined') return indexedDB;

								        var ret = null;

								        if (typeof window === 'object') ret = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB;

								        assert(ret, 'IDBFS used, but indexedDB not supported');

								        return ret;

								      },DB_VERSION:21,DB_STORE_NAME:"FILE_DATA",mount:function (mount) {

								        // reuse all of the core MEMFS functionality

								        return MEMFS.mount.apply(null, arguments);

								      },syncfs:function (mount, populate, callback) {

								        IDBFS.getLocalSet(mount, function(err, local) {

								          if (err) return callback(err);


								          IDBFS.getRemoteSet(mount, function(err, remote) {

								            if (err) return callback(err);


								            var src = populate ? remote : local;

								            var dst = populate ? local : remote;


								            IDBFS.reconcile(src, dst, callback);

								          });

								        });

								      },getDB:function (name, callback) {

								        // check the cache first

								        var db = IDBFS.dbs[name];

								        if (db) {

								          return callback(null, db);

								        }


								        var req;

								        try {

								          req = IDBFS.indexedDB().open(name, IDBFS.DB_VERSION);

								        } catch (e) {

								          return callback(e);

								        }

								        if (!req) {

								          return callback("Unable to connect to IndexedDB");

								        }

								        req.onupgradeneeded = function(e) {

								          var db = e.target.result;

								          var transaction = e.target.transaction;


								          var fileStore;


								          if (db.objectStoreNames.contains(IDBFS.DB_STORE_NAME)) {

								            fileStore = transaction.objectStore(IDBFS.DB_STORE_NAME);

								          } else {

								            fileStore = db.createObjectStore(IDBFS.DB_STORE_NAME);

								          }


								          if (!fileStore.indexNames.contains('timestamp')) {

								            fileStore.createIndex('timestamp', 'timestamp', { unique: false });

								          }

								        };

								        req.onsuccess = function() {

								          db = req.result;


								          // add to the cache

								          IDBFS.dbs[name] = db;

								          callback(null, db);

								        };

								        req.onerror = function(e) {

								          callback(this.error);

								          e.preventDefault();

								        };

								      },getLocalSet:function (mount, callback) {

								        var entries = {};


								        function isRealDir(p) {

								          return p !== '.' && p !== '..';

								        };

								        function toAbsolute(root) {

								          return function(p) {

								            return PATH.join2(root, p);

								          }

								        };


								        var check = FS.readdir(mount.mountpoint).filter(isRealDir).map(toAbsolute(mount.mountpoint));


								        while (check.length) {

								          var path = check.pop();

								          var stat;


								          try {

								            stat = FS.stat(path);

								          } catch (e) {

								            return callback(e);

								          }


								          if (FS.isDir(stat.mode)) {

								            check.push.apply(check, FS.readdir(path).filter(isRealDir).map(toAbsolute(path)));

								          }


								          entries[path] = { timestamp: stat.mtime };

								        }


								        return callback(null, { type: 'local', entries: entries });

								      },getRemoteSet:function (mount, callback) {

								        var entries = {};


								        IDBFS.getDB(mount.mountpoint, function(err, db) {

								          if (err) return callback(err);


								          var transaction = db.transaction([IDBFS.DB_STORE_NAME], 'readonly');

								          transaction.onerror = function(e) {

								            callback(this.error);

								            e.preventDefault();

								          };


								          var store = transaction.objectStore(IDBFS.DB_STORE_NAME);

								          var index = store.index('timestamp');


								          index.openKeyCursor().onsuccess = function(event) {

								            var cursor = event.target.result;


								            if (!cursor) {

								              return callback(null, { type: 'remote', db: db, entries: entries });

								            }


								            entries[cursor.primaryKey] = { timestamp: cursor.key };


								            cursor.continue();

								          };

								        });

								      },loadLocalEntry:function (path, callback) {

								        var stat, node;


								        try {

								          var lookup = FS.lookupPath(path);

								          node = lookup.node;

								          stat = FS.stat(path);

								        } catch (e) {

								          return callback(e);

								        }


								        if (FS.isDir(stat.mode)) {

								          return callback(null, { timestamp: stat.mtime, mode: stat.mode });

								        } else if (FS.isFile(stat.mode)) {

								          // Performance consideration: storing a normal JavaScript array to a IndexedDB is much slower than storing a typed array.

								          // Therefore always convert the file contents to a typed array first before writing the data to IndexedDB.

								          node.contents = MEMFS.getFileDataAsTypedArray(node);

								          return callback(null, { timestamp: stat.mtime, mode: stat.mode, contents: node.contents });

								        } else {

								          return callback(new Error('node type not supported'));

								        }

								      },storeLocalEntry:function (path, entry, callback) {

								        try {

								          if (FS.isDir(entry.mode)) {

								            FS.mkdir(path, entry.mode);

								          } else if (FS.isFile(entry.mode)) {

								            FS.writeFile(path, entry.contents, { encoding: 'binary', canOwn: true });

								          } else {

								            return callback(new Error('node type not supported'));

								          }


								          FS.chmod(path, entry.mode);

								          FS.utime(path, entry.timestamp, entry.timestamp);

								        } catch (e) {

								          return callback(e);

								        }


								        callback(null);

								      },removeLocalEntry:function (path, callback) {

								        try {

								          var lookup = FS.lookupPath(path);

								          var stat = FS.stat(path);


								          if (FS.isDir(stat.mode)) {

								            FS.rmdir(path);

								          } else if (FS.isFile(stat.mode)) {

								            FS.unlink(path);

								          }

								        } catch (e) {

								          return callback(e);

								        }


								        callback(null);

								      },loadRemoteEntry:function (store, path, callback) {

								        var req = store.get(path);

								        req.onsuccess = function(event) { callback(null, event.target.result); };

								        req.onerror = function(e) {

								          callback(this.error);

								          e.preventDefault();

								        };

								      },storeRemoteEntry:function (store, path, entry, callback) {

								        var req = store.put(entry, path);

								        req.onsuccess = function() { callback(null); };

								        req.onerror = function(e) {

								          callback(this.error);

								          e.preventDefault();

								        };

								      },removeRemoteEntry:function (store, path, callback) {

								        var req = store.delete(path);

								        req.onsuccess = function() { callback(null); };

								        req.onerror = function(e) {

								          callback(this.error);

								          e.preventDefault();

								        };

								      },reconcile:function (src, dst, callback) {

								        var total = 0;


								        var create = [];

								        Object.keys(src.entries).forEach(function (key) {

								          var e = src.entries[key];

								          var e2 = dst.entries[key];

								          if (!e2 || e.timestamp > e2.timestamp) {

								            create.push(key);

								            total++;

								          }

								        });


								        var remove = [];

								        Object.keys(dst.entries).forEach(function (key) {

								          var e = dst.entries[key];

								          var e2 = src.entries[key];

								          if (!e2) {

								            remove.push(key);

								            total++;

								          }

								        });


								        if (!total) {

								          return callback(null);

								        }


								        var errored = false;

								        var completed = 0;

								        var db = src.type === 'remote' ? src.db : dst.db;

								        var transaction = db.transaction([IDBFS.DB_STORE_NAME], 'readwrite');

								        var store = transaction.objectStore(IDBFS.DB_STORE_NAME);


								        function done(err) {

								          if (err) {

								            if (!done.errored) {

								              done.errored = true;

								              return callback(err);

								            }

								            return;

								          }

								          if (++completed >= total) {

								            return callback(null);

								          }

								        };


								        transaction.onerror = function(e) {

								          done(this.error);

								          e.preventDefault();

								        };


								        // sort paths in ascending order so directory entries are created

								        // before the files inside them

								        create.sort().forEach(function (path) {

								          if (dst.type === 'local') {

								            IDBFS.loadRemoteEntry(store, path, function (err, entry) {

								              if (err) return done(err);

								              IDBFS.storeLocalEntry(path, entry, done);

								            });

								          } else {

								            IDBFS.loadLocalEntry(path, function (err, entry) {

								              if (err) return done(err);

								              IDBFS.storeRemoteEntry(store, path, entry, done);

								            });

								          }

								        });


								        // sort paths in descending order so files are deleted before their

								        // parent directories

								        remove.sort().reverse().forEach(function(path) {

								          if (dst.type === 'local') {

								            IDBFS.removeLocalEntry(path, done);

								          } else {

								            IDBFS.removeRemoteEntry(store, path, done);

								          }

								        });

								      }};


								  var NODEFS={isWindows:false,staticInit:function () {

								        NODEFS.isWindows = !!process.platform.match(/^win/);

								      },mount:function (mount) {

								        assert(ENVIRONMENT_IS_NODE);

								        return NODEFS.createNode(null, '/', NODEFS.getMode(mount.opts.root), 0);

								      },createNode:function (parent, name, mode, dev) {

								        if (!FS.isDir(mode) && !FS.isFile(mode) && !FS.isLink(mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        var node = FS.createNode(parent, name, mode);

								        node.node_ops = NODEFS.node_ops;

								        node.stream_ops = NODEFS.stream_ops;

								        return node;

								      },getMode:function (path) {

								        var stat;

								        try {

								          stat = fs.lstatSync(path);

								          if (NODEFS.isWindows) {

								            // On Windows, directories return permission bits 'rw-rw-rw-', even though they have 'rwxrwxrwx', so

								            // propagate write bits to execute bits.

								            stat.mode = stat.mode | ((stat.mode & 146) >> 1);

								          }

								        } catch (e) {

								          if (!e.code) throw e;

								          throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								        }

								        return stat.mode;

								      },realPath:function (node) {

								        var parts = [];

								        while (node.parent !== node) {

								          parts.push(node.name);

								          node = node.parent;

								        }

								        parts.push(node.mount.opts.root);

								        parts.reverse();

								        return PATH.join.apply(null, parts);

								      },flagsToPermissionStringMap:{0:"r",1:"r+",2:"r+",64:"r",65:"r+",66:"r+",129:"rx+",193:"rx+",514:"w+",577:"w",578:"w+",705:"wx",706:"wx+",1024:"a",1025:"a",1026:"a+",1089:"a",1090:"a+",1153:"ax",1154:"ax+",1217:"ax",1218:"ax+",4096:"rs",4098:"rs+"},flagsToPermissionString:function (flags) {

								        flags &= ~0x200000 /*O_PATH*/; // Ignore this flag from musl, otherwise node.js fails to open the file.

								        flags &= ~0x800 /*O_NONBLOCK*/; // Ignore this flag from musl, otherwise node.js fails to open the file.

								        flags &= ~0x8000 /*O_LARGEFILE*/; // Ignore this flag from musl, otherwise node.js fails to open the file.

								        flags &= ~0x80000 /*O_CLOEXEC*/; // Some applications may pass it; it makes no sense for a single process.

								        if (flags in NODEFS.flagsToPermissionStringMap) {

								          return NODEFS.flagsToPermissionStringMap[flags];

								        } else {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								      },node_ops:{getattr:function (node) {

								          var path = NODEFS.realPath(node);

								          var stat;

								          try {

								            stat = fs.lstatSync(path);

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								          // node.js v0.10.20 doesn't report blksize and blocks on Windows. Fake them with default blksize of 4096.

								          // See http://support.microsoft.com/kb/140365

								          if (NODEFS.isWindows && !stat.blksize) {

								            stat.blksize = 4096;

								          }

								          if (NODEFS.isWindows && !stat.blocks) {

								            stat.blocks = (stat.size+stat.blksize-1)/stat.blksize|0;

								          }

								          return {

								            dev: stat.dev,

								            ino: stat.ino,

								            mode: stat.mode,

								            nlink: stat.nlink,

								            uid: stat.uid,

								            gid: stat.gid,

								            rdev: stat.rdev,

								            size: stat.size,

								            atime: stat.atime,

								            mtime: stat.mtime,

								            ctime: stat.ctime,

								            blksize: stat.blksize,

								            blocks: stat.blocks

								          };

								        },setattr:function (node, attr) {

								          var path = NODEFS.realPath(node);

								          try {

								            if (attr.mode !== undefined) {

								              fs.chmodSync(path, attr.mode);

								              // update the common node structure mode as well

								              node.mode = attr.mode;

								            }

								            if (attr.timestamp !== undefined) {

								              var date = new Date(attr.timestamp);

								              fs.utimesSync(path, date, date);

								            }

								            if (attr.size !== undefined) {

								              fs.truncateSync(path, attr.size);

								            }

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },lookup:function (parent, name) {

								          var path = PATH.join2(NODEFS.realPath(parent), name);

								          var mode = NODEFS.getMode(path);

								          return NODEFS.createNode(parent, name, mode);

								        },mknod:function (parent, name, mode, dev) {

								          var node = NODEFS.createNode(parent, name, mode, dev);

								          // create the backing node for this in the fs root as well

								          var path = NODEFS.realPath(node);

								          try {

								            if (FS.isDir(node.mode)) {

								              fs.mkdirSync(path, node.mode);

								            } else {

								              fs.writeFileSync(path, '', { mode: node.mode });

								            }

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								          return node;

								        },rename:function (oldNode, newDir, newName) {

								          var oldPath = NODEFS.realPath(oldNode);

								          var newPath = PATH.join2(NODEFS.realPath(newDir), newName);

								          try {

								            fs.renameSync(oldPath, newPath);

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },unlink:function (parent, name) {

								          var path = PATH.join2(NODEFS.realPath(parent), name);

								          try {

								            fs.unlinkSync(path);

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },rmdir:function (parent, name) {

								          var path = PATH.join2(NODEFS.realPath(parent), name);

								          try {

								            fs.rmdirSync(path);

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },readdir:function (node) {

								          var path = NODEFS.realPath(node);

								          try {

								            return fs.readdirSync(path);

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },symlink:function (parent, newName, oldPath) {

								          var newPath = PATH.join2(NODEFS.realPath(parent), newName);

								          try {

								            fs.symlinkSync(oldPath, newPath);

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },readlink:function (node) {

								          var path = NODEFS.realPath(node);

								          try {

								            path = fs.readlinkSync(path);

								            path = NODEJS_PATH.relative(NODEJS_PATH.resolve(node.mount.opts.root), path);

								            return path;

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        }},stream_ops:{open:function (stream) {

								          var path = NODEFS.realPath(stream.node);

								          try {

								            if (FS.isFile(stream.node.mode)) {

								              stream.nfd = fs.openSync(path, NODEFS.flagsToPermissionString(stream.flags));

								            }

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },close:function (stream) {

								          try {

								            if (FS.isFile(stream.node.mode) && stream.nfd) {

								              fs.closeSync(stream.nfd);

								            }

								          } catch (e) {

								            if (!e.code) throw e;

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								        },read:function (stream, buffer, offset, length, position) {

								          if (length === 0) return 0; // node errors on 0 length reads

								          // FIXME this is terrible.

								          var nbuffer = new Buffer(length);

								          var res;

								          try {

								            res = fs.readSync(stream.nfd, nbuffer, 0, length, position);

								          } catch (e) {

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								          if (res > 0) {

								            for (var i = 0; i < res; i++) {

								              buffer[offset + i] = nbuffer[i];

								            }

								          }

								          return res;

								        },write:function (stream, buffer, offset, length, position) {

								          // FIXME this is terrible.

								          var nbuffer = new Buffer(buffer.subarray(offset, offset + length));

								          var res;

								          try {

								            res = fs.writeSync(stream.nfd, nbuffer, 0, length, position);

								          } catch (e) {

								            throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								          }

								          return res;

								        },llseek:function (stream, offset, whence) {

								          var position = offset;

								          if (whence === 1) {  // SEEK_CUR.

								            position += stream.position;

								          } else if (whence === 2) {  // SEEK_END.

								            if (FS.isFile(stream.node.mode)) {

								              try {

								                var stat = fs.fstatSync(stream.nfd);

								                position += stat.size;

								              } catch (e) {

								                throw new FS.ErrnoError(ERRNO_CODES[e.code]);

								              }

								            }

								          }


								          if (position < 0) {

								            throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								          }


								          return position;

								        }}};


								  var WORKERFS={DIR_MODE:16895,FILE_MODE:33279,reader:null,mount:function (mount) {

								        assert(ENVIRONMENT_IS_WORKER);

								        if (!WORKERFS.reader) WORKERFS.reader = new FileReaderSync();

								        var root = WORKERFS.createNode(null, '/', WORKERFS.DIR_MODE, 0);

								        var createdParents = {};

								        function ensureParent(path) {

								          // return the parent node, creating subdirs as necessary

								          var parts = path.split('/');

								          var parent = root;

								          for (var i = 0; i < parts.length-1; i++) {

								            var curr = parts.slice(0, i+1).join('/');

								            // Issue 4254: Using curr as a node name will prevent the node

								            // from being found in FS.nameTable when FS.open is called on

								            // a path which holds a child of this node,

								            // given that all FS functions assume node names

								            // are just their corresponding parts within their given path,

								            // rather than incremental aggregates which include their parent's

								            // directories.

								            if (!createdParents[curr]) {

								              createdParents[curr] = WORKERFS.createNode(parent, parts[i], WORKERFS.DIR_MODE, 0);

								            }

								            parent = createdParents[curr];

								          }

								          return parent;

								        }

								        function base(path) {

								          var parts = path.split('/');

								          return parts[parts.length-1];

								        }

								        // We also accept FileList here, by using Array.prototype

								        Array.prototype.forEach.call(mount.opts["files"] || [], function(file) {

								          WORKERFS.createNode(ensureParent(file.name), base(file.name), WORKERFS.FILE_MODE, 0, file, file.lastModifiedDate);

								        });

								        (mount.opts["blobs"] || []).forEach(function(obj) {

								          WORKERFS.createNode(ensureParent(obj["name"]), base(obj["name"]), WORKERFS.FILE_MODE, 0, obj["data"]);

								        });

								        (mount.opts["packages"] || []).forEach(function(pack) {

								          pack['metadata'].files.forEach(function(file) {

								            var name = file.filename.substr(1); // remove initial slash

								            WORKERFS.createNode(ensureParent(name), base(name), WORKERFS.FILE_MODE, 0, pack['blob'].slice(file.start, file.end));

								          });

								        });

								        return root;

								      },createNode:function (parent, name, mode, dev, contents, mtime) {

								        var node = FS.createNode(parent, name, mode);

								        node.mode = mode;

								        node.node_ops = WORKERFS.node_ops;

								        node.stream_ops = WORKERFS.stream_ops;

								        node.timestamp = (mtime || new Date).getTime();

								        assert(WORKERFS.FILE_MODE !== WORKERFS.DIR_MODE);

								        if (mode === WORKERFS.FILE_MODE) {

								          node.size = contents.size;

								          node.contents = contents;

								        } else {

								          node.size = 4096;

								          node.contents = {};

								        }

								        if (parent) {

								          parent.contents[name] = node;

								        }

								        return node;

								      },node_ops:{getattr:function (node) {

								          return {

								            dev: 1,

								            ino: undefined,

								            mode: node.mode,

								            nlink: 1,

								            uid: 0,

								            gid: 0,

								            rdev: undefined,

								            size: node.size,

								            atime: new Date(node.timestamp),

								            mtime: new Date(node.timestamp),

								            ctime: new Date(node.timestamp),

								            blksize: 4096,

								            blocks: Math.ceil(node.size / 4096),

								          };

								        },setattr:function (node, attr) {

								          if (attr.mode !== undefined) {

								            node.mode = attr.mode;

								          }

								          if (attr.timestamp !== undefined) {

								            node.timestamp = attr.timestamp;

								          }

								        },lookup:function (parent, name) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        },mknod:function (parent, name, mode, dev) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        },rename:function (oldNode, newDir, newName) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        },unlink:function (parent, name) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        },rmdir:function (parent, name) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        },readdir:function (node) {

								          var entries = ['.', '..'];

								          for (var key in node.contents) {

								            if (!node.contents.hasOwnProperty(key)) {

								              continue;

								            }

								            entries.push(key);

								          }

								          return entries;

								        },symlink:function (parent, newName, oldPath) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        },readlink:function (node) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }},stream_ops:{read:function (stream, buffer, offset, length, position) {

								          if (position >= stream.node.size) return 0;

								          var chunk = stream.node.contents.slice(position, position + length);

								          var ab = WORKERFS.reader.readAsArrayBuffer(chunk);

								          buffer.set(new Uint8Array(ab), offset);

								          return chunk.size;

								        },write:function (stream, buffer, offset, length, position) {

								          throw new FS.ErrnoError(ERRNO_CODES.EIO);

								        },llseek:function (stream, offset, whence) {

								          var position = offset;

								          if (whence === 1) {  // SEEK_CUR.

								            position += stream.position;

								          } else if (whence === 2) {  // SEEK_END.

								            if (FS.isFile(stream.node.mode)) {

								              position += stream.node.size;

								            }

								          }

								          if (position < 0) {

								            throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								          }

								          return position;

								        }}};


								  var _stdin; if (ENVIRONMENT_IS_PTHREAD) _stdin = PthreadWorkerInit._stdin; else PthreadWorkerInit._stdin = _stdin = allocate(1, "i32*", ALLOC_STATIC);


								  var _stdout; if (ENVIRONMENT_IS_PTHREAD) _stdout = PthreadWorkerInit._stdout; else PthreadWorkerInit._stdout = _stdout = allocate(1, "i32*", ALLOC_STATIC);


								  var _stderr; if (ENVIRONMENT_IS_PTHREAD) _stderr = PthreadWorkerInit._stderr; else PthreadWorkerInit._stderr = _stderr = allocate(1, "i32*", ALLOC_STATIC);var FS={root:null,mounts:[],devices:[null],streams:[],nextInode:1,nameTable:null,currentPath:"/",initialized:false,ignorePermissions:true,trackingDelegate:{},tracking:{openFlags:{READ:1,WRITE:2}},ErrnoError:null,genericErrors:{},filesystems:null,syncFSRequests:0,handleFSError:function (e) {

								        if (!(e instanceof FS.ErrnoError)) throw e + ' : ' + stackTrace();

								        return ___setErrNo(e.errno);

								      },lookupPath:function (path, opts) {

								        path = PATH.resolve(FS.cwd(), path);

								        opts = opts || {};


								        if (!path) return { path: '', node: null };


								        var defaults = {

								          follow_mount: true,

								          recurse_count: 0

								        };

								        for (var key in defaults) {

								          if (opts[key] === undefined) {

								            opts[key] = defaults[key];

								          }

								        }


								        if (opts.recurse_count > 8) {  // max recursive lookup of 8

								          throw new FS.ErrnoError(ERRNO_CODES.ELOOP);

								        }


								        // split the path

								        var parts = PATH.normalizeArray(path.split('/').filter(function(p) {

								          return !!p;

								        }), false);


								        // start at the root

								        var current = FS.root;

								        var current_path = '/';


								        for (var i = 0; i < parts.length; i++) {

								          var islast = (i === parts.length-1);

								          if (islast && opts.parent) {

								            // stop resolving

								            break;

								          }


								          current = FS.lookupNode(current, parts[i]);

								          current_path = PATH.join2(current_path, parts[i]);


								          // jump to the mount's root node if this is a mountpoint

								          if (FS.isMountpoint(current)) {

								            if (!islast || (islast && opts.follow_mount)) {

								              current = current.mounted.root;

								            }

								          }


								          // by default, lookupPath will not follow a symlink if it is the final path component.

								          // setting opts.follow = true will override this behavior.

								          if (!islast || opts.follow) {

								            var count = 0;

								            while (FS.isLink(current.mode)) {

								              var link = FS.readlink(current_path);

								              current_path = PATH.resolve(PATH.dirname(current_path), link);


								              var lookup = FS.lookupPath(current_path, { recurse_count: opts.recurse_count });

								              current = lookup.node;


								              if (count++ > 40) {  // limit max consecutive symlinks to 40 (SYMLOOP_MAX).

								                throw new FS.ErrnoError(ERRNO_CODES.ELOOP);

								              }

								            }

								          }

								        }


								        return { path: current_path, node: current };

								      },getPath:function (node) {

								        var path;

								        while (true) {

								          if (FS.isRoot(node)) {

								            var mount = node.mount.mountpoint;

								            if (!path) return mount;

								            return mount[mount.length-1] !== '/' ? mount + '/' + path : mount + path;

								          }

								          path = path ? node.name + '/' + path : node.name;

								          node = node.parent;

								        }

								      },hashName:function (parentid, name) {

								        var hash = 0;


								        for (var i = 0; i < name.length; i++) {

								          hash = ((hash << 5) - hash + name.charCodeAt(i)) | 0;

								        }

								        return ((parentid + hash) >>> 0) % FS.nameTable.length;

								      },hashAddNode:function (node) {

								        var hash = FS.hashName(node.parent.id, node.name);

								        node.name_next = FS.nameTable[hash];

								        FS.nameTable[hash] = node;

								      },hashRemoveNode:function (node) {

								        var hash = FS.hashName(node.parent.id, node.name);

								        if (FS.nameTable[hash] === node) {

								          FS.nameTable[hash] = node.name_next;

								        } else {

								          var current = FS.nameTable[hash];

								          while (current) {

								            if (current.name_next === node) {

								              current.name_next = node.name_next;

								              break;

								            }

								            current = current.name_next;

								          }

								        }

								      },lookupNode:function (parent, name) {

								        var err = FS.mayLookup(parent);

								        if (err) {

								          throw new FS.ErrnoError(err, parent);

								        }

								        var hash = FS.hashName(parent.id, name);

								        for (var node = FS.nameTable[hash]; node; node = node.name_next) {

								          var nodeName = node.name;

								          if (node.parent.id === parent.id && nodeName === name) {

								            return node;

								          }

								        }

								        // if we failed to find it in the cache, call into the VFS

								        return FS.lookup(parent, name);

								      },createNode:function (parent, name, mode, rdev) {

								        if (!FS.FSNode) {

								          FS.FSNode = function(parent, name, mode, rdev) {

								            if (!parent) {

								              parent = this;  // root node sets parent to itself

								            }

								            this.parent = parent;

								            this.mount = parent.mount;

								            this.mounted = null;

								            this.id = FS.nextInode++;

								            this.name = name;

								            this.mode = mode;

								            this.node_ops = {};

								            this.stream_ops = {};

								            this.rdev = rdev;

								          };


								          FS.FSNode.prototype = {};


								          // compatibility

								          var readMode = 292 | 73;

								          var writeMode = 146;


								          // NOTE we must use Object.defineProperties instead of individual calls to

								          // Object.defineProperty in order to make closure compiler happy

								          Object.defineProperties(FS.FSNode.prototype, {

								            read: {

								              get: function() { return (this.mode & readMode) === readMode; },

								              set: function(val) { val ? this.mode |= readMode : this.mode &= ~readMode; }

								            },

								            write: {

								              get: function() { return (this.mode & writeMode) === writeMode; },

								              set: function(val) { val ? this.mode |= writeMode : this.mode &= ~writeMode; }

								            },

								            isFolder: {

								              get: function() { return FS.isDir(this.mode); }

								            },

								            isDevice: {

								              get: function() { return FS.isChrdev(this.mode); }

								            }

								          });

								        }


								        var node = new FS.FSNode(parent, name, mode, rdev);


								        FS.hashAddNode(node);


								        return node;

								      },destroyNode:function (node) {

								        FS.hashRemoveNode(node);

								      },isRoot:function (node) {

								        return node === node.parent;

								      },isMountpoint:function (node) {

								        return !!node.mounted;

								      },isFile:function (mode) {

								        return (mode & 61440) === 32768;

								      },isDir:function (mode) {

								        return (mode & 61440) === 16384;

								      },isLink:function (mode) {

								        return (mode & 61440) === 40960;

								      },isChrdev:function (mode) {

								        return (mode & 61440) === 8192;

								      },isBlkdev:function (mode) {

								        return (mode & 61440) === 24576;

								      },isFIFO:function (mode) {

								        return (mode & 61440) === 4096;

								      },isSocket:function (mode) {

								        return (mode & 49152) === 49152;

								      },flagModes:{"r":0,"rs":1052672,"r+":2,"w":577,"wx":705,"xw":705,"w+":578,"wx+":706,"xw+":706,"a":1089,"ax":1217,"xa":1217,"a+":1090,"ax+":1218,"xa+":1218},modeStringToFlags:function (str) {

								        var flags = FS.flagModes[str];

								        if (typeof flags === 'undefined') {

								          throw new Error('Unknown file open mode: ' + str);

								        }

								        return flags;

								      },flagsToPermissionString:function (flag) {

								        var perms = ['r', 'w', 'rw'][flag & 3];

								        if ((flag & 512)) {

								          perms += 'w';

								        }

								        return perms;

								      },nodePermissions:function (node, perms) {

								        if (FS.ignorePermissions) {

								          return 0;

								        }

								        // return 0 if any user, group or owner bits are set.

								        if (perms.indexOf('r') !== -1 && !(node.mode & 292)) {

								          return ERRNO_CODES.EACCES;

								        } else if (perms.indexOf('w') !== -1 && !(node.mode & 146)) {

								          return ERRNO_CODES.EACCES;

								        } else if (perms.indexOf('x') !== -1 && !(node.mode & 73)) {

								          return ERRNO_CODES.EACCES;

								        }

								        return 0;

								      },mayLookup:function (dir) {

								        var err = FS.nodePermissions(dir, 'x');

								        if (err) return err;

								        if (!dir.node_ops.lookup) return ERRNO_CODES.EACCES;

								        return 0;

								      },mayCreate:function (dir, name) {

								        try {

								          var node = FS.lookupNode(dir, name);

								          return ERRNO_CODES.EEXIST;

								        } catch (e) {

								        }

								        return FS.nodePermissions(dir, 'wx');

								      },mayDelete:function (dir, name, isdir) {

								        var node;

								        try {

								          node = FS.lookupNode(dir, name);

								        } catch (e) {

								          return e.errno;

								        }

								        var err = FS.nodePermissions(dir, 'wx');

								        if (err) {

								          return err;

								        }

								        if (isdir) {

								          if (!FS.isDir(node.mode)) {

								            return ERRNO_CODES.ENOTDIR;

								          }

								          if (FS.isRoot(node) || FS.getPath(node) === FS.cwd()) {

								            return ERRNO_CODES.EBUSY;

								          }

								        } else {

								          if (FS.isDir(node.mode)) {

								            return ERRNO_CODES.EISDIR;

								          }

								        }

								        return 0;

								      },mayOpen:function (node, flags) {

								        if (!node) {

								          return ERRNO_CODES.ENOENT;

								        }

								        if (FS.isLink(node.mode)) {

								          return ERRNO_CODES.ELOOP;

								        } else if (FS.isDir(node.mode)) {

								          if (FS.flagsToPermissionString(flags) !== 'r' || // opening for write

								              (flags & 512)) { // TODO: check for O_SEARCH? (== search for dir only)

								            return ERRNO_CODES.EISDIR;

								          }

								        }

								        return FS.nodePermissions(node, FS.flagsToPermissionString(flags));

								      },MAX_OPEN_FDS:4096,nextfd:function (fd_start, fd_end) {

								        fd_start = fd_start || 0;

								        fd_end = fd_end || FS.MAX_OPEN_FDS;

								        for (var fd = fd_start; fd <= fd_end; fd++) {

								          if (!FS.streams[fd]) {

								            return fd;

								          }

								        }

								        throw new FS.ErrnoError(ERRNO_CODES.EMFILE);

								      },getStream:function (fd) {

								        return FS.streams[fd];

								      },createStream:function (stream, fd_start, fd_end) {

								        if (!FS.FSStream) {

								          FS.FSStream = function(){};

								          FS.FSStream.prototype = {};

								          // compatibility

								          Object.defineProperties(FS.FSStream.prototype, {

								            object: {

								              get: function() { return this.node; },

								              set: function(val) { this.node = val; }

								            },

								            isRead: {

								              get: function() { return (this.flags & 2097155) !== 1; }

								            },

								            isWrite: {

								              get: function() { return (this.flags & 2097155) !== 0; }

								            },

								            isAppend: {

								              get: function() { return (this.flags & 1024); }

								            }

								          });

								        }

								        // clone it, so we can return an instance of FSStream

								        var newStream = new FS.FSStream();

								        for (var p in stream) {

								          newStream[p] = stream[p];

								        }

								        stream = newStream;

								        var fd = FS.nextfd(fd_start, fd_end);

								        stream.fd = fd;

								        FS.streams[fd] = stream;

								        return stream;

								      },closeStream:function (fd) {

								        FS.streams[fd] = null;

								      },chrdev_stream_ops:{open:function (stream) {

								          var device = FS.getDevice(stream.node.rdev);

								          // override node's stream ops with the device's

								          stream.stream_ops = device.stream_ops;

								          // forward the open call

								          if (stream.stream_ops.open) {

								            stream.stream_ops.open(stream);

								          }

								        },llseek:function () {

								          throw new FS.ErrnoError(ERRNO_CODES.ESPIPE);

								        }},major:function (dev) {

								        return ((dev) >> 8);

								      },minor:function (dev) {

								        return ((dev) & 0xff);

								      },makedev:function (ma, mi) {

								        return ((ma) << 8 | (mi));

								      },registerDevice:function (dev, ops) {

								        FS.devices[dev] = { stream_ops: ops };

								      },getDevice:function (dev) {

								        return FS.devices[dev];

								      },getMounts:function (mount) {

								        var mounts = [];

								        var check = [mount];


								        while (check.length) {

								          var m = check.pop();


								          mounts.push(m);


								          check.push.apply(check, m.mounts);

								        }


								        return mounts;

								      },syncfs:function (populate, callback) {

								        if (typeof(populate) === 'function') {

								          callback = populate;

								          populate = false;

								        }


								        FS.syncFSRequests++;


								        if (FS.syncFSRequests > 1) {

								          console.log('warning: ' + FS.syncFSRequests + ' FS.syncfs operations in flight at once, probably just doing extra work');

								        }


								        var mounts = FS.getMounts(FS.root.mount);

								        var completed = 0;


								        function doCallback(err) {

								          assert(FS.syncFSRequests > 0);

								          FS.syncFSRequests--;

								          return callback(err);

								        }


								        function done(err) {

								          if (err) {

								            if (!done.errored) {

								              done.errored = true;

								              return doCallback(err);

								            }

								            return;

								          }

								          if (++completed >= mounts.length) {

								            doCallback(null);

								          }

								        };


								        // sync all mounts

								        mounts.forEach(function (mount) {

								          if (!mount.type.syncfs) {

								            return done(null);

								          }

								          mount.type.syncfs(mount, populate, done);

								        });

								      },mount:function (type, opts, mountpoint) {

								        var root = mountpoint === '/';

								        var pseudo = !mountpoint;

								        var node;


								        if (root && FS.root) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBUSY);

								        } else if (!root && !pseudo) {

								          var lookup = FS.lookupPath(mountpoint, { follow_mount: false });


								          mountpoint = lookup.path;  // use the absolute path

								          node = lookup.node;


								          if (FS.isMountpoint(node)) {

								            throw new FS.ErrnoError(ERRNO_CODES.EBUSY);

								          }


								          if (!FS.isDir(node.mode)) {

								            throw new FS.ErrnoError(ERRNO_CODES.ENOTDIR);

								          }

								        }


								        var mount = {

								          type: type,

								          opts: opts,

								          mountpoint: mountpoint,

								          mounts: []

								        };


								        // create a root node for the fs

								        var mountRoot = type.mount(mount);

								        mountRoot.mount = mount;

								        mount.root = mountRoot;


								        if (root) {

								          FS.root = mountRoot;

								        } else if (node) {

								          // set as a mountpoint

								          node.mounted = mount;


								          // add the new mount to the current mount's children

								          if (node.mount) {

								            node.mount.mounts.push(mount);

								          }

								        }


								        return mountRoot;

								      },unmount:function (mountpoint) {

								        var lookup = FS.lookupPath(mountpoint, { follow_mount: false });


								        if (!FS.isMountpoint(lookup.node)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }


								        // destroy the nodes for this mount, and all its child mounts

								        var node = lookup.node;

								        var mount = node.mounted;

								        var mounts = FS.getMounts(mount);


								        Object.keys(FS.nameTable).forEach(function (hash) {

								          var current = FS.nameTable[hash];


								          while (current) {

								            var next = current.name_next;


								            if (mounts.indexOf(current.mount) !== -1) {

								              FS.destroyNode(current);

								            }


								            current = next;

								          }

								        });


								        // no longer a mountpoint

								        node.mounted = null;


								        // remove this mount from the child mounts

								        var idx = node.mount.mounts.indexOf(mount);

								        assert(idx !== -1);

								        node.mount.mounts.splice(idx, 1);

								      },lookup:function (parent, name) {

								        return parent.node_ops.lookup(parent, name);

								      },mknod:function (path, mode, dev) {

								        var lookup = FS.lookupPath(path, { parent: true });

								        var parent = lookup.node;

								        var name = PATH.basename(path);

								        if (!name || name === '.' || name === '..') {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        var err = FS.mayCreate(parent, name);

								        if (err) {

								          throw new FS.ErrnoError(err);

								        }

								        if (!parent.node_ops.mknod) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        return parent.node_ops.mknod(parent, name, mode, dev);

								      },create:function (path, mode) {

								        mode = mode !== undefined ? mode : 438 /* 0666 */;

								        mode &= 4095;

								        mode |= 32768;

								        return FS.mknod(path, mode, 0);

								      },mkdir:function (path, mode) {

								        mode = mode !== undefined ? mode : 511 /* 0777 */;

								        mode &= 511 | 512;

								        mode |= 16384;

								        return FS.mknod(path, mode, 0);

								      },mkdirTree:function (path, mode) {

								        var dirs = path.split('/');

								        var d = '';

								        for (var i = 0; i < dirs.length; ++i) {

								          if (!dirs[i]) continue;

								          d += '/' + dirs[i];

								          try {

								            FS.mkdir(d, mode);

								          } catch(e) {

								            if (e.errno != ERRNO_CODES.EEXIST) throw e;

								          }

								        }

								      },mkdev:function (path, mode, dev) {

								        if (typeof(dev) === 'undefined') {

								          dev = mode;

								          mode = 438 /* 0666 */;

								        }

								        mode |= 8192;

								        return FS.mknod(path, mode, dev);

								      },symlink:function (oldpath, newpath) {

								        if (!PATH.resolve(oldpath)) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        }

								        var lookup = FS.lookupPath(newpath, { parent: true });

								        var parent = lookup.node;

								        if (!parent) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        }

								        var newname = PATH.basename(newpath);

								        var err = FS.mayCreate(parent, newname);

								        if (err) {

								          throw new FS.ErrnoError(err);

								        }

								        if (!parent.node_ops.symlink) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        return parent.node_ops.symlink(parent, newname, oldpath);

								      },rename:function (old_path, new_path) {

								        var old_dirname = PATH.dirname(old_path);

								        var new_dirname = PATH.dirname(new_path);

								        var old_name = PATH.basename(old_path);

								        var new_name = PATH.basename(new_path);

								        // parents must exist

								        var lookup, old_dir, new_dir;

								        try {

								          lookup = FS.lookupPath(old_path, { parent: true });

								          old_dir = lookup.node;

								          lookup = FS.lookupPath(new_path, { parent: true });

								          new_dir = lookup.node;

								        } catch (e) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBUSY);

								        }

								        if (!old_dir || !new_dir) throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        // need to be part of the same mount

								        if (old_dir.mount !== new_dir.mount) {

								          throw new FS.ErrnoError(ERRNO_CODES.EXDEV);

								        }

								        // source must exist

								        var old_node = FS.lookupNode(old_dir, old_name);

								        // old path should not be an ancestor of the new path

								        var relative = PATH.relative(old_path, new_dirname);

								        if (relative.charAt(0) !== '.') {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        // new path should not be an ancestor of the old path

								        relative = PATH.relative(new_path, old_dirname);

								        if (relative.charAt(0) !== '.') {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOTEMPTY);

								        }

								        // see if the new path already exists

								        var new_node;

								        try {

								          new_node = FS.lookupNode(new_dir, new_name);

								        } catch (e) {

								          // not fatal

								        }

								        // early out if nothing needs to change

								        if (old_node === new_node) {

								          return;

								        }

								        // we'll need to delete the old entry

								        var isdir = FS.isDir(old_node.mode);

								        var err = FS.mayDelete(old_dir, old_name, isdir);

								        if (err) {

								          throw new FS.ErrnoError(err);

								        }

								        // need delete permissions if we'll be overwriting.

								        // need create permissions if new doesn't already exist.

								        err = new_node ?

								          FS.mayDelete(new_dir, new_name, isdir) :

								          FS.mayCreate(new_dir, new_name);

								        if (err) {

								          throw new FS.ErrnoError(err);

								        }

								        if (!old_dir.node_ops.rename) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        if (FS.isMountpoint(old_node) || (new_node && FS.isMountpoint(new_node))) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBUSY);

								        }

								        // if we are going to change the parent, check write permissions

								        if (new_dir !== old_dir) {

								          err = FS.nodePermissions(old_dir, 'w');

								          if (err) {

								            throw new FS.ErrnoError(err);

								          }

								        }

								        try {

								          if (FS.trackingDelegate['willMovePath']) {

								            FS.trackingDelegate['willMovePath'](old_path, new_path);

								          }

								        } catch(e) {

								          console.log("FS.trackingDelegate['willMovePath']('"+old_path+"', '"+new_path+"') threw an exception: " + e.message);

								        }

								        // remove the node from the lookup hash

								        FS.hashRemoveNode(old_node);

								        // do the underlying fs rename

								        try {

								          old_dir.node_ops.rename(old_node, new_dir, new_name);

								        } catch (e) {

								          throw e;

								        } finally {

								          // add the node back to the hash (in case node_ops.rename

								          // changed its name)

								          FS.hashAddNode(old_node);

								        }

								        try {

								          if (FS.trackingDelegate['onMovePath']) FS.trackingDelegate['onMovePath'](old_path, new_path);

								        } catch(e) {

								          console.log("FS.trackingDelegate['onMovePath']('"+old_path+"', '"+new_path+"') threw an exception: " + e.message);

								        }

								      },rmdir:function (path) {

								        var lookup = FS.lookupPath(path, { parent: true });

								        var parent = lookup.node;

								        var name = PATH.basename(path);

								        var node = FS.lookupNode(parent, name);

								        var err = FS.mayDelete(parent, name, true);

								        if (err) {

								          throw new FS.ErrnoError(err);

								        }

								        if (!parent.node_ops.rmdir) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        if (FS.isMountpoint(node)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBUSY);

								        }

								        try {

								          if (FS.trackingDelegate['willDeletePath']) {

								            FS.trackingDelegate['willDeletePath'](path);

								          }

								        } catch(e) {

								          console.log("FS.trackingDelegate['willDeletePath']('"+path+"') threw an exception: " + e.message);

								        }

								        parent.node_ops.rmdir(parent, name);

								        FS.destroyNode(node);

								        try {

								          if (FS.trackingDelegate['onDeletePath']) FS.trackingDelegate['onDeletePath'](path);

								        } catch(e) {

								          console.log("FS.trackingDelegate['onDeletePath']('"+path+"') threw an exception: " + e.message);

								        }

								      },readdir:function (path) {

								        var lookup = FS.lookupPath(path, { follow: true });

								        var node = lookup.node;

								        if (!node.node_ops.readdir) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOTDIR);

								        }

								        return node.node_ops.readdir(node);

								      },unlink:function (path) {

								        var lookup = FS.lookupPath(path, { parent: true });

								        var parent = lookup.node;

								        var name = PATH.basename(path);

								        var node = FS.lookupNode(parent, name);

								        var err = FS.mayDelete(parent, name, false);

								        if (err) {

								          // According to POSIX, we should map EISDIR to EPERM, but

								          // we instead do what Linux does (and we must, as we use

								          // the musl linux libc).

								          throw new FS.ErrnoError(err);

								        }

								        if (!parent.node_ops.unlink) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        if (FS.isMountpoint(node)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBUSY);

								        }

								        try {

								          if (FS.trackingDelegate['willDeletePath']) {

								            FS.trackingDelegate['willDeletePath'](path);

								          }

								        } catch(e) {

								          console.log("FS.trackingDelegate['willDeletePath']('"+path+"') threw an exception: " + e.message);

								        }

								        parent.node_ops.unlink(parent, name);

								        FS.destroyNode(node);

								        try {

								          if (FS.trackingDelegate['onDeletePath']) FS.trackingDelegate['onDeletePath'](path);

								        } catch(e) {

								          console.log("FS.trackingDelegate['onDeletePath']('"+path+"') threw an exception: " + e.message);

								        }

								      },readlink:function (path) {

								        var lookup = FS.lookupPath(path);

								        var link = lookup.node;

								        if (!link) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        }

								        if (!link.node_ops.readlink) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        return PATH.resolve(FS.getPath(link.parent), link.node_ops.readlink(link));

								      },stat:function (path, dontFollow) {

								        var lookup = FS.lookupPath(path, { follow: !dontFollow });

								        var node = lookup.node;

								        if (!node) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        }

								        if (!node.node_ops.getattr) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        return node.node_ops.getattr(node);

								      },lstat:function (path) {

								        return FS.stat(path, true);

								      },chmod:function (path, mode, dontFollow) {

								        var node;

								        if (typeof path === 'string') {

								          var lookup = FS.lookupPath(path, { follow: !dontFollow });

								          node = lookup.node;

								        } else {

								          node = path;

								        }

								        if (!node.node_ops.setattr) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        node.node_ops.setattr(node, {

								          mode: (mode & 4095) | (node.mode & ~4095),

								          timestamp: Date.now()

								        });

								      },lchmod:function (path, mode) {

								        FS.chmod(path, mode, true);

								      },fchmod:function (fd, mode) {

								        var stream = FS.getStream(fd);

								        if (!stream) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        }

								        FS.chmod(stream.node, mode);

								      },chown:function (path, uid, gid, dontFollow) {

								        var node;

								        if (typeof path === 'string') {

								          var lookup = FS.lookupPath(path, { follow: !dontFollow });

								          node = lookup.node;

								        } else {

								          node = path;

								        }

								        if (!node.node_ops.setattr) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        node.node_ops.setattr(node, {

								          timestamp: Date.now()

								          // we ignore the uid / gid for now

								        });

								      },lchown:function (path, uid, gid) {

								        FS.chown(path, uid, gid, true);

								      },fchown:function (fd, uid, gid) {

								        var stream = FS.getStream(fd);

								        if (!stream) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        }

								        FS.chown(stream.node, uid, gid);

								      },truncate:function (path, len) {

								        if (len < 0) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        var node;

								        if (typeof path === 'string') {

								          var lookup = FS.lookupPath(path, { follow: true });

								          node = lookup.node;

								        } else {

								          node = path;

								        }

								        if (!node.node_ops.setattr) {

								          throw new FS.ErrnoError(ERRNO_CODES.EPERM);

								        }

								        if (FS.isDir(node.mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EISDIR);

								        }

								        if (!FS.isFile(node.mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        var err = FS.nodePermissions(node, 'w');

								        if (err) {

								          throw new FS.ErrnoError(err);

								        }

								        node.node_ops.setattr(node, {

								          size: len,

								          timestamp: Date.now()

								        });

								      },ftruncate:function (fd, len) {

								        var stream = FS.getStream(fd);

								        if (!stream) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        }

								        if ((stream.flags & 2097155) === 0) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        FS.truncate(stream.node, len);

								      },utime:function (path, atime, mtime) {

								        var lookup = FS.lookupPath(path, { follow: true });

								        var node = lookup.node;

								        node.node_ops.setattr(node, {

								          timestamp: Math.max(atime, mtime)

								        });

								      },open:function (path, flags, mode, fd_start, fd_end) {

								        if (path === "") {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        }

								        flags = typeof flags === 'string' ? FS.modeStringToFlags(flags) : flags;

								        mode = typeof mode === 'undefined' ? 438 /* 0666 */ : mode;

								        if ((flags & 64)) {

								          mode = (mode & 4095) | 32768;

								        } else {

								          mode = 0;

								        }

								        var node;

								        if (typeof path === 'object') {

								          node = path;

								        } else {

								          path = PATH.normalize(path);

								          try {

								            var lookup = FS.lookupPath(path, {

								              follow: !(flags & 131072)

								            });

								            node = lookup.node;

								          } catch (e) {

								            // ignore

								          }

								        }

								        // perhaps we need to create the node

								        var created = false;

								        if ((flags & 64)) {

								          if (node) {

								            // if O_CREAT and O_EXCL are set, error out if the node already exists

								            if ((flags & 128)) {

								              throw new FS.ErrnoError(ERRNO_CODES.EEXIST);

								            }

								          } else {

								            // node doesn't exist, try to create it

								            node = FS.mknod(path, mode, 0);

								            created = true;

								          }

								        }

								        if (!node) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        }

								        // can't truncate a device

								        if (FS.isChrdev(node.mode)) {

								          flags &= ~512;

								        }

								        // if asked only for a directory, then this must be one

								        if ((flags & 65536) && !FS.isDir(node.mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOTDIR);

								        }

								        // check permissions, if this is not a file we just created now (it is ok to

								        // create and write to a file with read-only permissions; it is read-only

								        // for later use)

								        if (!created) {

								          var err = FS.mayOpen(node, flags);

								          if (err) {

								            throw new FS.ErrnoError(err);

								          }

								        }

								        // do truncation if necessary

								        if ((flags & 512)) {

								          FS.truncate(node, 0);

								        }

								        // we've already handled these, don't pass down to the underlying vfs

								        flags &= ~(128 | 512);


								        // register the stream with the filesystem

								        var stream = FS.createStream({

								          node: node,

								          path: FS.getPath(node),  // we want the absolute path to the node

								          flags: flags,

								          seekable: true,

								          position: 0,

								          stream_ops: node.stream_ops,

								          // used by the file family libc calls (fopen, fwrite, ferror, etc.)

								          ungotten: [],

								          error: false

								        }, fd_start, fd_end);

								        // call the new stream's open function

								        if (stream.stream_ops.open) {

								          stream.stream_ops.open(stream);

								        }

								        if (Module['logReadFiles'] && !(flags & 1)) {

								          if (!FS.readFiles) FS.readFiles = {};

								          if (!(path in FS.readFiles)) {

								            FS.readFiles[path] = 1;

								            Module['printErr']('read file: ' + path);

								          }

								        }

								        try {

								          if (FS.trackingDelegate['onOpenFile']) {

								            var trackingFlags = 0;

								            if ((flags & 2097155) !== 1) {

								              trackingFlags |= FS.tracking.openFlags.READ;

								            }

								            if ((flags & 2097155) !== 0) {

								              trackingFlags |= FS.tracking.openFlags.WRITE;

								            }

								            FS.trackingDelegate['onOpenFile'](path, trackingFlags);

								          }

								        } catch(e) {

								          console.log("FS.trackingDelegate['onOpenFile']('"+path+"', flags) threw an exception: " + e.message);

								        }

								        return stream;

								      },close:function (stream) {

								        if (stream.getdents) stream.getdents = null; // free readdir state

								        try {

								          if (stream.stream_ops.close) {

								            stream.stream_ops.close(stream);

								          }

								        } catch (e) {

								          throw e;

								        } finally {

								          FS.closeStream(stream.fd);

								        }

								      },llseek:function (stream, offset, whence) {

								        if (!stream.seekable || !stream.stream_ops.llseek) {

								          throw new FS.ErrnoError(ERRNO_CODES.ESPIPE);

								        }

								        stream.position = stream.stream_ops.llseek(stream, offset, whence);

								        stream.ungotten = [];

								        return stream.position;

								      },read:function (stream, buffer, offset, length, position) {

								        if (length < 0 || position < 0) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        if ((stream.flags & 2097155) === 1) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        }

								        if (FS.isDir(stream.node.mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EISDIR);

								        }

								        if (!stream.stream_ops.read) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        var seeking = true;

								        if (typeof position === 'undefined') {

								          position = stream.position;

								          seeking = false;

								        } else if (!stream.seekable) {

								          throw new FS.ErrnoError(ERRNO_CODES.ESPIPE);

								        }

								        var bytesRead = stream.stream_ops.read(stream, buffer, offset, length, position);

								        if (!seeking) stream.position += bytesRead;

								        return bytesRead;

								      },write:function (stream, buffer, offset, length, position, canOwn) {

								        if (length < 0 || position < 0) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        if ((stream.flags & 2097155) === 0) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        }

								        if (FS.isDir(stream.node.mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.EISDIR);

								        }

								        if (!stream.stream_ops.write) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        if (stream.flags & 1024) {

								          // seek to the end before writing in append mode

								          FS.llseek(stream, 0, 2);

								        }

								        var seeking = true;

								        if (typeof position === 'undefined') {

								          position = stream.position;

								          seeking = false;

								        } else if (!stream.seekable) {

								          throw new FS.ErrnoError(ERRNO_CODES.ESPIPE);

								        }

								        var bytesWritten = stream.stream_ops.write(stream, buffer, offset, length, position, canOwn);

								        if (!seeking) stream.position += bytesWritten;

								        try {

								          if (stream.path && FS.trackingDelegate['onWriteToFile']) FS.trackingDelegate['onWriteToFile'](stream.path);

								        } catch(e) {

								          console.log("FS.trackingDelegate['onWriteToFile']('"+path+"') threw an exception: " + e.message);

								        }

								        return bytesWritten;

								      },allocate:function (stream, offset, length) {

								        if (offset < 0 || length <= 0) {

								          throw new FS.ErrnoError(ERRNO_CODES.EINVAL);

								        }

								        if ((stream.flags & 2097155) === 0) {

								          throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        }

								        if (!FS.isFile(stream.node.mode) && !FS.isDir(node.mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENODEV);

								        }

								        if (!stream.stream_ops.allocate) {

								          throw new FS.ErrnoError(ERRNO_CODES.EOPNOTSUPP);

								        }

								        stream.stream_ops.allocate(stream, offset, length);

								      },mmap:function (stream, buffer, offset, length, position, prot, flags) {

								        // TODO if PROT is PROT_WRITE, make sure we have write access

								        if ((stream.flags & 2097155) === 1) {

								          throw new FS.ErrnoError(ERRNO_CODES.EACCES);

								        }

								        if (!stream.stream_ops.mmap) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENODEV);

								        }

								        return stream.stream_ops.mmap(stream, buffer, offset, length, position, prot, flags);

								      },msync:function (stream, buffer, offset, length, mmapFlags) {

								        if (!stream || !stream.stream_ops.msync) {

								          return 0;

								        }

								        return stream.stream_ops.msync(stream, buffer, offset, length, mmapFlags);

								      },munmap:function (stream) {

								        return 0;

								      },ioctl:function (stream, cmd, arg) {

								        if (!stream.stream_ops.ioctl) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOTTY);

								        }

								        return stream.stream_ops.ioctl(stream, cmd, arg);

								      },readFile:function (path, opts) {

								        opts = opts || {};

								        opts.flags = opts.flags || 'r';

								        opts.encoding = opts.encoding || 'binary';

								        if (opts.encoding !== 'utf8' && opts.encoding !== 'binary') {

								          throw new Error('Invalid encoding type "' + opts.encoding + '"');

								        }

								        var ret;

								        var stream = FS.open(path, opts.flags);

								        var stat = FS.stat(path);

								        var length = stat.size;

								        var buf = new Uint8Array(length);

								        FS.read(stream, buf, 0, length, 0);

								        if (opts.encoding === 'utf8') {

								          ret = UTF8ArrayToString(buf, 0);

								        } else if (opts.encoding === 'binary') {

								          ret = buf;

								        }

								        FS.close(stream);

								        return ret;

								      },writeFile:function (path, data, opts) {

								        opts = opts || {};

								        opts.flags = opts.flags || 'w';

								        opts.encoding = opts.encoding || 'utf8';

								        if (opts.encoding !== 'utf8' && opts.encoding !== 'binary') {

								          throw new Error('Invalid encoding type "' + opts.encoding + '"');

								        }

								        var stream = FS.open(path, opts.flags, opts.mode);

								        if (opts.encoding === 'utf8') {

								          var buf = new Uint8Array(lengthBytesUTF8(data)+1);

								          var actualNumBytes = stringToUTF8Array(data, buf, 0, buf.length);

								          FS.write(stream, buf, 0, actualNumBytes, 0, opts.canOwn);

								        } else if (opts.encoding === 'binary') {

								          FS.write(stream, data, 0, data.length, 0, opts.canOwn);

								        }

								        FS.close(stream);

								      },cwd:function () {

								        return FS.currentPath;

								      },chdir:function (path) {

								        var lookup = FS.lookupPath(path, { follow: true });

								        if (lookup.node === null) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOENT);

								        }

								        if (!FS.isDir(lookup.node.mode)) {

								          throw new FS.ErrnoError(ERRNO_CODES.ENOTDIR);

								        }

								        var err = FS.nodePermissions(lookup.node, 'x');

								        if (err) {

								          throw new FS.ErrnoError(err);

								        }

								        FS.currentPath = lookup.path;

								      },createDefaultDirectories:function () {

								        FS.mkdir('/tmp');

								        FS.mkdir('/home');

								        FS.mkdir('/home/web_user');

								      },createDefaultDevices:function () {

								        // create /dev

								        FS.mkdir('/dev');

								        // setup /dev/null

								        FS.registerDevice(FS.makedev(1, 3), {

								          read: function() { return 0; },

								          write: function(stream, buffer, offset, length, pos) { return length; }

								        });

								        FS.mkdev('/dev/null', FS.makedev(1, 3));

								        // setup /dev/tty and /dev/tty1

								        // stderr needs to print output using Module['printErr']

								        // so we register a second tty just for it.

								        TTY.register(FS.makedev(5, 0), TTY.default_tty_ops);

								        TTY.register(FS.makedev(6, 0), TTY.default_tty1_ops);

								        FS.mkdev('/dev/tty', FS.makedev(5, 0));

								        FS.mkdev('/dev/tty1', FS.makedev(6, 0));

								        // setup /dev/[u]random

								        var random_device;

								        if (typeof crypto !== 'undefined') {

								          // for modern web browsers

								          var randomBuffer = new Uint8Array(1);

								          random_device = function() { crypto.getRandomValues(randomBuffer); return randomBuffer[0]; };

								        } else if (ENVIRONMENT_IS_NODE) {

								          // for nodejs

								          random_device = function() { return require('crypto').randomBytes(1)[0]; };

								        } else {

								          // default for ES5 platforms

								          random_device = function() { return (Math.random()*256)|0; };

								        }

								        FS.createDevice('/dev', 'random', random_device);

								        FS.createDevice('/dev', 'urandom', random_device);

								        // we're not going to emulate the actual shm device,

								        // just create the tmp dirs that reside in it commonly

								        FS.mkdir('/dev/shm');

								        FS.mkdir('/dev/shm/tmp');

								      },createSpecialDirectories:function () {

								        // create /proc/self/fd which allows /proc/self/fd/6 => readlink gives the name of the stream for fd 6 (see test_unistd_ttyname)

								        FS.mkdir('/proc');

								        FS.mkdir('/proc/self');

								        FS.mkdir('/proc/self/fd');

								        FS.mount({

								          mount: function() {

								            var node = FS.createNode('/proc/self', 'fd', 16384 | 511 /* 0777 */, 73);

								            node.node_ops = {

								              lookup: function(parent, name) {

								                var fd = +name;

								                var stream = FS.getStream(fd);

								                if (!stream) throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								                var ret = {

								                  parent: null,

								                  mount: { mountpoint: 'fake' },

								                  node_ops: { readlink: function() { return stream.path } }

								                };

								                ret.parent = ret; // make it look like a simple root node

								                return ret;

								              }

								            };

								            return node;

								          }

								        }, {}, '/proc/self/fd');

								      },createStandardStreams:function () {

								        // TODO deprecate the old functionality of a single

								        // input / output callback and that utilizes FS.createDevice

								        // and instead require a unique set of stream ops


								        // by default, we symlink the standard streams to the

								        // default tty devices. however, if the standard streams

								        // have been overwritten we create a unique device for

								        // them instead.

								        if (Module['stdin']) {

								          FS.createDevice('/dev', 'stdin', Module['stdin']);

								        } else {

								          FS.symlink('/dev/tty', '/dev/stdin');

								        }

								        if (Module['stdout']) {

								          FS.createDevice('/dev', 'stdout', null, Module['stdout']);

								        } else {

								          FS.symlink('/dev/tty', '/dev/stdout');

								        }

								        if (Module['stderr']) {

								          FS.createDevice('/dev', 'stderr', null, Module['stderr']);

								        } else {

								          FS.symlink('/dev/tty1', '/dev/stderr');

								        }


								        // open default streams for the stdin, stdout and stderr devices

								        var stdin = FS.open('/dev/stdin', 'r');

								        assert(stdin.fd === 0, 'invalid handle for stdin (' + stdin.fd + ')');


								        var stdout = FS.open('/dev/stdout', 'w');

								        assert(stdout.fd === 1, 'invalid handle for stdout (' + stdout.fd + ')');


								        var stderr = FS.open('/dev/stderr', 'w');

								        assert(stderr.fd === 2, 'invalid handle for stderr (' + stderr.fd + ')');

								      },ensureErrnoError:function () {

								        if (FS.ErrnoError) return;

								        FS.ErrnoError = function ErrnoError(errno, node) {

								          //Module.printErr(stackTrace()); // useful for debugging

								          this.node = node;

								          this.setErrno = function(errno) {

								            this.errno = errno;

								            for (var key in ERRNO_CODES) {

								              if (ERRNO_CODES[key] === errno) {

								                this.code = key;

								                break;

								              }

								            }

								          };

								          this.setErrno(errno);

								          this.message = ERRNO_MESSAGES[errno];

								          if (this.stack) this.stack = demangleAll(this.stack);

								        };

								        FS.ErrnoError.prototype = new Error();

								        FS.ErrnoError.prototype.constructor = FS.ErrnoError;

								        // Some errors may happen quite a bit, to avoid overhead we reuse them (and suffer a lack of stack info)

								        [ERRNO_CODES.ENOENT].forEach(function(code) {

								          FS.genericErrors[code] = new FS.ErrnoError(code);

								          FS.genericErrors[code].stack = '';

								        });

								      },staticInit:function () {

								        FS.ensureErrnoError();


								        FS.nameTable = new Array(4096);


								        FS.mount(MEMFS, {}, '/');


								        FS.createDefaultDirectories();

								        FS.createDefaultDevices();

								        FS.createSpecialDirectories();


								        FS.filesystems = {

								          'MEMFS': MEMFS,

								          'IDBFS': IDBFS,

								          'NODEFS': NODEFS,

								          'WORKERFS': WORKERFS,

								        };

								      },init:function (input, output, error) {

								        assert(!FS.init.initialized, 'FS.init was previously called. If you want to initialize later with custom parameters, remove any earlier calls (note that one is automatically added to the generated code)');

								        FS.init.initialized = true;


								        FS.ensureErrnoError();


								        // Allow Module.stdin etc. to provide defaults, if none explicitly passed to us here

								        Module['stdin'] = input || Module['stdin'];

								        Module['stdout'] = output || Module['stdout'];

								        Module['stderr'] = error || Module['stderr'];


								        FS.createStandardStreams();

								      },quit:function () {

								        FS.init.initialized = false;

								        // force-flush all streams, so we get musl std streams printed out

								        var fflush = Module['_fflush'];

								        if (fflush) fflush(0);

								        // close all of our streams

								        for (var i = 0; i < FS.streams.length; i++) {

								          var stream = FS.streams[i];

								          if (!stream) {

								            continue;

								          }

								          FS.close(stream);

								        }

								      },getMode:function (canRead, canWrite) {

								        var mode = 0;

								        if (canRead) mode |= 292 | 73;

								        if (canWrite) mode |= 146;

								        return mode;

								      },joinPath:function (parts, forceRelative) {

								        var path = PATH.join.apply(null, parts);

								        if (forceRelative && path[0] == '/') path = path.substr(1);

								        return path;

								      },absolutePath:function (relative, base) {

								        return PATH.resolve(base, relative);

								      },standardizePath:function (path) {

								        return PATH.normalize(path);

								      },findObject:function (path, dontResolveLastLink) {

								        var ret = FS.analyzePath(path, dontResolveLastLink);

								        if (ret.exists) {

								          return ret.object;

								        } else {

								          ___setErrNo(ret.error);

								          return null;

								        }

								      },analyzePath:function (path, dontResolveLastLink) {

								        // operate from within the context of the symlink's target

								        try {

								          var lookup = FS.lookupPath(path, { follow: !dontResolveLastLink });

								          path = lookup.path;

								        } catch (e) {

								        }

								        var ret = {

								          isRoot: false, exists: false, error: 0, name: null, path: null, object: null,

								          parentExists: false, parentPath: null, parentObject: null

								        };

								        try {

								          var lookup = FS.lookupPath(path, { parent: true });

								          ret.parentExists = true;

								          ret.parentPath = lookup.path;

								          ret.parentObject = lookup.node;

								          ret.name = PATH.basename(path);

								          lookup = FS.lookupPath(path, { follow: !dontResolveLastLink });

								          ret.exists = true;

								          ret.path = lookup.path;

								          ret.object = lookup.node;

								          ret.name = lookup.node.name;

								          ret.isRoot = lookup.path === '/';

								        } catch (e) {

								          ret.error = e.errno;

								        };

								        return ret;

								      },createFolder:function (parent, name, canRead, canWrite) {

								        var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name);

								        var mode = FS.getMode(canRead, canWrite);

								        return FS.mkdir(path, mode);

								      },createPath:function (parent, path, canRead, canWrite) {

								        parent = typeof parent === 'string' ? parent : FS.getPath(parent);

								        var parts = path.split('/').reverse();

								        while (parts.length) {

								          var part = parts.pop();

								          if (!part) continue;

								          var current = PATH.join2(parent, part);

								          try {

								            FS.mkdir(current);

								          } catch (e) {

								            // ignore EEXIST

								          }

								          parent = current;

								        }

								        return current;

								      },createFile:function (parent, name, properties, canRead, canWrite) {

								        var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name);

								        var mode = FS.getMode(canRead, canWrite);

								        return FS.create(path, mode);

								      },createDataFile:function (parent, name, data, canRead, canWrite, canOwn) {

								        var path = name ? PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name) : parent;

								        var mode = FS.getMode(canRead, canWrite);

								        var node = FS.create(path, mode);

								        if (data) {

								          if (typeof data === 'string') {

								            var arr = new Array(data.length);

								            for (var i = 0, len = data.length; i < len; ++i) arr[i] = data.charCodeAt(i);

								            data = arr;

								          }

								          // make sure we can write to the file

								          FS.chmod(node, mode | 146);

								          var stream = FS.open(node, 'w');

								          FS.write(stream, data, 0, data.length, 0, canOwn);

								          FS.close(stream);

								          FS.chmod(node, mode);

								        }

								        return node;

								      },createDevice:function (parent, name, input, output) {

								        var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name);

								        var mode = FS.getMode(!!input, !!output);

								        if (!FS.createDevice.major) FS.createDevice.major = 64;

								        var dev = FS.makedev(FS.createDevice.major++, 0);

								        // Create a fake device that a set of stream ops to emulate

								        // the old behavior.

								        FS.registerDevice(dev, {

								          open: function(stream) {

								            stream.seekable = false;

								          },

								          close: function(stream) {

								            // flush any pending line data

								            if (output && output.buffer && output.buffer.length) {

								              output(10);

								            }

								          },

								          read: function(stream, buffer, offset, length, pos /* ignored */) {

								            var bytesRead = 0;

								            for (var i = 0; i < length; i++) {

								              var result;

								              try {

								                result = input();

								              } catch (e) {

								                throw new FS.ErrnoError(ERRNO_CODES.EIO);

								              }

								              if (result === undefined && bytesRead === 0) {

								                throw new FS.ErrnoError(ERRNO_CODES.EAGAIN);

								              }

								              if (result === null || result === undefined) break;

								              bytesRead++;

								              buffer[offset+i] = result;

								            }

								            if (bytesRead) {

								              stream.node.timestamp = Date.now();

								            }

								            return bytesRead;

								          },

								          write: function(stream, buffer, offset, length, pos) {

								            for (var i = 0; i < length; i++) {

								              try {

								                output(buffer[offset+i]);

								              } catch (e) {

								                throw new FS.ErrnoError(ERRNO_CODES.EIO);

								              }

								            }

								            if (length) {

								              stream.node.timestamp = Date.now();

								            }

								            return i;

								          }

								        });

								        return FS.mkdev(path, mode, dev);

								      },createLink:function (parent, name, target, canRead, canWrite) {

								        var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name);

								        return FS.symlink(target, path);

								      },forceLoadFile:function (obj) {

								        if (obj.isDevice || obj.isFolder || obj.link || obj.contents) return true;

								        var success = true;

								        if (typeof XMLHttpRequest !== 'undefined') {

								          throw new Error("Lazy loading should have been performed (contents set) in createLazyFile, but it was not. Lazy loading only works in web workers. Use --embed-file or --preload-file in emcc on the main thread.");

								        } else if (Module['read']) {

								          // Command-line.

								          try {

								            // WARNING: Can't read binary files in V8's d8 or tracemonkey's js, as

								            //          read() will try to parse UTF8.

								            obj.contents = intArrayFromString(Module['read'](obj.url), true);

								            obj.usedBytes = obj.contents.length;

								          } catch (e) {

								            success = false;

								          }

								        } else {

								          throw new Error('Cannot load without read() or XMLHttpRequest.');

								        }

								        if (!success) ___setErrNo(ERRNO_CODES.EIO);

								        return success;

								      },createLazyFile:function (parent, name, url, canRead, canWrite) {

								        // Lazy chunked Uint8Array (implements get and length from Uint8Array). Actual getting is abstracted away for eventual reuse.

								        function LazyUint8Array() {

								          this.lengthKnown = false;

								          this.chunks = []; // Loaded chunks. Index is the chunk number

								        }

								        LazyUint8Array.prototype.get = function LazyUint8Array_get(idx) {

								          if (idx > this.length-1 || idx < 0) {

								            return undefined;

								          }

								          var chunkOffset = idx % this.chunkSize;

								          var chunkNum = (idx / this.chunkSize)|0;

								          return this.getter(chunkNum)[chunkOffset];

								        }

								        LazyUint8Array.prototype.setDataGetter = function LazyUint8Array_setDataGetter(getter) {

								          this.getter = getter;

								        }

								        LazyUint8Array.prototype.cacheLength = function LazyUint8Array_cacheLength() {

								          // Find length

								          var xhr = new XMLHttpRequest();

								          xhr.open('HEAD', url, false);

								          xhr.send(null);

								          if (!(xhr.status >= 200 && xhr.status < 300 || xhr.status === 304)) throw new Error("Couldn't load " + url + ". Status: " + xhr.status);

								          var datalength = Number(xhr.getResponseHeader("Content-length"));

								          var header;

								          var hasByteServing = (header = xhr.getResponseHeader("Accept-Ranges")) && header === "bytes";

								          var usesGzip = (header = xhr.getResponseHeader("Content-Encoding")) && header === "gzip";


								          var chunkSize = 1024*1024; // Chunk size in bytes


								          if (!hasByteServing) chunkSize = datalength;


								          // Function to get a range from the remote URL.

								          var doXHR = (function(from, to) {

								            if (from > to) throw new Error("invalid range (" + from + ", " + to + ") or no bytes requested!");

								            if (to > datalength-1) throw new Error("only " + datalength + " bytes available! programmer error!");


								            // TODO: Use mozResponseArrayBuffer, responseStream, etc. if available.

								            var xhr = new XMLHttpRequest();

								            xhr.open('GET', url, false);

								            if (datalength !== chunkSize) xhr.setRequestHeader("Range", "bytes=" + from + "-" + to);


								            // Some hints to the browser that we want binary data.

								            if (typeof Uint8Array != 'undefined') xhr.responseType = 'arraybuffer';

								            if (xhr.overrideMimeType) {

								              xhr.overrideMimeType('text/plain; charset=x-user-defined');

								            }


								            xhr.send(null);

								            if (!(xhr.status >= 200 && xhr.status < 300 || xhr.status === 304)) throw new Error("Couldn't load " + url + ". Status: " + xhr.status);

								            if (xhr.response !== undefined) {

								              return new Uint8Array(xhr.response || []);

								            } else {

								              return intArrayFromString(xhr.responseText || '', true);

								            }

								          });

								          var lazyArray = this;

								          lazyArray.setDataGetter(function(chunkNum) {

								            var start = chunkNum * chunkSize;

								            var end = (chunkNum+1) * chunkSize - 1; // including this byte

								            end = Math.min(end, datalength-1); // if datalength-1 is selected, this is the last block

								            if (typeof(lazyArray.chunks[chunkNum]) === "undefined") {

								              lazyArray.chunks[chunkNum] = doXHR(start, end);

								            }

								            if (typeof(lazyArray.chunks[chunkNum]) === "undefined") throw new Error("doXHR failed!");

								            return lazyArray.chunks[chunkNum];

								          });


								          if (usesGzip || !datalength) {

								            // if the server uses gzip or doesn't supply the length, we have to download the whole file to get the (uncompressed) length

								            chunkSize = datalength = 1; // this will force getter(0)/doXHR do download the whole file

								            datalength = this.getter(0).length;

								            chunkSize = datalength;

								            console.log("LazyFiles on gzip forces download of the whole file when length is accessed");

								          }


								          this._length = datalength;

								          this._chunkSize = chunkSize;

								          this.lengthKnown = true;

								        }

								        if (typeof XMLHttpRequest !== 'undefined') {

								          if (!ENVIRONMENT_IS_WORKER) throw 'Cannot do synchronous binary XHRs outside webworkers in modern browsers. Use --embed-file or --preload-file in emcc';

								          var lazyArray = new LazyUint8Array();

								          Object.defineProperties(lazyArray, {

								            length: {

								              get: function() {

								                if(!this.lengthKnown) {

								                  this.cacheLength();

								                }

								                return this._length;

								              }

								            },

								            chunkSize: {

								              get: function() {

								                if(!this.lengthKnown) {

								                  this.cacheLength();

								                }

								                return this._chunkSize;

								              }

								            }

								          });


								          var properties = { isDevice: false, contents: lazyArray };

								        } else {

								          var properties = { isDevice: false, url: url };

								        }


								        var node = FS.createFile(parent, name, properties, canRead, canWrite);

								        // This is a total hack, but I want to get this lazy file code out of the

								        // core of MEMFS. If we want to keep this lazy file concept I feel it should

								        // be its own thin LAZYFS proxying calls to MEMFS.

								        if (properties.contents) {

								          node.contents = properties.contents;

								        } else if (properties.url) {

								          node.contents = null;

								          node.url = properties.url;

								        }

								        // Add a function that defers querying the file size until it is asked the first time.

								        Object.defineProperties(node, {

								          usedBytes: {

								            get: function() { return this.contents.length; }

								          }

								        });

								        // override each stream op with one that tries to force load the lazy file first

								        var stream_ops = {};

								        var keys = Object.keys(node.stream_ops);

								        keys.forEach(function(key) {

								          var fn = node.stream_ops[key];

								          stream_ops[key] = function forceLoadLazyFile() {

								            if (!FS.forceLoadFile(node)) {

								              throw new FS.ErrnoError(ERRNO_CODES.EIO);

								            }

								            return fn.apply(null, arguments);

								          };

								        });

								        // use a custom read function

								        stream_ops.read = function stream_ops_read(stream, buffer, offset, length, position) {

								          if (!FS.forceLoadFile(node)) {

								            throw new FS.ErrnoError(ERRNO_CODES.EIO);

								          }

								          var contents = stream.node.contents;

								          if (position >= contents.length)

								            return 0;

								          var size = Math.min(contents.length - position, length);

								          assert(size >= 0);

								          if (contents.slice) { // normal array

								            for (var i = 0; i < size; i++) {

								              buffer[offset + i] = contents[position + i];

								            }

								          } else {

								            for (var i = 0; i < size; i++) { // LazyUint8Array from sync binary XHR

								              buffer[offset + i] = contents.get(position + i);

								            }

								          }

								          return size;

								        };

								        node.stream_ops = stream_ops;

								        return node;

								      },createPreloadedFile:function (parent, name, url, canRead, canWrite, onload, onerror, dontCreateFile, canOwn, preFinish) {

								        Browser.init(); // XXX perhaps this method should move onto Browser?

								        // TODO we should allow people to just pass in a complete filename instead

								        // of parent and name being that we just join them anyways

								        var fullname = name ? PATH.resolve(PATH.join2(parent, name)) : parent;

								        var dep = getUniqueRunDependency('cp ' + fullname); // might have several active requests for the same fullname

								        function processData(byteArray) {

								          function finish(byteArray) {

								            if (preFinish) preFinish();

								            if (!dontCreateFile) {

								              FS.createDataFile(parent, name, byteArray, canRead, canWrite, canOwn);

								            }

								            if (onload) onload();

								            removeRunDependency(dep);

								          }

								          var handled = false;

								          Module['preloadPlugins'].forEach(function(plugin) {

								            if (handled) return;

								            if (plugin['canHandle'](fullname)) {

								              plugin['handle'](byteArray, fullname, finish, function() {

								                if (onerror) onerror();

								                removeRunDependency(dep);

								              });

								              handled = true;

								            }

								          });

								          if (!handled) finish(byteArray);

								        }

								        addRunDependency(dep);

								        if (typeof url == 'string') {

								          Browser.asyncLoad(url, function(byteArray) {

								            processData(byteArray);

								          }, onerror);

								        } else {

								          processData(url);

								        }

								      },indexedDB:function () {

								        return window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB;

								      },DB_NAME:function () {

								        return 'EM_FS_' + window.location.pathname;

								      },DB_VERSION:20,DB_STORE_NAME:"FILE_DATA",saveFilesToDB:function (paths, onload, onerror) {

								        onload = onload || function(){};

								        onerror = onerror || function(){};

								        var indexedDB = FS.indexedDB();

								        try {

								          var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION);

								        } catch (e) {

								          return onerror(e);

								        }

								        openRequest.onupgradeneeded = function openRequest_onupgradeneeded() {

								          console.log('creating db');

								          var db = openRequest.result;

								          db.createObjectStore(FS.DB_STORE_NAME);

								        };

								        openRequest.onsuccess = function openRequest_onsuccess() {

								          var db = openRequest.result;

								          var transaction = db.transaction([FS.DB_STORE_NAME], 'readwrite');

								          var files = transaction.objectStore(FS.DB_STORE_NAME);

								          var ok = 0, fail = 0, total = paths.length;

								          function finish() {

								            if (fail == 0) onload(); else onerror();

								          }

								          paths.forEach(function(path) {

								            var putRequest = files.put(FS.analyzePath(path).object.contents, path);

								            putRequest.onsuccess = function putRequest_onsuccess() { ok++; if (ok + fail == total) finish() };

								            putRequest.onerror = function putRequest_onerror() { fail++; if (ok + fail == total) finish() };

								          });

								          transaction.onerror = onerror;

								        };

								        openRequest.onerror = onerror;

								      },loadFilesFromDB:function (paths, onload, onerror) {

								        onload = onload || function(){};

								        onerror = onerror || function(){};

								        var indexedDB = FS.indexedDB();

								        try {

								          var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION);

								        } catch (e) {

								          return onerror(e);

								        }

								        openRequest.onupgradeneeded = onerror; // no database to load from

								        openRequest.onsuccess = function openRequest_onsuccess() {

								          var db = openRequest.result;

								          try {

								            var transaction = db.transaction([FS.DB_STORE_NAME], 'readonly');

								          } catch(e) {

								            onerror(e);

								            return;

								          }

								          var files = transaction.objectStore(FS.DB_STORE_NAME);

								          var ok = 0, fail = 0, total = paths.length;

								          function finish() {

								            if (fail == 0) onload(); else onerror();

								          }

								          paths.forEach(function(path) {

								            var getRequest = files.get(path);

								            getRequest.onsuccess = function getRequest_onsuccess() {

								              if (FS.analyzePath(path).exists) {

								                FS.unlink(path);

								              }

								              FS.createDataFile(PATH.dirname(path), PATH.basename(path), getRequest.result, true, true, true);

								              ok++;

								              if (ok + fail == total) finish();

								            };

								            getRequest.onerror = function getRequest_onerror() { fail++; if (ok + fail == total) finish() };

								          });

								          transaction.onerror = onerror;

								        };

								        openRequest.onerror = onerror;

								      }};var SYSCALLS={DEFAULT_POLLMASK:5,mappings:{},umask:511,calculateAt:function (dirfd, path) {

								        if (path[0] !== '/') {

								          // relative path

								          var dir;

								          if (dirfd === -100) {

								            dir = FS.cwd();

								          } else {

								            var dirstream = FS.getStream(dirfd);

								            if (!dirstream) throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								            dir = dirstream.path;

								          }

								          path = PATH.join2(dir, path);

								        }

								        return path;

								      },doStat:function (func, path, buf) {

								        try {

								          var stat = func(path);

								        } catch (e) {

								          if (e && e.node && PATH.normalize(path) !== PATH.normalize(FS.getPath(e.node))) {

								            // an error occurred while trying to look up the path; we should just report ENOTDIR

								            return -ERRNO_CODES.ENOTDIR;

								          }

								          throw e;

								        }

								        HEAP32[((buf)>>2)]=stat.dev;

								        HEAP32[(((buf)+(4))>>2)]=0;

								        HEAP32[(((buf)+(8))>>2)]=stat.ino;

								        HEAP32[(((buf)+(12))>>2)]=stat.mode;

								        HEAP32[(((buf)+(16))>>2)]=stat.nlink;

								        HEAP32[(((buf)+(20))>>2)]=stat.uid;

								        HEAP32[(((buf)+(24))>>2)]=stat.gid;

								        HEAP32[(((buf)+(28))>>2)]=stat.rdev;

								        HEAP32[(((buf)+(32))>>2)]=0;

								        HEAP32[(((buf)+(36))>>2)]=stat.size;

								        HEAP32[(((buf)+(40))>>2)]=4096;

								        HEAP32[(((buf)+(44))>>2)]=stat.blocks;

								        HEAP32[(((buf)+(48))>>2)]=(stat.atime.getTime() / 1000)|0;

								        HEAP32[(((buf)+(52))>>2)]=0;

								        HEAP32[(((buf)+(56))>>2)]=(stat.mtime.getTime() / 1000)|0;

								        HEAP32[(((buf)+(60))>>2)]=0;

								        HEAP32[(((buf)+(64))>>2)]=(stat.ctime.getTime() / 1000)|0;

								        HEAP32[(((buf)+(68))>>2)]=0;

								        HEAP32[(((buf)+(72))>>2)]=stat.ino;

								        return 0;

								      },doMsync:function (addr, stream, len, flags) {

								        var buffer = new Uint8Array(HEAPU8.subarray(addr, addr + len));

								        FS.msync(stream, buffer, 0, len, flags);

								      },doMkdir:function (path, mode) {

								        // remove a trailing slash, if one - /a/b/ has basename of '', but

								        // we want to create b in the context of this function

								        path = PATH.normalize(path);

								        if (path[path.length-1] === '/') path = path.substr(0, path.length-1);

								        FS.mkdir(path, mode, 0);

								        return 0;

								      },doMknod:function (path, mode, dev) {

								        // we don't want this in the JS API as it uses mknod to create all nodes.

								        switch (mode & 61440) {

								          case 32768:

								          case 8192:

								          case 24576:

								          case 4096:

								          case 49152:

								            break;

								          default: return -ERRNO_CODES.EINVAL;

								        }

								        FS.mknod(path, mode, dev);

								        return 0;

								      },doReadlink:function (path, buf, bufsize) {

								        if (bufsize <= 0) return -ERRNO_CODES.EINVAL;

								        var ret = FS.readlink(path);


								        var len = Math.min(bufsize, lengthBytesUTF8(ret));

								        var endChar = HEAP8[buf+len];

								        stringToUTF8(ret, buf, bufsize+1);

								        // readlink is one of the rare functions that write out a C string, but does never append a null to the output buffer(!)

								        // stringToUTF8() always appends a null byte, so restore the character under the null byte after the write.

								        HEAP8[buf+len] = endChar;


								        return len;

								      },doAccess:function (path, amode) {

								        if (amode & ~7) {

								          // need a valid mode

								          return -ERRNO_CODES.EINVAL;

								        }

								        var node;

								        var lookup = FS.lookupPath(path, { follow: true });

								        node = lookup.node;

								        var perms = '';

								        if (amode & 4) perms += 'r';

								        if (amode & 2) perms += 'w';

								        if (amode & 1) perms += 'x';

								        if (perms /* otherwise, they've just passed F_OK */ && FS.nodePermissions(node, perms)) {

								          return -ERRNO_CODES.EACCES;

								        }

								        return 0;

								      },doDup:function (path, flags, suggestFD) {

								        var suggest = FS.getStream(suggestFD);

								        if (suggest) FS.close(suggest);

								        return FS.open(path, flags, 0, suggestFD, suggestFD).fd;

								      },doReadv:function (stream, iov, iovcnt, offset) {

								        var ret = 0;

								        for (var i = 0; i < iovcnt; i++) {

								          var ptr = HEAP32[(((iov)+(i*8))>>2)];

								          var len = HEAP32[(((iov)+(i*8 + 4))>>2)];

								          var curr = FS.read(stream, HEAP8,ptr, len, offset);

								          if (curr < 0) return -1;

								          ret += curr;

								          if (curr < len) break; // nothing more to read

								        }

								        return ret;

								      },doWritev:function (stream, iov, iovcnt, offset) {

								        var ret = 0;

								        for (var i = 0; i < iovcnt; i++) {

								          var ptr = HEAP32[(((iov)+(i*8))>>2)];

								          var len = HEAP32[(((iov)+(i*8 + 4))>>2)];

								          var curr = FS.write(stream, HEAP8,ptr, len, offset);

								          if (curr < 0) return -1;

								          ret += curr;

								        }

								        return ret;

								      },varargs:0,get:function (varargs) {

								        SYSCALLS.varargs += 4;

								        var ret = HEAP32[(((SYSCALLS.varargs)-(4))>>2)];

								        return ret;

								      },getStr:function () {

								        var ret = Pointer_stringify(SYSCALLS.get());

								        return ret;

								      },getStreamFromFD:function () {

								        var stream = FS.getStream(SYSCALLS.get());

								        if (!stream) throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        return stream;

								      },getSocketFromFD:function () {

								        var socket = SOCKFS.getSocket(SYSCALLS.get());

								        if (!socket) throw new FS.ErrnoError(ERRNO_CODES.EBADF);

								        return socket;

								      },getSocketAddress:function (allowNull) {

								        var addrp = SYSCALLS.get(), addrlen = SYSCALLS.get();

								        if (allowNull && addrp === 0) return null;

								        var info = __read_sockaddr(addrp, addrlen);

								        if (info.errno) throw new FS.ErrnoError(info.errno);

								        info.addr = DNS.lookup_addr(info.addr) || info.addr;

								        return info;

								      },get64:function () {

								        var low = SYSCALLS.get(), high = SYSCALLS.get();

								        if (low >= 0) assert(high === 0);

								        else assert(high === -1);

								        return low;

								      },getZero:function () {

								        assert(SYSCALLS.get() === 0);

								      }};function ___syscall54(which, varargs) {if (ENVIRONMENT_IS_PTHREAD) { return _emscripten_sync_run_in_main_thread_2(138, 54, varargs) }

								  SYSCALLS.varargs = varargs;

								  try {

								   // ioctl

								      var stream = SYSCALLS.getStreamFromFD(), op = SYSCALLS.get();

								      switch (op) {

								        case 21505: {

								          if (!stream.tty) return -ERRNO_CODES.ENOTTY;

								          return 0;

								        }

								        case 21506: {

								          if (!stream.tty) return -ERRNO_CODES.ENOTTY;

								          return 0; // no-op, not actually adjusting terminal settings

								        }

								        case 21519: {

								          if (!stream.tty) return -ERRNO_CODES.ENOTTY;

								          var argp = SYSCALLS.get();

								          HEAP32[((argp)>>2)]=0;

								          return 0;

								        }

								        case 21520: {

								          if (!stream.tty) return -ERRNO_CODES.ENOTTY;

								          return -ERRNO_CODES.EINVAL; // not supported

								        }

								        case 21531: {

								          var argp = SYSCALLS.get();

								          return FS.ioctl(stream, op, argp);

								        }

								        case 21523: {

								          // TODO: in theory we should write to the winsize struct that gets

								          // passed in, but for now musl doesn't read anything on it

								          if (!stream.tty) return -ERRNO_CODES.ENOTTY;

								          return 0;

								        }

								        default: abort('bad ioctl syscall ' + op);

								      }

								    } catch (e) {

								    if (typeof FS === 'undefined' || !(e instanceof FS.ErrnoError)) abort(e);

								    return -e.errno;

								  }

								  }


								  function _emscripten_glSampleCoverage(value, invert) {

								      GLctx.sampleCoverage(value, !!invert);

								    }


								  function _glDeleteTextures(n, textures) {

								      for (var i = 0; i < n; i++) {

								        var id = HEAP32[(((textures)+(i*4))>>2)];

								        var texture = GL.textures[id];

								        if (!texture) continue; // GL spec: "glDeleteTextures silently ignores 0s and names that do not correspond to existing textures".

								        GLctx.deleteTexture(texture);

								        texture.name = 0;

								        GL.textures[id] = null;

								      }

								    }


								  function _emscripten_glFrustum() {

								  Module['printErr']('missing function: emscripten_glFrustum'); abort(-1);

								  }


								  function _glfwSetWindowSizeCallback(winid, cbfun) {

								      GLFW.setWindowSizeCallback(winid, cbfun);

								    }


								  function _emscripten_glGetTexParameterfv(target, pname, params) {

								      if (!params) {

								        // GLES2 specification does not specify how to behave if params is a null pointer. Since calling this function does not make sense

								        // if p == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      HEAPF32[((params)>>2)]=GLctx.getTexParameter(target, pname);

								    }


								  function _emscripten_glUniform4i(location, v0, v1, v2, v3) {

								      GLctx.uniform4i(GL.uniforms[location], v0, v1, v2, v3);

								    }


								  function _emscripten_glBindRenderbuffer(target, renderbuffer) {

								      GLctx.bindRenderbuffer(target, renderbuffer ? GL.renderbuffers[renderbuffer] : null);

								    }


								  function _emscripten_glViewport(x0, x1, x2, x3) { GLctx['viewport'](x0, x1, x2, x3) }


								  var JSEvents={keyEvent:0,mouseEvent:0,wheelEvent:0,uiEvent:0,focusEvent:0,deviceOrientationEvent:0,deviceMotionEvent:0,fullscreenChangeEvent:0,pointerlockChangeEvent:0,visibilityChangeEvent:0,touchEvent:0,lastGamepadState:null,lastGamepadStateFrame:null,numGamepadsConnected:0,previousFullscreenElement:null,previousScreenX:null,previousScreenY:null,removeEventListenersRegistered:false,staticInit:function () {

								        if (typeof window !== 'undefined') {

								          window.addEventListener("gamepadconnected", function() { ++JSEvents.numGamepadsConnected; });

								          window.addEventListener("gamepaddisconnected", function() { --JSEvents.numGamepadsConnected; });

								        }

								      },registerRemoveEventListeners:function () {

								        if (!JSEvents.removeEventListenersRegistered) {

								        __ATEXIT__.push(function() {

								            for(var i = JSEvents.eventHandlers.length-1; i >= 0; --i) {

								              JSEvents._removeHandler(i);

								            }

								           });

								          JSEvents.removeEventListenersRegistered = true;

								        }

								      },findEventTarget:function (target) {

								        if (target) {

								          if (typeof target == "number") {

								            target = Pointer_stringify(target);

								          }

								          if (target == '#window') return window;

								          else if (target == '#document') return document;

								          else if (target == '#screen') return window.screen;

								          else if (target == '#canvas') return Module['canvas'];


								          if (typeof target == 'string') return document.getElementById(target);

								          else return target;

								        } else {

								          // The sensible target varies between events, but use window as the default

								          // since DOM events mostly can default to that. Specific callback registrations

								          // override their own defaults.

								          return window;

								        }

								      },deferredCalls:[],deferCall:function (targetFunction, precedence, argsList) {

								        function arraysHaveEqualContent(arrA, arrB) {

								          if (arrA.length != arrB.length) return false;


								          for(var i in arrA) {

								            if (arrA[i] != arrB[i]) return false;

								          }

								          return true;

								        }

								        // Test if the given call was already queued, and if so, don't add it again.

								        for(var i in JSEvents.deferredCalls) {

								          var call = JSEvents.deferredCalls[i];

								          if (call.targetFunction == targetFunction && arraysHaveEqualContent(call.argsList, argsList)) {

								            return;

								          }

								        }

								        JSEvents.deferredCalls.push({

								          targetFunction: targetFunction,

								          precedence: precedence,

								          argsList: argsList

								        });


								        JSEvents.deferredCalls.sort(function(x,y) { return x.precedence < y.precedence; });

								      },removeDeferredCalls:function (targetFunction) {

								        for(var i = 0; i < JSEvents.deferredCalls.length; ++i) {

								          if (JSEvents.deferredCalls[i].targetFunction == targetFunction) {

								            JSEvents.deferredCalls.splice(i, 1);

								            --i;

								          }

								        }

								      },canPerformEventHandlerRequests:function () {

								        return JSEvents.inEventHandler && JSEvents.currentEventHandler.allowsDeferredCalls;

								      },runDeferredCalls:function () {

								        if (!JSEvents.canPerformEventHandlerRequests()) {

								          return;

								        }

								        for(var i = 0; i < JSEvents.deferredCalls.length; ++i) {

								          var call = JSEvents.deferredCalls[i];

								          JSEvents.deferredCalls.splice(i, 1);

								          --i;

								          call.targetFunction.apply(this, call.argsList);

								        }

								      },inEventHandler:0,currentEventHandler:null,eventHandlers:[],isInternetExplorer:function () { return navigator.userAgent.indexOf('MSIE') !== -1 || navigator.appVersion.indexOf('Trident/') > 0; },removeAllHandlersOnTarget:function (target, eventTypeString) {

								        for(var i = 0; i < JSEvents.eventHandlers.length; ++i) {

								          if (JSEvents.eventHandlers[i].target == target &&

								            (!eventTypeString || eventTypeString == JSEvents.eventHandlers[i].eventTypeString)) {

								             JSEvents._removeHandler(i--);

								           }

								        }

								      },_removeHandler:function (i) {

								        var h = JSEvents.eventHandlers[i];

								        h.target.removeEventListener(h.eventTypeString, h.eventListenerFunc, h.useCapture);

								        JSEvents.eventHandlers.splice(i, 1);

								      },registerOrRemoveHandler:function (eventHandler) {

								        var jsEventHandler = function jsEventHandler(event) {

								          // Increment nesting count for the event handler.

								          ++JSEvents.inEventHandler;

								          JSEvents.currentEventHandler = eventHandler;

								          // Process any old deferred calls the user has placed.

								          JSEvents.runDeferredCalls();

								          // Process the actual event, calls back to user C code handler.

								          eventHandler.handlerFunc(event);

								          // Process any new deferred calls that were placed right now from this event handler.

								          JSEvents.runDeferredCalls();

								          // Out of event handler - restore nesting count.

								          --JSEvents.inEventHandler;

								        }


								        if (eventHandler.callbackfunc) {

								          eventHandler.eventListenerFunc = jsEventHandler;

								          eventHandler.target.addEventListener(eventHandler.eventTypeString, jsEventHandler, eventHandler.useCapture);

								          JSEvents.eventHandlers.push(eventHandler);

								          JSEvents.registerRemoveEventListeners();

								        } else {

								          for(var i = 0; i < JSEvents.eventHandlers.length; ++i) {

								            if (JSEvents.eventHandlers[i].target == eventHandler.target

								             && JSEvents.eventHandlers[i].eventTypeString == eventHandler.eventTypeString) {

								               JSEvents._removeHandler(i--);

								             }

								          }

								        }

								      },registerKeyEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.keyEvent) {

								          JSEvents.keyEvent = _malloc( 164 );

								        }

								        var handlerFunc = function(event) {

								          var e = event || window.event;

								          stringToUTF8(e.key ? e.key : "", JSEvents.keyEvent + 0, 32);

								          stringToUTF8(e.code ? e.code : "", JSEvents.keyEvent + 32, 32);

								          HEAP32[(((JSEvents.keyEvent)+(64))>>2)]=e.location;

								          HEAP32[(((JSEvents.keyEvent)+(68))>>2)]=e.ctrlKey;

								          HEAP32[(((JSEvents.keyEvent)+(72))>>2)]=e.shiftKey;

								          HEAP32[(((JSEvents.keyEvent)+(76))>>2)]=e.altKey;

								          HEAP32[(((JSEvents.keyEvent)+(80))>>2)]=e.metaKey;

								          HEAP32[(((JSEvents.keyEvent)+(84))>>2)]=e.repeat;

								          stringToUTF8(e.locale ? e.locale : "", JSEvents.keyEvent + 88, 32);

								          stringToUTF8(e.char ? e.char : "", JSEvents.keyEvent + 120, 32);

								          HEAP32[(((JSEvents.keyEvent)+(152))>>2)]=e.charCode;

								          HEAP32[(((JSEvents.keyEvent)+(156))>>2)]=e.keyCode;

								          HEAP32[(((JSEvents.keyEvent)+(160))>>2)]=e.which;

								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.keyEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: JSEvents.isInternetExplorer() ? false : true, // MSIE doesn't allow fullscreen and pointerlock requests from key handlers, others do.

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },getBoundingClientRectOrZeros:function (target) {

								        return target.getBoundingClientRect ? target.getBoundingClientRect() : { left: 0, top: 0 };

								      },fillMouseEventData:function (eventStruct, e, target) {

								        HEAPF64[((eventStruct)>>3)]=JSEvents.tick();

								        HEAP32[(((eventStruct)+(8))>>2)]=e.screenX;

								        HEAP32[(((eventStruct)+(12))>>2)]=e.screenY;

								        HEAP32[(((eventStruct)+(16))>>2)]=e.clientX;

								        HEAP32[(((eventStruct)+(20))>>2)]=e.clientY;

								        HEAP32[(((eventStruct)+(24))>>2)]=e.ctrlKey;

								        HEAP32[(((eventStruct)+(28))>>2)]=e.shiftKey;

								        HEAP32[(((eventStruct)+(32))>>2)]=e.altKey;

								        HEAP32[(((eventStruct)+(36))>>2)]=e.metaKey;

								        HEAP16[(((eventStruct)+(40))>>1)]=e.button;

								        HEAP16[(((eventStruct)+(42))>>1)]=e.buttons;

								        HEAP32[(((eventStruct)+(44))>>2)]=e["movementX"] || e["mozMovementX"] || e["webkitMovementX"] || (e.screenX-JSEvents.previousScreenX);

								        HEAP32[(((eventStruct)+(48))>>2)]=e["movementY"] || e["mozMovementY"] || e["webkitMovementY"] || (e.screenY-JSEvents.previousScreenY);


								        if (Module['canvas']) {

								          var rect = Module['canvas'].getBoundingClientRect();

								          HEAP32[(((eventStruct)+(60))>>2)]=e.clientX - rect.left;

								          HEAP32[(((eventStruct)+(64))>>2)]=e.clientY - rect.top;

								        } else { // Canvas is not initialized, return 0.

								          HEAP32[(((eventStruct)+(60))>>2)]=0;

								          HEAP32[(((eventStruct)+(64))>>2)]=0;

								        }

								        if (target) {

								          var rect = JSEvents.getBoundingClientRectOrZeros(target);

								          HEAP32[(((eventStruct)+(52))>>2)]=e.clientX - rect.left;

								          HEAP32[(((eventStruct)+(56))>>2)]=e.clientY - rect.top;

								        } else { // No specific target passed, return 0.

								          HEAP32[(((eventStruct)+(52))>>2)]=0;

								          HEAP32[(((eventStruct)+(56))>>2)]=0;

								        }

								        // wheel and mousewheel events contain wrong screenX/screenY on chrome/opera

								        // https://github.com/kripken/emscripten/pull/4997

								        // https://bugs.chromium.org/p/chromium/issues/detail?id=699956

								        if (e.type !== 'wheel' && e.type !== 'mousewheel') {

								          JSEvents.previousScreenX = e.screenX;

								          JSEvents.previousScreenY = e.screenY;

								        }

								      },registerMouseEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.mouseEvent) {

								          JSEvents.mouseEvent = _malloc( 72 );

								        }

								        target = JSEvents.findEventTarget(target);

								        var handlerFunc = function(event) {

								          var e = event || window.event;

								          JSEvents.fillMouseEventData(JSEvents.mouseEvent, e, target);

								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.mouseEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: eventTypeString != 'mousemove' && eventTypeString != 'mouseenter' && eventTypeString != 'mouseleave', // Mouse move events do not allow fullscreen/pointer lock requests to be handled in them!

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        // In IE, mousedown events don't either allow deferred calls to be run!

								        if (JSEvents.isInternetExplorer() && eventTypeString == 'mousedown') eventHandler.allowsDeferredCalls = false;

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },registerWheelEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.wheelEvent) {

								          JSEvents.wheelEvent = _malloc( 104 );

								        }

								        target = JSEvents.findEventTarget(target);

								        // The DOM Level 3 events spec event 'wheel'

								        var wheelHandlerFunc = function(event) {

								          var e = event || window.event;

								          JSEvents.fillMouseEventData(JSEvents.wheelEvent, e, target);

								          HEAPF64[(((JSEvents.wheelEvent)+(72))>>3)]=e["deltaX"];

								          HEAPF64[(((JSEvents.wheelEvent)+(80))>>3)]=e["deltaY"];

								          HEAPF64[(((JSEvents.wheelEvent)+(88))>>3)]=e["deltaZ"];

								          HEAP32[(((JSEvents.wheelEvent)+(96))>>2)]=e["deltaMode"];

								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.wheelEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };

								        // The 'mousewheel' event as implemented in Safari 6.0.5

								        var mouseWheelHandlerFunc = function(event) {

								          var e = event || window.event;

								          JSEvents.fillMouseEventData(JSEvents.wheelEvent, e, target);

								          HEAPF64[(((JSEvents.wheelEvent)+(72))>>3)]=e["wheelDeltaX"] || 0;

								          HEAPF64[(((JSEvents.wheelEvent)+(80))>>3)]=-(e["wheelDeltaY"] ? e["wheelDeltaY"] : e["wheelDelta"]) /* 1. Invert to unify direction with the DOM Level 3 wheel event. 2. MSIE does not provide wheelDeltaY, so wheelDelta is used as a fallback. */;

								          HEAPF64[(((JSEvents.wheelEvent)+(88))>>3)]=0 /* Not available */;

								          HEAP32[(((JSEvents.wheelEvent)+(96))>>2)]=0 /* DOM_DELTA_PIXEL */;

								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.wheelEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: true,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: (eventTypeString == 'wheel') ? wheelHandlerFunc : mouseWheelHandlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },pageScrollPos:function () {

								        if (window.pageXOffset > 0 || window.pageYOffset > 0) {

								          return [window.pageXOffset, window.pageYOffset];

								        }

								        if (typeof document.documentElement.scrollLeft !== 'undefined' || typeof document.documentElement.scrollTop !== 'undefined') {

								          return [document.documentElement.scrollLeft, document.documentElement.scrollTop];

								        }

								        return [document.body.scrollLeft|0, document.body.scrollTop|0];

								      },registerUiEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.uiEvent) {

								          JSEvents.uiEvent = _malloc( 36 );

								        }


								        if (eventTypeString == "scroll" && !target) {

								          target = document; // By default read scroll events on document rather than window.

								        } else {

								          target = JSEvents.findEventTarget(target);

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;

								          if (e.target != target) {

								            // Never take ui events such as scroll via a 'bubbled' route, but always from the direct element that

								            // was targeted. Otherwise e.g. if app logs a message in response to a page scroll, the Emscripten log

								            // message box could cause to scroll, generating a new (bubbled) scroll message, causing a new log print,

								            // causing a new scroll, etc..

								            return;

								          }

								          var scrollPos = JSEvents.pageScrollPos();

								          HEAP32[((JSEvents.uiEvent)>>2)]=e.detail;

								          HEAP32[(((JSEvents.uiEvent)+(4))>>2)]=document.body.clientWidth;

								          HEAP32[(((JSEvents.uiEvent)+(8))>>2)]=document.body.clientHeight;

								          HEAP32[(((JSEvents.uiEvent)+(12))>>2)]=window.innerWidth;

								          HEAP32[(((JSEvents.uiEvent)+(16))>>2)]=window.innerHeight;

								          HEAP32[(((JSEvents.uiEvent)+(20))>>2)]=window.outerWidth;

								          HEAP32[(((JSEvents.uiEvent)+(24))>>2)]=window.outerHeight;

								          HEAP32[(((JSEvents.uiEvent)+(28))>>2)]=scrollPos[0];

								          HEAP32[(((JSEvents.uiEvent)+(32))>>2)]=scrollPos[1];

								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.uiEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: false, // Neither scroll or resize events allow running requests inside them.

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },getNodeNameForTarget:function (target) {

								        if (!target) return '';

								        if (target == window) return '#window';

								        if (target == window.screen) return '#screen';

								        return (target && target.nodeName) ? target.nodeName : '';

								      },registerFocusEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.focusEvent) {

								          JSEvents.focusEvent = _malloc( 256 );

								        }

								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          var nodeName = JSEvents.getNodeNameForTarget(e.target);

								          var id = e.target.id ? e.target.id : '';

								          stringToUTF8(nodeName, JSEvents.focusEvent + 0, 128);

								          stringToUTF8(id, JSEvents.focusEvent + 128, 128);

								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.focusEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },tick:function () {

								        if (window['performance'] && window['performance']['now']) return window['performance']['now']();

								        else return Date.now();

								      },registerDeviceOrientationEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.deviceOrientationEvent) {

								          JSEvents.deviceOrientationEvent = _malloc( 40 );

								        }

								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          HEAPF64[((JSEvents.deviceOrientationEvent)>>3)]=JSEvents.tick();

								          HEAPF64[(((JSEvents.deviceOrientationEvent)+(8))>>3)]=e.alpha;

								          HEAPF64[(((JSEvents.deviceOrientationEvent)+(16))>>3)]=e.beta;

								          HEAPF64[(((JSEvents.deviceOrientationEvent)+(24))>>3)]=e.gamma;

								          HEAP32[(((JSEvents.deviceOrientationEvent)+(32))>>2)]=e.absolute;


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.deviceOrientationEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },registerDeviceMotionEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.deviceMotionEvent) {

								          JSEvents.deviceMotionEvent = _malloc( 80 );

								        }

								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          HEAPF64[((JSEvents.deviceOrientationEvent)>>3)]=JSEvents.tick();

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(8))>>3)]=e.acceleration.x;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(16))>>3)]=e.acceleration.y;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(24))>>3)]=e.acceleration.z;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(32))>>3)]=e.accelerationIncludingGravity.x;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(40))>>3)]=e.accelerationIncludingGravity.y;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(48))>>3)]=e.accelerationIncludingGravity.z;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(56))>>3)]=e.rotationRate.alpha;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(64))>>3)]=e.rotationRate.beta;

								          HEAPF64[(((JSEvents.deviceMotionEvent)+(72))>>3)]=e.rotationRate.gamma;


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.deviceMotionEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },screenOrientation:function () {

								        if (!window.screen) return undefined;

								        return window.screen.orientation || window.screen.mozOrientation || window.screen.webkitOrientation || window.screen.msOrientation;

								      },fillOrientationChangeEventData:function (eventStruct, e) {

								        var orientations  = ["portrait-primary", "portrait-secondary", "landscape-primary", "landscape-secondary"];

								        var orientations2 = ["portrait",         "portrait",           "landscape",         "landscape"];


								        var orientationString = JSEvents.screenOrientation();

								        var orientation = orientations.indexOf(orientationString);

								        if (orientation == -1) {

								          orientation = orientations2.indexOf(orientationString);

								        }


								        HEAP32[((eventStruct)>>2)]=1 << orientation;

								        HEAP32[(((eventStruct)+(4))>>2)]=window.orientation;

								      },registerOrientationChangeEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.orientationChangeEvent) {

								          JSEvents.orientationChangeEvent = _malloc( 8 );

								        }


								        if (!target) {

								          target = window.screen; // Orientation events need to be captured from 'window.screen' instead of 'window'

								        } else {

								          target = JSEvents.findEventTarget(target);

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          JSEvents.fillOrientationChangeEventData(JSEvents.orientationChangeEvent, e);


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.orientationChangeEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        if (eventTypeString == "orientationchange" && window.screen.mozOrientation !== undefined) {

								          eventTypeString = "mozorientationchange";

								        }


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },fullscreenEnabled:function () {

								        return document.fullscreenEnabled || document.mozFullScreenEnabled || document.webkitFullscreenEnabled || document.msFullscreenEnabled;

								      },fillFullscreenChangeEventData:function (eventStruct, e) {

								        var fullscreenElement = document.fullscreenElement || document.mozFullScreenElement || document.webkitFullscreenElement || document.msFullscreenElement;

								        var isFullscreen = !!fullscreenElement;

								        HEAP32[((eventStruct)>>2)]=isFullscreen;

								        HEAP32[(((eventStruct)+(4))>>2)]=JSEvents.fullscreenEnabled();

								        // If transitioning to fullscreen, report info about the element that is now fullscreen.

								        // If transitioning to windowed mode, report info about the element that just was fullscreen.

								        var reportedElement = isFullscreen ? fullscreenElement : JSEvents.previousFullscreenElement;

								        var nodeName = JSEvents.getNodeNameForTarget(reportedElement);

								        var id = (reportedElement && reportedElement.id) ? reportedElement.id : '';

								        stringToUTF8(nodeName, eventStruct + 8, 128);

								        stringToUTF8(id, eventStruct + 136, 128);

								        HEAP32[(((eventStruct)+(264))>>2)]=reportedElement ? reportedElement.clientWidth : 0;

								        HEAP32[(((eventStruct)+(268))>>2)]=reportedElement ? reportedElement.clientHeight : 0;

								        HEAP32[(((eventStruct)+(272))>>2)]=screen.width;

								        HEAP32[(((eventStruct)+(276))>>2)]=screen.height;

								        if (isFullscreen) {

								          JSEvents.previousFullscreenElement = fullscreenElement;

								        }

								      },registerFullscreenChangeEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.fullscreenChangeEvent) {

								          JSEvents.fullscreenChangeEvent = _malloc( 280 );

								        }


								        if (!target) {

								          target = document; // Fullscreen change events need to be captured from 'document' by default instead of 'window'

								        } else {

								          target = JSEvents.findEventTarget(target);

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          JSEvents.fillFullscreenChangeEventData(JSEvents.fullscreenChangeEvent, e);


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.fullscreenChangeEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },resizeCanvasForFullscreen:function (target, strategy) {

								        var restoreOldStyle = __registerRestoreOldStyle(target);

								        var cssWidth = strategy.softFullscreen ? window.innerWidth : screen.width;

								        var cssHeight = strategy.softFullscreen ? window.innerHeight : screen.height;

								        var rect = target.getBoundingClientRect();

								        var windowedCssWidth = rect.right - rect.left;

								        var windowedCssHeight = rect.bottom - rect.top;

								        var windowedRttWidth = target.width;

								        var windowedRttHeight = target.height;


								        if (strategy.scaleMode == 3) {

								          __setLetterbox(target, (cssHeight - windowedCssHeight) / 2, (cssWidth - windowedCssWidth) / 2);

								          cssWidth = windowedCssWidth;

								          cssHeight = windowedCssHeight;

								        } else if (strategy.scaleMode == 2) {

								          if (cssWidth*windowedRttHeight < windowedRttWidth*cssHeight) {

								            var desiredCssHeight = windowedRttHeight * cssWidth / windowedRttWidth;

								            __setLetterbox(target, (cssHeight - desiredCssHeight) / 2, 0);

								            cssHeight = desiredCssHeight;

								          } else {

								            var desiredCssWidth = windowedRttWidth * cssHeight / windowedRttHeight;

								            __setLetterbox(target, 0, (cssWidth - desiredCssWidth) / 2);

								            cssWidth = desiredCssWidth;

								          }

								        }


								        // If we are adding padding, must choose a background color or otherwise Chrome will give the

								        // padding a default white color. Do it only if user has not customized their own background color.

								        if (!target.style.backgroundColor) target.style.backgroundColor = 'black';

								        // IE11 does the same, but requires the color to be set in the document body.

								        if (!document.body.style.backgroundColor) document.body.style.backgroundColor = 'black'; // IE11

								        // Firefox always shows black letterboxes independent of style color.


								        target.style.width = cssWidth + 'px';

								        target.style.height = cssHeight + 'px';


								        if (strategy.filteringMode == 1) {

								          target.style.imageRendering = 'optimizeSpeed';

								          target.style.imageRendering = '-moz-crisp-edges';

								          target.style.imageRendering = '-o-crisp-edges';

								          target.style.imageRendering = '-webkit-optimize-contrast';

								          target.style.imageRendering = 'optimize-contrast';

								          target.style.imageRendering = 'crisp-edges';

								          target.style.imageRendering = 'pixelated';

								        }


								        var dpiScale = (strategy.canvasResolutionScaleMode == 2) ? window.devicePixelRatio : 1;

								        if (strategy.canvasResolutionScaleMode != 0) {

								          target.width = cssWidth * dpiScale;

								          target.height = cssHeight * dpiScale;

								          if (target.GLctxObject) target.GLctxObject.GLctx.viewport(0, 0, target.width, target.height);

								        }

								        return restoreOldStyle;

								      },requestFullscreen:function (target, strategy) {

								        // EMSCRIPTEN_FULLSCREEN_SCALE_DEFAULT + EMSCRIPTEN_FULLSCREEN_CANVAS_SCALE_NONE is a mode where no extra logic is performed to the DOM elements.

								        if (strategy.scaleMode != 0 || strategy.canvasResolutionScaleMode != 0) {

								          JSEvents.resizeCanvasForFullscreen(target, strategy);

								        }


								        if (target.requestFullscreen) {

								          target.requestFullscreen();

								        } else if (target.msRequestFullscreen) {

								          target.msRequestFullscreen();

								        } else if (target.mozRequestFullScreen) {

								          target.mozRequestFullScreen();

								        } else if (target.mozRequestFullscreen) {

								          target.mozRequestFullscreen();

								        } else if (target.webkitRequestFullscreen) {

								          target.webkitRequestFullscreen(Element.ALLOW_KEYBOARD_INPUT);

								        } else {

								          if (typeof JSEvents.fullscreenEnabled() === 'undefined') {

								            return -1;

								          } else {

								            return -3;

								          }

								        }


								        if (strategy.canvasResizedCallback) {

								          Module['dynCall_iiii'](strategy.canvasResizedCallback, 37, 0, strategy.canvasResizedCallbackUserData);

								        }


								        return 0;

								      },fillPointerlockChangeEventData:function (eventStruct, e) {

								        var pointerLockElement = document.pointerLockElement || document.mozPointerLockElement || document.webkitPointerLockElement || document.msPointerLockElement;

								        var isPointerlocked = !!pointerLockElement;

								        HEAP32[((eventStruct)>>2)]=isPointerlocked;

								        var nodeName = JSEvents.getNodeNameForTarget(pointerLockElement);

								        var id = (pointerLockElement && pointerLockElement.id) ? pointerLockElement.id : '';

								        stringToUTF8(nodeName, eventStruct + 4, 128);

								        stringToUTF8(id, eventStruct + 132, 128);

								      },registerPointerlockChangeEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.pointerlockChangeEvent) {

								          JSEvents.pointerlockChangeEvent = _malloc( 260 );

								        }


								        if (!target) {

								          target = document; // Pointer lock change events need to be captured from 'document' by default instead of 'window'

								        } else {

								          target = JSEvents.findEventTarget(target);

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          JSEvents.fillPointerlockChangeEventData(JSEvents.pointerlockChangeEvent, e);


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.pointerlockChangeEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },registerPointerlockErrorEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!target) {

								          target = document; // Pointer lock events need to be captured from 'document' by default instead of 'window'

								        } else {

								          target = JSEvents.findEventTarget(target);

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, 0, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },requestPointerLock:function (target) {

								        if (target.requestPointerLock) {

								          target.requestPointerLock();

								        } else if (target.mozRequestPointerLock) {

								          target.mozRequestPointerLock();

								        } else if (target.webkitRequestPointerLock) {

								          target.webkitRequestPointerLock();

								        } else if (target.msRequestPointerLock) {

								          target.msRequestPointerLock();

								        } else {

								          // document.body is known to accept pointer lock, so use that to differentiate if the user passed a bad element,

								          // or if the whole browser just doesn't support the feature.

								          if (document.body.requestPointerLock || document.body.mozRequestPointerLock || document.body.webkitRequestPointerLock || document.body.msRequestPointerLock) {

								            return -3;

								          } else {

								            return -1;

								          }

								        }

								        return 0;

								      },fillVisibilityChangeEventData:function (eventStruct, e) {

								        var visibilityStates = [ "hidden", "visible", "prerender", "unloaded" ];

								        var visibilityState = visibilityStates.indexOf(document.visibilityState);


								        HEAP32[((eventStruct)>>2)]=document.hidden;

								        HEAP32[(((eventStruct)+(4))>>2)]=visibilityState;

								      },registerVisibilityChangeEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.visibilityChangeEvent) {

								          JSEvents.visibilityChangeEvent = _malloc( 8 );

								        }


								        if (!target) {

								          target = document; // Visibility change events need to be captured from 'document' by default instead of 'window'

								        } else {

								          target = JSEvents.findEventTarget(target);

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          JSEvents.fillVisibilityChangeEventData(JSEvents.visibilityChangeEvent, e);


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.visibilityChangeEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },registerTouchEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.touchEvent) {

								          JSEvents.touchEvent = _malloc( 1684 );

								        }


								        target = JSEvents.findEventTarget(target);


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          var touches = {};

								          for(var i = 0; i < e.touches.length; ++i) {

								            var touch = e.touches[i];

								            touches[touch.identifier] = touch;

								          }

								          for(var i = 0; i < e.changedTouches.length; ++i) {

								            var touch = e.changedTouches[i];

								            touches[touch.identifier] = touch;

								            touch.changed = true;

								          }

								          for(var i = 0; i < e.targetTouches.length; ++i) {

								            var touch = e.targetTouches[i];

								            touches[touch.identifier].onTarget = true;

								          }


								          var ptr = JSEvents.touchEvent;

								          HEAP32[(((ptr)+(4))>>2)]=e.ctrlKey;

								          HEAP32[(((ptr)+(8))>>2)]=e.shiftKey;

								          HEAP32[(((ptr)+(12))>>2)]=e.altKey;

								          HEAP32[(((ptr)+(16))>>2)]=e.metaKey;

								          ptr += 20; // Advance to the start of the touch array.

								          var canvasRect = Module['canvas'] ? Module['canvas'].getBoundingClientRect() : undefined;

								          var targetRect = JSEvents.getBoundingClientRectOrZeros(target);

								          var numTouches = 0;

								          for(var i in touches) {

								            var t = touches[i];

								            HEAP32[((ptr)>>2)]=t.identifier;

								            HEAP32[(((ptr)+(4))>>2)]=t.screenX;

								            HEAP32[(((ptr)+(8))>>2)]=t.screenY;

								            HEAP32[(((ptr)+(12))>>2)]=t.clientX;

								            HEAP32[(((ptr)+(16))>>2)]=t.clientY;

								            HEAP32[(((ptr)+(20))>>2)]=t.pageX;

								            HEAP32[(((ptr)+(24))>>2)]=t.pageY;

								            HEAP32[(((ptr)+(28))>>2)]=t.changed;

								            HEAP32[(((ptr)+(32))>>2)]=t.onTarget;

								            if (canvasRect) {

								              HEAP32[(((ptr)+(44))>>2)]=t.clientX - canvasRect.left;

								              HEAP32[(((ptr)+(48))>>2)]=t.clientY - canvasRect.top;

								            } else {

								              HEAP32[(((ptr)+(44))>>2)]=0;

								              HEAP32[(((ptr)+(48))>>2)]=0;

								            }

								            HEAP32[(((ptr)+(36))>>2)]=t.clientX - targetRect.left;

								            HEAP32[(((ptr)+(40))>>2)]=t.clientY - targetRect.top;


								            ptr += 52;


								            if (++numTouches >= 32) {

								              break;

								            }

								          }

								          HEAP32[((JSEvents.touchEvent)>>2)]=numTouches;


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.touchEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: target,

								          allowsDeferredCalls: false, // XXX Currently disabled, see bug https://bugzilla.mozilla.org/show_bug.cgi?id=966493

								          // Once the above bug is resolved, enable the following condition if possible:

								          // allowsDeferredCalls: eventTypeString == 'touchstart',

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },fillGamepadEventData:function (eventStruct, e) {

								        HEAPF64[((eventStruct)>>3)]=e.timestamp;

								        for(var i = 0; i < e.axes.length; ++i) {

								          HEAPF64[(((eventStruct+i*8)+(16))>>3)]=e.axes[i];

								        }

								        for(var i = 0; i < e.buttons.length; ++i) {

								          if (typeof(e.buttons[i]) === 'object') {

								            HEAPF64[(((eventStruct+i*8)+(528))>>3)]=e.buttons[i].value;

								          } else {

								            HEAPF64[(((eventStruct+i*8)+(528))>>3)]=e.buttons[i];

								          }

								        }

								        for(var i = 0; i < e.buttons.length; ++i) {

								          if (typeof(e.buttons[i]) === 'object') {

								            HEAP32[(((eventStruct+i*4)+(1040))>>2)]=e.buttons[i].pressed;

								          } else {

								            HEAP32[(((eventStruct+i*4)+(1040))>>2)]=e.buttons[i] == 1.0;

								          }

								        }

								        HEAP32[(((eventStruct)+(1296))>>2)]=e.connected;

								        HEAP32[(((eventStruct)+(1300))>>2)]=e.index;

								        HEAP32[(((eventStruct)+(8))>>2)]=e.axes.length;

								        HEAP32[(((eventStruct)+(12))>>2)]=e.buttons.length;

								        stringToUTF8(e.id, eventStruct + 1304, 64);

								        stringToUTF8(e.mapping, eventStruct + 1368, 64);

								      },registerGamepadEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.gamepadEvent) {

								          JSEvents.gamepadEvent = _malloc( 1432 );

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          JSEvents.fillGamepadEventData(JSEvents.gamepadEvent, e.gamepad);


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.gamepadEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: true,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },registerBeforeUnloadEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          var confirmationMessage = Module['dynCall_iiii'](callbackfunc, eventTypeId, 0, userData);


								          if (confirmationMessage) {

								            confirmationMessage = Pointer_stringify(confirmationMessage);

								          }

								          if (confirmationMessage) {

								            e.preventDefault();

								            e.returnValue = confirmationMessage;

								            return confirmationMessage;

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },battery:function () { return navigator.battery || navigator.mozBattery || navigator.webkitBattery; },fillBatteryEventData:function (eventStruct, e) {

								        HEAPF64[((eventStruct)>>3)]=e.chargingTime;

								        HEAPF64[(((eventStruct)+(8))>>3)]=e.dischargingTime;

								        HEAPF64[(((eventStruct)+(16))>>3)]=e.level;

								        HEAP32[(((eventStruct)+(24))>>2)]=e.charging;

								      },registerBatteryEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!JSEvents.batteryEvent) {

								          JSEvents.batteryEvent = _malloc( 32 );

								        }


								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          JSEvents.fillBatteryEventData(JSEvents.batteryEvent, JSEvents.battery());


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, JSEvents.batteryEvent, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      },registerWebGlEventCallback:function (target, userData, useCapture, callbackfunc, eventTypeId, eventTypeString) {

								        if (!target) {

								          target = Module['canvas'];

								        }

								        var handlerFunc = function(event) {

								          var e = event || window.event;


								          var shouldCancel = Module['dynCall_iiii'](callbackfunc, eventTypeId, 0, userData);

								          if (shouldCancel) {

								            e.preventDefault();

								          }

								        };


								        var eventHandler = {

								          target: JSEvents.findEventTarget(target),

								          allowsDeferredCalls: false,

								          eventTypeString: eventTypeString,

								          callbackfunc: callbackfunc,

								          handlerFunc: handlerFunc,

								          useCapture: useCapture

								        };

								        JSEvents.registerOrRemoveHandler(eventHandler);

								      }};function __emscripten_sample_gamepad_data() {

								      // Polling gamepads generates garbage, so don't do it when we know there are no gamepads connected.

								      if (!JSEvents.numGamepadsConnected) return;


								      // Produce a new Gamepad API sample if we are ticking a new game frame, or if not using emscripten_set_main_loop() at all to drive animation.

								      if (Browser.mainLoop.currentFrameNumber !== JSEvents.lastGamepadStateFrame || !Browser.mainLoop.currentFrameNumber) {

								        JSEvents.lastGamepadState = navigator.getGamepads ? navigator.getGamepads() : (navigator.webkitGetGamepads ? navigator.webkitGetGamepads : null);

								        JSEvents.lastGamepadStateFrame = Browser.mainLoop.currentFrameNumber;

								      }

								    }function _emscripten_get_gamepad_status(index, gamepadState) {

								      __emscripten_sample_gamepad_data();

								      if (!JSEvents.lastGamepadState) return -1;


								      // INVALID_PARAM is returned on a Gamepad index that never was there.

								      if (index < 0 || index >= JSEvents.lastGamepadState.length) return -5;


								      // NO_DATA is returned on a Gamepad index that was removed.

								      // For previously disconnected gamepads there should be an empty slot (null/undefined/false) at the index.

								      // This is because gamepads must keep their original position in the array.

								      // For example, removing the first of two gamepads produces [null/undefined/false, gamepad].

								      if (!JSEvents.lastGamepadState[index]) return -7;


								      JSEvents.fillGamepadEventData(gamepadState, JSEvents.lastGamepadState[index]);

								      return 0;

								    }


								  function _utime(path, times) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_2(12, path, times);

								      // int utime(const char *path, const struct utimbuf *times);

								      // http://pubs.opengroup.org/onlinepubs/009695399/basedefs/utime.h.html

								      var time;

								      if (times) {

								        // NOTE: We don't keep track of access timestamps.

								        var offset = 4;

								        time = HEAP32[(((times)+(offset))>>2)];

								        time *= 1000;

								      } else {

								        time = Date.now();

								      }

								      path = Pointer_stringify(path);

								      try {

								        FS.utime(path, time, time);

								        return 0;

								      } catch (e) {

								        FS.handleFSError(e);

								        return -1;

								      }

								    }


								  function _emscripten_glCopyTexImage2D(x0, x1, x2, x3, x4, x5, x6, x7) { GLctx['copyTexImage2D'](x0, x1, x2, x3, x4, x5, x6, x7) }


								  function _emscripten_glTexParameterfv(target, pname, params) {

								      var param = HEAPF32[((params)>>2)];

								      GLctx.texParameterf(target, pname, param);

								    }


								  var PROCINFO={ppid:1,pid:42,sid:42,pgid:42};


								  var __pthread_ptr=0;


								  var __pthread_is_main_browser_thread=0;function __register_pthread_ptr(pthreadPtr, isMainBrowserThread, isMainRuntimeThread) {

								      pthreadPtr = pthreadPtr|0;

								      isMainBrowserThread = isMainBrowserThread|0;

								      isMainRuntimeThread = isMainRuntimeThread|0;

								      __pthread_ptr = pthreadPtr;

								      __pthread_is_main_browser_thread = isMainBrowserThread;

								      __pthread_is_main_runtime_thread = isMainRuntimeThread;

								    }


								  var _emscripten_main_thread_process_queued_calls=undefined;var PThread={MAIN_THREAD_ID:1,mainThreadInfo:{schedPolicy:0,schedPrio:0},unusedWorkerPool:[],runningWorkers:[],initMainThreadBlock:function () {

								        if (ENVIRONMENT_IS_PTHREAD) return undefined;

								        PThread.mainThreadBlock = allocate(244, "i32*", ALLOC_STATIC);

								        __register_pthread_ptr(PThread.mainThreadBlock, /*isMainBrowserThread=*/!ENVIRONMENT_IS_WORKER, /*isMainRuntimeThread=*/1); // Pass the thread address inside the asm.js scope to store it for fast access that avoids the need for a FFI out.


								        for (var i = 0; i < 244/4; ++i) HEAPU32[PThread.mainThreadBlock/4+i] = 0;


								        // The pthread struct has a field that points to itself - this is used as a magic ID to detect whether the pthread_t

								        // structure is 'alive'.

								        HEAP32[(((PThread.mainThreadBlock)+(24))>>2)]=PThread.mainThreadBlock;


								        // Allocate memory for thread-local storage.

								        var tlsMemory = allocate(128 * 4, "i32*", ALLOC_STATIC);

								        for (var i = 0; i < 128; ++i) HEAPU32[tlsMemory/4+i] = 0;

								        Atomics.store(HEAPU32, (PThread.mainThreadBlock + 116 ) >> 2, tlsMemory); // Init thread-local-storage memory array.

								        Atomics.store(HEAPU32, (PThread.mainThreadBlock + 52 ) >> 2, PThread.mainThreadBlock); // Main thread ID.

								        Atomics.store(HEAPU32, (PThread.mainThreadBlock + 56 ) >> 2, PROCINFO.pid); // Process ID.


								      },pthreads:{},pthreadIdCounter:2,exitHandlers:null,setThreadStatus:function () {},runExitHandlers:function () {

								        if (PThread.exitHandlers !== null) {

								          while (PThread.exitHandlers.length > 0) {

								            PThread.exitHandlers.pop()();

								          }

								          PThread.exitHandlers = null;

								        }


								        // Call into the musl function that runs destructors of all thread-specific data.

								        if (ENVIRONMENT_IS_PTHREAD && threadInfoStruct) ___pthread_tsd_run_dtors();

								      },threadExit:function (exitCode) {

								        var tb = _pthread_self();

								        if (tb) { // If we haven't yet exited?

								          Atomics.store(HEAPU32, (tb + 4 ) >> 2, exitCode);

								          // When we publish this, the main thread is free to deallocate the thread object and we are done.

								          // Therefore set threadInfoStruct = 0; above to 'release' the object in this worker thread.

								          Atomics.store(HEAPU32, (tb + 0 ) >> 2, 1);


								          // Disable all cancellation so that executing the cleanup handlers won't trigger another JS

								          // canceled exception to be thrown.

								          Atomics.store(HEAPU32, (tb + 72 ) >> 2, 1/*PTHREAD_CANCEL_DISABLE*/);

								          Atomics.store(HEAPU32, (tb + 76 ) >> 2, 0/*PTHREAD_CANCEL_DEFERRED*/);

								          PThread.runExitHandlers();


								          _emscripten_futex_wake(tb + 0, 2147483647);

								          __register_pthread_ptr(0, 0, 0); // Unregister the thread block also inside the asm.js scope.

								          threadInfoStruct = 0;

								          if (ENVIRONMENT_IS_PTHREAD) {

								            // This worker no longer owns any WebGL OffscreenCanvases, so transfer them back to parent thread.

								            var transferList = [];


								            postMessage({ cmd: 'exit' });

								          }

								        }

								      },threadCancel:function () {

								        PThread.runExitHandlers();

								        Atomics.store(HEAPU32, (threadInfoStruct + 4 ) >> 2, -1/*PTHREAD_CANCELED*/);

								        Atomics.store(HEAPU32, (threadInfoStruct + 0 ) >> 2, 1); // Mark the thread as no longer running.

								        _emscripten_futex_wake(threadInfoStruct + 0, 2147483647); // wake all threads

								        threadInfoStruct = selfThreadId = 0; // Not hosting a pthread anymore in this worker, reset the info structures to null.

								        __register_pthread_ptr(0, 0, 0); // Unregister the thread block also inside the asm.js scope.

								        postMessage({ cmd: 'cancelDone' });

								      },terminateAllThreads:function () {

								        for (var t in PThread.pthreads) {

								          var pthread = PThread.pthreads[t];

								          if (pthread) {

								            PThread.freeThreadData(pthread);

								            if (pthread.worker) pthread.worker.terminate();

								          }

								        }

								        PThread.pthreads = {};

								        for (var t in PThread.unusedWorkerPool) {

								          var pthread = PThread.unusedWorkerPool[t];

								          if (pthread) {

								            PThread.freeThreadData(pthread);

								            if (pthread.worker) pthread.worker.terminate();

								          }

								        }

								        PThread.unusedWorkerPool = [];

								        for (var t in PThread.runningWorkers) {

								          var pthread = PThread.runningWorkers[t];

								          if (pthread) {

								            PThread.freeThreadData(pthread);

								            if (pthread.worker) pthread.worker.terminate();

								          }

								        }

								        PThread.runningWorkers = [];

								      },freeThreadData:function (pthread) {

								        if (!pthread) return;

								        if (pthread.threadInfoStruct) {

								          var tlsMemory = HEAP32[(((pthread.threadInfoStruct)+(116))>>2)];

								          HEAP32[(((pthread.threadInfoStruct)+(116))>>2)]=0;

								          _free(pthread.tlsMemory);

								          _free(pthread.threadInfoStruct);

								        }

								        pthread.threadInfoStruct = 0;

								        if (pthread.allocatedOwnStack && pthread.stackBase) _free(pthread.stackBase);

								        pthread.stackBase = 0;

								        if (pthread.worker) pthread.worker.pthread = null;

								      },receiveObjectTransfer:function (data) {

								      },allocateUnusedWorkers:function (numWorkers, onFinishedLoading) {

								        if (typeof SharedArrayBuffer === 'undefined') return; // No multithreading support, no-op.

								        Module['print']('Preallocating ' + numWorkers + ' workers for a pthread spawn pool.');


								        var numWorkersLoaded = 0;

								        for (var i = 0; i < numWorkers; ++i) {

								          var pthreadMainJs = 'pthread-main.js';

								          // Allow HTML module to configure the location where the 'pthread-main.js' file will be loaded from,

								          // either via Module.locateFile() function, or via Module.pthreadMainPrefixURL string. If neither

								          // of these are passed, then the default URL 'pthread-main.js' relative to the main html file is loaded.

								          if (typeof Module['locateFile'] === 'function') pthreadMainJs = Module['locateFile'](pthreadMainJs);

								          else if (Module['pthreadMainPrefixURL']) pthreadMainJs = Module['pthreadMainPrefixURL'] + pthreadMainJs;

								          var worker = new Worker(pthreadMainJs);


								          worker.onmessage = function(e) {

								            // If this message is intended to a recipient that is not the main thread, forward it to the target thread.

								            if (e.data.targetThread && e.data.targetThread != _pthread_self()) {

								              var thread = PThread.pthreads[e.data.targetThread];

								              if (thread) {

								                thread.worker.postMessage(e.data, e.data.transferList);

								              } else {

								                console.error('Internal error! Worker sent a message "' + e.data.cmd + '" to target pthread ' + e.data.targetThread + ', but that thread no longer exists!');

								              }

								              return;

								            }


								            if (e.data.cmd === 'processQueuedMainThreadWork') {

								              // TODO: Must post message to main Emscripten thread in PROXY_TO_WORKER mode.

								              _emscripten_main_thread_process_queued_calls();

								            } else if (e.data.cmd === 'spawnThread') {

								              __spawn_thread(e.data);

								            } else if (e.data.cmd === 'cleanupThread') {

								              __cleanup_thread(e.data.thread);

								            } else if (e.data.cmd === 'killThread') {

								              __kill_thread(e.data.thread);

								            } else if (e.data.cmd === 'cancelThread') {

								              __cancel_thread(e.data.thread);

								            } else if (e.data.cmd === 'loaded') {

								              ++numWorkersLoaded;

								              if (numWorkersLoaded === numWorkers && onFinishedLoading) {

								                onFinishedLoading();

								              }

								            } else if (e.data.cmd === 'print') {

								              Module['print']('Thread ' + e.data.threadId + ': ' + e.data.text);

								            } else if (e.data.cmd === 'printErr') {

								              Module['printErr']('Thread ' + e.data.threadId + ': ' + e.data.text);

								            } else if (e.data.cmd === 'alert') {

								              alert('Thread ' + e.data.threadId + ': ' + e.data.text);

								            } else if (e.data.cmd === 'exit') {

								              // currently no-op

								            } else if (e.data.cmd === 'cancelDone') {

								              PThread.freeThreadData(worker.pthread);

								              worker.pthread = undefined; // Detach the worker from the pthread object, and return it to the worker pool as an unused worker.

								              PThread.unusedWorkerPool.push(worker);

								              // TODO: Free if detached.

								              PThread.runningWorkers.splice(PThread.runningWorkers.indexOf(worker.pthread), 1); // Not a running Worker anymore.

								            } else if (e.data.cmd === 'objectTransfer') {

								              PThread.receiveObjectTransfer(e.data);

								            } else {

								              Module['printErr']("worker sent an unknown command " + e.data.cmd);

								            }

								          };


								          worker.onerror = function(e) {

								            Module['printErr']('pthread sent an error! ' + e.filename + ':' + e.lineno + ': ' + e.message);

								          };


								          // Allocate tempDoublePtr for the worker. This is done here on the worker's behalf, since we may need to do this statically

								          // if the runtime has not been loaded yet, etc. - so we just use getMemory, which is main-thread only.

								          var tempDoublePtr = getMemory(8); // TODO: leaks. Cleanup after worker terminates.


								          // Ask the new worker to load up the Emscripten-compiled page. This is a heavy operation.

								          worker.postMessage({

								              cmd: 'load',

								              url: currentScriptUrl,

								              buffer: HEAPU8.buffer,

								              tempDoublePtr: tempDoublePtr,

								              TOTAL_MEMORY: TOTAL_MEMORY,

								              STATICTOP: STATICTOP,

								              DYNAMIC_BASE: DYNAMIC_BASE,

								              DYNAMICTOP_PTR: DYNAMICTOP_PTR,

								              PthreadWorkerInit: PthreadWorkerInit

								            });

								          PThread.unusedWorkerPool.push(worker);

								        }

								      },getNewWorker:function () {

								        if (PThread.unusedWorkerPool.length == 0) PThread.allocateUnusedWorkers(1);

								        if (PThread.unusedWorkerPool.length > 0) return PThread.unusedWorkerPool.pop();

								        else return null;

								      },busySpinWait:function (msecs) {

								        var t = performance.now() + msecs;

								        while(performance.now() < t) {

								          ;

								        }

								      }};var __pthread_is_main_runtime_thread=0;function _emscripten_is_main_runtime_thread() {

								      return __pthread_is_main_runtime_thread|0; // Semantically the same as testing "!ENVIRONMENT_IS_PTHREAD" outside the asm.js scope

								    }


								  function _emscripten_glLinkProgram(program) {

								      GLctx.linkProgram(GL.programs[program]);

								      GL.programInfos[program] = null; // uniforms no longer keep the same names after linking

								      GL.populateUniformTable(program);

								    }


								  function _emscripten_glUniform3f(location, v0, v1, v2) {

								      GLctx.uniform3f(GL.uniforms[location], v0, v1, v2);

								    }


								  function _emscripten_glGetObjectParameterivARB() {

								  Module['printErr']('missing function: emscripten_glGetObjectParameterivARB'); abort(-1);

								  }


								  function _emscripten_glBlendFunc(x0, x1) { GLctx['blendFunc'](x0, x1) }


								  function _emscripten_glUniform3i(location, v0, v1, v2) {

								      GLctx.uniform3i(GL.uniforms[location], v0, v1, v2);

								    }


								  function _emscripten_glStencilOp(x0, x1, x2) { GLctx['stencilOp'](x0, x1, x2) }


								  function _glCreateShader(shaderType) {

								      var id = GL.getNewId(GL.shaders);

								      GL.shaders[id] = GLctx.createShader(shaderType);

								      return id;

								    }


								  function _glUniform1i(location, v0) {

								      GLctx.uniform1i(GL.uniforms[location], v0);

								    }


								  function _emscripten_glBindAttribLocation(program, index, name) {

								      name = Pointer_stringify(name);

								      GLctx.bindAttribLocation(GL.programs[program], index, name);

								    }


								  function _glCompressedTexImage2D(target, level, internalFormat, width, height, border, imageSize, data) {

								      GLctx['compressedTexImage2D'](target, level, internalFormat, width, height, border, data ? HEAPU8.subarray((data),(data+imageSize)) : null);

								    }


								  function _glDisable(x0) { GLctx['disable'](x0) }


								  function _emscripten_glEnableVertexAttribArray(index) {

								      GLctx.enableVertexAttribArray(index);

								    }


								  Module["_memset"] = _memset;


								  function _atexit(func, arg) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_2(110, func, arg);

								      __ATEXIT__.unshift({ func: func, arg: arg });

								    }


								  function _glfwMakeContextCurrent(winid) {}


								  function _emscripten_set_touchcancel_callback(target, userData, useCapture, callbackfunc) {

								      JSEvents.registerTouchEventCallback(target, userData, useCapture, callbackfunc, 25, "touchcancel");

								      return 0;

								    }


								  function ___lock() {}


								  function _emscripten_glBlendFuncSeparate(x0, x1, x2, x3) { GLctx['blendFuncSeparate'](x0, x1, x2, x3) }


								  function _glCullFace(x0) { GLctx['cullFace'](x0) }


								  function _emscripten_glGetVertexAttribPointerv(index, pname, pointer) {

								      if (!pointer) {

								        // GLES2 specification does not specify how to behave if pointer is a null pointer. Since calling this function does not make sense

								        // if pointer == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      HEAP32[((pointer)>>2)]=GLctx.getVertexAttribOffset(index, pname);

								    }


								  function _emscripten_glVertexAttrib3f(x0, x1, x2, x3) { GLctx['vertexAttrib3f'](x0, x1, x2, x3) }


								  function _emscripten_glEnable(x0) { GLctx['enable'](x0) }


								  function _emscripten_glNormalPointer() {

								  Module['printErr']('missing function: emscripten_glNormalPointer'); abort(-1);

								  }


								  var _emscripten_GetProcAddress=undefined;

								  Module["_emscripten_GetProcAddress"] = _emscripten_GetProcAddress;


								  var EGL={errorCode:12288,defaultDisplayInitialized:false,currentContext:0,currentReadSurface:0,currentDrawSurface:0,stringCache:{},setErrorCode:function (code) {

								        EGL.errorCode = code;

								      },chooseConfig:function (display, attribList, config, config_size, numConfigs) {

								        if (display != 62000 /* Magic ID for Emscripten 'default display' */) {

								          EGL.setErrorCode(0x3008 /* EGL_BAD_DISPLAY */);

								          return 0;

								        }

								        // TODO: read attribList.

								        if ((!config || !config_size) && !numConfigs) {

								          EGL.setErrorCode(0x300C /* EGL_BAD_PARAMETER */);

								          return 0;

								        }

								        if (numConfigs) {

								          HEAP32[((numConfigs)>>2)]=1; // Total number of supported configs: 1.

								        }

								        if (config && config_size > 0) {

								          HEAP32[((config)>>2)]=62002;

								        }


								        EGL.setErrorCode(0x3000 /* EGL_SUCCESS */);

								        return 1;

								      }};function _eglGetProcAddress(name_) {

								      return _emscripten_GetProcAddress(name_);

								    }


								  function _glfwSetScrollCallback(winid, cbfun) {

								      GLFW.setScrollCallback(winid, cbfun);

								    }


								  function _emscripten_get_pointerlock_status(pointerlockStatus) {

								      if (pointerlockStatus) JSEvents.fillPointerlockChangeEventData(pointerlockStatus);

								      if (!document.body || (!document.body.requestPointerLock && !document.body.mozRequestPointerLock && !document.body.webkitRequestPointerLock && !document.body.msRequestPointerLock)) {

								        return -1;

								      }

								      return 0;

								    }


								  function _glAttachShader(program, shader) {

								      GLctx.attachShader(GL.programs[program],

								                              GL.shaders[shader]);

								    }


								  function _glfwGetPrimaryMonitor() {

								      return 1;

								    }


								  function emscriptenWebGLGetVertexAttrib(index, pname, params, type) {

								      if (!params) {

								        // GLES2 specification does not specify how to behave if params is a null pointer. Since calling this function does not make sense

								        // if params == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      var data = GLctx.getVertexAttrib(index, pname);

								      if (pname == 0x889F/*VERTEX_ATTRIB_ARRAY_BUFFER_BINDING*/) {

								        HEAP32[((params)>>2)]=data["name"];

								      } else if (typeof data == 'number' || typeof data == 'boolean') {

								        switch (type) {

								          case 'Integer': HEAP32[((params)>>2)]=data; break;

								          case 'Float': HEAPF32[((params)>>2)]=data; break;

								          case 'FloatToInteger': HEAP32[((params)>>2)]=Math.fround(data); break;

								          default: throw 'internal emscriptenWebGLGetVertexAttrib() error, bad type: ' + type;

								        }

								      } else {

								        for (var i = 0; i < data.length; i++) {

								          switch (type) {

								            case 'Integer': HEAP32[(((params)+(i))>>2)]=data[i]; break;

								            case 'Float': HEAPF32[(((params)+(i))>>2)]=data[i]; break;

								            case 'FloatToInteger': HEAP32[(((params)+(i))>>2)]=Math.fround(data[i]); break;

								            default: throw 'internal emscriptenWebGLGetVertexAttrib() error, bad type: ' + type;

								          }

								        }

								      }

								    }function _emscripten_glGetVertexAttribfv(index, pname, params) {

								      // N.B. This function may only be called if the vertex attribute was specified using the function glVertexAttrib*f(),

								      // otherwise the results are undefined. (GLES3 spec 6.1.12)

								      emscriptenWebGLGetVertexAttrib(index, pname, params, 'Float');

								    }


								  function _emscripten_set_touchstart_callback(target, userData, useCapture, callbackfunc) {

								      JSEvents.registerTouchEventCallback(target, userData, useCapture, callbackfunc, 22, "touchstart");

								      return 0;

								    }


								  function _emscripten_glDeleteShader(id) {

								      if (!id) return;

								      var shader = GL.shaders[id];

								      if (!shader) { // glDeleteShader actually signals an error when deleting a nonexisting object, unlike some other GL delete functions.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      GLctx.deleteShader(shader);

								      GL.shaders[id] = null;

								    }


								  function _emscripten_glVertexPointer(){ throw 'Legacy GL function (glVertexPointer) called. If you want legacy GL emulation, you need to compile with -s LEGACY_GL_EMULATION=1 to enable legacy GL emulation.'; }


								  function _emscripten_glDeleteBuffers(n, buffers) {

								      for (var i = 0; i < n; i++) {

								        var id = HEAP32[(((buffers)+(i*4))>>2)];

								        var buffer = GL.buffers[id];


								        // From spec: "glDeleteBuffers silently ignores 0's and names that do not

								        // correspond to existing buffer objects."

								        if (!buffer) continue;


								        GLctx.deleteBuffer(buffer);

								        buffer.name = 0;

								        GL.buffers[id] = null;


								        if (id == GL.currArrayBuffer) GL.currArrayBuffer = 0;

								        if (id == GL.currElementArrayBuffer) GL.currElementArrayBuffer = 0;

								      }

								    }


								  function _emscripten_glTexParameteriv(target, pname, params) {

								      var param = HEAP32[((params)>>2)];

								      GLctx.texParameteri(target, pname, param);

								    }


								  function _glDrawElements(mode, count, type, indices) {


								      GLctx.drawElements(mode, count, type, indices);


								    }


								  function _glfwTerminate() {

								      window.removeEventListener("keydown", GLFW.onKeydown, true);

								      window.removeEventListener("keypress", GLFW.onKeyPress, true);

								      window.removeEventListener("keyup", GLFW.onKeyup, true);

								      Module["canvas"].removeEventListener("mousemove", GLFW.onMousemove, true);

								      Module["canvas"].removeEventListener("mousedown", GLFW.onMouseButtonDown, true);

								      Module["canvas"].removeEventListener("mouseup", GLFW.onMouseButtonUp, true);

								      Module["canvas"].removeEventListener('wheel', GLFW.onMouseWheel, true);

								      Module["canvas"].removeEventListener('mousewheel', GLFW.onMouseWheel, true);

								      Module["canvas"].removeEventListener('mouseenter', GLFW.onMouseenter, true);

								      Module["canvas"].removeEventListener('mouseleave', GLFW.onMouseleave, true);

								      Module["canvas"].width = Module["canvas"].height = 1;

								      GLFW.windows = null;

								      GLFW.active = null;

								    }


								  function _emscripten_glUniformMatrix2fv(location, count, transpose, value) {


								      var view;

								      if (4*count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[4*count-1];

								        for (var i = 0; i < 4*count; i += 4) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								          view[i+1] = HEAPF32[(((value)+(4*i+4))>>2)];

								          view[i+2] = HEAPF32[(((value)+(4*i+8))>>2)];

								          view[i+3] = HEAPF32[(((value)+(4*i+12))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*16)>>2);

								      }

								      GLctx.uniformMatrix2fv(GL.uniforms[location], !!transpose, view);

								    }


								  function ___syscall6(which, varargs) {if (ENVIRONMENT_IS_PTHREAD) { return _emscripten_sync_run_in_main_thread_2(138, 6, varargs) }

								  SYSCALLS.varargs = varargs;

								  try {

								   // close

								      var stream = SYSCALLS.getStreamFromFD();

								      FS.close(stream);

								      return 0;

								    } catch (e) {

								    if (typeof FS === 'undefined' || !(e instanceof FS.ErrnoError)) abort(e);

								    return -e.errno;

								  }

								  }


								  function _llvm_stacksave() {

								      var self = _llvm_stacksave;

								      if (!self.LLVM_SAVEDSTACKS) {

								        self.LLVM_SAVEDSTACKS = [];

								      }

								      self.LLVM_SAVEDSTACKS.push(Runtime.stackSave());

								      return self.LLVM_SAVEDSTACKS.length-1;

								    }


								  function _emscripten_glGetVertexAttribiv(index, pname, params) {

								      // N.B. This function may only be called if the vertex attribute was specified using the function glVertexAttrib*f(),

								      // otherwise the results are undefined. (GLES3 spec 6.1.12)

								      emscriptenWebGLGetVertexAttrib(index, pname, params, 'FloatToInteger');

								    }


								  function _emscripten_glUniformMatrix4fv(location, count, transpose, value) {


								      var view;

								      if (16*count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[16*count-1];

								        for (var i = 0; i < 16*count; i += 16) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								          view[i+1] = HEAPF32[(((value)+(4*i+4))>>2)];

								          view[i+2] = HEAPF32[(((value)+(4*i+8))>>2)];

								          view[i+3] = HEAPF32[(((value)+(4*i+12))>>2)];

								          view[i+4] = HEAPF32[(((value)+(4*i+16))>>2)];

								          view[i+5] = HEAPF32[(((value)+(4*i+20))>>2)];

								          view[i+6] = HEAPF32[(((value)+(4*i+24))>>2)];

								          view[i+7] = HEAPF32[(((value)+(4*i+28))>>2)];

								          view[i+8] = HEAPF32[(((value)+(4*i+32))>>2)];

								          view[i+9] = HEAPF32[(((value)+(4*i+36))>>2)];

								          view[i+10] = HEAPF32[(((value)+(4*i+40))>>2)];

								          view[i+11] = HEAPF32[(((value)+(4*i+44))>>2)];

								          view[i+12] = HEAPF32[(((value)+(4*i+48))>>2)];

								          view[i+13] = HEAPF32[(((value)+(4*i+52))>>2)];

								          view[i+14] = HEAPF32[(((value)+(4*i+56))>>2)];

								          view[i+15] = HEAPF32[(((value)+(4*i+60))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*64)>>2);

								      }

								      GLctx.uniformMatrix4fv(GL.uniforms[location], !!transpose, view);

								    }


								  function _emscripten_glDrawArraysInstanced(mode, first, count, primcount) {

								      GLctx['drawArraysInstanced'](mode, first, count, primcount);

								    }


								  function _emscripten_glEnableClientState() {

								  Module['printErr']('missing function: emscripten_glEnableClientState'); abort(-1);

								  }


								  function _emscripten_glGetPointerv() {

								  Module['printErr']('missing function: emscripten_glGetPointerv'); abort(-1);

								  }


								  function ___syscall140(which, varargs) {if (ENVIRONMENT_IS_PTHREAD) { return _emscripten_sync_run_in_main_thread_2(138, 140, varargs) }

								  SYSCALLS.varargs = varargs;

								  try {

								   // llseek

								      var stream = SYSCALLS.getStreamFromFD(), offset_high = SYSCALLS.get(), offset_low = SYSCALLS.get(), result = SYSCALLS.get(), whence = SYSCALLS.get();

								      var offset = offset_low;

								      assert(offset_high === 0);

								      FS.llseek(stream, offset, whence);

								      HEAP32[((result)>>2)]=stream.position;

								      if (stream.getdents && offset === 0 && whence === 0) stream.getdents = null; // reset readdir state

								      return 0;

								    } catch (e) {

								    if (typeof FS === 'undefined' || !(e instanceof FS.ErrnoError)) abort(e);

								    return -e.errno;

								  }

								  }


								  function ___syscall146(which, varargs) {if (ENVIRONMENT_IS_PTHREAD) { return _emscripten_sync_run_in_main_thread_2(138, 146, varargs) }

								  SYSCALLS.varargs = varargs;

								  try {

								   // writev

								      var stream = SYSCALLS.getStreamFromFD(), iov = SYSCALLS.get(), iovcnt = SYSCALLS.get();

								      return SYSCALLS.doWritev(stream, iov, iovcnt);

								    } catch (e) {

								    if (typeof FS === 'undefined' || !(e instanceof FS.ErrnoError)) abort(e);

								    return -e.errno;

								  }

								  }


								  function _emscripten_glUniform1i(location, v0) {

								      GLctx.uniform1i(GL.uniforms[location], v0);

								    }


								  function _emscripten_glStencilMask(x0) { GLctx['stencilMask'](x0) }


								  function _emscripten_glStencilFuncSeparate(x0, x1, x2, x3) { GLctx['stencilFuncSeparate'](x0, x1, x2, x3) }


								  var _tzname; if (ENVIRONMENT_IS_PTHREAD) _tzname = PthreadWorkerInit._tzname; else PthreadWorkerInit._tzname = _tzname = allocate(8, "i32*", ALLOC_STATIC);


								  var _daylight; if (ENVIRONMENT_IS_PTHREAD) _daylight = PthreadWorkerInit._daylight; else PthreadWorkerInit._daylight = _daylight = allocate(1, "i32*", ALLOC_STATIC);


								  var _timezone; if (ENVIRONMENT_IS_PTHREAD) _timezone = PthreadWorkerInit._timezone; else PthreadWorkerInit._timezone = _timezone = allocate(1, "i32*", ALLOC_STATIC);function _tzset() {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_0(119);

								      // TODO: Use (malleable) environment variables instead of system settings.

								      if (_tzset.called) return;

								      _tzset.called = true;


								      HEAP32[((_timezone)>>2)]=-(new Date()).getTimezoneOffset() * 60;


								      var winter = new Date(2000, 0, 1);

								      var summer = new Date(2000, 6, 1);

								      HEAP32[((_daylight)>>2)]=Number(winter.getTimezoneOffset() != summer.getTimezoneOffset());


								      function extractZone(date) {

								        var match = date.toTimeString().match(/\(([A-Za-z ]+)\)$/);

								        return match ? match[1] : "GMT";

								      };

								      var winterName = extractZone(winter);

								      var summerName = extractZone(summer);

								      var winterNamePtr = allocate(intArrayFromString(winterName), 'i8', ALLOC_NORMAL);

								      var summerNamePtr = allocate(intArrayFromString(summerName), 'i8', ALLOC_NORMAL);

								      if (summer.getTimezoneOffset() < winter.getTimezoneOffset()) {

								        // Northern hemisphere

								        HEAP32[((_tzname)>>2)]=winterNamePtr;

								        HEAP32[(((_tzname)+(4))>>2)]=summerNamePtr;

								      } else {

								        HEAP32[((_tzname)>>2)]=summerNamePtr;

								        HEAP32[(((_tzname)+(4))>>2)]=winterNamePtr;

								      }

								    }


								  Module["_i64Subtract"] = _i64Subtract;


								  Module["_i64Add"] = _i64Add;


								  function _emscripten_set_touchend_callback(target, userData, useCapture, callbackfunc) {

								      JSEvents.registerTouchEventCallback(target, userData, useCapture, callbackfunc, 23, "touchend");

								      return 0;

								    }


								  function _glUseProgram(program) {

								      GLctx.useProgram(program ? GL.programs[program] : null);

								    }


								  function _emscripten_glDisableVertexAttribArray(index) {

								      GLctx.disableVertexAttribArray(index);

								    }


								  function _emscripten_glVertexAttrib1f(x0, x1) { GLctx['vertexAttrib1f'](x0, x1) }


								  function _emscripten_glFinish() { GLctx['finish']() }


								  function _glDrawArrays(mode, first, count) {


								      GLctx.drawArrays(mode, first, count);


								    }


								  function _emscripten_glDepthFunc(x0) { GLctx['depthFunc'](x0) }


								  function _emscripten_get_num_gamepads() {

								      // Polling gamepads generates garbage, so don't do it when we know there are no gamepads connected.

								      if (!JSEvents.numGamepadsConnected) return 0;


								      __emscripten_sample_gamepad_data();

								      if (!JSEvents.lastGamepadState) return -1;

								      return JSEvents.lastGamepadState.length;

								    }


								  function _sysconf(name) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_1(72, name);

								      // long sysconf(int name);

								      // http://pubs.opengroup.org/onlinepubs/009695399/functions/sysconf.html

								      switch(name) {

								        case 30: return PAGE_SIZE;

								        case 85:

								          var maxHeapSize = 2*1024*1024*1024 - 16777216;

								          maxHeapSize = HEAPU8.length;

								          return maxHeapSize / PAGE_SIZE;

								        case 132:

								        case 133:

								        case 12:

								        case 137:

								        case 138:

								        case 15:

								        case 235:

								        case 16:

								        case 17:

								        case 18:

								        case 19:

								        case 20:

								        case 149:

								        case 13:

								        case 10:

								        case 236:

								        case 153:

								        case 9:

								        case 21:

								        case 22:

								        case 159:

								        case 154:

								        case 14:

								        case 77:

								        case 78:

								        case 139:

								        case 80:

								        case 81:

								        case 82:

								        case 68:

								        case 67:

								        case 164:

								        case 11:

								        case 29:

								        case 47:

								        case 48:

								        case 95:

								        case 52:

								        case 51:

								        case 46:

								          return 200809;

								        case 79:

								          return 0;

								        case 27:

								        case 246:

								        case 127:

								        case 128:

								        case 23:

								        case 24:

								        case 160:

								        case 161:

								        case 181:

								        case 182:

								        case 242:

								        case 183:

								        case 184:

								        case 243:

								        case 244:

								        case 245:

								        case 165:

								        case 178:

								        case 179:

								        case 49:

								        case 50:

								        case 168:

								        case 169:

								        case 175:

								        case 170:

								        case 171:

								        case 172:

								        case 97:

								        case 76:

								        case 32:

								        case 173:

								        case 35:

								          return -1;

								        case 176:

								        case 177:

								        case 7:

								        case 155:

								        case 8:

								        case 157:

								        case 125:

								        case 126:

								        case 92:

								        case 93:

								        case 129:

								        case 130:

								        case 131:

								        case 94:

								        case 91:

								          return 1;

								        case 74:

								        case 60:

								        case 69:

								        case 70:

								        case 4:

								          return 1024;

								        case 31:

								        case 42:

								        case 72:

								          return 32;

								        case 87:

								        case 26:

								        case 33:

								          return 2147483647;

								        case 34:

								        case 1:

								          return 47839;

								        case 38:

								        case 36:

								          return 99;

								        case 43:

								        case 37:

								          return 2048;

								        case 0: return 2097152;

								        case 3: return 65536;

								        case 28: return 32768;

								        case 44: return 32767;

								        case 75: return 16384;

								        case 39: return 1000;

								        case 89: return 700;

								        case 71: return 256;

								        case 40: return 255;

								        case 2: return 100;

								        case 180: return 64;

								        case 25: return 20;

								        case 5: return 16;

								        case 6: return 6;

								        case 73: return 4;

								        case 84: {

								          if (typeof navigator === 'object') return navigator['hardwareConcurrency'] || 1;

								          return 1;

								        }

								      }

								      ___setErrNo(ERRNO_CODES.EINVAL);

								      return -1;

								    }


								  function _emscripten_glUniform4iv(location, count, value) {


								      GLctx.uniform4iv(GL.uniforms[location], HEAP32.subarray((value)>>2,(value+count*16)>>2));

								    }


								  function _glClear(x0) { GLctx['clear'](x0) }


								  function _emscripten_glLoadIdentity(){ throw 'Legacy GL function (glLoadIdentity) called. If you want legacy GL emulation, you need to compile with -s LEGACY_GL_EMULATION=1 to enable legacy GL emulation.'; }


								  function _emscripten_glUniform3fv(location, count, value) {


								      var view;

								      if (3*count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[3*count-1];

								        for (var i = 0; i < 3*count; i += 3) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								          view[i+1] = HEAPF32[(((value)+(4*i+4))>>2)];

								          view[i+2] = HEAPF32[(((value)+(4*i+8))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*12)>>2);

								      }

								      GLctx.uniform3fv(GL.uniforms[location], view);

								    }


								  function _emscripten_glIsTexture(texture) {

								      var texture = GL.textures[texture];

								      if (!texture) return 0;

								      return GLctx.isTexture(texture);

								    }


								  function _glEnableVertexAttribArray(index) {

								      GLctx.enableVertexAttribArray(index);

								    }


								  function _emscripten_glAttachShader(program, shader) {

								      GLctx.attachShader(GL.programs[program],

								                              GL.shaders[shader]);

								    }


								  function _glUniform4f(location, v0, v1, v2, v3) {

								      GLctx.uniform4f(GL.uniforms[location], v0, v1, v2, v3);

								    }


								  function _emscripten_request_pointerlock(target, deferUntilInEventHandler) {

								      if (!target) target = '#canvas';

								      target = JSEvents.findEventTarget(target);

								      if (!target) return -4;

								      if (!target.requestPointerLock && !target.mozRequestPointerLock && !target.webkitRequestPointerLock && !target.msRequestPointerLock) {

								        return -1;

								      }


								      var canPerformRequests = JSEvents.canPerformEventHandlerRequests();


								      // Queue this function call if we're not currently in an event handler and the user saw it appropriate to do so.

								      if (!canPerformRequests) {

								        if (deferUntilInEventHandler) {

								          JSEvents.deferCall(JSEvents.requestPointerLock, 2 /* priority below fullscreen */, [target]);

								          return 1;

								        } else {

								          return -2;

								        }

								      }


								      return JSEvents.requestPointerLock(target);

								    }


								  function _emscripten_glVertexAttrib2f(x0, x1, x2) { GLctx['vertexAttrib2f'](x0, x1, x2) }


								  function _glfwCreateWindow(width, height, title, monitor, share) {

								      return GLFW.createWindow(width, height, title, monitor, share);

								    }


								  function _glfwDefaultWindowHints() {

								      GLFW.hints = GLFW.defaultHints;

								    }


								  function _gettimeofday(ptr) {

								      var now = Date.now();

								      HEAP32[((ptr)>>2)]=(now/1000)|0; // seconds

								      HEAP32[(((ptr)+(4))>>2)]=((now % 1000)*1000)|0; // microseconds

								      return 0;

								    }


								  function _emscripten_glClearStencil(x0) { GLctx['clearStencil'](x0) }


								  function _emscripten_glDetachShader(program, shader) {

								      GLctx.detachShader(GL.programs[program],

								                              GL.shaders[shader]);

								    }


								  function _emscripten_glDeleteVertexArrays(n, vaos) {

								      for (var i = 0; i < n; i++) {

								        var id = HEAP32[(((vaos)+(i*4))>>2)];

								        GLctx['deleteVertexArray'](GL.vaos[id]);

								        GL.vaos[id] = null;

								      }

								    }


								  function _glfwInit() {

								      if (GLFW.windows) return 1; // GL_TRUE


								      GLFW.initialTime = GLFW.getTime();

								      GLFW.hints = GLFW.defaultHints;

								      GLFW.windows = new Array()

								      GLFW.active = null;


								      window.addEventListener("keydown", GLFW.onKeydown, true);

								      window.addEventListener("keypress", GLFW.onKeyPress, true);

								      window.addEventListener("keyup", GLFW.onKeyup, true);

								      Module["canvas"].addEventListener("mousemove", GLFW.onMousemove, true);

								      Module["canvas"].addEventListener("mousedown", GLFW.onMouseButtonDown, true);

								      Module["canvas"].addEventListener("mouseup", GLFW.onMouseButtonUp, true);

								      Module["canvas"].addEventListener('wheel', GLFW.onMouseWheel, true);

								      Module["canvas"].addEventListener('mousewheel', GLFW.onMouseWheel, true);

								      Module["canvas"].addEventListener('mouseenter', GLFW.onMouseenter, true);

								      Module["canvas"].addEventListener('mouseleave', GLFW.onMouseleave, true);


								      Browser.resizeListeners.push(function(width, height) {

								         GLFW.onCanvasResize(width, height);

								      });

								      return 1; // GL_TRUE

								    }


								  function _emscripten_glGetTexParameteriv(target, pname, params) {

								      if (!params) {

								        // GLES2 specification does not specify how to behave if params is a null pointer. Since calling this function does not make sense

								        // if p == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      HEAP32[((params)>>2)]=GLctx.getTexParameter(target, pname);

								    }


								  function _glfwSwapBuffers(winid) {

								      GLFW.swapBuffers(winid);

								    }


								  function _emscripten_glGenerateMipmap(x0) { GLctx['generateMipmap'](x0) }


								  var _environ; if (ENVIRONMENT_IS_PTHREAD) _environ = PthreadWorkerInit._environ; else PthreadWorkerInit._environ = _environ = allocate(1, "i32*", ALLOC_STATIC);var ___environ=_environ;function ___buildEnvironment(env) {

								      // WARNING: Arbitrary limit!

								      var MAX_ENV_VALUES = 64;

								      var TOTAL_ENV_SIZE = 1024;


								      // Statically allocate memory for the environment.

								      var poolPtr;

								      var envPtr;

								      if (!___buildEnvironment.called) {

								        ___buildEnvironment.called = true;

								        // Set default values. Use string keys for Closure Compiler compatibility.

								        ENV['USER'] = ENV['LOGNAME'] = 'web_user';

								        ENV['PATH'] = '/';

								        ENV['PWD'] = '/';

								        ENV['HOME'] = '/home/web_user';

								        ENV['LANG'] = 'C';

								        ENV['_'] = Module['thisProgram'];

								        // Allocate memory.

								        poolPtr = allocate(TOTAL_ENV_SIZE, 'i8', ALLOC_STATIC);

								        envPtr = allocate(MAX_ENV_VALUES * 4,

								                          'i8*', ALLOC_STATIC);

								        HEAP32[((envPtr)>>2)]=poolPtr;

								        HEAP32[((_environ)>>2)]=envPtr;

								      } else {

								        envPtr = HEAP32[((_environ)>>2)];

								        poolPtr = HEAP32[((envPtr)>>2)];

								      }


								      // Collect key=value lines.

								      var strings = [];

								      var totalSize = 0;

								      for (var key in env) {

								        if (typeof env[key] === 'string') {

								          var line = key + '=' + env[key];

								          strings.push(line);

								          totalSize += line.length;

								        }

								      }

								      if (totalSize > TOTAL_ENV_SIZE) {

								        throw new Error('Environment size exceeded TOTAL_ENV_SIZE!');

								      }


								      // Make new.

								      var ptrSize = 4;

								      for (var i = 0; i < strings.length; i++) {

								        var line = strings[i];

								        writeAsciiToMemory(line, poolPtr);

								        HEAP32[(((envPtr)+(i * ptrSize))>>2)]=poolPtr;

								        poolPtr += line.length + 1;

								      }

								      HEAP32[(((envPtr)+(strings.length * ptrSize))>>2)]=0;

								    }var ENV={};function _clearenv(name) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_1(112, name);

								      // int clearenv (void);

								      // http://www.gnu.org/s/hello/manual/libc/Environment-Access.html#index-clearenv-3107

								      ENV = {};

								      ___buildEnvironment(ENV);

								      return 0;

								    }


								  function _emscripten_glCullFace(x0) { GLctx['cullFace'](x0) }


								  function _emscripten_glUniform4f(location, v0, v1, v2, v3) {

								      GLctx.uniform4f(GL.uniforms[location], v0, v1, v2, v3);

								    }


								  function _glDisableVertexAttribArray(index) {

								      GLctx.disableVertexAttribArray(index);

								    }


								  function _emscripten_glUseProgram(program) {

								      GLctx.useProgram(program ? GL.programs[program] : null);

								    }


								  function _emscripten_glHint(x0, x1) { GLctx['hint'](x0, x1) }


								  function _emscripten_glUniform2fv(location, count, value) {


								      var view;

								      if (2*count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[2*count-1];

								        for (var i = 0; i < 2*count; i += 2) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								          view[i+1] = HEAPF32[(((value)+(4*i+4))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*8)>>2);

								      }

								      GLctx.uniform2fv(GL.uniforms[location], view);

								    }


								  function _glfwSwapInterval(interval) {

								      interval = Math.abs(interval); // GLFW uses negative values to enable GLX_EXT_swap_control_tear, which we don't have, so just treat negative and positive the same.

								      if (interval == 0) _emscripten_set_main_loop_timing(0/*EM_TIMING_SETTIMEOUT*/, 0);

								      else _emscripten_set_main_loop_timing(1/*EM_TIMING_RAF*/, interval);

								    }


								  function _glGetShaderInfoLog(shader, maxLength, length, infoLog) {

								      var log = GLctx.getShaderInfoLog(GL.shaders[shader]);

								      if (log === null) log = '(unknown error)';

								      if (maxLength > 0 && infoLog) {

								        var numBytesWrittenExclNull = stringToUTF8(log, infoLog, maxLength);

								        if (length) HEAP32[((length)>>2)]=numBytesWrittenExclNull;

								      } else {

								        if (length) HEAP32[((length)>>2)]=0;

								      }

								    }


								  function _emscripten_glMatrixMode(){ throw 'Legacy GL function (glMatrixMode) called. If you want legacy GL emulation, you need to compile with -s LEGACY_GL_EMULATION=1 to enable legacy GL emulation.'; }


								  function _abort() {

								      Module['abort']();

								    }


								  function _emscripten_glFramebufferRenderbuffer(target, attachment, renderbuffertarget, renderbuffer) {

								      GLctx.framebufferRenderbuffer(target, attachment, renderbuffertarget,

								                                         GL.renderbuffers[renderbuffer]);

								    }


								  function _emscripten_glDeleteFramebuffers(n, framebuffers) {

								      for (var i = 0; i < n; ++i) {

								        var id = HEAP32[(((framebuffers)+(i*4))>>2)];

								        var framebuffer = GL.framebuffers[id];

								        if (!framebuffer) continue; // GL spec: "glDeleteFramebuffers silently ignores 0s and names that do not correspond to existing framebuffer objects".

								        GLctx.deleteFramebuffer(framebuffer);

								        framebuffer.name = 0;

								        GL.framebuffers[id] = null;

								      }

								    }


								  function _emscripten_glIsBuffer(buffer) {

								      var b = GL.buffers[buffer];

								      if (!b) return 0;

								      return GLctx.isBuffer(b);

								    }


								  function _emscripten_glUniform2iv(location, count, value) {


								      GLctx.uniform2iv(GL.uniforms[location], HEAP32.subarray((value)>>2,(value+count*8)>>2));

								    }


								  var _emscripten_asm_const=true;


								  function _chroot(path) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_1(37, path);

								      // int chroot(const char *path);

								      // http://pubs.opengroup.org/onlinepubs/7908799/xsh/chroot.html

								      ___setErrNo(ERRNO_CODES.EACCES);

								      return -1;

								    }


								  function _glEnable(x0) { GLctx['enable'](x0) }


								  function emscriptenWebGLComputeImageSize(width, height, sizePerPixel, alignment) {

								      function roundedToNextMultipleOf(x, y) {

								        return Math.floor((x + y - 1) / y) * y

								      }

								      var plainRowSize = width * sizePerPixel;

								      var alignedRowSize = roundedToNextMultipleOf(plainRowSize, alignment);

								      return (height <= 0) ? 0 :

								               ((height - 1) * alignedRowSize + plainRowSize);

								    }function emscriptenWebGLGetTexPixelData(type, format, width, height, pixels, internalFormat) {

								      var sizePerPixel;

								      var numChannels;

								      switch(format) {

								        case 0x1906 /* GL_ALPHA */:

								        case 0x1909 /* GL_LUMINANCE */:

								        case 0x1902 /* GL_DEPTH_COMPONENT */:

								          numChannels = 1;

								          break;

								        case 0x190A /* GL_LUMINANCE_ALPHA */:

								          numChannels = 2;

								          break;

								        case 0x1907 /* GL_RGB */:

								        case 0x8C40 /* GL_SRGB_EXT */:

								          numChannels = 3;

								          break;

								        case 0x1908 /* GL_RGBA */:

								        case 0x8C42 /* GL_SRGB_ALPHA_EXT */:

								          numChannels = 4;

								          break;

								        default:

								          GL.recordError(0x0500); // GL_INVALID_ENUM

								          return null;

								      }

								      switch (type) {

								        case 0x1401 /* GL_UNSIGNED_BYTE */:

								          sizePerPixel = numChannels*1;

								          break;

								        case 0x1403 /* GL_UNSIGNED_SHORT */:

								        case 0x8D61 /* GL_HALF_FLOAT_OES */:

								          sizePerPixel = numChannels*2;

								          break;

								        case 0x1405 /* GL_UNSIGNED_INT */:

								        case 0x1406 /* GL_FLOAT */:

								          sizePerPixel = numChannels*4;

								          break;

								        case 0x84FA /* GL_UNSIGNED_INT_24_8_WEBGL/GL_UNSIGNED_INT_24_8 */:

								          sizePerPixel = 4;

								          break;

								        case 0x8363 /* GL_UNSIGNED_SHORT_5_6_5 */:

								        case 0x8033 /* GL_UNSIGNED_SHORT_4_4_4_4 */:

								        case 0x8034 /* GL_UNSIGNED_SHORT_5_5_5_1 */:

								          sizePerPixel = 2;

								          break;

								        default:

								          GL.recordError(0x0500); // GL_INVALID_ENUM

								          return null;

								      }

								      var bytes = emscriptenWebGLComputeImageSize(width, height, sizePerPixel, GL.unpackAlignment);

								      switch(type) {

								        case 0x1401 /* GL_UNSIGNED_BYTE */:

								          return HEAPU8.subarray((pixels),(pixels+bytes));

								        case 0x1406 /* GL_FLOAT */:

								          return HEAPF32.subarray((pixels)>>2,(pixels+bytes)>>2);

								        case 0x1405 /* GL_UNSIGNED_INT */:

								        case 0x84FA /* GL_UNSIGNED_INT_24_8_WEBGL/GL_UNSIGNED_INT_24_8 */:

								          return HEAPU32.subarray((pixels)>>2,(pixels+bytes)>>2);

								        case 0x1403 /* GL_UNSIGNED_SHORT */:

								        case 0x8363 /* GL_UNSIGNED_SHORT_5_6_5 */:

								        case 0x8033 /* GL_UNSIGNED_SHORT_4_4_4_4 */:

								        case 0x8034 /* GL_UNSIGNED_SHORT_5_5_5_1 */:

								        case 0x8D61 /* GL_HALF_FLOAT_OES */:

								          return HEAPU16.subarray((pixels)>>1,(pixels+bytes)>>1);

								        default:

								          GL.recordError(0x0500); // GL_INVALID_ENUM

								          return null;

								      }

								    }function _emscripten_glTexSubImage2D(target, level, xoffset, yoffset, width, height, format, type, pixels) {

								      var pixelData = null;

								      if (pixels) pixelData = emscriptenWebGLGetTexPixelData(type, format, width, height, pixels, 0);

								      GLctx.texSubImage2D(target, level, xoffset, yoffset, width, height, format, type, pixelData);

								    }


								  function _emscripten_glPolygonOffset(x0, x1) { GLctx['polygonOffset'](x0, x1) }


								  var _emscripten_asm_const_int=true;


								  function _emscripten_glUniform2f(location, v0, v1) {

								      GLctx.uniform2f(GL.uniforms[location], v0, v1);

								    }


								  function _glGetAttribLocation(program, name) {

								      program = GL.programs[program];

								      name = Pointer_stringify(name);

								      return GLctx.getAttribLocation(program, name);

								    }


								  function _glfwWindowHint(target, hint) {

								      GLFW.hints[target] = hint;

								    }


								  function _emscripten_glUniform2i(location, v0, v1) {

								      GLctx.uniform2i(GL.uniforms[location], v0, v1);

								    }


								  function _glBlendFunc(x0, x1) { GLctx['blendFunc'](x0, x1) }


								  function _glCreateProgram() {

								      var id = GL.getNewId(GL.programs);

								      var program = GLctx.createProgram();

								      program.name = id;

								      GL.programs[id] = program;

								      return id;

								    }


								  function _emscripten_glDeleteRenderbuffers(n, renderbuffers) {

								      for (var i = 0; i < n; i++) {

								        var id = HEAP32[(((renderbuffers)+(i*4))>>2)];

								        var renderbuffer = GL.renderbuffers[id];

								        if (!renderbuffer) continue; // GL spec: "glDeleteRenderbuffers silently ignores 0s and names that do not correspond to existing renderbuffer objects".

								        GLctx.deleteRenderbuffer(renderbuffer);

								        renderbuffer.name = 0;

								        GL.renderbuffers[id] = null;

								      }

								    }


								  function _emscripten_glGetBufferParameteriv(target, value, data) {

								      if (!data) {

								        // GLES2 specification does not specify how to behave if data is a null pointer. Since calling this function does not make sense

								        // if data == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      HEAP32[((data)>>2)]=GLctx.getBufferParameter(target, value);

								    }


								  function emscriptenWebGLGetUniform(program, location, params, type) {

								      if (!params) {

								        // GLES2 specification does not specify how to behave if params is a null pointer. Since calling this function does not make sense

								        // if params == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      var data = GLctx.getUniform(GL.programs[program], GL.uniforms[location]);

								      if (typeof data == 'number' || typeof data == 'boolean') {

								        switch (type) {

								          case 'Integer': HEAP32[((params)>>2)]=data; break;

								          case 'Float': HEAPF32[((params)>>2)]=data; break;

								          default: throw 'internal emscriptenWebGLGetUniform() error, bad type: ' + type;

								        }

								      } else {

								        for (var i = 0; i < data.length; i++) {

								          switch (type) {

								            case 'Integer': HEAP32[(((params)+(i))>>2)]=data[i]; break;

								            case 'Float': HEAPF32[(((params)+(i))>>2)]=data[i]; break;

								            default: throw 'internal emscriptenWebGLGetUniform() error, bad type: ' + type;

								          }

								        }

								      }

								    }function _emscripten_glGetUniformiv(program, location, params) {

								      emscriptenWebGLGetUniform(program, location, params, 'Integer');

								    }


								  function _unsetenv(name) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_1(114, name);

								      // int unsetenv(const char *name);

								      // http://pubs.opengroup.org/onlinepubs/009695399/functions/unsetenv.html

								      if (name === 0) {

								        ___setErrNo(ERRNO_CODES.EINVAL);

								        return -1;

								      }

								      name = Pointer_stringify(name);

								      if (name === '' || name.indexOf('=') !== -1) {

								        ___setErrNo(ERRNO_CODES.EINVAL);

								        return -1;

								      }

								      if (ENV.hasOwnProperty(name)) {

								        delete ENV[name];

								        ___buildEnvironment(ENV);

								      }

								      return 0;

								    }


								  function _emscripten_glDepthMask(flag) {

								      GLctx.depthMask(!!flag);

								    }


								  function _emscripten_glDepthRangef(x0, x1) { GLctx['depthRange'](x0, x1) }


								  function _emscripten_get_now_is_monotonic() {

								      // return whether emscripten_get_now is guaranteed monotonic; the Date.now

								      // implementation is not :(

								      return ENVIRONMENT_IS_NODE || (typeof dateNow !== 'undefined') ||

								          ((ENVIRONMENT_IS_WEB || ENVIRONMENT_IS_WORKER) && self['performance'] && self['performance']['now']);

								    }function _clock_gettime(clk_id, tp) {

								      // int clock_gettime(clockid_t clk_id, struct timespec *tp);

								      var now;

								      if (clk_id === 0) {

								        now = Date.now();

								      } else if (clk_id === 1 && _emscripten_get_now_is_monotonic()) {

								        now = _emscripten_get_now();

								      } else {

								        ___setErrNo(ERRNO_CODES.EINVAL);

								        return -1;

								      }

								      HEAP32[((tp)>>2)]=(now/1000)|0; // seconds

								      HEAP32[(((tp)+(4))>>2)]=((now % 1000)*1000*1000)|0; // nanoseconds

								      return 0;

								    }function ___clock_gettime() {

								  return _clock_gettime.apply(null, arguments)

								  }


								  function _emscripten_set_fullscreenchange_callback(target, userData, useCapture, callbackfunc) {

								      if (typeof JSEvents.fullscreenEnabled() === 'undefined') return -1;

								      if (!target) target = document;

								      else {

								        target = JSEvents.findEventTarget(target);

								        if (!target) return -4;

								      }

								      JSEvents.registerFullscreenChangeEventCallback(target, userData, useCapture, callbackfunc, 19, "fullscreenchange");

								      JSEvents.registerFullscreenChangeEventCallback(target, userData, useCapture, callbackfunc, 19, "mozfullscreenchange");

								      JSEvents.registerFullscreenChangeEventCallback(target, userData, useCapture, callbackfunc, 19, "webkitfullscreenchange");

								      JSEvents.registerFullscreenChangeEventCallback(target, userData, useCapture, callbackfunc, 19, "msfullscreenchange");

								      return 0;

								    }


								  function _emscripten_glVertexAttrib1fv(index, v) {


								      GLctx.vertexAttrib1f(index, HEAPF32[v>>2]);

								    }


								  function __cleanup_thread(pthread_ptr) {

								      if (ENVIRONMENT_IS_PTHREAD) throw 'Internal Error! _cleanup_thread() can only ever be called from main application thread!';

								      if (!pthread_ptr) throw 'Internal Error! Null pthread_ptr in _cleanup_thread!';

								      HEAP32[(((pthread_ptr)+(24))>>2)]=0;

								      var pthread = PThread.pthreads[pthread_ptr];

								      var worker = pthread.worker;

								      PThread.freeThreadData(pthread);

								      worker.pthread = undefined; // Detach the worker from the pthread object, and return it to the worker pool as an unused worker.

								      PThread.unusedWorkerPool.push(worker);

								      PThread.runningWorkers.splice(PThread.runningWorkers.indexOf(worker.pthread), 1); // Not a running Worker anymore.

								    }


								  function __pthread_testcancel_js() {

								      if (!ENVIRONMENT_IS_PTHREAD) return;

								      if (!threadInfoStruct) return;

								      var cancelDisabled = Atomics.load(HEAPU32, (threadInfoStruct + 72 ) >> 2);

								      if (cancelDisabled) return;

								      var canceled = Atomics.load(HEAPU32, (threadInfoStruct + 0 ) >> 2);

								      if (canceled == 2) throw 'Canceled!';

								    }function _pthread_join(thread, status) {

								      if (!thread) {

								        Module['printErr']('pthread_join attempted on a null thread pointer!');

								        return ERRNO_CODES.ESRCH;

								      }

								      if (ENVIRONMENT_IS_PTHREAD && selfThreadId == thread) {

								        Module['printErr']('PThread ' + thread + ' is attempting to join to itself!');

								        return ERRNO_CODES.EDEADLK;

								      }

								      else if (!ENVIRONMENT_IS_PTHREAD && PThread.mainThreadBlock == thread) {

								        Module['printErr']('Main thread ' + thread + ' is attempting to join to itself!');

								        return ERRNO_CODES.EDEADLK;

								      }

								      var self = HEAP32[(((thread)+(24))>>2)];

								      if (self != thread) {

								        Module['printErr']('pthread_join attempted on thread ' + thread + ', which does not point to a valid thread, or does not exist anymore!');

								        return ERRNO_CODES.ESRCH;

								      }


								      var detached = Atomics.load(HEAPU32, (thread + 80 ) >> 2);

								      if (detached) {

								        Module['printErr']('Attempted to join thread ' + thread + ', which was already detached!');

								        return ERRNO_CODES.EINVAL; // The thread is already detached, can no longer join it!

								      }

								      for (;;) {

								        var threadStatus = Atomics.load(HEAPU32, (thread + 0 ) >> 2);

								        if (threadStatus == 1) { // Exited?

								          var threadExitCode = Atomics.load(HEAPU32, (thread + 4 ) >> 2);

								          if (status) HEAP32[((status)>>2)]=threadExitCode;

								          Atomics.store(HEAPU32, (thread + 80 ) >> 2, 1); // Mark the thread as detached.


								          if (!ENVIRONMENT_IS_PTHREAD) __cleanup_thread(thread);

								          else postMessage({ cmd: 'cleanupThread', thread: thread});

								          return 0;

								        }

								        // TODO HACK! Replace the _js variant with just _pthread_testcancel:

								        //_pthread_testcancel();

								        __pthread_testcancel_js();

								        // In main runtime thread (the thread that initialized the Emscripten C runtime and launched main()), assist pthreads in performing operations

								        // that they need to access the Emscripten main runtime for.

								        if (!ENVIRONMENT_IS_PTHREAD) _emscripten_main_thread_process_queued_calls();

								        _emscripten_futex_wait(thread + 0, threadStatus, ENVIRONMENT_IS_PTHREAD ? 100 : 1);

								      }

								    }


								  Module["___muldsi3"] = ___muldsi3;

								  Module["___muldi3"] = ___muldi3;


								  function _emscripten_glGetShaderPrecisionFormat(shaderType, precisionType, range, precision) {

								      var result = GLctx.getShaderPrecisionFormat(shaderType, precisionType);

								      HEAP32[((range)>>2)]=result.rangeMin;

								      HEAP32[(((range)+(4))>>2)]=result.rangeMax;

								      HEAP32[((precision)>>2)]=result.precision;

								    }


								  function _emscripten_glUniform1fv(location, count, value) {


								      var view;

								      if (count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[count-1];

								        for (var i = 0; i < count; ++i) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*4)>>2);

								      }

								      GLctx.uniform1fv(GL.uniforms[location], view);

								    }


								  function _glDeleteBuffers(n, buffers) {

								      for (var i = 0; i < n; i++) {

								        var id = HEAP32[(((buffers)+(i*4))>>2)];

								        var buffer = GL.buffers[id];


								        // From spec: "glDeleteBuffers silently ignores 0's and names that do not

								        // correspond to existing buffer objects."

								        if (!buffer) continue;


								        GLctx.deleteBuffer(buffer);

								        buffer.name = 0;

								        GL.buffers[id] = null;


								        if (id == GL.currArrayBuffer) GL.currArrayBuffer = 0;

								        if (id == GL.currElementArrayBuffer) GL.currElementArrayBuffer = 0;

								      }

								    }


								  function _emscripten_set_gamepaddisconnected_callback(userData, useCapture, callbackfunc) {

								      if (!navigator.getGamepads && !navigator.webkitGetGamepads) return -1;

								      JSEvents.registerGamepadEventCallback(window, userData, useCapture, callbackfunc, 27, "gamepaddisconnected");

								      return 0;

								   }


								  function _emscripten_glBindProgramARB() {

								  Module['printErr']('missing function: emscripten_glBindProgramARB'); abort(-1);

								  }


								  function _emscripten_glBindTexture(target, texture) {

								      GLctx.bindTexture(target, texture ? GL.textures[texture] : null);

								    }


								  function _emscripten_glCheckFramebufferStatus(x0) { return GLctx['checkFramebufferStatus'](x0) }


								  function _emscripten_glDeleteProgram(id) {

								      if (!id) return;

								      var program = GL.programs[id];

								      if (!program) { // glDeleteProgram actually signals an error when deleting a nonexisting object, unlike some other GL delete functions.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      GLctx.deleteProgram(program);

								      program.name = 0;

								      GL.programs[id] = null;

								      GL.programInfos[id] = null;

								    }


								  function _emscripten_glDisable(x0) { GLctx['disable'](x0) }


								  function _emscripten_glVertexAttrib3fv(index, v) {


								      GLctx.vertexAttrib3f(index, HEAPF32[v>>2], HEAPF32[v+4>>2], HEAPF32[v+8>>2]);

								    }


								  function _glClearColor(x0, x1, x2, x3) { GLctx['clearColor'](x0, x1, x2, x3) }


								  function _emscripten_glGetActiveAttrib(program, index, bufSize, length, size, type, name) {

								      program = GL.programs[program];

								      var info = GLctx.getActiveAttrib(program, index);

								      if (!info) return; // If an error occurs, nothing will be written to length, size and type and name.


								      if (bufSize > 0 && name) {

								        var numBytesWrittenExclNull = stringToUTF8(info.name, name, bufSize);

								        if (length) HEAP32[((length)>>2)]=numBytesWrittenExclNull;

								      } else {

								        if (length) HEAP32[((length)>>2)]=0;

								      }


								      if (size) HEAP32[((size)>>2)]=info.size;

								      if (type) HEAP32[((type)>>2)]=info.type;

								    }


								  function _emscripten_glIsFramebuffer(framebuffer) {

								      var fb = GL.framebuffers[framebuffer];

								      if (!fb) return 0;

								      return GLctx.isFramebuffer(fb);

								    }


								  function _emscripten_glLineWidth(x0) { GLctx['lineWidth'](x0) }


								  function _glfwGetCursorPos(winid, x, y) {

								      GLFW.getCursorPos(winid, x, y);

								    }


								  function _emscripten_glGetString(name_) {

								      if (GL.stringCache[name_]) return GL.stringCache[name_];

								      var ret;

								      switch(name_) {

								        case 0x1F00 /* GL_VENDOR */:

								        case 0x1F01 /* GL_RENDERER */:

								        case 0x9245 /* UNMASKED_VENDOR_WEBGL */:

								        case 0x9246 /* UNMASKED_RENDERER_WEBGL */:

								          ret = allocate(intArrayFromString(GLctx.getParameter(name_)), 'i8', ALLOC_NORMAL);

								          break;

								        case 0x1F02 /* GL_VERSION */:

								          var glVersion = GLctx.getParameter(GLctx.VERSION);

								          // return GLES version string corresponding to the version of the WebGL context

								          {

								            glVersion = 'OpenGL ES 2.0 (' + glVersion + ')';

								          }

								          ret = allocate(intArrayFromString(glVersion), 'i8', ALLOC_NORMAL);

								          break;

								        case 0x1F03 /* GL_EXTENSIONS */:

								          var exts = GLctx.getSupportedExtensions();

								          var gl_exts = [];

								          for (var i = 0; i < exts.length; ++i) {

								            gl_exts.push(exts[i]);

								            gl_exts.push("GL_" + exts[i]);

								          }

								          ret = allocate(intArrayFromString(gl_exts.join(' ')), 'i8', ALLOC_NORMAL);

								          break;

								        case 0x8B8C /* GL_SHADING_LANGUAGE_VERSION */:

								          var glslVersion = GLctx.getParameter(GLctx.SHADING_LANGUAGE_VERSION);

								          // extract the version number 'N.M' from the string 'WebGL GLSL ES N.M ...'

								          var ver_re = /^WebGL GLSL ES ([0-9]\.[0-9][0-9]?)(?:$| .*)/;

								          var ver_num = glslVersion.match(ver_re);

								          if (ver_num !== null) {

								            if (ver_num[1].length == 3) ver_num[1] = ver_num[1] + '0'; // ensure minor version has 2 digits

								            glslVersion = 'OpenGL ES GLSL ES ' + ver_num[1] + ' (' + glslVersion + ')';

								          }

								          ret = allocate(intArrayFromString(glslVersion), 'i8', ALLOC_NORMAL);

								          break;

								        default:

								          GL.recordError(0x0500/*GL_INVALID_ENUM*/);

								          return 0;

								      }

								      GL.stringCache[name_] = ret;

								      return ret;

								    }


								  function _emscripten_glGetAttribLocation(program, name) {

								      program = GL.programs[program];

								      name = Pointer_stringify(name);

								      return GLctx.getAttribLocation(program, name);

								    }


								  function _emscripten_glRotatef() {

								  Module['printErr']('missing function: emscripten_glRotatef'); abort(-1);

								  }


								  function emscriptenWebGLGet(name_, p, type) {

								      // Guard against user passing a null pointer.

								      // Note that GLES2 spec does not say anything about how passing a null pointer should be treated.

								      // Testing on desktop core GL 3, the application crashes on glGetIntegerv to a null pointer, but

								      // better to report an error instead of doing anything random.

								      if (!p) {

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      var ret = undefined;

								      switch(name_) { // Handle a few trivial GLES values

								        case 0x8DFA: // GL_SHADER_COMPILER

								          ret = 1;

								          break;

								        case 0x8DF8: // GL_SHADER_BINARY_FORMATS

								          if (type !== 'Integer' && type !== 'Integer64') {

								            GL.recordError(0x0500); // GL_INVALID_ENUM

								          }

								          return; // Do not write anything to the out pointer, since no binary formats are supported.

								        case 0x8DF9: // GL_NUM_SHADER_BINARY_FORMATS

								          ret = 0;

								          break;

								        case 0x86A2: // GL_NUM_COMPRESSED_TEXTURE_FORMATS

								          // WebGL doesn't have GL_NUM_COMPRESSED_TEXTURE_FORMATS (it's obsolete since GL_COMPRESSED_TEXTURE_FORMATS returns a JS array that can be queried for length),

								          // so implement it ourselves to allow C++ GLES2 code get the length.

								          var formats = GLctx.getParameter(0x86A3 /*GL_COMPRESSED_TEXTURE_FORMATS*/);

								          ret = formats.length;

								          break;

								      }


								      if (ret === undefined) {

								        var result = GLctx.getParameter(name_);

								        switch (typeof(result)) {

								          case "number":

								            ret = result;

								            break;

								          case "boolean":

								            ret = result ? 1 : 0;

								            break;

								          case "string":

								            GL.recordError(0x0500); // GL_INVALID_ENUM

								            return;

								          case "object":

								            if (result === null) {

								              // null is a valid result for some (e.g., which buffer is bound - perhaps nothing is bound), but otherwise

								              // can mean an invalid name_, which we need to report as an error

								              switch(name_) {

								                case 0x8894: // ARRAY_BUFFER_BINDING

								                case 0x8B8D: // CURRENT_PROGRAM

								                case 0x8895: // ELEMENT_ARRAY_BUFFER_BINDING

								                case 0x8CA6: // FRAMEBUFFER_BINDING

								                case 0x8CA7: // RENDERBUFFER_BINDING

								                case 0x8069: // TEXTURE_BINDING_2D

								                case 0x8514: { // TEXTURE_BINDING_CUBE_MAP

								                  ret = 0;

								                  break;

								                }

								                default: {

								                  GL.recordError(0x0500); // GL_INVALID_ENUM

								                  return;

								                }

								              }

								            } else if (result instanceof Float32Array ||

								                       result instanceof Uint32Array ||

								                       result instanceof Int32Array ||

								                       result instanceof Array) {

								              for (var i = 0; i < result.length; ++i) {

								                switch (type) {

								                  case 'Integer': HEAP32[(((p)+(i*4))>>2)]=result[i];   break;

								                  case 'Float':   HEAPF32[(((p)+(i*4))>>2)]=result[i]; break;

								                  case 'Boolean': HEAP8[(((p)+(i))>>0)]=result[i] ? 1 : 0;    break;

								                  default: throw 'internal glGet error, bad type: ' + type;

								                }

								              }

								              return;

								            } else if (result instanceof WebGLBuffer ||

								                       result instanceof WebGLProgram ||

								                       result instanceof WebGLFramebuffer ||

								                       result instanceof WebGLRenderbuffer ||

								                       result instanceof WebGLTexture) {

								              ret = result.name | 0;

								            } else {

								              GL.recordError(0x0500); // GL_INVALID_ENUM

								              return;

								            }

								            break;

								          default:

								            GL.recordError(0x0500); // GL_INVALID_ENUM

								            return;

								        }

								      }


								      switch (type) {

								        case 'Integer64': (tempI64 = [ret>>>0,(tempDouble=ret,(+(Math_abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math_min((+(Math_floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math_ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[((p)>>2)]=tempI64[0],HEAP32[(((p)+(4))>>2)]=tempI64[1]);    break;

								        case 'Integer': HEAP32[((p)>>2)]=ret;    break;

								        case 'Float':   HEAPF32[((p)>>2)]=ret;  break;

								        case 'Boolean': HEAP8[((p)>>0)]=ret ? 1 : 0; break;

								        default: throw 'internal glGet error, bad type: ' + type;

								      }

								    }function _emscripten_glGetIntegerv(name_, p) {

								      emscriptenWebGLGet(name_, p, 'Integer');

								    }


								  function _emscripten_glGetFramebufferAttachmentParameteriv(target, attachment, pname, params) {

								      var result = GLctx.getFramebufferAttachmentParameter(target, attachment, pname);

								      HEAP32[((params)>>2)]=result;

								    }


								  function _llvm_stackrestore(p) {

								      var self = _llvm_stacksave;

								      var ret = self.LLVM_SAVEDSTACKS[p];

								      self.LLVM_SAVEDSTACKS.splice(p, 1);

								      Runtime.stackRestore(ret);

								    }


								  function _glfwSetWindowShouldClose(winid, value) {

								      var win = GLFW.WindowFromId(winid);

								      if (!win) return;

								      win.shouldClose = value;

								    }


								  function _emscripten_glClientActiveTexture() {

								  Module['printErr']('missing function: emscripten_glClientActiveTexture'); abort(-1);

								  }


								  function _glGenBuffers(n, buffers) {

								      for (var i = 0; i < n; i++) {

								        var buffer = GLctx.createBuffer();

								        if (!buffer) {

								          GL.recordError(0x0502 /* GL_INVALID_OPERATION */);

								          while(i < n) HEAP32[(((buffers)+(i++*4))>>2)]=0;

								          return;

								        }

								        var id = GL.getNewId(GL.buffers);

								        buffer.name = id;

								        GL.buffers[id] = buffer;

								        HEAP32[(((buffers)+(i*4))>>2)]=id;

								      }

								    }


								  function _emscripten_memcpy_big(dest, src, num) {

								      HEAPU8.set(HEAPU8.subarray(src, src+num), dest);

								      return dest;

								    }

								  Module["_memcpy"] = _memcpy;


								  function _emscripten_glGetShaderInfoLog(shader, maxLength, length, infoLog) {

								      var log = GLctx.getShaderInfoLog(GL.shaders[shader]);

								      if (log === null) log = '(unknown error)';

								      if (maxLength > 0 && infoLog) {

								        var numBytesWrittenExclNull = stringToUTF8(log, infoLog, maxLength);

								        if (length) HEAP32[((length)>>2)]=numBytesWrittenExclNull;

								      } else {

								        if (length) HEAP32[((length)>>2)]=0;

								      }

								    }


								  function _glfwGetTime() {

								      return GLFW.getTime() - GLFW.initialTime;

								    }


								  function _emscripten_glGetRenderbufferParameteriv(target, pname, params) {

								      if (!params) {

								        // GLES2 specification does not specify how to behave if params is a null pointer. Since calling this function does not make sense

								        // if params == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      HEAP32[((params)>>2)]=GLctx.getRenderbufferParameter(target, pname);

								    }


								  function _emscripten_glStencilOpSeparate(x0, x1, x2, x3) { GLctx['stencilOpSeparate'](x0, x1, x2, x3) }


								  function _emscripten_glReadPixels(x, y, width, height, format, type, pixels) {

								      var pixelData = emscriptenWebGLGetTexPixelData(type, format, width, height, pixels, format);

								      if (!pixelData) {

								        GL.recordError(0x0500/*GL_INVALID_ENUM*/);

								        return;

								      }

								      GLctx.readPixels(x, y, width, height, format, type, pixelData);

								    }


								  function _emscripten_glCompressedTexSubImage2D(target, level, xoffset, yoffset, width, height, format, imageSize, data) {

								      GLctx['compressedTexSubImage2D'](target, level, xoffset, yoffset, width, height, format, data ? HEAPU8.subarray((data),(data+imageSize)) : null);

								    }


								  function _emscripten_glGetError() {

								      // First return any GL error generated by the emscripten library_gl.js interop layer.

								      if (GL.lastError) {

								        var error = GL.lastError;

								        GL.lastError = 0/*GL_NO_ERROR*/;

								        return error;

								      } else { // If there were none, return the GL error from the browser GL context.

								        return GLctx.getError();

								      }

								    }


								  function _emscripten_glFramebufferTexture2D(target, attachment, textarget, texture, level) {

								      GLctx.framebufferTexture2D(target, attachment, textarget,

								                                      GL.textures[texture], level);

								    }


								  function _emscripten_glIsEnabled(x0) { return GLctx['isEnabled'](x0) }


								  function _glClearDepthf(x0) { GLctx['clearDepth'](x0) }


								  Module["_memmove"] = _memmove;


								  function _glGenTextures(n, textures) {

								      for (var i = 0; i < n; i++) {

								        var texture = GLctx.createTexture();

								        if (!texture) {

								          GL.recordError(0x0502 /* GL_INVALID_OPERATION */); // GLES + EGL specs don't specify what should happen here, so best to issue an error and create IDs with 0.

								          while(i < n) HEAP32[(((textures)+(i++*4))>>2)]=0;

								          return;

								        }

								        var id = GL.getNewId(GL.textures);

								        texture.name = id;

								        GL.textures[id] = texture;

								        HEAP32[(((textures)+(i*4))>>2)]=id;

								      }

								    }


								  function _emscripten_glVertexAttrib4f(x0, x1, x2, x3, x4) { GLctx['vertexAttrib4f'](x0, x1, x2, x3, x4) }


								  function _glDepthFunc(x0) { GLctx['depthFunc'](x0) }


								  var __main_thread_futex_wait_address; if (ENVIRONMENT_IS_PTHREAD) __main_thread_futex_wait_address = PthreadWorkerInit.__main_thread_futex_wait_address; else PthreadWorkerInit.__main_thread_futex_wait_address = __main_thread_futex_wait_address = allocate(1, "i32*", ALLOC_STATIC);function _emscripten_futex_wait(addr, val, timeout) {

								      if (addr <= 0 || addr > HEAP8.length || addr&3 != 0) return -22;

								  //    dump('futex_wait addr:' + addr + ' by thread: ' + _pthread_self() + (ENVIRONMENT_IS_PTHREAD?'(pthread)':'') + '\n');

								      if (ENVIRONMENT_IS_WORKER) {

								        var ret = Atomics.wait(HEAP32, addr >> 2, val, timeout);

								  //    dump('futex_wait done by thread: ' + _pthread_self() + (ENVIRONMENT_IS_PTHREAD?'(pthread)':'') + '\n');

								        if (ret === 'timed-out') return -110;

								        if (ret === 'not-equal') return -11;

								        if (ret === 'ok') return 0;

								        throw 'Atomics.wait returned an unexpected value ' + ret;

								      } else {

								        // Atomics.wait is not available in the main browser thread, so simulate it via busy spinning.

								        var loadedVal = Atomics.load(HEAP32, addr >> 2);

								        if (val != loadedVal) return -11;


								        var tNow = performance.now();

								        var tEnd = tNow + timeout;


								        // Register globally which address the main thread is simulating to be waiting on. When zero, main thread is not waiting on anything,

								        // and on nonzero, the contents of address pointed by __main_thread_futex_wait_address tell which address the main thread is simulating its wait on.

								        Atomics.store(HEAP32, __main_thread_futex_wait_address >> 2, addr);

								        var ourWaitAddress = addr; // We may recursively re-enter this function while processing queued calls, in which case we'll do a spurious wakeup of the older wait operation.

								        while (addr == ourWaitAddress) {

								          tNow = performance.now();

								          if (tNow > tEnd) {

								            return -110;

								          }

								          _emscripten_main_thread_process_queued_calls(); // We are performing a blocking loop here, so must pump any pthreads if they want to perform operations that are proxied.

								          addr = Atomics.load(HEAP32, __main_thread_futex_wait_address >> 2); // Look for a worker thread waking us up.

								        }

								        return 0;

								      }

								    }


								  function _emscripten_glClearDepthf(x0) { GLctx['clearDepth'](x0) }


								  function _emscripten_glClear(x0) { GLctx['clear'](x0) }


								  function _emscripten_glBindBuffer(target, buffer) {

								      var bufferObj = buffer ? GL.buffers[buffer] : null;


								      GLctx.bindBuffer(target, bufferObj);

								    }


								  function _emscripten_glGetUniformfv(program, location, params) {

								      emscriptenWebGLGetUniform(program, location, params, 'Float');

								    }


								  function _glGetProgramiv(program, pname, p) {

								      if (!p) {

								        // GLES2 specification does not specify how to behave if p is a null pointer. Since calling this function does not make sense

								        // if p == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }


								      if (program >= GL.counter) {

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }


								      var ptable = GL.programInfos[program];

								      if (!ptable) {

								        GL.recordError(0x0502 /* GL_INVALID_OPERATION */);

								        return;

								      }


								      if (pname == 0x8B84) { // GL_INFO_LOG_LENGTH

								        var log = GLctx.getProgramInfoLog(GL.programs[program]);

								        if (log === null) log = '(unknown error)';

								        HEAP32[((p)>>2)]=log.length + 1;

								      } else if (pname == 0x8B87 /* GL_ACTIVE_UNIFORM_MAX_LENGTH */) {

								        HEAP32[((p)>>2)]=ptable.maxUniformLength;

								      } else if (pname == 0x8B8A /* GL_ACTIVE_ATTRIBUTE_MAX_LENGTH */) {

								        if (ptable.maxAttributeLength == -1) {

								          var program = GL.programs[program];

								          var numAttribs = GLctx.getProgramParameter(program, GLctx.ACTIVE_ATTRIBUTES);

								          ptable.maxAttributeLength = 0; // Spec says if there are no active attribs, 0 must be returned.

								          for (var i = 0; i < numAttribs; ++i) {

								            var activeAttrib = GLctx.getActiveAttrib(program, i);

								            ptable.maxAttributeLength = Math.max(ptable.maxAttributeLength, activeAttrib.name.length+1);

								          }

								        }

								        HEAP32[((p)>>2)]=ptable.maxAttributeLength;

								      } else if (pname == 0x8A35 /* GL_ACTIVE_UNIFORM_BLOCK_MAX_NAME_LENGTH */) {

								        if (ptable.maxUniformBlockNameLength == -1) {

								          var program = GL.programs[program];

								          var numBlocks = GLctx.getProgramParameter(program, GLctx.ACTIVE_UNIFORM_BLOCKS);

								          ptable.maxUniformBlockNameLength = 0;

								          for (var i = 0; i < numBlocks; ++i) {

								            var activeBlockName = GLctx.getActiveUniformBlockName(program, i);

								            ptable.maxUniformBlockNameLength = Math.max(ptable.maxUniformBlockNameLength, activeBlockName.length+1);

								          }

								        }

								        HEAP32[((p)>>2)]=ptable.maxUniformBlockNameLength;

								      } else {

								        HEAP32[((p)>>2)]=GLctx.getProgramParameter(GL.programs[program], pname);

								      }

								    }


								  function _glVertexAttribPointer(index, size, type, normalized, stride, ptr) {

								      GLctx.vertexAttribPointer(index, size, type, !!normalized, stride, ptr);

								    }


								  function _emscripten_exit_pointerlock() {

								      // Make sure no queued up calls will fire after this.

								      JSEvents.removeDeferredCalls(JSEvents.requestPointerLock);


								      if (document.exitPointerLock) {

								        document.exitPointerLock();

								      } else if (document.msExitPointerLock) {

								        document.msExitPointerLock();

								      } else if (document.mozExitPointerLock) {

								        document.mozExitPointerLock();

								      } else if (document.webkitExitPointerLock) {

								        document.webkitExitPointerLock();

								      } else {

								        return -1;

								      }

								      return 0;

								    }


								  var cttz_i8; if (ENVIRONMENT_IS_PTHREAD) cttz_i8 = PthreadWorkerInit.cttz_i8; else PthreadWorkerInit.cttz_i8 = cttz_i8 = allocate([8,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,6,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,7,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,6,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0], "i8", ALLOC_STATIC);

								  Module["_llvm_cttz_i32"] = _llvm_cttz_i32;

								  Module["___udivmoddi4"] = ___udivmoddi4;

								  Module["___uremdi3"] = ___uremdi3;


								  function _glGetUniformLocation(program, name) {

								      name = Pointer_stringify(name);


								      var arrayOffset = 0;

								      // If user passed an array accessor "[index]", parse the array index off the accessor.

								      if (name.indexOf(']', name.length-1) !== -1) {

								        var ls = name.lastIndexOf('[');

								        var arrayIndex = name.slice(ls+1, -1);

								        if (arrayIndex.length > 0) {

								          arrayOffset = parseInt(arrayIndex);

								          if (arrayOffset < 0) {

								            return -1;

								          }

								        }

								        name = name.slice(0, ls);

								      }


								      var ptable = GL.programInfos[program];

								      if (!ptable) {

								        return -1;

								      }

								      var utable = ptable.uniforms;

								      var uniformInfo = utable[name]; // returns pair [ dimension_of_uniform_array, uniform_location ]

								      if (uniformInfo && arrayOffset < uniformInfo[0]) { // Check if user asked for an out-of-bounds element, i.e. for 'vec4 colors[3];' user could ask for 'colors[10]' which should return -1.

								        return uniformInfo[1]+arrayOffset;

								      } else {

								        return -1;

								      }

								    }


								  function _emscripten_glGetAttachedShaders(program, maxCount, count, shaders) {

								      var result = GLctx.getAttachedShaders(GL.programs[program]);

								      var len = result.length;

								      if (len > maxCount) {

								        len = maxCount;

								      }

								      HEAP32[((count)>>2)]=len;

								      for (var i = 0; i < len; ++i) {

								        var id = GL.shaders.indexOf(result[i]);

								        assert(id !== -1, 'shader not bound to local id');

								        HEAP32[(((shaders)+(i*4))>>2)]=id;

								      }

								    }


								  function _emscripten_glGenRenderbuffers(n, renderbuffers) {

								      for (var i = 0; i < n; i++) {

								        var renderbuffer = GLctx.createRenderbuffer();

								        if (!renderbuffer) {

								          GL.recordError(0x0502 /* GL_INVALID_OPERATION */);

								          while(i < n) HEAP32[(((renderbuffers)+(i++*4))>>2)]=0;

								          return;

								        }

								        var id = GL.getNewId(GL.renderbuffers);

								        renderbuffer.name = id;

								        GL.renderbuffers[id] = renderbuffer;

								        HEAP32[(((renderbuffers)+(i*4))>>2)]=id;

								      }

								    }


								  function _emscripten_glFrontFace(x0) { GLctx['frontFace'](x0) }


								  function _emscripten_glActiveTexture(x0) { GLctx['activeTexture'](x0) }


								  function _emscripten_glUniform1iv(location, count, value) {


								      GLctx.uniform1iv(GL.uniforms[location], HEAP32.subarray((value)>>2,(value+count*4)>>2));

								    }


								  function _emscripten_glTexCoordPointer() {

								  Module['printErr']('missing function: emscripten_glTexCoordPointer'); abort(-1);

								  }


								  function _emscripten_glGetInfoLogARB() {

								  Module['printErr']('missing function: emscripten_glGetInfoLogARB'); abort(-1);

								  }


								  function __exit(status) {

								      // void _exit(int status);

								      // http://pubs.opengroup.org/onlinepubs/000095399/functions/exit.html

								      Module['exit'](status);

								    }function _exit(status) {

								      __exit(status);

								    }


								  function _emscripten_glRenderbufferStorage(x0, x1, x2, x3) { GLctx['renderbufferStorage'](x0, x1, x2, x3) }


								  function _emscripten_glCopyTexSubImage2D(x0, x1, x2, x3, x4, x5, x6, x7) { GLctx['copyTexSubImage2D'](x0, x1, x2, x3, x4, x5, x6, x7) }


								  function _glfwSetCursorPosCallback(winid, cbfun) {

								      GLFW.setCursorPosCallback(winid, cbfun);

								    }


								  function _emscripten_glDepthRange(x0, x1) { GLctx['depthRange'](x0, x1) }


								  function _glBindAttribLocation(program, index, name) {

								      name = Pointer_stringify(name);

								      GLctx.bindAttribLocation(GL.programs[program], index, name);

								    }


								  function _emscripten_glShaderBinary() {

								      GL.recordError(0x0500/*GL_INVALID_ENUM*/);

								    }


								  function _emscripten_glIsProgram(program) {

								      var program = GL.programs[program];

								      if (!program) return 0;

								      return GLctx.isProgram(program);

								    }


								  function _emscripten_glBlendColor(x0, x1, x2, x3) { GLctx['blendColor'](x0, x1, x2, x3) }


								  function _emscripten_glGetShaderiv(shader, pname, p) {

								      if (!p) {

								        // GLES2 specification does not specify how to behave if p is a null pointer. Since calling this function does not make sense

								        // if p == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      if (pname == 0x8B84) { // GL_INFO_LOG_LENGTH

								        var log = GLctx.getShaderInfoLog(GL.shaders[shader]);

								        if (log === null) log = '(unknown error)';

								        HEAP32[((p)>>2)]=log.length + 1;

								      } else {

								        HEAP32[((p)>>2)]=GLctx.getShaderParameter(GL.shaders[shader], pname);

								      }

								    }


								  function _emscripten_glUniformMatrix3fv(location, count, transpose, value) {


								      var view;

								      if (9*count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[9*count-1];

								        for (var i = 0; i < 9*count; i += 9) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								          view[i+1] = HEAPF32[(((value)+(4*i+4))>>2)];

								          view[i+2] = HEAPF32[(((value)+(4*i+8))>>2)];

								          view[i+3] = HEAPF32[(((value)+(4*i+12))>>2)];

								          view[i+4] = HEAPF32[(((value)+(4*i+16))>>2)];

								          view[i+5] = HEAPF32[(((value)+(4*i+20))>>2)];

								          view[i+6] = HEAPF32[(((value)+(4*i+24))>>2)];

								          view[i+7] = HEAPF32[(((value)+(4*i+28))>>2)];

								          view[i+8] = HEAPF32[(((value)+(4*i+32))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*36)>>2);

								      }

								      GLctx.uniformMatrix3fv(GL.uniforms[location], !!transpose, view);

								    }


								  Module["___udivdi3"] = ___udivdi3;


								  function _emscripten_glUniform4fv(location, count, value) {


								      var view;

								      if (4*count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[4*count-1];

								        for (var i = 0; i < 4*count; i += 4) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								          view[i+1] = HEAPF32[(((value)+(4*i+4))>>2)];

								          view[i+2] = HEAPF32[(((value)+(4*i+8))>>2)];

								          view[i+3] = HEAPF32[(((value)+(4*i+12))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*16)>>2);

								      }

								      GLctx.uniform4fv(GL.uniforms[location], view);

								    }


								  function _glBufferSubData(target, offset, size, data) {

								      GLctx.bufferSubData(target, offset, HEAPU8.subarray(data, data+size));

								    }


								  function _emscripten_futex_wake(addr, count) {

								      if (addr <= 0 || addr > HEAP8.length || addr&3 != 0 || count < 0) return -22;

								      if (count == 0) return 0;

								  //    dump('futex_wake addr:' + addr + ' by thread: ' + _pthread_self() + (ENVIRONMENT_IS_PTHREAD?'(pthread)':'') + '\n');


								      // See if main thread is waiting on this address? If so, wake it up by resetting its wake location to zero.

								      // Note that this is not a fair procedure, since we always wake main thread first before any workers, so

								      // this scheme does not adhere to real queue-based waiting.

								      var mainThreadWaitAddress = Atomics.load(HEAP32, __main_thread_futex_wait_address >> 2);

								      var mainThreadWoken = 0;

								      if (mainThreadWaitAddress == addr) {

								        var loadedAddr = Atomics.compareExchange(HEAP32, __main_thread_futex_wait_address >> 2, mainThreadWaitAddress, 0);

								        if (loadedAddr == mainThreadWaitAddress) {

								          --count;

								          mainThreadWoken = 1;

								          if (count <= 0) return 1;

								        }

								      }


								      // Wake any workers waiting on this address.

								      var ret = Atomics.wake(HEAP32, addr >> 2, count);

								      if (ret >= 0) return ret + mainThreadWoken;

								      throw 'Atomics.wake returned an unexpected value ' + ret;

								    }


								  function _glGetProgramInfoLog(program, maxLength, length, infoLog) {

								      var log = GLctx.getProgramInfoLog(GL.programs[program]);

								      if (log === null) log = '(unknown error)';


								      if (maxLength > 0 && infoLog) {

								        var numBytesWrittenExclNull = stringToUTF8(log, infoLog, maxLength);

								        if (length) HEAP32[((length)>>2)]=numBytesWrittenExclNull;

								      } else {

								        if (length) HEAP32[((length)>>2)]=0;

								      }

								    }


								  function _emscripten_glGenFramebuffers(n, ids) {

								      for (var i = 0; i < n; ++i) {

								        var framebuffer = GLctx.createFramebuffer();

								        if (!framebuffer) {

								          GL.recordError(0x0502 /* GL_INVALID_OPERATION */);

								          while(i < n) HEAP32[(((ids)+(i++*4))>>2)]=0;

								          return;

								        }

								        var id = GL.getNewId(GL.framebuffers);

								        framebuffer.name = id;

								        GL.framebuffers[id] = framebuffer;

								        HEAP32[(((ids)+(i*4))>>2)]=id;

								      }

								    }


								  function _glGetShaderiv(shader, pname, p) {

								      if (!p) {

								        // GLES2 specification does not specify how to behave if p is a null pointer. Since calling this function does not make sense

								        // if p == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      if (pname == 0x8B84) { // GL_INFO_LOG_LENGTH

								        var log = GLctx.getShaderInfoLog(GL.shaders[shader]);

								        if (log === null) log = '(unknown error)';

								        HEAP32[((p)>>2)]=log.length + 1;

								      } else {

								        HEAP32[((p)>>2)]=GLctx.getShaderParameter(GL.shaders[shader], pname);

								      }

								    }


								  function _emscripten_glBlendEquationSeparate(x0, x1) { GLctx['blendEquationSeparate'](x0, x1) }


								  function _glfwSetWindowIconifyCallback(winid, cbfun) {

								      var win = GLFW.WindowFromId(winid);

								      if (!win) return;

								      win.windowIconifyFunc = cbfun;

								    }


								  function _emscripten_glDrawRangeElements() {

								  Module['printErr']('missing function: emscripten_glDrawRangeElements'); abort(-1);

								  }


								  function _emscripten_glGenTextures(n, textures) {

								      for (var i = 0; i < n; i++) {

								        var texture = GLctx.createTexture();

								        if (!texture) {

								          GL.recordError(0x0502 /* GL_INVALID_OPERATION */); // GLES + EGL specs don't specify what should happen here, so best to issue an error and create IDs with 0.

								          while(i < n) HEAP32[(((textures)+(i++*4))>>2)]=0;

								          return;

								        }

								        var id = GL.getNewId(GL.textures);

								        texture.name = id;

								        GL.textures[id] = texture;

								        HEAP32[(((textures)+(i*4))>>2)]=id;

								      }

								    }


								  function _emscripten_glVertexAttrib2fv(index, v) {


								      GLctx.vertexAttrib2f(index, HEAPF32[v>>2], HEAPF32[v+4>>2]);

								    }


								  function _emscripten_glGetActiveUniform(program, index, bufSize, length, size, type, name) {

								      program = GL.programs[program];

								      var info = GLctx.getActiveUniform(program, index);

								      if (!info) return; // If an error occurs, nothing will be written to length, size, type and name.


								      if (bufSize > 0 && name) {

								        var numBytesWrittenExclNull = stringToUTF8(info.name, name, bufSize);

								        if (length) HEAP32[((length)>>2)]=numBytesWrittenExclNull;

								      } else {

								        if (length) HEAP32[((length)>>2)]=0;

								      }


								      if (size) HEAP32[((size)>>2)]=info.size;

								      if (type) HEAP32[((type)>>2)]=info.type;

								    }


								  Module["_roundf"] = _roundf;


								  function _emscripten_glDeleteObjectARB() {

								  Module['printErr']('missing function: emscripten_glDeleteObjectARB'); abort(-1);

								  }


								  function _emscripten_set_touchmove_callback(target, userData, useCapture, callbackfunc) {

								      JSEvents.registerTouchEventCallback(target, userData, useCapture, callbackfunc, 24, "touchmove");

								      return 0;

								    }


								  function _emscripten_glUniform1f(location, v0) {

								      GLctx.uniform1f(GL.uniforms[location], v0);

								    }


								  function _emscripten_glVertexAttribPointer(index, size, type, normalized, stride, ptr) {

								      GLctx.vertexAttribPointer(index, size, type, !!normalized, stride, ptr);

								    }


								  function _glShaderSource(shader, count, string, length) {

								      var source = GL.getSource(shader, count, string, length);


								      GLctx.shaderSource(GL.shaders[shader], source);

								    }


								  function __spawn_thread(threadParams) {

								      if (ENVIRONMENT_IS_PTHREAD) throw 'Internal Error! _spawn_thread() can only ever be called from main application thread!';


								      var worker = PThread.getNewWorker();

								      if (worker.pthread !== undefined) throw 'Internal error!';

								      if (!threadParams.pthread_ptr) throw 'Internal error, no pthread ptr!';

								      PThread.runningWorkers.push(worker);


								      // Allocate memory for thread-local storage and initialize it to zero.

								      var tlsMemory = _malloc(128 * 4);

								      for (var i = 0; i < 128; ++i) {

								        HEAP32[(((tlsMemory)+(i*4))>>2)]=0;

								      }


								      var pthread = PThread.pthreads[threadParams.pthread_ptr] = { // Create a pthread info object to represent this thread.

								        worker: worker,

								        stackBase: threadParams.stackBase,

								        stackSize: threadParams.stackSize,

								        allocatedOwnStack: threadParams.allocatedOwnStack,

								        thread: threadParams.pthread_ptr,

								        threadInfoStruct: threadParams.pthread_ptr // Info area for this thread in Emscripten HEAP (shared)

								      };

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 0 ) >> 2, 0); // threadStatus <- 0, meaning not yet exited.

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 4 ) >> 2, 0); // threadExitCode <- 0.

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 20 ) >> 2, 0); // profilerBlock <- 0.

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 80 ) >> 2, threadParams.detached);

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 116 ) >> 2, tlsMemory); // Init thread-local-storage memory array.

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 60 ) >> 2, 0); // Mark initial status to unused.

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 52 ) >> 2, pthread.threadInfoStruct); // Main thread ID.

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 56 ) >> 2, PROCINFO.pid); // Process ID.


								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 120) >> 2, threadParams.stackSize);

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 96) >> 2, threadParams.stackSize);

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 92) >> 2, threadParams.stackBase);

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 120 + 8) >> 2, threadParams.stackBase);

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 120 + 12) >> 2, threadParams.detached);

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 120 + 20) >> 2, threadParams.schedPolicy);

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 120 + 24) >> 2, threadParams.schedPrio);


								      var global_libc = _emscripten_get_global_libc();

								      var global_locale = global_libc + 40;

								      Atomics.store(HEAPU32, (pthread.threadInfoStruct + 188) >> 2, global_locale);


								      worker.pthread = pthread;


								      // Ask the worker to start executing its pthread entry point function.

								      worker.postMessage({

								        cmd: 'run',

								        start_routine: threadParams.startRoutine,

								        arg: threadParams.arg,

								        threadInfoStruct: threadParams.pthread_ptr,

								        selfThreadId: threadParams.pthread_ptr, // TODO: Remove this since thread ID is now the same as the thread address.

								        parentThreadId: threadParams.parent_pthread_ptr,

								        stackBase: threadParams.stackBase,

								        stackSize: threadParams.stackSize,

								      }, threadParams.transferList);

								    }


								  function _pthread_getschedparam(thread, policy, schedparam) {

								      if (!policy && !schedparam) return ERRNO_CODES.EINVAL;


								      if (!thread) {

								        Module['printErr']('pthread_getschedparam called with a null thread pointer!');

								        return ERRNO_CODES.ESRCH;

								      }

								      var self = HEAP32[(((thread)+(24))>>2)];

								      if (self != thread) {

								        Module['printErr']('pthread_getschedparam attempted on thread ' + thread + ', which does not point to a valid thread, or does not exist anymore!');

								        return ERRNO_CODES.ESRCH;

								      }


								      var schedPolicy = Atomics.load(HEAPU32, (thread + 120 + 20 ) >> 2);

								      var schedPrio = Atomics.load(HEAPU32, (thread + 120 + 24 ) >> 2);


								      if (policy) HEAP32[((policy)>>2)]=schedPolicy;

								      if (schedparam) HEAP32[((schedparam)>>2)]=schedPrio;

								      return 0;

								    }


								  function _pthread_self() {

								      return __pthread_ptr|0;

								    }function _pthread_create(pthread_ptr, attr, start_routine, arg) {

								      if (typeof SharedArrayBuffer === 'undefined') {

								        Module['printErr']('Current environment does not support SharedArrayBuffer, pthreads are not available!');

								        return 11;

								      }

								      if (!pthread_ptr) {

								        Module['printErr']('pthread_create called with a null thread pointer!');

								        return 22;

								      }


								      var transferList = []; // List of JS objects that will transfer ownership to the Worker hosting the thread


								      // Synchronously proxy the thread creation to main thread if possible. If we need to transfer ownership of objects, then

								      // proxy asynchronously via postMessage.

								      if (ENVIRONMENT_IS_PTHREAD && transferList.length == 0) {

								        return _emscripten_sync_run_in_main_thread_4(137, pthread_ptr, attr, start_routine, arg);

								      }


								      var stackSize = 0;

								      var stackBase = 0;

								      var detached = 0; // Default thread attr is PTHREAD_CREATE_JOINABLE, i.e. start as not detached.

								      var schedPolicy = 0; /*SCHED_OTHER*/

								      var schedPrio = 0;

								      if (attr) {

								        stackSize = HEAP32[((attr)>>2)];

								        stackBase = HEAP32[(((attr)+(8))>>2)];

								        detached = HEAP32[(((attr)+(12))>>2)] != 0/*PTHREAD_CREATE_JOINABLE*/;

								        var inheritSched = HEAP32[(((attr)+(16))>>2)] == 0/*PTHREAD_INHERIT_SCHED*/;

								        if (inheritSched) {

								          var prevSchedPolicy = HEAP32[(((attr)+(20))>>2)];

								          var prevSchedPrio = HEAP32[(((attr)+(24))>>2)];

								          _pthread_getschedparam(_pthread_self(), attr + 20, attr + 24);

								          schedPolicy = HEAP32[(((attr)+(20))>>2)];

								          schedPrio = HEAP32[(((attr)+(24))>>2)];

								          HEAP32[(((attr)+(20))>>2)]=prevSchedPolicy;

								          HEAP32[(((attr)+(24))>>2)]=prevSchedPrio;

								        } else {

								          schedPolicy = HEAP32[(((attr)+(20))>>2)];

								          schedPrio = HEAP32[(((attr)+(24))>>2)];

								        }

								      }

								      stackSize += 81920 /*DEFAULT_STACK_SIZE*/;

								      var allocatedOwnStack = stackBase == 0; // If allocatedOwnStack == true, then the pthread impl maintains the stack allocation.

								      if (allocatedOwnStack) {

								        stackBase = _malloc(stackSize); // Allocate a stack if the user doesn't want to place the stack in a custom memory area.

								      } else {

								        // Musl stores the stack base address assuming stack grows downwards, so adjust it to Emscripten convention that the

								        // stack grows upwards instead.

								        stackBase -= stackSize;

								        assert(stackBase > 0);

								      }


								      // Allocate thread block (pthread_t structure).

								      var threadInfoStruct = _malloc(244);

								      for (var i = 0; i < 244 >> 2; ++i) HEAPU32[(threadInfoStruct>>2) + i] = 0; // zero-initialize thread structure.

								      HEAP32[((pthread_ptr)>>2)]=threadInfoStruct;


								      // The pthread struct has a field that points to itself - this is used as a magic ID to detect whether the pthread_t

								      // structure is 'alive'.

								      HEAP32[(((threadInfoStruct)+(24))>>2)]=threadInfoStruct;


								      // pthread struct robust_list head should point to itself.

								      var headPtr = threadInfoStruct + 168;

								      HEAP32[((headPtr)>>2)]=headPtr;


								      var threadParams = {

								        stackBase: stackBase,

								        stackSize: stackSize,

								        allocatedOwnStack: allocatedOwnStack,

								        schedPolicy: schedPolicy,

								        schedPrio: schedPrio,

								        detached: detached,

								        startRoutine: start_routine,

								        pthread_ptr: threadInfoStruct,

								        parent_pthread_ptr: _pthread_self(),

								        arg: arg,

								        transferList: transferList

								      };


								      if (ENVIRONMENT_IS_PTHREAD) {

								        // The prepopulated pool of web workers that can host pthreads is stored in the main JS thread. Therefore if a

								        // pthread is attempting to spawn a new thread, the thread creation must be deferred to the main JS thread.

								        threadParams.cmd = 'spawnThread';

								        postMessage(threadParams, transferList);

								      } else {

								        // We are the main thread, so we have the pthread warmup pool in this thread and can fire off JS thread creation

								        // directly ourselves.

								        __spawn_thread(threadParams);

								      }


								      return 0;

								    }


								  function _emscripten_glDrawArrays(mode, first, count) {


								      GLctx.drawArrays(mode, first, count);


								    }


								  function _emscripten_glGenBuffers(n, buffers) {

								      for (var i = 0; i < n; i++) {

								        var buffer = GLctx.createBuffer();

								        if (!buffer) {

								          GL.recordError(0x0502 /* GL_INVALID_OPERATION */);

								          while(i < n) HEAP32[(((buffers)+(i++*4))>>2)]=0;

								          return;

								        }

								        var id = GL.getNewId(GL.buffers);

								        buffer.name = id;

								        GL.buffers[id] = buffer;

								        HEAP32[(((buffers)+(i*4))>>2)]=id;

								      }

								    }


								  function _emscripten_glClearDepth(x0) { GLctx['clearDepth'](x0) }


								  function _emscripten_set_keypress_callback(target, userData, useCapture, callbackfunc) {

								      JSEvents.registerKeyEventCallback(target, userData, useCapture, callbackfunc, 1, "keypress");

								      return 0;

								    }


								  function _glfwSetCharCallback(winid, cbfun) {

								      GLFW.setCharCallback(winid, cbfun);

								    }


								  function _emscripten_glGetUniformLocation(program, name) {

								      name = Pointer_stringify(name);


								      var arrayOffset = 0;

								      // If user passed an array accessor "[index]", parse the array index off the accessor.

								      if (name.indexOf(']', name.length-1) !== -1) {

								        var ls = name.lastIndexOf('[');

								        var arrayIndex = name.slice(ls+1, -1);

								        if (arrayIndex.length > 0) {

								          arrayOffset = parseInt(arrayIndex);

								          if (arrayOffset < 0) {

								            return -1;

								          }

								        }

								        name = name.slice(0, ls);

								      }


								      var ptable = GL.programInfos[program];

								      if (!ptable) {

								        return -1;

								      }

								      var utable = ptable.uniforms;

								      var uniformInfo = utable[name]; // returns pair [ dimension_of_uniform_array, uniform_location ]

								      if (uniformInfo && arrayOffset < uniformInfo[0]) { // Check if user asked for an out-of-bounds element, i.e. for 'vec4 colors[3];' user could ask for 'colors[10]' which should return -1.

								        return uniformInfo[1]+arrayOffset;

								      } else {

								        return -1;

								      }

								    }


								  function _glBindBuffer(target, buffer) {

								      var bufferObj = buffer ? GL.buffers[buffer] : null;


								      GLctx.bindBuffer(target, bufferObj);

								    }


								  function _emscripten_set_current_thread_status_js(newStatus) {

								    }

								  Module["_emscripten_set_current_thread_status"] = _emscripten_set_current_thread_status;


								  function _emscripten_glVertexAttrib4fv(index, v) {


								      GLctx.vertexAttrib4f(index, HEAPF32[v>>2], HEAPF32[v+4>>2], HEAPF32[v+8>>2], HEAPF32[v+12>>2]);

								    }


								  function _emscripten_glScissor(x0, x1, x2, x3) { GLctx['scissor'](x0, x1, x2, x3) }


								  function _glfwSetCursorEnterCallback(winid, cbfun) {

								      var win = GLFW.WindowFromId(winid);

								      if (!win) return;

								      win.cursorEnterFunc = cbfun;

								    }


								  Module["_bitshift64Lshr"] = _bitshift64Lshr;


								  function _confstr(name, buf, len) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_3(68, name, buf, len);

								      // size_t confstr(int name, char *buf, size_t len);

								      // http://pubs.opengroup.org/onlinepubs/000095399/functions/confstr.html

								      var value;

								      switch (name) {

								        case 0:

								          value = ENV['PATH'] || '/';

								          break;

								        case 1:

								          // Mimicking glibc.

								          value = 'POSIX_V6_ILP32_OFF32\nPOSIX_V6_ILP32_OFFBIG';

								          break;

								        case 2:

								          // This JS implementation was tested against this glibc version.

								          value = 'glibc 2.14';

								          break;

								        case 3:

								          // We don't support pthreads.

								          value = '';

								          break;

								        case 1118:

								        case 1122:

								        case 1124:

								        case 1125:

								        case 1126:

								        case 1128:

								        case 1129:

								        case 1130:

								          value = '';

								          break;

								        case 1116:

								        case 1117:

								        case 1121:

								          value = '-m32';

								          break;

								        case 1120:

								          value = '-m32 -D_LARGEFILE_SOURCE -D_FILE_OFFSET_BITS=64';

								          break;

								        default:

								          ___setErrNo(ERRNO_CODES.EINVAL);

								          return 0;

								      }

								      if (len == 0 || buf == 0) {

								        return value.length + 1;

								      } else {

								        var length = Math.min(len, value.length);

								        for (var i = 0; i < length; i++) {

								          HEAP8[(((buf)+(i))>>0)]=value.charCodeAt(i);

								        }

								        if (len > length) HEAP8[(((buf)+(i++))>>0)]=0;

								        return i;

								      }

								    }


								  function _glBufferData(target, size, data, usage) {

								      if (!data) {

								        GLctx.bufferData(target, size, usage);

								      } else {

								        GLctx.bufferData(target, HEAPU8.subarray(data, data+size), usage);

								      }

								    }


								  function _emscripten_glIsShader(shader) {

								      var s = GL.shaders[shader];

								      if (!s) return 0;

								      return GLctx.isShader(s);

								    }


								  function _getenv(name) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_1(111, name);

								      // char *getenv(const char *name);

								      // http://pubs.opengroup.org/onlinepubs/009695399/functions/getenv.html

								      if (name === 0) return 0;

								      name = Pointer_stringify(name);

								      if (!ENV.hasOwnProperty(name)) return 0;


								      if (_getenv.ret) _free(_getenv.ret);

								      _getenv.ret = allocate(intArrayFromString(ENV[name]), 'i8', ALLOC_NORMAL);

								      return _getenv.ret;

								    }


								  function _emscripten_conditional_set_current_thread_status_js(expectedStatus, newStatus) {

								    }

								  Module["_emscripten_conditional_set_current_thread_status"] = _emscripten_conditional_set_current_thread_status;


								  function _emscripten_glDrawBuffers(n, bufs) {


								      var bufArray = GL.tempFixedLengthArray[n];

								      for (var i = 0; i < n; i++) {

								        bufArray[i] = HEAP32[(((bufs)+(i*4))>>2)];

								      }


								      GLctx['drawBuffers'](bufArray);

								    }


								  function _glGetFloatv(name_, p) {

								      emscriptenWebGLGet(name_, p, 'Float');

								    }


								  function _emscripten_glBindFramebuffer(target, framebuffer) {

								      GLctx.bindFramebuffer(target, framebuffer ? GL.framebuffers[framebuffer] : null);

								    }


								  function _emscripten_glBlendEquation(x0) { GLctx['blendEquation'](x0) }


								  function _emscripten_glBufferSubData(target, offset, size, data) {

								      GLctx.bufferSubData(target, offset, HEAPU8.subarray(data, data+size));

								    }


								  function _emscripten_glBufferData(target, size, data, usage) {

								      if (!data) {

								        GLctx.bufferData(target, size, usage);

								      } else {

								        GLctx.bufferData(target, HEAPU8.subarray(data, data+size), usage);

								      }

								    }


								  Module["_sbrk"] = _sbrk;


								  Module["_bitshift64Shl"] = _bitshift64Shl;


								  function _emscripten_glGetShaderSource(shader, bufSize, length, source) {

								      var result = GLctx.getShaderSource(GL.shaders[shader]);

								      if (!result) return; // If an error occurs, nothing will be written to length or source.

								      if (bufSize > 0 && source) {

								        var numBytesWrittenExclNull = stringToUTF8(result, source, bufSize);

								        if (length) HEAP32[((length)>>2)]=numBytesWrittenExclNull;

								      } else {

								        if (length) HEAP32[((length)>>2)]=0;

								      }

								    }


								  Module["_llvm_bswap_i32"] = _llvm_bswap_i32;


								  function _emscripten_set_click_callback(target, userData, useCapture, callbackfunc) {

								      JSEvents.registerMouseEventCallback(target, userData, useCapture, callbackfunc, 4, "click");

								      return 0;

								    }


								  function _glfwSetKeyCallback(winid, cbfun) {

								      GLFW.setKeyCallback(winid, cbfun);

								    }


								  function _emscripten_set_gamepadconnected_callback(userData, useCapture, callbackfunc) {

								      if (!navigator.getGamepads && !navigator.webkitGetGamepads) return -1;

								      JSEvents.registerGamepadEventCallback(window, userData, useCapture, callbackfunc, 26, "gamepadconnected");

								      return 0;

								    }


								  function _emscripten_glGetFloatv(name_, p) {

								      emscriptenWebGLGet(name_, p, 'Float');

								    }


								  function _glTexImage2D(target, level, internalFormat, width, height, border, format, type, pixels) {


								      var pixelData = null;

								      if (pixels) pixelData = emscriptenWebGLGetTexPixelData(type, format, width, height, pixels, internalFormat);

								      GLctx.texImage2D(target, level, internalFormat, width, height, border, format, type, pixelData);

								    }


								  function ___assert_fail(condition, filename, line, func) {

								      ABORT = true;

								      throw 'Assertion failed: ' + Pointer_stringify(condition) + ', at: ' + [filename ? Pointer_stringify(filename) : 'unknown filename', line, func ? Pointer_stringify(func) : 'unknown function'] + ' at ' + stackTrace();

								    }


								  function _emscripten_glVertexAttribDivisor(index, divisor) {

								      GLctx['vertexAttribDivisor'](index, divisor);

								    }


								  function _emscripten_glDrawElementsInstanced(mode, count, type, indices, primcount) {

								      GLctx['drawElementsInstanced'](mode, count, type, indices, primcount);

								    }


								  function _emscripten_glDrawElements(mode, count, type, indices) {


								      GLctx.drawElements(mode, count, type, indices);


								    }


								  function _glfwSetMouseButtonCallback(winid, cbfun) {

								      GLFW.setMouseButtonCallback(winid, cbfun);

								    }


								  function _emscripten_glCreateProgram() {

								      var id = GL.getNewId(GL.programs);

								      var program = GLctx.createProgram();

								      program.name = id;

								      GL.programs[id] = program;

								      return id;

								    }


								  function _emscripten_glCompressedTexImage2D(target, level, internalFormat, width, height, border, imageSize, data) {

								      GLctx['compressedTexImage2D'](target, level, internalFormat, width, height, border, data ? HEAPU8.subarray((data),(data+imageSize)) : null);

								    }


								  function _emscripten_glClearColor(x0, x1, x2, x3) { GLctx['clearColor'](x0, x1, x2, x3) }


								  function _emscripten_glBindVertexArray(vao) {

								      GLctx['bindVertexArray'](GL.vaos[vao]);

								    }


								  function _setenv(envname, envval, overwrite) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_3(113, envname, envval, overwrite);

								      // int setenv(const char *envname, const char *envval, int overwrite);

								      // http://pubs.opengroup.org/onlinepubs/009695399/functions/setenv.html

								      if (envname === 0) {

								        ___setErrNo(ERRNO_CODES.EINVAL);

								        return -1;

								      }

								      var name = Pointer_stringify(envname);

								      var val = Pointer_stringify(envval);

								      if (name === '' || name.indexOf('=') !== -1) {

								        ___setErrNo(ERRNO_CODES.EINVAL);

								        return -1;

								      }

								      if (ENV.hasOwnProperty(name) && !overwrite) return 0;

								      ENV[name] = val;

								      ___buildEnvironment(ENV);

								      return 0;

								    }


								  function _emscripten_glLoadMatrixf() {

								  Module['printErr']('missing function: emscripten_glLoadMatrixf'); abort(-1);

								  }


								  function _glDeleteShader(id) {

								      if (!id) return;

								      var shader = GL.shaders[id];

								      if (!shader) { // glDeleteShader actually signals an error when deleting a nonexisting object, unlike some other GL delete functions.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }

								      GLctx.deleteShader(shader);

								      GL.shaders[id] = null;

								    }


								  function _emscripten_glGetProgramiv(program, pname, p) {

								      if (!p) {

								        // GLES2 specification does not specify how to behave if p is a null pointer. Since calling this function does not make sense

								        // if p == null, issue a GL error to notify user about it.

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }


								      if (program >= GL.counter) {

								        GL.recordError(0x0501 /* GL_INVALID_VALUE */);

								        return;

								      }


								      var ptable = GL.programInfos[program];

								      if (!ptable) {

								        GL.recordError(0x0502 /* GL_INVALID_OPERATION */);

								        return;

								      }


								      if (pname == 0x8B84) { // GL_INFO_LOG_LENGTH

								        var log = GLctx.getProgramInfoLog(GL.programs[program]);

								        if (log === null) log = '(unknown error)';

								        HEAP32[((p)>>2)]=log.length + 1;

								      } else if (pname == 0x8B87 /* GL_ACTIVE_UNIFORM_MAX_LENGTH */) {

								        HEAP32[((p)>>2)]=ptable.maxUniformLength;

								      } else if (pname == 0x8B8A /* GL_ACTIVE_ATTRIBUTE_MAX_LENGTH */) {

								        if (ptable.maxAttributeLength == -1) {

								          var program = GL.programs[program];

								          var numAttribs = GLctx.getProgramParameter(program, GLctx.ACTIVE_ATTRIBUTES);

								          ptable.maxAttributeLength = 0; // Spec says if there are no active attribs, 0 must be returned.

								          for (var i = 0; i < numAttribs; ++i) {

								            var activeAttrib = GLctx.getActiveAttrib(program, i);

								            ptable.maxAttributeLength = Math.max(ptable.maxAttributeLength, activeAttrib.name.length+1);

								          }

								        }

								        HEAP32[((p)>>2)]=ptable.maxAttributeLength;

								      } else if (pname == 0x8A35 /* GL_ACTIVE_UNIFORM_BLOCK_MAX_NAME_LENGTH */) {

								        if (ptable.maxUniformBlockNameLength == -1) {

								          var program = GL.programs[program];

								          var numBlocks = GLctx.getProgramParameter(program, GLctx.ACTIVE_UNIFORM_BLOCKS);

								          ptable.maxUniformBlockNameLength = 0;

								          for (var i = 0; i < numBlocks; ++i) {

								            var activeBlockName = GLctx.getActiveUniformBlockName(program, i);

								            ptable.maxUniformBlockNameLength = Math.max(ptable.maxUniformBlockNameLength, activeBlockName.length+1);

								          }

								        }

								        HEAP32[((p)>>2)]=ptable.maxUniformBlockNameLength;

								      } else {

								        HEAP32[((p)>>2)]=GLctx.getProgramParameter(GL.programs[program], pname);

								      }

								    }


								  function _emscripten_glGetProgramInfoLog(program, maxLength, length, infoLog) {

								      var log = GLctx.getProgramInfoLog(GL.programs[program]);

								      if (log === null) log = '(unknown error)';


								      if (maxLength > 0 && infoLog) {

								        var numBytesWrittenExclNull = stringToUTF8(log, infoLog, maxLength);

								        if (length) HEAP32[((length)>>2)]=numBytesWrittenExclNull;

								      } else {

								        if (length) HEAP32[((length)>>2)]=0;

								      }

								    }


								  function _emscripten_glTexImage2D(target, level, internalFormat, width, height, border, format, type, pixels) {


								      var pixelData = null;

								      if (pixels) pixelData = emscriptenWebGLGetTexPixelData(type, format, width, height, pixels, internalFormat);

								      GLctx.texImage2D(target, level, internalFormat, width, height, border, format, type, pixelData);

								    }


								  function _glPixelStorei(pname, param) {

								      if (pname == 0x0D05 /* GL_PACK_ALIGNMENT */) {

								        GL.packAlignment = param;

								      } else if (pname == 0x0cf5 /* GL_UNPACK_ALIGNMENT */) {

								        GL.unpackAlignment = param;

								      }

								      GLctx.pixelStorei(pname, param);

								    }


								  function ___unlock() {}


								  function _emscripten_glColorPointer() {

								  Module['printErr']('missing function: emscripten_glColorPointer'); abort(-1);

								  }


								  function _glViewport(x0, x1, x2, x3) { GLctx['viewport'](x0, x1, x2, x3) }


								  function _glfwDestroyWindow(winid) {

								      return GLFW.destroyWindow(winid);

								    }


								  function _emscripten_glFlush() { GLctx['flush']() }


								  function _glfwSetErrorCallback(cbfun) {

								      GLFW.errorFunc = cbfun;

								    }


								  function _emscripten_glCreateShader(shaderType) {

								      var id = GL.getNewId(GL.shaders);

								      GL.shaders[id] = GLctx.createShader(shaderType);

								      return id;

								    }


								  function _glUniformMatrix4fv(location, count, transpose, value) {


								      var view;

								      if (16*count <= GL.MINI_TEMP_BUFFER_SIZE) {

								        // avoid allocation when uploading few enough uniforms

								        view = GL.miniTempBufferViews[16*count-1];

								        for (var i = 0; i < 16*count; i += 16) {

								          view[i] = HEAPF32[(((value)+(4*i))>>2)];

								          view[i+1] = HEAPF32[(((value)+(4*i+4))>>2)];

								          view[i+2] = HEAPF32[(((value)+(4*i+8))>>2)];

								          view[i+3] = HEAPF32[(((value)+(4*i+12))>>2)];

								          view[i+4] = HEAPF32[(((value)+(4*i+16))>>2)];

								          view[i+5] = HEAPF32[(((value)+(4*i+20))>>2)];

								          view[i+6] = HEAPF32[(((value)+(4*i+24))>>2)];

								          view[i+7] = HEAPF32[(((value)+(4*i+28))>>2)];

								          view[i+8] = HEAPF32[(((value)+(4*i+32))>>2)];

								          view[i+9] = HEAPF32[(((value)+(4*i+36))>>2)];

								          view[i+10] = HEAPF32[(((value)+(4*i+40))>>2)];

								          view[i+11] = HEAPF32[(((value)+(4*i+44))>>2)];

								          view[i+12] = HEAPF32[(((value)+(4*i+48))>>2)];

								          view[i+13] = HEAPF32[(((value)+(4*i+52))>>2)];

								          view[i+14] = HEAPF32[(((value)+(4*i+56))>>2)];

								          view[i+15] = HEAPF32[(((value)+(4*i+60))>>2)];

								        }

								      } else {

								        view = HEAPF32.subarray((value)>>2,(value+count*64)>>2);

								      }

								      GLctx.uniformMatrix4fv(GL.uniforms[location], !!transpose, view);

								    }


								  function _emscripten_glValidateProgram(program) {

								      GLctx.validateProgram(GL.programs[program]);

								    }


								  function _emscripten_syscall(which, varargs) {

								    switch (which) {

								      case 54: return ___syscall54(which, varargs);

								      case 6: return ___syscall6(which, varargs);

								      case 140: return ___syscall140(which, varargs);

								      case 146: return ___syscall146(which, varargs);

								      default: throw "surprising proxied syscall: " + which;

								    }

								  }


								  function _glTexParameteri(x0, x1, x2) { GLctx['texParameteri'](x0, x1, x2) }


								  function _glFrontFace(x0) { GLctx['frontFace'](x0) }


								  function _emscripten_glColorMask(red, green, blue, alpha) {

								      GLctx.colorMask(!!red, !!green, !!blue, !!alpha);

								    }


								  function _emscripten_glPixelStorei(pname, param) {

								      if (pname == 0x0D05 /* GL_PACK_ALIGNMENT */) {

								        GL.packAlignment = param;

								      } else if (pname == 0x0cf5 /* GL_UNPACK_ALIGNMENT */) {

								        GL.unpackAlignment = param;

								      }

								      GLctx.pixelStorei(pname, param);

								    }


								  function _emscripten_glDeleteTextures(n, textures) {

								      for (var i = 0; i < n; i++) {

								        var id = HEAP32[(((textures)+(i*4))>>2)];

								        var texture = GL.textures[id];

								        if (!texture) continue; // GL spec: "glDeleteTextures silently ignores 0s and names that do not correspond to existing textures".

								        GLctx.deleteTexture(texture);

								        texture.name = 0;

								        GL.textures[id] = null;

								      }

								    }


								  function _fpathconf(fildes, name) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_2(46, fildes, name);

								      // long fpathconf(int fildes, int name);

								      // http://pubs.opengroup.org/onlinepubs/000095399/functions/encrypt.html

								      // NOTE: The first parameter is ignored, so pathconf == fpathconf.

								      // The constants here aren't real values. Just mimicking glibc.

								      switch (name) {

								        case 0:

								          return 32000;

								        case 1:

								        case 2:

								        case 3:

								          return 255;

								        case 4:

								        case 5:

								        case 16:

								        case 17:

								        case 18:

								          return 4096;

								        case 6:

								        case 7:

								        case 20:

								          return 1;

								        case 8:

								          return 0;

								        case 9:

								        case 10:

								        case 11:

								        case 12:

								        case 14:

								        case 15:

								        case 19:

								          return -1;

								        case 13:

								          return 64;

								      }

								      ___setErrNo(ERRNO_CODES.EINVAL);

								      return -1;

								    }


								  function _putenv(string) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_1(115, string);

								      // int putenv(char *string);

								      // http://pubs.opengroup.org/onlinepubs/009695399/functions/putenv.html

								      // WARNING: According to the standard (and the glibc implementation), the

								      //          string is taken by reference so future changes are reflected.

								      //          We copy it instead, possibly breaking some uses.

								      if (string === 0) {

								        ___setErrNo(ERRNO_CODES.EINVAL);

								        return -1;

								      }

								      string = Pointer_stringify(string);

								      var splitPoint = string.indexOf('=')

								      if (string === '' || string.indexOf('=') === -1) {

								        ___setErrNo(ERRNO_CODES.EINVAL);

								        return -1;

								      }

								      var name = string.slice(0, splitPoint);

								      var value = string.slice(splitPoint + 1);

								      if (!(name in ENV) || ENV[name] !== value) {

								        ENV[name] = value;

								        ___buildEnvironment(ENV);

								      }

								      return 0;

								    }


								  function _emscripten_glGenVertexArrays(n, arrays) {


								      for (var i = 0; i < n; i++) {

								        var vao = GLctx['createVertexArray']();

								        if (!vao) {

								          GL.recordError(0x0502 /* GL_INVALID_OPERATION */);

								          while(i < n) HEAP32[(((arrays)+(i++*4))>>2)]=0;

								          return;

								        }

								        var id = GL.getNewId(GL.vaos);

								        vao.name = id;

								        GL.vaos[id] = vao;

								        HEAP32[(((arrays)+(i*4))>>2)]=id;

								      }

								    }


								  function _time(ptr) {

								      var ret = (Date.now()/1000)|0;

								      if (ptr) {

								        HEAP32[((ptr)>>2)]=ret;

								      }

								      return ret;

								    }


								  function _emscripten_glGetBooleanv(name_, p) {

								      emscriptenWebGLGet(name_, p, 'Boolean');

								    }


								  function _utimes(path, times) {

								      if (ENVIRONMENT_IS_PTHREAD) return _emscripten_sync_run_in_main_thread_2(13, path, times);

								      var time;

								      if (times) {

								        var offset = 8 + 0;

								        time = HEAP32[(((times)+(offset))>>2)] * 1000;

								        offset = 8 + 4;

								        time += HEAP32[(((times)+(offset))>>2)] / 1000;

								      } else {

								        time = Date.now();

								      }

								      path = Pointer_stringify(path);

								      try {

								        FS.utime(path, time, time);

								        return 0;

								      } catch (e) {

								        FS.handleFSError(e);

								        return -1;

								      }

								    }


								  function _emscripten_glCompileShader(shader) {

								      GLctx.compileShader(GL.shaders[shader]);

								    }

								var GLctx; GL.init();

								if (ENVIRONMENT_IS_NODE) {

								    _emscripten_get_now = function _emscripten_get_now_actual() {

								      var t = process['hrtime']();

								      return t[0] * 1e3 + t[1] / 1e6;

								    };

								  } else if (typeof dateNow !== 'undefined') {

								    _emscripten_get_now = dateNow;

								  } else if (typeof self === 'object' && self['performance'] && typeof self['performance']['now'] === 'function') {

								    _emscripten_get_now = function() { return self['performance']['now'](); };

								  } else if (typeof performance === 'object' && typeof performance['now'] === 'function') {

								    _emscripten_get_now = function() { return performance['now'](); };

								  } else {

								    _emscripten_get_now = Date.now;

								  };

								Module["requestFullScreen"] = function Module_requestFullScreen(lockPointer, resizeCanvas, vrDevice) { Module.printErr("Module.requestFullScreen is deprecated. Please call Module.requestFullscreen instead."); Module["requestFullScreen"] = Module["requestFullscreen"]; Browser.requestFullScreen(lockPointer, resizeCanvas, vrDevice) };

								  Module["requestFullscreen"] = function Module_requestFullscreen(lockPointer, resizeCanvas, vrDevice) { Browser.requestFullscreen(lockPointer, resizeCanvas, vrDevice) };

								  Module["requestAnimationFrame"] = function Module_requestAnimationFrame(func) { Browser.requestAnimationFrame(func) };

								  Module["setCanvasSize"] = function Module_setCanvasSize(width, height, noUpdates) { Browser.setCanvasSize(width, height, noUpdates) };

								  Module["pauseMainLoop"] = function Module_pauseMainLoop() { Browser.mainLoop.pause() };

								  Module["resumeMainLoop"] = function Module_resumeMainLoop() { Browser.mainLoop.resume() };

								  Module["getUserMedia"] = function Module_getUserMedia() { Browser.getUserMedia() }

								  Module["createContext"] = function Module_createContext(canvas, useWebGL, setInModule, webGLContextAttributes) { return Browser.createContext(canvas, useWebGL, setInModule, webGLContextAttributes) };

								FS.staticInit();__ATINIT__.unshift(function() { if (!Module["noFSInit"] && !FS.init.initialized) FS.init() });__ATMAIN__.push(function() { FS.ignorePermissions = false });__ATEXIT__.push(function() { FS.quit() });Module["FS_createFolder"] = FS.createFolder;Module["FS_createPath"] = FS.createPath;Module["FS_createDataFile"] = FS.createDataFile;Module["FS_createPreloadedFile"] = FS.createPreloadedFile;Module["FS_createLazyFile"] = FS.createLazyFile;Module["FS_createLink"] = FS.createLink;Module["FS_createDevice"] = FS.createDevice;Module["FS_unlink"] = FS.unlink;;

								__ATINIT__.unshift(function() { TTY.init() });__ATEXIT__.push(function() { TTY.shutdown() });;

								if (ENVIRONMENT_IS_NODE) { var fs = require("fs"); var NODEJS_PATH = require("path"); NODEFS.staticInit(); };

								JSEvents.staticInit();;

								if (!ENVIRONMENT_IS_PTHREAD) PThread.initMainThreadBlock();;

								if (!ENVIRONMENT_IS_PTHREAD) ___buildEnvironment(ENV);;

								if (!ENVIRONMENT_IS_PTHREAD) {

								 // Only main thread initializes these, pthreads copy them over at thread worker init time (in pthread-main.js)

								DYNAMICTOP_PTR = allocate(1, "i32", ALLOC_STATIC);


								STACK_BASE = STACKTOP = Runtime.alignMemory(STATICTOP);


								STACK_MAX = STACK_BASE + TOTAL_STACK;


								DYNAMIC_BASE = Runtime.alignMemory(STACK_MAX);


								HEAP32[DYNAMICTOP_PTR>>2] = DYNAMIC_BASE;


								staticSealed = true; // seal the static portion of memory


								assert(DYNAMIC_BASE < TOTAL_MEMORY, "TOTAL_MEMORY not big enough for stack");


								}


								function nullFunc_viiiii(x) { Module["printErr"]("Invalid function pointer called with signature 'viiiii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vd(x) { Module["printErr"]("Invalid function pointer called with signature 'vd'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vid(x) { Module["printErr"]("Invalid function pointer called with signature 'vid'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vi(x) { Module["printErr"]("Invalid function pointer called with signature 'vi'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vii(x) { Module["printErr"]("Invalid function pointer called with signature 'vii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_ii(x) { Module["printErr"]("Invalid function pointer called with signature 'ii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viddd(x) { Module["printErr"]("Invalid function pointer called with signature 'viddd'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vidd(x) { Module["printErr"]("Invalid function pointer called with signature 'vidd'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_iiii(x) { Module["printErr"]("Invalid function pointer called with signature 'iiii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viiiiiiii(x) { Module["printErr"]("Invalid function pointer called with signature 'viiiiiiii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viiiiii(x) { Module["printErr"]("Invalid function pointer called with signature 'viiiiii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viii(x) { Module["printErr"]("Invalid function pointer called with signature 'viii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vidddd(x) { Module["printErr"]("Invalid function pointer called with signature 'vidddd'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vdi(x) { Module["printErr"]("Invalid function pointer called with signature 'vdi'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viiiiiii(x) { Module["printErr"]("Invalid function pointer called with signature 'viiiiiii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viiiiiiiii(x) { Module["printErr"]("Invalid function pointer called with signature 'viiiiiiiii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_iii(x) { Module["printErr"]("Invalid function pointer called with signature 'iii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_i(x) { Module["printErr"]("Invalid function pointer called with signature 'i'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vdddddd(x) { Module["printErr"]("Invalid function pointer called with signature 'vdddddd'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vdddd(x) { Module["printErr"]("Invalid function pointer called with signature 'vdddd'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_vdd(x) { Module["printErr"]("Invalid function pointer called with signature 'vdd'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_v(x) { Module["printErr"]("Invalid function pointer called with signature 'v'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viid(x) { Module["printErr"]("Invalid function pointer called with signature 'viid'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function nullFunc_viiii(x) { Module["printErr"]("Invalid function pointer called with signature 'viiii'. Perhaps this is an invalid value (e.g. caused by calling a virtual method on a NULL pointer)? Or calling a function with an incorrect type, which will fail? (it is worth building your source files with -Werror (warnings are errors), as warnings can indicate undefined behavior which can cause this)");  Module["printErr"]("Build with ASSERTIONS=2 for more info.");abort(x) }


								function invoke_viiiii(index,a1,a2,a3,a4,a5) {

								  try {

								    Module["dynCall_viiiii"](index,a1,a2,a3,a4,a5);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vd(index,a1) {

								  try {

								    Module["dynCall_vd"](index,a1);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vid(index,a1,a2) {

								  try {

								    Module["dynCall_vid"](index,a1,a2);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vi(index,a1) {

								  try {

								    Module["dynCall_vi"](index,a1);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vii(index,a1,a2) {

								  try {

								    Module["dynCall_vii"](index,a1,a2);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_ii(index,a1) {

								  try {

								    return Module["dynCall_ii"](index,a1);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viddd(index,a1,a2,a3,a4) {

								  try {

								    Module["dynCall_viddd"](index,a1,a2,a3,a4);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vidd(index,a1,a2,a3) {

								  try {

								    Module["dynCall_vidd"](index,a1,a2,a3);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_iiii(index,a1,a2,a3) {

								  try {

								    return Module["dynCall_iiii"](index,a1,a2,a3);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8) {

								  try {

								    Module["dynCall_viiiiiiii"](index,a1,a2,a3,a4,a5,a6,a7,a8);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viiiiii(index,a1,a2,a3,a4,a5,a6) {

								  try {

								    Module["dynCall_viiiiii"](index,a1,a2,a3,a4,a5,a6);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viii(index,a1,a2,a3) {

								  try {

								    Module["dynCall_viii"](index,a1,a2,a3);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vidddd(index,a1,a2,a3,a4,a5) {

								  try {

								    Module["dynCall_vidddd"](index,a1,a2,a3,a4,a5);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vdi(index,a1,a2) {

								  try {

								    Module["dynCall_vdi"](index,a1,a2);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viiiiiii(index,a1,a2,a3,a4,a5,a6,a7) {

								  try {

								    Module["dynCall_viiiiiii"](index,a1,a2,a3,a4,a5,a6,a7);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9) {

								  try {

								    Module["dynCall_viiiiiiiii"](index,a1,a2,a3,a4,a5,a6,a7,a8,a9);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_iii(index,a1,a2) {

								  try {

								    return Module["dynCall_iii"](index,a1,a2);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_i(index) {

								  try {

								    return Module["dynCall_i"](index);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vdddddd(index,a1,a2,a3,a4,a5,a6) {

								  try {

								    Module["dynCall_vdddddd"](index,a1,a2,a3,a4,a5,a6);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vdddd(index,a1,a2,a3,a4) {

								  try {

								    Module["dynCall_vdddd"](index,a1,a2,a3,a4);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_vdd(index,a1,a2) {

								  try {

								    Module["dynCall_vdd"](index,a1,a2);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_v(index) {

								  try {

								    Module["dynCall_v"](index);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viid(index,a1,a2,a3) {

								  try {

								    Module["dynCall_viid"](index,a1,a2,a3);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								function invoke_viiii(index,a1,a2,a3,a4) {

								  try {

								    Module["dynCall_viiii"](index,a1,a2,a3,a4);

								  } catch(e) {

								    if (typeof e !== 'number' && e !== 'longjmp') throw e;

								    Module["setThrew"](1, 0);

								  }

								}


								Module.asmGlobalArg = { "Math": Math, "Int8Array": Int8Array, "Int16Array": Int16Array, "Int32Array": Int32Array, "Uint8Array": Uint8Array, "Uint16Array": Uint16Array, "Uint32Array": Uint32Array, "Float32Array": Float32Array, "Float64Array": Float64Array, "NaN": NaN, "Infinity": Infinity };

								Module.asmGlobalArg['Atomics'] = Atomics;

								Module.asmLibraryArg = { "abort": abort, "assert": assert, "enlargeMemory": enlargeMemory, "getTotalMemory": getTotalMemory, "abortOnCannotGrowMemory": abortOnCannotGrowMemory, "abortStackOverflow": abortStackOverflow, "nullFunc_viiiii": nullFunc_viiiii, "nullFunc_vd": nullFunc_vd, "nullFunc_vid": nullFunc_vid, "nullFunc_vi": nullFunc_vi, "nullFunc_vii": nullFunc_vii, "nullFunc_ii": nullFunc_ii, "nullFunc_viddd": nullFunc_viddd, "nullFunc_vidd": nullFunc_vidd, "nullFunc_iiii": nullFunc_iiii, "nullFunc_viiiiiiii": nullFunc_viiiiiiii, "nullFunc_viiiiii": nullFunc_viiiiii, "nullFunc_viii": nullFunc_viii, "nullFunc_vidddd": nullFunc_vidddd, "nullFunc_vdi": nullFunc_vdi, "nullFunc_viiiiiii": nullFunc_viiiiiii, "nullFunc_viiiiiiiii": nullFunc_viiiiiiiii, "nullFunc_iii": nullFunc_iii, "nullFunc_i": nullFunc_i, "nullFunc_vdddddd": nullFunc_vdddddd, "nullFunc_vdddd": nullFunc_vdddd, "nullFunc_vdd": nullFunc_vdd, "nullFunc_v": nullFunc_v, "nullFunc_viid": nullFunc_viid, "nullFunc_viiii": nullFunc_viiii, "invoke_viiiii": invoke_viiiii, "invoke_vd": invoke_vd, "invoke_vid": invoke_vid, "invoke_vi": invoke_vi, "invoke_vii": invoke_vii, "invoke_ii": invoke_ii, "invoke_viddd": invoke_viddd, "invoke_vidd": invoke_vidd, "invoke_iiii": invoke_iiii, "invoke_viiiiiiii": invoke_viiiiiiii, "invoke_viiiiii": invoke_viiiiii, "invoke_viii": invoke_viii, "invoke_vidddd": invoke_vidddd, "invoke_vdi": invoke_vdi, "invoke_viiiiiii": invoke_viiiiiii, "invoke_viiiiiiiii": invoke_viiiiiiiii, "invoke_iii": invoke_iii, "invoke_i": invoke_i, "invoke_vdddddd": invoke_vdddddd, "invoke_vdddd": invoke_vdddd, "invoke_vdd": invoke_vdd, "invoke_v": invoke_v, "invoke_viid": invoke_viid, "invoke_viiii": invoke_viiii, "_emscripten_glGetTexParameterfv": _emscripten_glGetTexParameterfv, "_glUseProgram": _glUseProgram, "_glfwCreateWindow": _glfwCreateWindow, "_emscripten_glReleaseShaderCompiler": _emscripten_glReleaseShaderCompiler, "_emscripten_glBlendFuncSeparate": _emscripten_glBlendFuncSeparate, "_emscripten_glVertexAttribPointer": _emscripten_glVertexAttribPointer, "_emscripten_glGetIntegerv": _emscripten_glGetIntegerv, "_emscripten_glCullFace": _emscripten_glCullFace, "_emscripten_glIsProgram": _emscripten_glIsProgram, "_emscripten_glStencilMaskSeparate": _emscripten_glStencilMaskSeparate, "_emscripten_glViewport": _emscripten_glViewport, "_emscripten_glFrontFace": _emscripten_glFrontFace, "___assert_fail": ___assert_fail, "_glDeleteProgram": _glDeleteProgram, "_emscripten_glUniform3fv": _emscripten_glUniform3fv, "_emscripten_glPolygonOffset": _emscripten_glPolygonOffset, "_emscripten_glUseProgram": _emscripten_glUseProgram, "_emscripten_glBlendColor": _emscripten_glBlendColor, "_glBindBuffer": _glBindBuffer, "_emscripten_glDepthFunc": _emscripten_glDepthFunc, "_glGetShaderInfoLog": _glGetShaderInfoLog, "_clock_gettime": _clock_gettime, "_emscripten_set_fullscreenchange_callback": _emscripten_set_fullscreenchange_callback, "_emscripten_set_touchmove_callback": _emscripten_set_touchmove_callback, "_emscripten_set_main_loop_timing": _emscripten_set_main_loop_timing, "_glDisable": _glDisable, "_glBlendFunc": _glBlendFunc, "_emscripten_glDisableVertexAttribArray": _emscripten_glDisableVertexAttribArray, "_glGetAttribLocation": _glGetAttribLocation, "_glDisableVertexAttribArray": _glDisableVertexAttribArray, "_glCreateShader": _glCreateShader, "_emscripten_glCompileShader": _emscripten_glCompileShader, "_sysconf": _sysconf, "_utime": _utime, "_emscripten_glSampleCoverage": _emscripten_glSampleCoverage, "_emscripten_glVertexPointer": _emscripten_glVertexPointer, "_emscripten_set_touchstart_callback": _emscripten_set_touchstart_callback, "emscriptenWebGLComputeImageSize": emscriptenWebGLComputeImageSize, "_emscripten_glGetBooleanv": _emscripten_glGetBooleanv, "_emscripten_glGetShaderSource": _emscripten_glGetShaderSource, "_chroot": _chroot, "_glUniform4f": _glUniform4f, "_llvm_stacksave": _llvm_stacksave, "_emscripten_glUniform1i": _emscripten_glUniform1i, "_emscripten_glLoadMatrixf": _emscripten_glLoadMatrixf, "_emscripten_glGenBuffers": _emscripten_glGenBuffers, "_emscripten_glDeleteObjectARB": _emscripten_glDeleteObjectARB, "_glfwSetWindowSizeCallback": _glfwSetWindowSizeCallback, "_emscripten_glGetShaderPrecisionFormat": _emscripten_glGetShaderPrecisionFormat, "_glfwInit": _glfwInit, "_glGenBuffers": _glGenBuffers, "_glShaderSource": _glShaderSource, "_emscripten_glGetString": _emscripten_glGetString, "_emscripten_glIsFramebuffer": _emscripten_glIsFramebuffer, "_emscripten_glIsEnabled": _emscripten_glIsEnabled, "_emscripten_glScissor": _emscripten_glScissor, "__pthread_testcancel_js": __pthread_testcancel_js, "_emscripten_glVertexAttrib4fv": _emscripten_glVertexAttrib4fv, "_emscripten_glFramebufferTexture2D": _emscripten_glFramebufferTexture2D, "_emscripten_glTexParameteriv": _emscripten_glTexParameteriv, "_unsetenv": _unsetenv, "_emscripten_glBindProgramARB": _emscripten_glBindProgramARB, "_emscripten_glStencilOpSeparate": _emscripten_glStencilOpSeparate, "_emscripten_glFramebufferRenderbuffer": _emscripten_glFramebufferRenderbuffer, "___syscall140": ___syscall140, "_glfwSetErrorCallback": _glfwSetErrorCallback, "_glfwDefaultWindowHints": _glfwDefaultWindowHints, "_glfwDestroyWindow": _glfwDestroyWindow, "___syscall146": ___syscall146, "_emscripten_glGetActiveAttrib": _emscripten_glGetActiveAttrib, "_emscripten_glAttachShader": _emscripten_glAttachShader, "_emscripten_get_now_is_monotonic": _emscripten_get_now_is_monotonic, "_emscripten_glUniform2i": _emscripten_glUniform2i, "_emscripten_glUniform2f": _emscripten_glUniform2f, "_emscripten_glTexParameterfv": _emscripten_glTexParameterfv, "_emscripten_glIsBuffer": _emscripten_glIsBuffer, "_emscripten_glUniformMatrix2fv": _emscripten_glUniformMatrix2fv, "_glGetProgramInfoLog": _glGetProgramInfoLog, "_glfwSetScrollCallback": _glfwSetScrollCallback, "_emscripten_glTexParameterf": _emscripten_glTexParameterf, "_emscripten_glGetAttachedShaders": _emscripten_glGetAttachedShaders, "_emscripten_glGenTextures": _emscripten_glGenTextures, "_emscripten_glTexParameteri": _emscripten_glTexParameteri, "_llvm_stackrestore": _llvm_stackrestore, "_glfwMakeContextCurrent": _glfwMakeContextCurrent, "_emscripten_glClear": _emscripten_glClear, "_glDrawElements": _glDrawElements, "_glBufferSubData": _glBufferSubData, "_emscripten_glValidateProgram": _emscripten_glValidateProgram, "_emscripten_glVertexAttrib2fv": _emscripten_glVertexAttrib2fv, "_glViewport": _glViewport, "_emscripten_glUniform4iv": _emscripten_glUniform4iv, "_emscripten_glGetTexParameteriv": _emscripten_glGetTexParameteriv, "___setErrNo": ___setErrNo, "_eglGetProcAddress": _eglGetProcAddress, "_emscripten_glBindAttribLocation": _emscripten_glBindAttribLocation, "_glDeleteTextures": _glDeleteTextures, "_glDepthFunc": _glDepthFunc, "_emscripten_glClientActiveTexture": _emscripten_glClientActiveTexture, "_emscripten_glVertexAttrib2f": _emscripten_glVertexAttrib2f, "_emscripten_asm_const_v": _emscripten_asm_const_v, "_emscripten_glFlush": _emscripten_glFlush, "_emscripten_glBlendFunc": _emscripten_glBlendFunc, "_emscripten_glCheckFramebufferStatus": _emscripten_glCheckFramebufferStatus, "_emscripten_glGenerateMipmap": _emscripten_glGenerateMipmap, "_emscripten_glGetError": _emscripten_glGetError, "_emscripten_glClearDepthf": _emscripten_glClearDepthf, "_pthread_self": _pthread_self, "_emscripten_glBufferData": _emscripten_glBufferData, "_emscripten_glUniform3i": _emscripten_glUniform3i, "_emscripten_glGenRenderbuffers": _emscripten_glGenRenderbuffers, "_emscripten_glRotatef": _emscripten_glRotatef, "_emscripten_glDeleteShader": _emscripten_glDeleteShader, "_glEnable": _glEnable, "_emscripten_glGetShaderiv": _emscripten_glGetShaderiv, "_emscripten_glReadPixels": _emscripten_glReadPixels, "_emscripten_glMatrixMode": _emscripten_glMatrixMode, "_glGetString": _glGetString, "_emscripten_glClearStencil": _emscripten_glClearStencil, "_emscripten_glGetUniformLocation": _emscripten_glGetUniformLocation, "emscriptenWebGLGet": emscriptenWebGLGet, "_emscripten_glEnableVertexAttribArray": _emscripten_glEnableVertexAttribArray, "__register_pthread_ptr": __register_pthread_ptr, "_emscripten_get_now": _emscripten_get_now, "_emscripten_glNormalPointer": _emscripten_glNormalPointer, "_glAttachShader": _glAttachShader, "_emscripten_glTexCoordPointer": _emscripten_glTexCoordPointer, "_emscripten_glEnable": _emscripten_glEnable, "_glCreateProgram": _glCreateProgram, "_glUniformMatrix4fv": _glUniformMatrix4fv, "_emscripten_glClearDepth": _emscripten_glClearDepth, "___lock": ___lock, "emscriptenWebGLGetTexPixelData": emscriptenWebGLGetTexPixelData, "___syscall6": ___syscall6, "_emscripten_glStencilFuncSeparate": _emscripten_glStencilFuncSeparate, "_emscripten_glVertexAttrib3f": _emscripten_glVertexAttrib3f, "_time": _time, "_gettimeofday": _gettimeofday, "_emscripten_glVertexAttrib1f": _emscripten_glVertexAttrib1f, "_emscripten_glGetFramebufferAttachmentParameteriv": _emscripten_glGetFramebufferAttachmentParameteriv, "_emscripten_glBlendEquationSeparate": _emscripten_glBlendEquationSeparate, "_exit": _exit, "_emscripten_glEnableClientState": _emscripten_glEnableClientState, "__spawn_thread": __spawn_thread, "_emscripten_glUniform4i": _emscripten_glUniform4i, "_emscripten_conditional_set_current_thread_status_js": _emscripten_conditional_set_current_thread_status_js, "_putenv": _putenv, "_pthread_join": _pthread_join, "_glCullFace": _glCullFace, "_emscripten_glGetPointerv": _emscripten_glGetPointerv, "_emscripten_set_keypress_callback": _emscripten_set_keypress_callback, "__emscripten_sample_gamepad_data": __emscripten_sample_gamepad_data, "_fpathconf": _fpathconf, "_emscripten_get_gamepad_status": _emscripten_get_gamepad_status, "_emscripten_glUniform4f": _emscripten_glUniform4f, "_emscripten_glUniform2fv": _emscripten_glUniform2fv, "_glfwGetVideoModes": _glfwGetVideoModes, "___unlock": ___unlock, "_emscripten_set_click_callback": _emscripten_set_click_callback, "_emscripten_glFrustum": _emscripten_glFrustum, "_emscripten_is_main_runtime_thread": _emscripten_is_main_runtime_thread, "_emscripten_glShaderBinary": _emscripten_glShaderBinary, "_emscripten_glDrawElements": _emscripten_glDrawElements, "_glVertexAttribPointer": _glVertexAttribPointer, "_emscripten_get_num_gamepads": _emscripten_get_num_gamepads, "___buildEnvironment": ___buildEnvironment, "_glCompressedTexImage2D": _glCompressedTexImage2D, "_utimes": _utimes, "_emscripten_glUniform1iv": _emscripten_glUniform1iv, "_emscripten_glGetVertexAttribPointerv": _emscripten_glGetVertexAttribPointerv, "_glClearDepthf": _glClearDepthf, "_emscripten_glCompressedTexSubImage2D": _emscripten_glCompressedTexSubImage2D, "emscriptenWebGLGetUniform": emscriptenWebGLGetUniform, "_tzset": _tzset, "_emscripten_glDeleteVertexArrays": _emscripten_glDeleteVertexArrays, "_glfwSetWindowShouldClose": _glfwSetWindowShouldClose, "_emscripten_glUniform1fv": _emscripten_glUniform1fv, "_emscripten_glGetActiveUniform": _emscripten_glGetActiveUniform, "_glBindTexture": _glBindTexture, "_emscripten_glUniform3iv": _emscripten_glUniform3iv, "_emscripten_glUniform2iv": _emscripten_glUniform2iv, "_emscripten_glHint": _emscripten_glHint, "_glfwSetCharCallback": _glfwSetCharCallback, "emscriptenWebGLGetVertexAttrib": emscriptenWebGLGetVertexAttrib, "_glGetFloatv": _glGetFloatv, "_emscripten_glDeleteProgram": _emscripten_glDeleteProgram, "_emscripten_glDeleteRenderbuffers": _emscripten_glDeleteRenderbuffers, "___clock_gettime": ___clock_gettime, "_emscripten_glDrawElementsInstanced": _emscripten_glDrawElementsInstanced, "_emscripten_glVertexAttrib4f": _emscripten_glVertexAttrib4f, "_glDrawArrays": _glDrawArrays, "_emscripten_glTexSubImage2D": _emscripten_glTexSubImage2D, "_clearenv": _clearenv, "_emscripten_glPixelStorei": _emscripten_glPixelStorei, "_glCompileShader": _glCompileShader, "_emscripten_get_pointerlock_status": _emscripten_get_pointerlock_status, "_emscripten_memcpy_big": _emscripten_memcpy_big, "_emscripten_glUniformMatrix3fv": _emscripten_glUniformMatrix3fv, "_emscripten_glColorPointer": _emscripten_glColorPointer, "_getenv": _getenv, "_emscripten_glDepthRange": _emscripten_glDepthRange, "_emscripten_glGetBufferParameteriv": _emscripten_glGetBufferParameteriv, "_emscripten_glFinish": _emscripten_glFinish, "_emscripten_glRenderbufferStorage": _emscripten_glRenderbufferStorage, "_emscripten_set_gamepaddisconnected_callback": _emscripten_set_gamepaddisconnected_callback, "_emscripten_asm_const_iii": _emscripten_asm_const_iii, "_emscripten_glDepthMask": _emscripten_glDepthMask, "_glfwSetWindowIconifyCallback": _glfwSetWindowIconifyCallback, "_emscripten_glDrawBuffers": _emscripten_glDrawBuffers, "_glfwTerminate": _glfwTerminate, "_emscripten_futex_wake": _emscripten_futex_wake, "_glFrontFace": _glFrontFace, "_emscripten_glGetObjectParameterivARB": _emscripten_glGetObjectParameterivARB, "_emscripten_exit_pointerlock": _emscripten_exit_pointerlock, "_glfwSwapInterval": _glfwSwapInterval, "_glUniform1i": _glUniform1i, "_glEnableVertexAttribArray": _glEnableVertexAttribArray, "_emscripten_glStencilFunc": _emscripten_glStencilFunc, "_abort": _abort, "_emscripten_glGetUniformiv": _emscripten_glGetUniformiv, "__cleanup_thread": __cleanup_thread, "_glDeleteBuffers": _glDeleteBuffers, "_glBufferData": _glBufferData, "_glTexImage2D": _glTexImage2D, "_emscripten_set_current_thread_status_js": _emscripten_set_current_thread_status_js, "_glfwSetKeyCallback": _glfwSetKeyCallback, "_emscripten_glGenFramebuffers": _emscripten_glGenFramebuffers, "_emscripten_glUniformMatrix4fv": _emscripten_glUniformMatrix4fv, "_emscripten_glLoadIdentity": _emscripten_glLoadIdentity, "_glDeleteShader": _glDeleteShader, "_emscripten_glUniform1f": _emscripten_glUniform1f, "_glGetProgramiv": _glGetProgramiv, "_emscripten_glBindFramebuffer": _emscripten_glBindFramebuffer, "_emscripten_glIsRenderbuffer": _emscripten_glIsRenderbuffer, "_glfwGetTime": _glfwGetTime, "_emscripten_glShaderSource": _emscripten_glShaderSource, "_emscripten_set_gamepadconnected_callback": _emscripten_set_gamepadconnected_callback, "_emscripten_syscall": _emscripten_syscall, "_emscripten_glGetVertexAttribiv": _emscripten_glGetVertexAttribiv, "_emscripten_glBindVertexArray": _emscripten_glBindVertexArray, "_emscripten_glDrawArraysInstanced": _emscripten_glDrawArraysInstanced, "_emscripten_set_touchcancel_callback": _emscripten_set_touchcancel_callback, "_emscripten_glCreateShader": _emscripten_glCreateShader, "_emscripten_glStencilMask": _emscripten_glStencilMask, "_emscripten_glDeleteTextures": _emscripten_glDeleteTextures, "_emscripten_glBindRenderbuffer": _emscripten_glBindRenderbuffer, "_glfwGetPrimaryMonitor": _glfwGetPrimaryMonitor, "_glLinkProgram": _glLinkProgram, "_emscripten_glVertexAttribDivisor": _emscripten_glVertexAttribDivisor, "_emscripten_set_touchend_callback": _emscripten_set_touchend_callback, "_emscripten_glGetUniformfv": _emscripten_glGetUniformfv, "_emscripten_glGetVertexAttribfv": _emscripten_glGetVertexAttribfv, "_emscripten_glGetRenderbufferParameteriv": _emscripten_glGetRenderbufferParameteriv, "_emscripten_futex_wait": _emscripten_futex_wait, "_emscripten_glDeleteFramebuffers": _emscripten_glDeleteFramebuffers, "_glGetShaderiv": _glGetShaderiv, "_emscripten_glVertexAttrib3fv": _emscripten_glVertexAttrib3fv, "_glGetUniformLocation": _glGetUniformLocation, "_emscripten_glGetInfoLogARB": _emscripten_glGetInfoLogARB, "_emscripten_request_pointerlock": _emscripten_request_pointerlock, "_glClear": _glClear, "_glGenTextures": _glGenTextures, "_emscripten_glDisable": _emscripten_glDisable, "_emscripten_glDepthRangef": _emscripten_glDepthRangef, "__exit": __exit, "_emscripten_glLineWidth": _emscripten_glLineWidth, "_emscripten_glUniform3f": _emscripten_glUniform3f, "_emscripten_glGetShaderInfoLog": _emscripten_glGetShaderInfoLog, "_emscripten_glStencilOp": _emscripten_glStencilOp, "___pthread_setcancelstate": ___pthread_setcancelstate, "_glBindAttribLocation": _glBindAttribLocation, "_glPixelStorei": _glPixelStorei, "_emscripten_glColorMask": _emscripten_glColorMask, "_emscripten_glLinkProgram": _emscripten_glLinkProgram, "_emscripten_glBlendEquation": _emscripten_glBlendEquation, "_emscripten_glIsTexture": _emscripten_glIsTexture, "_confstr": _confstr, "_emscripten_glGetProgramiv": _emscripten_glGetProgramiv, "_emscripten_glVertexAttrib1fv": _emscripten_glVertexAttrib1fv, "_emscripten_glBindTexture": _emscripten_glBindTexture, "_glfwSetMouseButtonCallback": _glfwSetMouseButtonCallback, "_glfwGetCursorPos": _glfwGetCursorPos, "_emscripten_glActiveTexture": _emscripten_glActiveTexture, "_emscripten_glDrawRangeElements": _emscripten_glDrawRangeElements, "___syscall54": ___syscall54, "_emscripten_glDeleteBuffers": _emscripten_glDeleteBuffers, "_emscripten_glBufferSubData": _emscripten_glBufferSubData, "_glfwSwapBuffers": _glfwSwapBuffers, "_pthread_create": _pthread_create, "_emscripten_set_main_loop": _emscripten_set_main_loop, "_emscripten_glGetProgramInfoLog": _emscripten_glGetProgramInfoLog, "_glfwWindowHint": _glfwWindowHint, "_pthread_getschedparam": _pthread_getschedparam, "_emscripten_glIsShader": _emscripten_glIsShader, "_emscripten_glUniform4fv": _emscripten_glUniform4fv, "_emscripten_glGenVertexArrays": _emscripten_glGenVertexArrays, "_emscripten_glDrawArrays": _emscripten_glDrawArrays, "_emscripten_glCompressedTexImage2D": _emscripten_glCompressedTexImage2D, "_emscripten_glClearColor": _emscripten_glClearColor, "_glfwSetCursorEnterCallback": _glfwSetCursorEnterCallback, "_emscripten_glCreateProgram": _emscripten_glCreateProgram, "_emscripten_glCopyTexSubImage2D": _emscripten_glCopyTexSubImage2D, "_emscripten_glGetAttribLocation": _emscripten_glGetAttribLocation, "_glTexParameteri": _glTexParameteri, "_emscripten_glBindBuffer": _emscripten_glBindBuffer, "_atexit": _atexit, "_emscripten_glGetFloatv": _emscripten_glGetFloatv, "_emscripten_glDetachShader": _emscripten_glDetachShader, "_glClearColor": _glClearColor, "_glfwSetCursorPosCallback": _glfwSetCursorPosCallback, "_setenv": _setenv, "_emscripten_glCopyTexImage2D": _emscripten_glCopyTexImage2D, "_emscripten_glTexImage2D": _emscripten_glTexImage2D, "DYNAMICTOP_PTR": DYNAMICTOP_PTR, "tempDoublePtr": tempDoublePtr, "ABORT": ABORT, "STACKTOP": STACKTOP, "STACK_MAX": STACK_MAX, "cttz_i8": cttz_i8 };

								// EMSCRIPTEN_START_ASM

								var asm = (function(global, env, buffer) {

								  'use asm';


								  var HEAP8 = new global.Int8Array(buffer);

								  var HEAP16 = new global.Int16Array(buffer);

								  var HEAP32 = new global.Int32Array(buffer);

								  var HEAPU8 = new global.Uint8Array(buffer);

								  var HEAPU16 = new global.Uint16Array(buffer);

								  var HEAPU32 = new global.Uint32Array(buffer);

								  var HEAPF32 = new global.Float32Array(buffer);

								  var HEAPF64 = new global.Float64Array(buffer);


								  var DYNAMICTOP_PTR=env.DYNAMICTOP_PTR|0;

								  var tempDoublePtr=env.tempDoublePtr|0;

								  var ABORT=env.ABORT|0;

								  var STACKTOP=env.STACKTOP|0;

								  var STACK_MAX=env.STACK_MAX|0;

								  var cttz_i8=env.cttz_i8|0;


								  var __THREW__ = 0;

								  var threwValue = 0;

								  var setjmpId = 0;

								  var undef = 0;

								  var nan = global.NaN, inf = global.Infinity;

								  var tempInt = 0, tempBigInt = 0, tempBigIntP = 0, tempBigIntS = 0, tempBigIntR = 0.0, tempBigIntI = 0, tempBigIntD = 0, tempValue = 0, tempDouble = 0.0;

								  var tempRet0 = 0;


								  var Math_floor=global.Math.floor;

								  var Math_abs=global.Math.abs;

								  var Math_sqrt=global.Math.sqrt;

								  var Math_pow=global.Math.pow;

								  var Math_cos=global.Math.cos;

								  var Math_sin=global.Math.sin;

								  var Math_tan=global.Math.tan;

								  var Math_acos=global.Math.acos;

								  var Math_asin=global.Math.asin;

								  var Math_atan=global.Math.atan;

								  var Math_atan2=global.Math.atan2;

								  var Math_exp=global.Math.exp;

								  var Math_log=global.Math.log;

								  var Math_ceil=global.Math.ceil;

								  var Math_imul=global.Math.imul;

								  var Math_min=global.Math.min;

								  var Math_max=global.Math.max;

								  var Math_clz32=global.Math.clz32;

								  var abort=env.abort;

								  var assert=env.assert;

								  var enlargeMemory=env.enlargeMemory;

								  var getTotalMemory=env.getTotalMemory;

								  var abortOnCannotGrowMemory=env.abortOnCannotGrowMemory;

								  var abortStackOverflow=env.abortStackOverflow;

								  var nullFunc_viiiii=env.nullFunc_viiiii;

								  var nullFunc_vd=env.nullFunc_vd;

								  var nullFunc_vid=env.nullFunc_vid;

								  var nullFunc_vi=env.nullFunc_vi;

								  var nullFunc_vii=env.nullFunc_vii;

								  var nullFunc_ii=env.nullFunc_ii;

								  var nullFunc_viddd=env.nullFunc_viddd;

								  var nullFunc_vidd=env.nullFunc_vidd;

								  var nullFunc_iiii=env.nullFunc_iiii;

								  var nullFunc_viiiiiiii=env.nullFunc_viiiiiiii;

								  var nullFunc_viiiiii=env.nullFunc_viiiiii;

								  var nullFunc_viii=env.nullFunc_viii;

								  var nullFunc_vidddd=env.nullFunc_vidddd;

								  var nullFunc_vdi=env.nullFunc_vdi;

								  var nullFunc_viiiiiii=env.nullFunc_viiiiiii;

								  var nullFunc_viiiiiiiii=env.nullFunc_viiiiiiiii;

								  var nullFunc_iii=env.nullFunc_iii;

								  var nullFunc_i=env.nullFunc_i;

								  var nullFunc_vdddddd=env.nullFunc_vdddddd;

								  var nullFunc_vdddd=env.nullFunc_vdddd;

								  var nullFunc_vdd=env.nullFunc_vdd;

								  var nullFunc_v=env.nullFunc_v;

								  var nullFunc_viid=env.nullFunc_viid;

								  var nullFunc_viiii=env.nullFunc_viiii;

								  var invoke_viiiii=env.invoke_viiiii;

								  var invoke_vd=env.invoke_vd;

								  var invoke_vid=env.invoke_vid;

								  var invoke_vi=env.invoke_vi;

								  var invoke_vii=env.invoke_vii;

								  var invoke_ii=env.invoke_ii;

								  var invoke_viddd=env.invoke_viddd;

								  var invoke_vidd=env.invoke_vidd;

								  var invoke_iiii=env.invoke_iiii;

								  var invoke_viiiiiiii=env.invoke_viiiiiiii;

								  var invoke_viiiiii=env.invoke_viiiiii;

								  var invoke_viii=env.invoke_viii;

								  var invoke_vidddd=env.invoke_vidddd;

								  var invoke_vdi=env.invoke_vdi;

								  var invoke_viiiiiii=env.invoke_viiiiiii;

								  var invoke_viiiiiiiii=env.invoke_viiiiiiiii;

								  var invoke_iii=env.invoke_iii;

								  var invoke_i=env.invoke_i;

								  var invoke_vdddddd=env.invoke_vdddddd;

								  var invoke_vdddd=env.invoke_vdddd;

								  var invoke_vdd=env.invoke_vdd;

								  var invoke_v=env.invoke_v;

								  var invoke_viid=env.invoke_viid;

								  var invoke_viiii=env.invoke_viiii;

								  var _emscripten_glGetTexParameterfv=env._emscripten_glGetTexParameterfv;

								  var _glUseProgram=env._glUseProgram;

								  var _glfwCreateWindow=env._glfwCreateWindow;

								  var _emscripten_glReleaseShaderCompiler=env._emscripten_glReleaseShaderCompiler;

								  var _emscripten_glBlendFuncSeparate=env._emscripten_glBlendFuncSeparate;

								  var _emscripten_glVertexAttribPointer=env._emscripten_glVertexAttribPointer;

								  var _emscripten_glGetIntegerv=env._emscripten_glGetIntegerv;

								  var _emscripten_glCullFace=env._emscripten_glCullFace;

								  var _emscripten_glIsProgram=env._emscripten_glIsProgram;

								  var _emscripten_glStencilMaskSeparate=env._emscripten_glStencilMaskSeparate;

								  var _emscripten_glViewport=env._emscripten_glViewport;

								  var _emscripten_glFrontFace=env._emscripten_glFrontFace;

								  var ___assert_fail=env.___assert_fail;

								  var _glDeleteProgram=env._glDeleteProgram;

								  var _emscripten_glUniform3fv=env._emscripten_glUniform3fv;

								  var _emscripten_glPolygonOffset=env._emscripten_glPolygonOffset;

								  var _emscripten_glUseProgram=env._emscripten_glUseProgram;

								  var _emscripten_glBlendColor=env._emscripten_glBlendColor;

								  var _glBindBuffer=env._glBindBuffer;

								  var _emscripten_glDepthFunc=env._emscripten_glDepthFunc;

								  var _glGetShaderInfoLog=env._glGetShaderInfoLog;

								  var _clock_gettime=env._clock_gettime;

								  var _emscripten_set_fullscreenchange_callback=env._emscripten_set_fullscreenchange_callback;

								  var _emscripten_set_touchmove_callback=env._emscripten_set_touchmove_callback;

								  var _emscripten_set_main_loop_timing=env._emscripten_set_main_loop_timing;

								  var _glDisable=env._glDisable;

								  var _glBlendFunc=env._glBlendFunc;

								  var _emscripten_glDisableVertexAttribArray=env._emscripten_glDisableVertexAttribArray;

								  var _glGetAttribLocation=env._glGetAttribLocation;

								  var _glDisableVertexAttribArray=env._glDisableVertexAttribArray;

								  var _glCreateShader=env._glCreateShader;

								  var _emscripten_glCompileShader=env._emscripten_glCompileShader;

								  var _sysconf=env._sysconf;

								  var _utime=env._utime;

								  var _emscripten_glSampleCoverage=env._emscripten_glSampleCoverage;

								  var _emscripten_glVertexPointer=env._emscripten_glVertexPointer;

								  var _emscripten_set_touchstart_callback=env._emscripten_set_touchstart_callback;

								  var emscriptenWebGLComputeImageSize=env.emscriptenWebGLComputeImageSize;

								  var _emscripten_glGetBooleanv=env._emscripten_glGetBooleanv;

								  var _emscripten_glGetShaderSource=env._emscripten_glGetShaderSource;

								  var _chroot=env._chroot;

								  var _glUniform4f=env._glUniform4f;

								  var _llvm_stacksave=env._llvm_stacksave;

								  var _emscripten_glUniform1i=env._emscripten_glUniform1i;

								  var _emscripten_glLoadMatrixf=env._emscripten_glLoadMatrixf;

								  var _emscripten_glGenBuffers=env._emscripten_glGenBuffers;

								  var _emscripten_glDeleteObjectARB=env._emscripten_glDeleteObjectARB;

								  var _glfwSetWindowSizeCallback=env._glfwSetWindowSizeCallback;

								  var _emscripten_glGetShaderPrecisionFormat=env._emscripten_glGetShaderPrecisionFormat;

								  var _glfwInit=env._glfwInit;

								  var _glGenBuffers=env._glGenBuffers;

								  var _glShaderSource=env._glShaderSource;

								  var _emscripten_glGetString=env._emscripten_glGetString;

								  var _emscripten_glIsFramebuffer=env._emscripten_glIsFramebuffer;

								  var _emscripten_glIsEnabled=env._emscripten_glIsEnabled;

								  var _emscripten_glScissor=env._emscripten_glScissor;

								  var __pthread_testcancel_js=env.__pthread_testcancel_js;

								  var _emscripten_glVertexAttrib4fv=env._emscripten_glVertexAttrib4fv;

								  var _emscripten_glFramebufferTexture2D=env._emscripten_glFramebufferTexture2D;

								  var _emscripten_glTexParameteriv=env._emscripten_glTexParameteriv;

								  var _unsetenv=env._unsetenv;

								  var _emscripten_glBindProgramARB=env._emscripten_glBindProgramARB;

								  var _emscripten_glStencilOpSeparate=env._emscripten_glStencilOpSeparate;

								  var _emscripten_glFramebufferRenderbuffer=env._emscripten_glFramebufferRenderbuffer;

								  var ___syscall140=env.___syscall140;

								  var _glfwSetErrorCallback=env._glfwSetErrorCallback;

								  var _glfwDefaultWindowHints=env._glfwDefaultWindowHints;

								  var _glfwDestroyWindow=env._glfwDestroyWindow;

								  var ___syscall146=env.___syscall146;

								  var _emscripten_glGetActiveAttrib=env._emscripten_glGetActiveAttrib;

								  var _emscripten_glAttachShader=env._emscripten_glAttachShader;

								  var _emscripten_get_now_is_monotonic=env._emscripten_get_now_is_monotonic;

								  var _emscripten_glUniform2i=env._emscripten_glUniform2i;

								  var _emscripten_glUniform2f=env._emscripten_glUniform2f;

								  var _emscripten_glTexParameterfv=env._emscripten_glTexParameterfv;

								  var _emscripten_glIsBuffer=env._emscripten_glIsBuffer;

								  var _emscripten_glUniformMatrix2fv=env._emscripten_glUniformMatrix2fv;

								  var _glGetProgramInfoLog=env._glGetProgramInfoLog;

								  var _glfwSetScrollCallback=env._glfwSetScrollCallback;

								  var _emscripten_glTexParameterf=env._emscripten_glTexParameterf;

								  var _emscripten_glGetAttachedShaders=env._emscripten_glGetAttachedShaders;

								  var _emscripten_glGenTextures=env._emscripten_glGenTextures;

								  var _emscripten_glTexParameteri=env._emscripten_glTexParameteri;

								  var _llvm_stackrestore=env._llvm_stackrestore;

								  var _glfwMakeContextCurrent=env._glfwMakeContextCurrent;

								  var _emscripten_glClear=env._emscripten_glClear;

								  var _glDrawElements=env._glDrawElements;

								  var _glBufferSubData=env._glBufferSubData;

								  var _emscripten_glValidateProgram=env._emscripten_glValidateProgram;

								  var _emscripten_glVertexAttrib2fv=env._emscripten_glVertexAttrib2fv;

								  var _glViewport=env._glViewport;

								  var _emscripten_glUniform4iv=env._emscripten_glUniform4iv;

								  var _emscripten_glGetTexParameteriv=env._emscripten_glGetTexParameteriv;

								  var ___setErrNo=env.___setErrNo;

								  var _eglGetProcAddress=env._eglGetProcAddress;

								  var _emscripten_glBindAttribLocation=env._emscripten_glBindAttribLocation;

								  var _glDeleteTextures=env._glDeleteTextures;

								  var _glDepthFunc=env._glDepthFunc;

								  var _emscripten_glClientActiveTexture=env._emscripten_glClientActiveTexture;

								  var _emscripten_glVertexAttrib2f=env._emscripten_glVertexAttrib2f;

								  var _emscripten_asm_const_v=env._emscripten_asm_const_v;

								  var _emscripten_glFlush=env._emscripten_glFlush;

								  var _emscripten_glBlendFunc=env._emscripten_glBlendFunc;

								  var _emscripten_glCheckFramebufferStatus=env._emscripten_glCheckFramebufferStatus;

								  var _emscripten_glGenerateMipmap=env._emscripten_glGenerateMipmap;

								  var _emscripten_glGetError=env._emscripten_glGetError;

								  var _emscripten_glClearDepthf=env._emscripten_glClearDepthf;

								  var _pthread_self=env._pthread_self;

								  var _emscripten_glBufferData=env._emscripten_glBufferData;

								  var _emscripten_glUniform3i=env._emscripten_glUniform3i;

								  var _emscripten_glGenRenderbuffers=env._emscripten_glGenRenderbuffers;

								  var _emscripten_glRotatef=env._emscripten_glRotatef;

								  var _emscripten_glDeleteShader=env._emscripten_glDeleteShader;

								  var _glEnable=env._glEnable;

								  var _emscripten_glGetShaderiv=env._emscripten_glGetShaderiv;

								  var _emscripten_glReadPixels=env._emscripten_glReadPixels;

								  var _emscripten_glMatrixMode=env._emscripten_glMatrixMode;

								  var _glGetString=env._glGetString;

								  var _emscripten_glClearStencil=env._emscripten_glClearStencil;

								  var _emscripten_glGetUniformLocation=env._emscripten_glGetUniformLocation;

								  var emscriptenWebGLGet=env.emscriptenWebGLGet;

								  var _emscripten_glEnableVertexAttribArray=env._emscripten_glEnableVertexAttribArray;

								  var __register_pthread_ptr=env.__register_pthread_ptr;

								  var _emscripten_get_now=env._emscripten_get_now;

								  var _emscripten_glNormalPointer=env._emscripten_glNormalPointer;

								  var _glAttachShader=env._glAttachShader;

								  var _emscripten_glTexCoordPointer=env._emscripten_glTexCoordPointer;

								  var _emscripten_glEnable=env._emscripten_glEnable;

								  var _glCreateProgram=env._glCreateProgram;

								  var _glUniformMatrix4fv=env._glUniformMatrix4fv;

								  var _emscripten_glClearDepth=env._emscripten_glClearDepth;

								  var ___lock=env.___lock;

								  var emscriptenWebGLGetTexPixelData=env.emscriptenWebGLGetTexPixelData;

								  var ___syscall6=env.___syscall6;

								  var _emscripten_glStencilFuncSeparate=env._emscripten_glStencilFuncSeparate;

								  var _emscripten_glVertexAttrib3f=env._emscripten_glVertexAttrib3f;

								  var _time=env._time;

								  var _gettimeofday=env._gettimeofday;

								  var _emscripten_glVertexAttrib1f=env._emscripten_glVertexAttrib1f;

								  var _emscripten_glGetFramebufferAttachmentParameteriv=env._emscripten_glGetFramebufferAttachmentParameteriv;

								  var _emscripten_glBlendEquationSeparate=env._emscripten_glBlendEquationSeparate;

								  var _exit=env._exit;

								  var _emscripten_glEnableClientState=env._emscripten_glEnableClientState;

								  var __spawn_thread=env.__spawn_thread;

								  var _emscripten_glUniform4i=env._emscripten_glUniform4i;

								  var _emscripten_conditional_set_current_thread_status_js=env._emscripten_conditional_set_current_thread_status_js;

								  var _putenv=env._putenv;

								  var _pthread_join=env._pthread_join;

								  var _glCullFace=env._glCullFace;

								  var _emscripten_glGetPointerv=env._emscripten_glGetPointerv;

								  var _emscripten_set_keypress_callback=env._emscripten_set_keypress_callback;

								  var __emscripten_sample_gamepad_data=env.__emscripten_sample_gamepad_data;

								  var _fpathconf=env._fpathconf;

								  var _emscripten_get_gamepad_status=env._emscripten_get_gamepad_status;

								  var _emscripten_glUniform4f=env._emscripten_glUniform4f;

								  var _emscripten_glUniform2fv=env._emscripten_glUniform2fv;

								  var _glfwGetVideoModes=env._glfwGetVideoModes;

								  var ___unlock=env.___unlock;

								  var _emscripten_set_click_callback=env._emscripten_set_click_callback;

								  var _emscripten_glFrustum=env._emscripten_glFrustum;

								  var _emscripten_is_main_runtime_thread=env._emscripten_is_main_runtime_thread;

								  var _emscripten_glShaderBinary=env._emscripten_glShaderBinary;

								  var _emscripten_glDrawElements=env._emscripten_glDrawElements;

								  var _glVertexAttribPointer=env._glVertexAttribPointer;

								  var _emscripten_get_num_gamepads=env._emscripten_get_num_gamepads;

								  var ___buildEnvironment=env.___buildEnvironment;

								  var _glCompressedTexImage2D=env._glCompressedTexImage2D;

								  var _utimes=env._utimes;

								  var _emscripten_glUniform1iv=env._emscripten_glUniform1iv;

								  var _emscripten_glGetVertexAttribPointerv=env._emscripten_glGetVertexAttribPointerv;

								  var _glClearDepthf=env._glClearDepthf;

								  var _emscripten_glCompressedTexSubImage2D=env._emscripten_glCompressedTexSubImage2D;

								  var emscriptenWebGLGetUniform=env.emscriptenWebGLGetUniform;

								  var _tzset=env._tzset;

								  var _emscripten_glDeleteVertexArrays=env._emscripten_glDeleteVertexArrays;

								  var _glfwSetWindowShouldClose=env._glfwSetWindowShouldClose;

								  var _emscripten_glUniform1fv=env._emscripten_glUniform1fv;

								  var _emscripten_glGetActiveUniform=env._emscripten_glGetActiveUniform;

								  var _glBindTexture=env._glBindTexture;

								  var _emscripten_glUniform3iv=env._emscripten_glUniform3iv;

								  var _emscripten_glUniform2iv=env._emscripten_glUniform2iv;

								  var _emscripten_glHint=env._emscripten_glHint;

								  var _glfwSetCharCallback=env._glfwSetCharCallback;

								  var emscriptenWebGLGetVertexAttrib=env.emscriptenWebGLGetVertexAttrib;

								  var _glGetFloatv=env._glGetFloatv;

								  var _emscripten_glDeleteProgram=env._emscripten_glDeleteProgram;

								  var _emscripten_glDeleteRenderbuffers=env._emscripten_glDeleteRenderbuffers;

								  var ___clock_gettime=env.___clock_gettime;

								  var _emscripten_glDrawElementsInstanced=env._emscripten_glDrawElementsInstanced;

								  var _emscripten_glVertexAttrib4f=env._emscripten_glVertexAttrib4f;

								  var _glDrawArrays=env._glDrawArrays;

								  var _emscripten_glTexSubImage2D=env._emscripten_glTexSubImage2D;

								  var _clearenv=env._clearenv;

								  var _emscripten_glPixelStorei=env._emscripten_glPixelStorei;

								  var _glCompileShader=env._glCompileShader;

								  var _emscripten_get_pointerlock_status=env._emscripten_get_pointerlock_status;

								  var _emscripten_memcpy_big=env._emscripten_memcpy_big;

								  var _emscripten_glUniformMatrix3fv=env._emscripten_glUniformMatrix3fv;

								  var _emscripten_glColorPointer=env._emscripten_glColorPointer;

								  var _getenv=env._getenv;

								  var _emscripten_glDepthRange=env._emscripten_glDepthRange;

								  var _emscripten_glGetBufferParameteriv=env._emscripten_glGetBufferParameteriv;

								  var _emscripten_glFinish=env._emscripten_glFinish;

								  var _emscripten_glRenderbufferStorage=env._emscripten_glRenderbufferStorage;

								  var _emscripten_set_gamepaddisconnected_callback=env._emscripten_set_gamepaddisconnected_callback;

								  var _emscripten_asm_const_iii=env._emscripten_asm_const_iii;

								  var _emscripten_glDepthMask=env._emscripten_glDepthMask;

								  var _glfwSetWindowIconifyCallback=env._glfwSetWindowIconifyCallback;

								  var _emscripten_glDrawBuffers=env._emscripten_glDrawBuffers;

								  var _glfwTerminate=env._glfwTerminate;

								  var _emscripten_futex_wake=env._emscripten_futex_wake;

								  var _glFrontFace=env._glFrontFace;

								  var _emscripten_glGetObjectParameterivARB=env._emscripten_glGetObjectParameterivARB;

								  var _emscripten_exit_pointerlock=env._emscripten_exit_pointerlock;

								  var _glfwSwapInterval=env._glfwSwapInterval;

								  var _glUniform1i=env._glUniform1i;

								  var _glEnableVertexAttribArray=env._glEnableVertexAttribArray;

								  var _emscripten_glStencilFunc=env._emscripten_glStencilFunc;

								  var _abort=env._abort;

								  var _emscripten_glGetUniformiv=env._emscripten_glGetUniformiv;

								  var __cleanup_thread=env.__cleanup_thread;

								  var _glDeleteBuffers=env._glDeleteBuffers;

								  var _glBufferData=env._glBufferData;

								  var _glTexImage2D=env._glTexImage2D;

								  var _emscripten_set_current_thread_status_js=env._emscripten_set_current_thread_status_js;

								  var _glfwSetKeyCallback=env._glfwSetKeyCallback;

								  var _emscripten_glGenFramebuffers=env._emscripten_glGenFramebuffers;

								  var _emscripten_glUniformMatrix4fv=env._emscripten_glUniformMatrix4fv;

								  var _emscripten_glLoadIdentity=env._emscripten_glLoadIdentity;

								  var _glDeleteShader=env._glDeleteShader;

								  var _emscripten_glUniform1f=env._emscripten_glUniform1f;

								  var _glGetProgramiv=env._glGetProgramiv;

								  var _emscripten_glBindFramebuffer=env._emscripten_glBindFramebuffer;

								  var _emscripten_glIsRenderbuffer=env._emscripten_glIsRenderbuffer;

								  var _glfwGetTime=env._glfwGetTime;

								  var _emscripten_glShaderSource=env._emscripten_glShaderSource;

								  var _emscripten_set_gamepadconnected_callback=env._emscripten_set_gamepadconnected_callback;

								  var _emscripten_syscall=env._emscripten_syscall;

								  var _emscripten_glGetVertexAttribiv=env._emscripten_glGetVertexAttribiv;

								  var _emscripten_glBindVertexArray=env._emscripten_glBindVertexArray;

								  var _emscripten_glDrawArraysInstanced=env._emscripten_glDrawArraysInstanced;

								  var _emscripten_set_touchcancel_callback=env._emscripten_set_touchcancel_callback;

								  var _emscripten_glCreateShader=env._emscripten_glCreateShader;

								  var _emscripten_glStencilMask=env._emscripten_glStencilMask;

								  var _emscripten_glDeleteTextures=env._emscripten_glDeleteTextures;

								  var _emscripten_glBindRenderbuffer=env._emscripten_glBindRenderbuffer;

								  var _glfwGetPrimaryMonitor=env._glfwGetPrimaryMonitor;

								  var _glLinkProgram=env._glLinkProgram;

								  var _emscripten_glVertexAttribDivisor=env._emscripten_glVertexAttribDivisor;

								  var _emscripten_set_touchend_callback=env._emscripten_set_touchend_callback;

								  var _emscripten_glGetUniformfv=env._emscripten_glGetUniformfv;

								  var _emscripten_glGetVertexAttribfv=env._emscripten_glGetVertexAttribfv;

								  var _emscripten_glGetRenderbufferParameteriv=env._emscripten_glGetRenderbufferParameteriv;

								  var _emscripten_futex_wait=env._emscripten_futex_wait;

								  var _emscripten_glDeleteFramebuffers=env._emscripten_glDeleteFramebuffers;

								  var _glGetShaderiv=env._glGetShaderiv;

								  var _emscripten_glVertexAttrib3fv=env._emscripten_glVertexAttrib3fv;

								  var _glGetUniformLocation=env._glGetUniformLocation;

								  var _emscripten_glGetInfoLogARB=env._emscripten_glGetInfoLogARB;

								  var _emscripten_request_pointerlock=env._emscripten_request_pointerlock;

								  var _glClear=env._glClear;

								  var _glGenTextures=env._glGenTextures;

								  var _emscripten_glDisable=env._emscripten_glDisable;

								  var _emscripten_glDepthRangef=env._emscripten_glDepthRangef;

								  var __exit=env.__exit;

								  var _emscripten_glLineWidth=env._emscripten_glLineWidth;

								  var _emscripten_glUniform3f=env._emscripten_glUniform3f;

								  var _emscripten_glGetShaderInfoLog=env._emscripten_glGetShaderInfoLog;

								  var _emscripten_glStencilOp=env._emscripten_glStencilOp;

								  var ___pthread_setcancelstate=env.___pthread_setcancelstate;

								  var _glBindAttribLocation=env._glBindAttribLocation;

								  var _glPixelStorei=env._glPixelStorei;

								  var _emscripten_glColorMask=env._emscripten_glColorMask;

								  var _emscripten_glLinkProgram=env._emscripten_glLinkProgram;

								  var _emscripten_glBlendEquation=env._emscripten_glBlendEquation;

								  var _emscripten_glIsTexture=env._emscripten_glIsTexture;

								  var _confstr=env._confstr;

								  var _emscripten_glGetProgramiv=env._emscripten_glGetProgramiv;

								  var _emscripten_glVertexAttrib1fv=env._emscripten_glVertexAttrib1fv;

								  var _emscripten_glBindTexture=env._emscripten_glBindTexture;

								  var _glfwSetMouseButtonCallback=env._glfwSetMouseButtonCallback;

								  var _glfwGetCursorPos=env._glfwGetCursorPos;

								  var _emscripten_glActiveTexture=env._emscripten_glActiveTexture;

								  var _emscripten_glDrawRangeElements=env._emscripten_glDrawRangeElements;

								  var ___syscall54=env.___syscall54;

								  var _emscripten_glDeleteBuffers=env._emscripten_glDeleteBuffers;

								  var _emscripten_glBufferSubData=env._emscripten_glBufferSubData;

								  var _glfwSwapBuffers=env._glfwSwapBuffers;

								  var _pthread_create=env._pthread_create;

								  var _emscripten_set_main_loop=env._emscripten_set_main_loop;

								  var _emscripten_glGetProgramInfoLog=env._emscripten_glGetProgramInfoLog;

								  var _glfwWindowHint=env._glfwWindowHint;

								  var _pthread_getschedparam=env._pthread_getschedparam;

								  var _emscripten_glIsShader=env._emscripten_glIsShader;

								  var _emscripten_glUniform4fv=env._emscripten_glUniform4fv;

								  var _emscripten_glGenVertexArrays=env._emscripten_glGenVertexArrays;

								  var _emscripten_glDrawArrays=env._emscripten_glDrawArrays;

								  var _emscripten_glCompressedTexImage2D=env._emscripten_glCompressedTexImage2D;

								  var _emscripten_glClearColor=env._emscripten_glClearColor;

								  var _glfwSetCursorEnterCallback=env._glfwSetCursorEnterCallback;

								  var _emscripten_glCreateProgram=env._emscripten_glCreateProgram;

								  var _emscripten_glCopyTexSubImage2D=env._emscripten_glCopyTexSubImage2D;

								  var _emscripten_glGetAttribLocation=env._emscripten_glGetAttribLocation;

								  var _glTexParameteri=env._glTexParameteri;

								  var _emscripten_glBindBuffer=env._emscripten_glBindBuffer;

								  var _atexit=env._atexit;

								  var _emscripten_glGetFloatv=env._emscripten_glGetFloatv;

								  var _emscripten_glDetachShader=env._emscripten_glDetachShader;

								  var _glClearColor=env._glClearColor;

								  var _glfwSetCursorPosCallback=env._glfwSetCursorPosCallback;

								  var _setenv=env._setenv;

								  var _emscripten_glCopyTexImage2D=env._emscripten_glCopyTexImage2D;

								  var _emscripten_glTexImage2D=env._emscripten_glTexImage2D;

								  var Atomics_load=global.Atomics.load;

								  var Atomics_store=global.Atomics.store;

								  var Atomics_exchange=global.Atomics.exchange;

								  var Atomics_compareExchange=global.Atomics.compareExchange;

								  var Atomics_add=global.Atomics.add;

								  var Atomics_sub=global.Atomics.sub;

								  var Atomics_and=global.Atomics.and;

								  var Atomics_or=global.Atomics.or;

								  var Atomics_xor=global.Atomics.xor;

								  var tempFloat = 0.0;


								// EMSCRIPTEN_START_FUNCS


								function stackAlloc(size) {

								  size = size|0;

								  var ret = 0;

								  ret = STACKTOP;

								  STACKTOP = (STACKTOP + size)|0;

								  STACKTOP = (STACKTOP + 15)&-16;

								  if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(size|0);


								  return ret|0;

								}

								function stackSave() {

								  return STACKTOP|0;

								}

								function stackRestore(top) {

								  top = top|0;

								  STACKTOP = top;

								}

								function establishStackSpace(stackBase, stackMax) {

								  stackBase = stackBase|0;

								  stackMax = stackMax|0;

								  STACKTOP = stackBase;

								  STACK_MAX = stackMax;

								}


								function setThrew(threw, value) {

								  threw = threw|0;

								  value = value|0;

								  if ((__THREW__|0) == 0) {

								    __THREW__ = threw;

								    threwValue = value;

								  }

								}


								function setTempRet0(value) {

								  value = value|0;

								  tempRet0 = value;

								}

								function getTempRet0() {

								  return tempRet0|0;

								}


								function _InitPhysics() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 (_pthread_create((14312|0),(0|0),(2|0),(0|0))|0);

								 return;

								}

								function _PhysicsLoop($0) {

								 $0 = $0|0;

								 var $$0 = 0, $$010 = 0, $$011 = 0, $$09 = 0, $$0912 = 0, $$0913 = 0, $$pr = 0.0, $1 = 0, $10 = 0.0, $11 = 0.0, $12 = 0, $13 = 0.0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0;

								 var $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0.0, $7 = 0.0, $8 = 0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAP32[3579] = 1;

								 HEAPF64[1751] = 0.0;

								 _InitTimer();

								 $1 = HEAP32[3579]|0;

								 $2 = ($1|0)==(0);

								 if (!($2)) {

								  while(1) {

								   $3 = (+_GetCurrentTime());

								   HEAPF64[1752] = $3;

								   $4 = +HEAPF64[1753];

								   $5 = $3 - $4;

								   HEAPF64[1754] = $5;

								   $6 = +HEAPF64[1751];

								   $7 = $5 + $6;

								   HEAPF64[1751] = $7;

								   _MathClamp();

								   $$pr = +HEAPF64[1751];

								   $8 = !($$pr >= 0.016666666666666666);

								   if (!($8)) {

								    while(1) {

								     _PhysicsStep();

								     $9 = +HEAPF64[1754];

								     $10 = +HEAPF64[1751];

								     $11 = $10 - $9;

								     HEAPF64[1751] = $11;

								     $12 = !($11 >= 0.016666666666666666);

								     if ($12) {

								      break;

								     }

								    }

								   }

								   $13 = +HEAPF64[1752];

								   HEAPF64[1753] = $13;

								   $14 = HEAP32[3579]|0;

								   $15 = ($14|0)==(0);

								   if ($15) {

								    break;

								   }

								  }

								 }

								 $16 = HEAP32[3646]|0;

								 $$0912 = (($16) + -1)|0;

								 $17 = ($$0912|0)>(-1);

								 if ($17) {

								  $$0913 = $$0912;

								  while(1) {

								   $20 = (14588 + ($$0913<<2)|0);

								   $21 = HEAP32[$20>>2]|0;

								   _DestroyPhysicsManifold($21);

								   $$09 = (($$0913) + -1)|0;

								   $22 = ($$09|0)>(-1);

								   if ($22) {

								    $$0913 = $$09;

								   } else {

								    break;

								   }

								  }

								 }

								 $18 = HEAP32[3581]|0;

								 $$010 = (($18) + -1)|0;

								 $19 = ($$010|0)>(-1);

								 if ($19) {

								  $$011 = $$010;

								 } else {

								  return (0|0);

								 }

								 while(1) {

								  $23 = (14328 + ($$011<<2)|0);

								  $24 = HEAP32[$23>>2]|0;

								  _DestroyPhysicsBody($24);

								  $$0 = (($$011) + -1)|0;

								  $25 = ($$0|0)>(-1);

								  if ($25) {

								   $$011 = $$0;

								  } else {

								   break;

								  }

								 }

								 return (0|0);

								}

								function _CreatePhysicsBodyCircle($0,$1,$2) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = +$2;

								 var $$byval_copy = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $$byval_copy = sp;

								 ;HEAP32[$$byval_copy>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$0+4>>2]|0;

								 $3 = (_CreatePhysicsBodyPolygon($$byval_copy,$1,24,$2)|0);

								 STACKTOP = sp;return ($3|0);

								}

								function _CreatePhysicsBodyPolygon($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = $2|0;

								 $3 = +$3;

								 var $$0116149 = 0, $$0116149158159 = 0, $$0119144 = 0, $$0120136 = 0, $$0121$lcssa161 = 0.0, $$0121134 = 0.0, $$0122$lcssa160 = 0.0, $$0122133 = 0.0, $$0131 = 0, $$sroa$0$0132 = 0.0, $$sroa$049$0$$sroa_idx = 0, $$sroa$8$0135 = 0.0, $10 = 0, $100 = 0.0, $101 = 0, $102 = 0.0, $103 = 0, $104 = 0, $105 = 0.0, $106 = 0.0;

								 var $107 = 0, $108 = 0.0, $109 = 0, $11 = 0, $110 = 0, $111 = 0.0, $112 = 0.0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0.0;

								 var $125 = 0.0, $126 = 0, $127 = 0.0, $128 = 0.0, $129 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0;

								 var $28 = 0, $29 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0.0, $42 = 0.0, $43 = 0.0, $44 = 0.0, $45 = 0.0, $46 = 0.0;

								 var $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0;

								 var $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0.0, $77 = 0.0, $78 = 0.0, $79 = 0.0, $8 = 0, $80 = 0.0, $81 = 0.0, $82 = 0.0;

								 var $83 = 0.0, $84 = 0.0, $85 = 0.0, $86 = 0.0, $87 = 0.0, $88 = 0.0, $89 = 0.0, $9 = 0, $90 = 0.0, $91 = 0.0, $92 = 0.0, $93 = 0.0, $94 = 0.0, $95 = 0.0, $96 = 0.0, $97 = 0.0, $98 = 0.0, $99 = 0.0, $exitcond = 0, $tmpcast$byval_copy = 0;

								 var $tmpcast123$byval_copy = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 448|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(448|0);

								 $tmpcast123$byval_copy = sp + 432|0;

								 $tmpcast$byval_copy = sp + 424|0;

								 $4 = sp + 16|0;

								 $5 = sp + 8|0;

								 $6 = sp;

								 $7 = (_malloc(500)|0);

								 $8 = HEAP32[3580]|0;

								 $9 = (($8) + 500)|0;

								 HEAP32[3580] = $9;

								 $10 = HEAP32[3581]|0;

								 $11 = ($10|0)==(0);

								 $$0116149 = 0;

								 L1: while(1) {

								  if ($11) {

								   $$0116149158159 = 0;

								   break;

								  } else {

								   $$0119144 = 0;

								  }

								  while(1) {

								   $14 = (14328 + ($$0119144<<2)|0);

								   $15 = HEAP32[$14>>2]|0;

								   $16 = HEAP32[$15>>2]|0;

								   $17 = ($16|0)==($$0116149|0);

								   $13 = (($$0119144) + 1)|0;

								   if ($17) {

								    break;

								   }

								   $12 = ($13>>>0)<($10>>>0);

								   if ($12) {

								    $$0119144 = $13;

								   } else {

								    label = 6;

								    break L1;

								   }

								  }

								  $18 = (($$0116149) + 1)|0;

								  $19 = ($18|0)<(64);

								  if ($19) {

								   $$0116149 = $18;

								  } else {

								   label = 14;

								   break;

								  }

								 }

								 if ((label|0) == 14) {

								  STACKTOP = sp;return ($7|0);

								 }

								 if ((label|0) == 6) {

								  $20 = ($$0116149|0)==(-1);

								  if ($20) {

								   STACKTOP = sp;return ($7|0);

								  } else {

								   $$0116149158159 = $$0116149;

								  }

								 }

								 HEAP32[$7>>2] = $$0116149158159;

								 $21 = ((($7)) + 4|0);

								 HEAP32[$21>>2] = 1;

								 $22 = ((($7)) + 8|0);

								 $23 = $0;

								 $24 = $23;

								 $25 = HEAP32[$24>>2]|0;

								 $26 = (($23) + 4)|0;

								 $27 = $26;

								 $28 = HEAP32[$27>>2]|0;

								 $29 = $22;

								 $30 = $29;

								 HEAP32[$30>>2] = $25;

								 $31 = (($29) + 4)|0;

								 $32 = $31;

								 HEAP32[$32>>2] = $28;

								 $$sroa$049$0$$sroa_idx = ((($7)) + 16|0);

								 $33 = ((($7)) + 84|0);

								 ;HEAP32[$$sroa$049$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+12>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+16>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+20>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+24>>2]=0|0;

								 HEAP32[$33>>2] = 1;

								 $34 = ((($7)) + 88|0);

								 HEAP32[$34>>2] = $7;

								 $35 = ((($7)) + 96|0);

								 _CreateRandomPolygon($4,$1,$2);

								 _memcpy(($35|0),($4|0),404)|0;

								 $36 = HEAP32[$35>>2]|0;

								 $37 = ($36|0)==(0);

								 if ($37) {

								  $$0121$lcssa161 = 0.0;$$0122$lcssa160 = 0.0;

								 } else {

								  $38 = ((($7)) + 100|0);

								  $39 = ((($5)) + 4|0);

								  $40 = ((($6)) + 4|0);

								  $$0120136 = 0;$$0121134 = 0.0;$$0122133 = 0.0;$$sroa$0$0132 = 0.0;$$sroa$8$0135 = 0.0;

								  while(1) {

								   $50 = (($38) + ($$0120136<<3)|0);

								   $51 = $50;

								   $52 = $51;

								   $53 = HEAP32[$52>>2]|0;

								   $54 = (($51) + 4)|0;

								   $55 = $54;

								   $56 = HEAP32[$55>>2]|0;

								   $57 = $5;

								   $58 = $57;

								   HEAP32[$58>>2] = $53;

								   $59 = (($57) + 4)|0;

								   $60 = $59;

								   HEAP32[$60>>2] = $56;

								   $61 = (($$0120136) + 1)|0;

								   $62 = HEAP32[$35>>2]|0;

								   $63 = ($61>>>0)<($62>>>0);

								   $64 = $63 ? $61 : 0;

								   $65 = (($38) + ($64<<3)|0);

								   $66 = $65;

								   $67 = $66;

								   $68 = HEAP32[$67>>2]|0;

								   $69 = (($66) + 4)|0;

								   $70 = $69;

								   $71 = HEAP32[$70>>2]|0;

								   $72 = $6;

								   $73 = $72;

								   HEAP32[$73>>2] = $68;

								   $74 = (($72) + 4)|0;

								   $75 = $74;

								   HEAP32[$75>>2] = $71;

								   ;HEAP32[$tmpcast$byval_copy>>2]=HEAP32[$5>>2]|0;HEAP32[$tmpcast$byval_copy+4>>2]=HEAP32[$5+4>>2]|0;

								   ;HEAP32[$tmpcast123$byval_copy>>2]=HEAP32[$6>>2]|0;HEAP32[$tmpcast123$byval_copy+4>>2]=HEAP32[$6+4>>2]|0;

								   $76 = (+_MathCrossVector2($tmpcast$byval_copy,$tmpcast123$byval_copy));

								   $77 = $76 * 0.5;

								   $42 = $$0122133 + $77;

								   $78 = $77 * 0.3333333432674408;

								   $79 = +HEAPF32[$5>>2];

								   $80 = +HEAPF32[$6>>2];

								   $81 = $79 + $80;

								   $82 = $78 * $81;

								   $44 = $$sroa$0$0132 + $82;

								   $83 = +HEAPF32[$39>>2];

								   $84 = +HEAPF32[$40>>2];

								   $85 = $83 + $84;

								   $86 = $78 * $85;

								   $46 = $$sroa$8$0135 + $86;

								   $87 = $79 * $79;

								   $88 = $79 * $80;

								   $89 = $87 + $88;

								   $90 = $80 * $80;

								   $91 = $90 + $89;

								   $92 = $83 * $83;

								   $93 = $83 * $84;

								   $94 = $92 + $93;

								   $95 = $84 * $84;

								   $96 = $95 + $94;

								   $97 = $76 * 0.083333335816860198;

								   $98 = $91 + $96;

								   $99 = $97 * $98;

								   $100 = $$0121134 + $99;

								   $48 = HEAP32[$35>>2]|0;

								   $101 = ($61>>>0)<($48>>>0);

								   if ($101) {

								    $$0120136 = $61;$$0121134 = $100;$$0122133 = $42;$$sroa$0$0132 = $44;$$sroa$8$0135 = $46;

								   } else {

								    break;

								   }

								  }

								  $41 = 1.0 / $42;

								  $43 = $44 * $41;

								  $45 = $41 * $46;

								  $47 = ($48|0)==(0);

								  if ($47) {

								   $$0121$lcssa161 = $100;$$0122$lcssa160 = $42;

								  } else {

								   $49 = ((($7)) + 100|0);

								   $$0131 = 0;

								   while(1) {

								    $123 = (($49) + ($$0131<<3)|0);

								    $124 = +HEAPF32[$123>>2];

								    $125 = $124 - $43;

								    HEAPF32[$123>>2] = $125;

								    $126 = (((($49) + ($$0131<<3)|0)) + 4|0);

								    $127 = +HEAPF32[$126>>2];

								    $128 = $127 - $45;

								    HEAPF32[$126>>2] = $128;

								    $129 = (($$0131) + 1)|0;

								    $exitcond = ($129|0)==($48|0);

								    if ($exitcond) {

								     $$0121$lcssa161 = $100;$$0122$lcssa160 = $42;

								     break;

								    } else {

								     $$0131 = $129;

								    }

								   }

								  }

								 }

								 $102 = $$0122$lcssa160 * $3;

								 $103 = ((($7)) + 52|0);

								 HEAPF32[$103>>2] = $102;

								 $104 = $102 != 0.0;

								 $105 = 1.0 / $102;

								 $106 = $104 ? $105 : 0.0;

								 $107 = ((($7)) + 56|0);

								 HEAPF32[$107>>2] = $106;

								 $108 = $$0121$lcssa161 * $3;

								 $109 = ((($7)) + 44|0);

								 HEAPF32[$109>>2] = $108;

								 $110 = $108 != 0.0;

								 $111 = 1.0 / $108;

								 $112 = $110 ? $111 : 0.0;

								 $113 = ((($7)) + 48|0);

								 HEAPF32[$113>>2] = $112;

								 $114 = ((($7)) + 60|0);

								 HEAPF32[$114>>2] = 0.40000000596046448;

								 $115 = ((($7)) + 64|0);

								 HEAPF32[$115>>2] = 0.20000000298023224;

								 $116 = ((($7)) + 68|0);

								 HEAPF32[$116>>2] = 0.0;

								 $117 = ((($7)) + 72|0);

								 HEAP32[$117>>2] = 1;

								 $118 = ((($7)) + 76|0);

								 HEAP32[$118>>2] = 0;

								 $119 = ((($7)) + 80|0);

								 HEAP32[$119>>2] = 0;

								 $120 = HEAP32[3581]|0;

								 $121 = (14328 + ($120<<2)|0);

								 HEAP32[$121>>2] = $7;

								 $122 = (($120) + 1)|0;

								 HEAP32[3581] = $122;

								 STACKTOP = sp;return ($7|0);

								}

								function _CreatePhysicsBodyRectangle($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = +$2;

								 $3 = +$3;

								 var $$0116149 = 0, $$0116149158159 = 0, $$0119144 = 0, $$0120136 = 0, $$0121$lcssa161 = 0.0, $$0121134 = 0.0, $$0122$lcssa160 = 0.0, $$0122133 = 0.0, $$0131 = 0, $$sroa$0$0132 = 0.0, $$sroa$049$0$$sroa_idx = 0, $$sroa$8$0135 = 0.0, $10 = 0, $100 = 0.0, $101 = 0.0, $102 = 0.0, $103 = 0, $104 = 0.0, $105 = 0, $106 = 0;

								 var $107 = 0.0, $108 = 0.0, $109 = 0, $11 = 0, $110 = 0.0, $111 = 0, $112 = 0, $113 = 0.0, $114 = 0.0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0;

								 var $125 = 0, $126 = 0.0, $127 = 0.0, $128 = 0, $129 = 0.0, $13 = 0, $130 = 0.0, $131 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $26 = 0, $27 = 0, $28 = 0, $29 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0.0, $44 = 0.0;

								 var $45 = 0.0, $46 = 0.0, $47 = 0.0, $48 = 0.0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0;

								 var $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0.0, $79 = 0.0, $8 = 0, $80 = 0.0;

								 var $81 = 0.0, $82 = 0.0, $83 = 0.0, $84 = 0.0, $85 = 0.0, $86 = 0.0, $87 = 0.0, $88 = 0.0, $89 = 0.0, $9 = 0, $90 = 0.0, $91 = 0.0, $92 = 0.0, $93 = 0.0, $94 = 0.0, $95 = 0.0, $96 = 0.0, $97 = 0.0, $98 = 0.0, $99 = 0.0;

								 var $exitcond = 0, $tmpcast$byval_copy = 0, $tmpcast123$byval_copy = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 448|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(448|0);

								 $tmpcast123$byval_copy = sp + 440|0;

								 $tmpcast$byval_copy = sp + 432|0;

								 $4 = sp + 424|0;

								 $5 = sp + 16|0;

								 $6 = sp + 8|0;

								 $7 = sp;

								 $8 = (_malloc(500)|0);

								 $9 = HEAP32[3580]|0;

								 $10 = (($9) + 500)|0;

								 HEAP32[3580] = $10;

								 $11 = HEAP32[3581]|0;

								 $12 = ($11|0)==(0);

								 $$0116149 = 0;

								 L1: while(1) {

								  if ($12) {

								   $$0116149158159 = 0;

								   break;

								  } else {

								   $$0119144 = 0;

								  }

								  while(1) {

								   $15 = (14328 + ($$0119144<<2)|0);

								   $16 = HEAP32[$15>>2]|0;

								   $17 = HEAP32[$16>>2]|0;

								   $18 = ($17|0)==($$0116149|0);

								   $14 = (($$0119144) + 1)|0;

								   if ($18) {

								    break;

								   }

								   $13 = ($14>>>0)<($11>>>0);

								   if ($13) {

								    $$0119144 = $14;

								   } else {

								    label = 6;

								    break L1;

								   }

								  }

								  $19 = (($$0116149) + 1)|0;

								  $20 = ($19|0)<(64);

								  if ($20) {

								   $$0116149 = $19;

								  } else {

								   label = 14;

								   break;

								  }

								 }

								 if ((label|0) == 14) {

								  STACKTOP = sp;return ($8|0);

								 }

								 if ((label|0) == 6) {

								  $21 = ($$0116149|0)==(-1);

								  if ($21) {

								   STACKTOP = sp;return ($8|0);

								  } else {

								   $$0116149158159 = $$0116149;

								  }

								 }

								 HEAP32[$8>>2] = $$0116149158159;

								 $22 = ((($8)) + 4|0);

								 HEAP32[$22>>2] = 1;

								 $23 = ((($8)) + 8|0);

								 $24 = $0;

								 $25 = $24;

								 $26 = HEAP32[$25>>2]|0;

								 $27 = (($24) + 4)|0;

								 $28 = $27;

								 $29 = HEAP32[$28>>2]|0;

								 $30 = $23;

								 $31 = $30;

								 HEAP32[$31>>2] = $26;

								 $32 = (($30) + 4)|0;

								 $33 = $32;

								 HEAP32[$33>>2] = $29;

								 $$sroa$049$0$$sroa_idx = ((($8)) + 16|0);

								 $34 = ((($8)) + 84|0);

								 ;HEAP32[$$sroa$049$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+12>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+16>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+20>>2]=0|0;HEAP32[$$sroa$049$0$$sroa_idx+24>>2]=0|0;

								 HEAP32[$34>>2] = 1;

								 $35 = ((($8)) + 88|0);

								 HEAP32[$35>>2] = $8;

								 $36 = ((($8)) + 96|0);

								 HEAPF32[$4>>2] = $1;

								 $37 = ((($4)) + 4|0);

								 HEAPF32[$37>>2] = $2;

								 ;HEAP32[$tmpcast$byval_copy>>2]=HEAP32[$0>>2]|0;HEAP32[$tmpcast$byval_copy+4>>2]=HEAP32[$0+4>>2]|0;

								 ;HEAP32[$tmpcast123$byval_copy>>2]=HEAP32[$4>>2]|0;HEAP32[$tmpcast123$byval_copy+4>>2]=HEAP32[$4+4>>2]|0;

								 _CreateRectanglePolygon($5,$tmpcast$byval_copy,$tmpcast123$byval_copy);

								 _memcpy(($36|0),($5|0),404)|0;

								 $38 = HEAP32[$36>>2]|0;

								 $39 = ($38|0)==(0);

								 if ($39) {

								  $$0121$lcssa161 = 0.0;$$0122$lcssa160 = 0.0;

								 } else {

								  $40 = ((($8)) + 100|0);

								  $41 = ((($6)) + 4|0);

								  $42 = ((($7)) + 4|0);

								  $$0120136 = 0;$$0121134 = 0.0;$$0122133 = 0.0;$$sroa$0$0132 = 0.0;$$sroa$8$0135 = 0.0;

								  while(1) {

								   $52 = (($40) + ($$0120136<<3)|0);

								   $53 = $52;

								   $54 = $53;

								   $55 = HEAP32[$54>>2]|0;

								   $56 = (($53) + 4)|0;

								   $57 = $56;

								   $58 = HEAP32[$57>>2]|0;

								   $59 = $6;

								   $60 = $59;

								   HEAP32[$60>>2] = $55;

								   $61 = (($59) + 4)|0;

								   $62 = $61;

								   HEAP32[$62>>2] = $58;

								   $63 = (($$0120136) + 1)|0;

								   $64 = HEAP32[$36>>2]|0;

								   $65 = ($63>>>0)<($64>>>0);

								   $66 = $65 ? $63 : 0;

								   $67 = (($40) + ($66<<3)|0);

								   $68 = $67;

								   $69 = $68;

								   $70 = HEAP32[$69>>2]|0;

								   $71 = (($68) + 4)|0;

								   $72 = $71;

								   $73 = HEAP32[$72>>2]|0;

								   $74 = $7;

								   $75 = $74;

								   HEAP32[$75>>2] = $70;

								   $76 = (($74) + 4)|0;

								   $77 = $76;

								   HEAP32[$77>>2] = $73;

								   ;HEAP32[$tmpcast$byval_copy>>2]=HEAP32[$6>>2]|0;HEAP32[$tmpcast$byval_copy+4>>2]=HEAP32[$6+4>>2]|0;

								   ;HEAP32[$tmpcast123$byval_copy>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast123$byval_copy+4>>2]=HEAP32[$7+4>>2]|0;

								   $78 = (+_MathCrossVector2($tmpcast$byval_copy,$tmpcast123$byval_copy));

								   $79 = $78 * 0.5;

								   $44 = $$0122133 + $79;

								   $80 = $79 * 0.3333333432674408;

								   $81 = +HEAPF32[$6>>2];

								   $82 = +HEAPF32[$7>>2];

								   $83 = $81 + $82;

								   $84 = $80 * $83;

								   $46 = $$sroa$0$0132 + $84;

								   $85 = +HEAPF32[$41>>2];

								   $86 = +HEAPF32[$42>>2];

								   $87 = $85 + $86;

								   $88 = $80 * $87;

								   $48 = $$sroa$8$0135 + $88;

								   $89 = $81 * $81;

								   $90 = $81 * $82;

								   $91 = $89 + $90;

								   $92 = $82 * $82;

								   $93 = $92 + $91;

								   $94 = $85 * $85;

								   $95 = $85 * $86;

								   $96 = $94 + $95;

								   $97 = $86 * $86;

								   $98 = $97 + $96;

								   $99 = $78 * 0.083333335816860198;

								   $100 = $93 + $98;

								   $101 = $99 * $100;

								   $102 = $$0121134 + $101;

								   $50 = HEAP32[$36>>2]|0;

								   $103 = ($63>>>0)<($50>>>0);

								   if ($103) {

								    $$0120136 = $63;$$0121134 = $102;$$0122133 = $44;$$sroa$0$0132 = $46;$$sroa$8$0135 = $48;

								   } else {

								    break;

								   }

								  }

								  $43 = 1.0 / $44;

								  $45 = $46 * $43;

								  $47 = $43 * $48;

								  $49 = ($50|0)==(0);

								  if ($49) {

								   $$0121$lcssa161 = $102;$$0122$lcssa160 = $44;

								  } else {

								   $51 = ((($8)) + 100|0);

								   $$0131 = 0;

								   while(1) {

								    $125 = (($51) + ($$0131<<3)|0);

								    $126 = +HEAPF32[$125>>2];

								    $127 = $126 - $45;

								    HEAPF32[$125>>2] = $127;

								    $128 = (((($51) + ($$0131<<3)|0)) + 4|0);

								    $129 = +HEAPF32[$128>>2];

								    $130 = $129 - $47;

								    HEAPF32[$128>>2] = $130;

								    $131 = (($$0131) + 1)|0;

								    $exitcond = ($131|0)==($50|0);

								    if ($exitcond) {

								     $$0121$lcssa161 = $102;$$0122$lcssa160 = $44;

								     break;

								    } else {

								     $$0131 = $131;

								    }

								   }

								  }

								 }

								 $104 = $$0122$lcssa160 * $3;

								 $105 = ((($8)) + 52|0);

								 HEAPF32[$105>>2] = $104;

								 $106 = $104 != 0.0;

								 $107 = 1.0 / $104;

								 $108 = $106 ? $107 : 0.0;

								 $109 = ((($8)) + 56|0);

								 HEAPF32[$109>>2] = $108;

								 $110 = $$0121$lcssa161 * $3;

								 $111 = ((($8)) + 44|0);

								 HEAPF32[$111>>2] = $110;

								 $112 = $110 != 0.0;

								 $113 = 1.0 / $110;

								 $114 = $112 ? $113 : 0.0;

								 $115 = ((($8)) + 48|0);

								 HEAPF32[$115>>2] = $114;

								 $116 = ((($8)) + 60|0);

								 HEAPF32[$116>>2] = 0.40000000596046448;

								 $117 = ((($8)) + 64|0);

								 HEAPF32[$117>>2] = 0.20000000298023224;

								 $118 = ((($8)) + 68|0);

								 HEAPF32[$118>>2] = 0.0;

								 $119 = ((($8)) + 72|0);

								 HEAP32[$119>>2] = 1;

								 $120 = ((($8)) + 76|0);

								 HEAP32[$120>>2] = 0;

								 $121 = ((($8)) + 80|0);

								 HEAP32[$121>>2] = 0;

								 $122 = HEAP32[3581]|0;

								 $123 = (14328 + ($122<<2)|0);

								 HEAP32[$123>>2] = $8;

								 $124 = (($122) + 1)|0;

								 HEAP32[3581] = $124;

								 STACKTOP = sp;return ($8|0);

								}

								function _CreateRectanglePolygon($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$024 = 0, $$byval_copy = 0, $$byval_copy1 = 0, $$sroa$012$0$$sroa_idx = 0, $$sroa$015$0$$sroa_idx = 0, $$sroa$018$0$$sroa_idx = 0, $$sroa$021$0$$sroa_idx = 0, $$sroa$2$0$$sroa_idx1 = 0, $$sroa$213$0$$sroa_idx14 = 0, $$sroa$216$0$$sroa_idx17 = 0, $$sroa$219$0$$sroa_idx20 = 0, $$sroa$222$0$$sroa_idx23 = 0, $10 = 0.0, $11 = 0.0, $12 = 0, $13 = 0.0, $14 = 0, $15 = 0.0, $16 = 0.0, $17 = 0.0;

								 var $18 = 0.0, $19 = 0.0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0.0, $24 = 0.0, $25 = 0.0, $26 = 0.0, $27 = 0.0, $28 = 0.0, $29 = 0.0, $3 = 0, $30 = 0.0, $31 = 0.0, $32 = 0.0, $33 = 0.0, $34 = 0.0, $35 = 0.0, $36 = 0.0;

								 var $37 = 0.0, $38 = 0.0, $39 = 0.0, $4 = 0, $40 = 0.0, $41 = 0.0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0.0, $54 = 0.0;

								 var $55 = 0, $56 = 0, $6 = 0, $7 = 0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 448|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(448|0);

								 $$byval_copy1 = sp + 440|0;

								 $$byval_copy = sp + 432|0;

								 $3 = sp + 24|0;

								 $4 = sp;

								 $5 = sp + 16|0;

								 $6 = ((($3)) + 36|0);

								 _memset(($6|0),0,368)|0;

								 HEAP32[$3>>2] = 4;

								 $7 = ((($3)) + 388|0);

								 _Mat2Radians($4,0.0);

								 ;HEAP32[$7>>2]=HEAP32[$4>>2]|0;HEAP32[$7+4>>2]=HEAP32[$4+4>>2]|0;HEAP32[$7+8>>2]=HEAP32[$4+8>>2]|0;HEAP32[$7+12>>2]=HEAP32[$4+12>>2]|0;

								 $8 = +HEAPF32[$1>>2];

								 $9 = +HEAPF32[$2>>2];

								 $10 = $9 * 0.5;

								 $11 = $8 + $10;

								 $12 = ((($1)) + 4|0);

								 $13 = +HEAPF32[$12>>2];

								 $14 = ((($2)) + 4|0);

								 $15 = +HEAPF32[$14>>2];

								 $16 = $15 * 0.5;

								 $17 = $13 - $16;

								 $$sroa$021$0$$sroa_idx = ((($3)) + 4|0);

								 HEAPF32[$$sroa$021$0$$sroa_idx>>2] = $11;

								 $$sroa$222$0$$sroa_idx23 = ((($3)) + 8|0);

								 HEAPF32[$$sroa$222$0$$sroa_idx23>>2] = $17;

								 $18 = +HEAPF32[$1>>2];

								 $19 = +HEAPF32[$2>>2];

								 $20 = $19 * 0.5;

								 $21 = $18 + $20;

								 $22 = +HEAPF32[$12>>2];

								 $23 = +HEAPF32[$14>>2];

								 $24 = $23 * 0.5;

								 $25 = $22 + $24;

								 $$sroa$018$0$$sroa_idx = ((($3)) + 12|0);

								 HEAPF32[$$sroa$018$0$$sroa_idx>>2] = $21;

								 $$sroa$219$0$$sroa_idx20 = ((($3)) + 16|0);

								 HEAPF32[$$sroa$219$0$$sroa_idx20>>2] = $25;

								 $26 = +HEAPF32[$1>>2];

								 $27 = +HEAPF32[$2>>2];

								 $28 = $27 * 0.5;

								 $29 = $26 - $28;

								 $30 = +HEAPF32[$12>>2];

								 $31 = +HEAPF32[$14>>2];

								 $32 = $31 * 0.5;

								 $33 = $30 + $32;

								 $$sroa$015$0$$sroa_idx = ((($3)) + 20|0);

								 HEAPF32[$$sroa$015$0$$sroa_idx>>2] = $29;

								 $$sroa$216$0$$sroa_idx17 = ((($3)) + 24|0);

								 HEAPF32[$$sroa$216$0$$sroa_idx17>>2] = $33;

								 $34 = +HEAPF32[$1>>2];

								 $35 = +HEAPF32[$2>>2];

								 $36 = $35 * 0.5;

								 $37 = $34 - $36;

								 $38 = +HEAPF32[$12>>2];

								 $39 = +HEAPF32[$14>>2];

								 $40 = $39 * 0.5;

								 $41 = $38 - $40;

								 $$sroa$012$0$$sroa_idx = ((($3)) + 28|0);

								 HEAPF32[$$sroa$012$0$$sroa_idx>>2] = $37;

								 $$sroa$213$0$$sroa_idx14 = ((($3)) + 32|0);

								 HEAPF32[$$sroa$213$0$$sroa_idx14>>2] = $41;

								 $42 = HEAP32[$3>>2]|0;

								 $43 = ($42|0)==(0);

								 if ($43) {

								  _memcpy(($0|0),($3|0),404)|0;

								  STACKTOP = sp;return;

								 }

								 $44 = ((($5)) + 4|0);

								 $$024 = 0;$47 = $42;

								 while(1) {

								  $45 = (($$024) + 1)|0;

								  $46 = ($45>>>0)<($47>>>0);

								  $48 = $46 ? $45 : 0;

								  $49 = (((($3)) + 4|0) + ($48<<3)|0);

								  $50 = (((($3)) + 4|0) + ($$024<<3)|0);

								  ;HEAP32[$$byval_copy>>2]=HEAP32[$49>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$49+4>>2]|0;

								  ;HEAP32[$$byval_copy1>>2]=HEAP32[$50>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$50+4>>2]|0;

								  _Vector2Subtract_4($5,$$byval_copy,$$byval_copy1);

								  $51 = (((($3)) + 196|0) + ($$024<<3)|0);

								  $52 = HEAP32[$44>>2]|0;

								  $53 = +HEAPF32[$5>>2];

								  $54 = -$53;

								  HEAP32[$51>>2] = $52;

								  $$sroa$2$0$$sroa_idx1 = (((((($3)) + 196|0) + ($$024<<3)|0)) + 4|0);

								  HEAPF32[$$sroa$2$0$$sroa_idx1>>2] = $54;

								  _MathNormalize($51);

								  $55 = HEAP32[$3>>2]|0;

								  $56 = ($45>>>0)<($55>>>0);

								  if ($56) {

								   $$024 = $45;$47 = $55;

								  } else {

								   break;

								  }

								 }

								 _memcpy(($0|0),($3|0),404)|0;

								 STACKTOP = sp;return;

								}

								function _MathCrossVector2($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $10 = 0.0, $2 = 0.0, $3 = 0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0.0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = +HEAPF32[$0>>2];

								 $3 = ((($1)) + 4|0);

								 $4 = +HEAPF32[$3>>2];

								 $5 = $2 * $4;

								 $6 = ((($0)) + 4|0);

								 $7 = +HEAPF32[$6>>2];

								 $8 = +HEAPF32[$1>>2];

								 $9 = $7 * $8;

								 $10 = $5 - $9;

								 return (+$10);

								}

								function _CreateRandomPolygon($0,$1,$2) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = $2|0;

								 var $$02829 = 0, $$030 = 0, $$byval_copy = 0, $$byval_copy1 = 0, $$pr = 0, $$sroa$2$0$$sroa_idx1 = 0, $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0.0;

								 var $24 = 0.0, $25 = 0, $26 = 0.0, $27 = 0.0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0.0, $39 = 0.0, $4 = 0, $40 = 0, $41 = 0;

								 var $5 = 0, $6 = 0, $7 = 0, $8 = 0.0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 448|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(448|0);

								 $$byval_copy1 = sp + 440|0;

								 $$byval_copy = sp + 432|0;

								 $3 = sp + 24|0;

								 $4 = sp;

								 $5 = sp + 16|0;

								 $6 = ((($3)) + 4|0);

								 _memset(($6|0),0,400)|0;

								 HEAP32[$3>>2] = $2;

								 $7 = (_GetRandomNumber()|0);

								 $8 = (+($7|0));

								 $9 = ((($3)) + 388|0);

								 $10 = $8;

								 $11 = $10 * 0.017453292519943295;

								 $12 = $11;

								 _Mat2Radians($4,$12);

								 ;HEAP32[$9>>2]=HEAP32[$4>>2]|0;HEAP32[$9+4>>2]=HEAP32[$4+4>>2]|0;HEAP32[$9+8>>2]=HEAP32[$4+8>>2]|0;HEAP32[$9+12>>2]=HEAP32[$4+12>>2]|0;

								 $13 = HEAP32[$3>>2]|0;

								 $14 = ($13|0)==(0);

								 if ($14) {

								  _memcpy(($0|0),($3|0),404)|0;

								  STACKTOP = sp;return;

								 }

								 $15 = (360 / ($2|0))&-1;

								 $16 = HEAP32[$3>>2]|0;

								 $$030 = 0;

								 while(1) {

								  $19 = Math_imul($15, $$030)|0;

								  $20 = (+($19|0));

								  $21 = $20 * 0.017453292519943295;

								  $22 = $21;

								  $23 = (+Math_cos((+$22)));

								  $24 = $23 * $1;

								  $25 = (((($3)) + 4|0) + ($$030<<3)|0);

								  HEAPF32[$25>>2] = $24;

								  $26 = (+Math_sin((+$22)));

								  $27 = $26 * $1;

								  $28 = (((((($3)) + 4|0) + ($$030<<3)|0)) + 4|0);

								  HEAPF32[$28>>2] = $27;

								  $29 = (($$030) + 1)|0;

								  $30 = ($29>>>0)<($16>>>0);

								  if ($30) {

								   $$030 = $29;

								  } else {

								   break;

								  }

								 }

								 $$pr = HEAP32[$3>>2]|0;

								 $17 = ($$pr|0)==(0);

								 if ($17) {

								  _memcpy(($0|0),($3|0),404)|0;

								  STACKTOP = sp;return;

								 }

								 $18 = ((($5)) + 4|0);

								 $$02829 = 0;

								 while(1) {

								  $31 = (($$02829) + 1)|0;

								  $32 = ($31|0)<($2|0);

								  $33 = $32 ? $31 : 0;

								  $34 = (((($3)) + 4|0) + ($33<<3)|0);

								  $35 = (((($3)) + 4|0) + ($$02829<<3)|0);

								  ;HEAP32[$$byval_copy>>2]=HEAP32[$34>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$34+4>>2]|0;

								  ;HEAP32[$$byval_copy1>>2]=HEAP32[$35>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$35+4>>2]|0;

								  _Vector2Subtract_4($5,$$byval_copy,$$byval_copy1);

								  $36 = (((($3)) + 196|0) + ($$02829<<3)|0);

								  $37 = HEAP32[$18>>2]|0;

								  $38 = +HEAPF32[$5>>2];

								  $39 = -$38;

								  HEAP32[$36>>2] = $37;

								  $$sroa$2$0$$sroa_idx1 = (((((($3)) + 196|0) + ($$02829<<3)|0)) + 4|0);

								  HEAPF32[$$sroa$2$0$$sroa_idx1>>2] = $39;

								  _MathNormalize($36);

								  $40 = HEAP32[$3>>2]|0;

								  $41 = ($31>>>0)<($40>>>0);

								  if ($41) {

								   $$02829 = $31;

								  } else {

								   break;

								  }

								 }

								 _memcpy(($0|0),($3|0),404)|0;

								 STACKTOP = sp;return;

								}

								function _Vector2Add_2($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0.0, $11 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0, $8 = 0.0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = +HEAPF32[$1>>2];

								 $4 = +HEAPF32[$2>>2];

								 $5 = $3 + $4;

								 HEAPF32[$0>>2] = $5;

								 $6 = ((($0)) + 4|0);

								 $7 = ((($1)) + 4|0);

								 $8 = +HEAPF32[$7>>2];

								 $9 = ((($2)) + 4|0);

								 $10 = +HEAPF32[$9>>2];

								 $11 = $8 + $10;

								 HEAPF32[$6>>2] = $11;

								 return;

								}

								function _Mat2MultiplyVector2($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0.0, $11 = 0.0, $12 = 0, $13 = 0, $14 = 0.0, $15 = 0.0, $16 = 0, $17 = 0.0, $18 = 0.0, $19 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0.0, $8 = 0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = +HEAPF32[$1>>2];

								 $4 = +HEAPF32[$2>>2];

								 $5 = $3 * $4;

								 $6 = ((($1)) + 4|0);

								 $7 = +HEAPF32[$6>>2];

								 $8 = ((($2)) + 4|0);

								 $9 = +HEAPF32[$8>>2];

								 $10 = $7 * $9;

								 $11 = $5 + $10;

								 HEAPF32[$0>>2] = $11;

								 $12 = ((($0)) + 4|0);

								 $13 = ((($1)) + 8|0);

								 $14 = +HEAPF32[$13>>2];

								 $15 = $4 * $14;

								 $16 = ((($1)) + 12|0);

								 $17 = +HEAPF32[$16>>2];

								 $18 = $9 * $17;

								 $19 = $15 + $18;

								 HEAPF32[$12>>2] = $19;

								 return;

								}

								function _DestroyPhysicsBody($0) {

								 $0 = $0|0;

								 var $$02023 = 0, $$021 = 0, $$022 = 0, $$lcssa = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ($0|0)==(0|0);

								 if ($1) {

								  return;

								 }

								 $2 = HEAP32[$0>>2]|0;

								 $3 = HEAP32[3581]|0;

								 $4 = ($3|0)==(0);

								 L4: do {

								  if ($4) {

								   $$021 = -1;

								  } else {

								   $5 = HEAP32[3581]|0;

								   $$02023 = 0;

								   while(1) {

								    $6 = (14328 + ($$02023<<2)|0);

								    $7 = HEAP32[$6>>2]|0;

								    $8 = HEAP32[$7>>2]|0;

								    $9 = ($8|0)==($2|0);

								    if ($9) {

								     $$021 = $$02023;

								     break L4;

								    }

								    $10 = (($$02023) + 1)|0;

								    $11 = ($10>>>0)<($5>>>0);

								    if ($11) {

								     $$02023 = $10;

								    } else {

								     $$021 = -1;

								     break;

								    }

								   }

								  }

								 } while(0);

								 $12 = (14328 + ($$021<<2)|0);

								 $13 = HEAP32[$12>>2]|0;

								 _free($13);

								 $14 = HEAP32[3580]|0;

								 $15 = (($14) + -500)|0;

								 HEAP32[3580] = $15;

								 HEAP32[$12>>2] = 0;

								 $16 = HEAP32[3581]|0;

								 $17 = ($$021>>>0)<($16>>>0);

								 if ($17) {

								  $18 = HEAP32[3581]|0;

								  $$022 = $$021;$22 = $16;

								  while(1) {

								   $20 = (($$022) + 1)|0;

								   $21 = ($20>>>0)<($22>>>0);

								   if ($21) {

								    $24 = (14328 + ($$022<<2)|0);

								    $25 = (14328 + ($20<<2)|0);

								    $26 = HEAP32[$25>>2]|0;

								    HEAP32[$24>>2] = $26;

								   }

								   $23 = ($20>>>0)<($18>>>0);

								   if ($23) {

								    $$022 = $20;$22 = $18;

								   } else {

								    $$lcssa = $18;

								    break;

								   }

								  }

								 } else {

								  $$lcssa = $16;

								 }

								 $19 = (($$lcssa) + -1)|0;

								 HEAP32[3581] = $19;

								 return;

								}

								function _Vector2Subtract_4($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0.0, $11 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0, $8 = 0.0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = +HEAPF32[$1>>2];

								 $4 = +HEAPF32[$2>>2];

								 $5 = $3 - $4;

								 HEAPF32[$0>>2] = $5;

								 $6 = ((($0)) + 4|0);

								 $7 = ((($1)) + 4|0);

								 $8 = +HEAPF32[$7>>2];

								 $9 = ((($2)) + 4|0);

								 $10 = +HEAPF32[$9>>2];

								 $11 = $8 - $10;

								 HEAPF32[$6>>2] = $11;

								 return;

								}

								function _MathNormalize($0) {

								 $0 = $0|0;

								 var $$op = 0.0, $$sroa$0$0$copyload = 0.0, $$sroa$5$0$$sroa_idx3 = 0, $$sroa$5$0$copyload = 0.0, $1 = 0.0, $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0, $6 = 0.0, $7 = 0.0, $8 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $$sroa$0$0$copyload = +HEAPF32[$0>>2];

								 $$sroa$5$0$$sroa_idx3 = ((($0)) + 4|0);

								 $$sroa$5$0$copyload = +HEAPF32[$$sroa$5$0$$sroa_idx3>>2];

								 $1 = $$sroa$0$0$copyload * $$sroa$0$0$copyload;

								 $2 = $$sroa$5$0$copyload * $$sroa$5$0$copyload;

								 $3 = $1 + $2;

								 $4 = (+Math_sqrt((+$3)));

								 $5 = $4 == 0.0;

								 $$op = 1.0 / $4;

								 $6 = $5 ? 1.0 : $$op;

								 $7 = $$sroa$0$0$copyload * $6;

								 HEAPF32[$0>>2] = $7;

								 $8 = $$sroa$5$0$copyload * $6;

								 HEAPF32[$$sroa$5$0$$sroa_idx3>>2] = $8;

								 return;

								}

								function _GetPhysicsBodiesCount() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[3581]|0;

								 return ($0|0);

								}

								function _GetPhysicsBody($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[3581]|0;

								 $2 = ($1>>>0)>($0>>>0);

								 if (!($2)) {

								  $$0 = 0;

								  return ($$0|0);

								 }

								 $3 = (14328 + ($0<<2)|0);

								 $4 = HEAP32[$3>>2]|0;

								 $$0 = $4;

								 return ($$0|0);

								}

								function _GetPhysicsShapeVerticesCount($0) {

								 $0 = $0|0;

								 var $$1 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[3581]|0;

								 $2 = ($1>>>0)>($0>>>0);

								 L1: do {

								  if ($2) {

								   $3 = (14328 + ($0<<2)|0);

								   $4 = HEAP32[$3>>2]|0;

								   $5 = ($4|0)==(0|0);

								   if ($5) {

								    $$1 = 0;

								   } else {

								    $6 = ((($4)) + 84|0);

								    $7 = HEAP32[$6>>2]|0;

								    switch ($7|0) {

								    case 0:  {

								     $$1 = 24;

								     break L1;

								     break;

								    }

								    case 1:  {

								     $8 = ((($4)) + 96|0);

								     $9 = HEAP32[$8>>2]|0;

								     $$1 = $9;

								     break L1;

								     break;

								    }

								    default: {

								     $$1 = 0;

								     break L1;

								    }

								    }

								   }

								  } else {

								   $$1 = 0;

								  }

								 } while(0);

								 return ($$1|0);

								}

								function _GetPhysicsShapeVertex($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$byval_copy2 = 0, $$byval_copy3 = 0, $$sroa$0$0 = 0.0, $$sroa$0$0$copyload = 0.0, $$sroa$6$0 = 0.0, $$sroa$6$0$$sroa_idx4 = 0, $$sroa$6$0$$sroa_idx5 = 0, $$sroa$6$0$copyload = 0.0, $10 = 0.0, $11 = 0, $12 = 0.0, $13 = 0.0, $14 = 0.0, $15 = 0.0, $16 = 0, $17 = 0.0, $18 = 0.0, $19 = 0.0, $20 = 0, $21 = 0.0;

								 var $22 = 0.0, $23 = 0.0, $24 = 0.0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 448|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(448|0);

								 $$byval_copy3 = sp + 440|0;

								 $$byval_copy2 = sp + 424|0;

								 $3 = sp;

								 $4 = sp + 416|0;

								 $5 = sp + 408|0;

								 $6 = ($1|0)==(0|0);

								 L1: do {

								  if ($6) {

								   $$sroa$0$0 = 0.0;$$sroa$6$0 = 0.0;

								  } else {

								   $7 = ((($1)) + 84|0);

								   $8 = HEAP32[$7>>2]|0;

								   switch ($8|0) {

								   case 0:  {

								    $9 = ((($1)) + 8|0);

								    $10 = +HEAPF32[$9>>2];

								    $11 = ($2*15)|0;

								    $12 = (+($11|0));

								    $13 = $12 * 0.017453292519943295;

								    $14 = $13;

								    $15 = (+Math_cos((+$14)));

								    $16 = ((($1)) + 92|0);

								    $17 = +HEAPF32[$16>>2];

								    $18 = $15 * $17;

								    $19 = $10 + $18;

								    $20 = ((($1)) + 12|0);

								    $21 = +HEAPF32[$20>>2];

								    $22 = (+Math_sin((+$14)));

								    $23 = $17 * $22;

								    $24 = $21 + $23;

								    $$sroa$0$0 = $19;$$sroa$6$0 = $24;

								    break L1;

								    break;

								   }

								   case 1:  {

								    $25 = ((($1)) + 96|0);

								    _memcpy(($3|0),($25|0),404)|0;

								    $26 = ((($1)) + 8|0);

								    $27 = ((($3)) + 388|0);

								    $28 = (((($3)) + 4|0) + ($2<<3)|0);

								    ;HEAP32[$$byval_copy2>>2]=HEAP32[$27>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$27+4>>2]|0;HEAP32[$$byval_copy2+8>>2]=HEAP32[$27+8>>2]|0;HEAP32[$$byval_copy2+12>>2]=HEAP32[$27+12>>2]|0;

								    ;HEAP32[$$byval_copy3>>2]=HEAP32[$28>>2]|0;HEAP32[$$byval_copy3+4>>2]=HEAP32[$28+4>>2]|0;

								    _Mat2MultiplyVector2($4,$$byval_copy2,$$byval_copy3);

								    ;HEAP32[$$byval_copy2>>2]=HEAP32[$26>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$26+4>>2]|0;

								    ;HEAP32[$$byval_copy3>>2]=HEAP32[$4>>2]|0;HEAP32[$$byval_copy3+4>>2]=HEAP32[$4+4>>2]|0;

								    _Vector2Add_2($5,$$byval_copy2,$$byval_copy3);

								    $$sroa$0$0$copyload = +HEAPF32[$5>>2];

								    $$sroa$6$0$$sroa_idx4 = ((($5)) + 4|0);

								    $$sroa$6$0$copyload = +HEAPF32[$$sroa$6$0$$sroa_idx4>>2];

								    $$sroa$0$0 = $$sroa$0$0$copyload;$$sroa$6$0 = $$sroa$6$0$copyload;

								    break L1;

								    break;

								   }

								   default: {

								    $$sroa$0$0 = 0.0;$$sroa$6$0 = 0.0;

								    break L1;

								   }

								   }

								  }

								 } while(0);

								 HEAPF32[$0>>2] = $$sroa$0$0;

								 $$sroa$6$0$$sroa_idx5 = ((($0)) + 4|0);

								 HEAPF32[$$sroa$6$0$$sroa_idx5>>2] = $$sroa$6$0;

								 STACKTOP = sp;return;

								}

								function _Mat2Radians($0,$1) {

								 $0 = $0|0;

								 $1 = +$1;

								 var $2 = 0.0, $3 = 0.0, $4 = 0, $5 = 0.0, $6 = 0, $7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = (+Math_cos((+$1)));

								 $3 = (+Math_sin((+$1)));

								 HEAPF32[$0>>2] = $2;

								 $4 = ((($0)) + 4|0);

								 $5 = -$3;

								 HEAPF32[$4>>2] = $5;

								 $6 = ((($0)) + 8|0);

								 HEAPF32[$6>>2] = $3;

								 $7 = ((($0)) + 12|0);

								 HEAPF32[$7>>2] = $2;

								 return;

								}

								function _ResetPhysics() {

								 var $$0 = 0, $$016 = 0, $$01620 = 0, $$01621 = 0, $$018 = 0, $$019 = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0;

								 var $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[3581]|0;

								 $$01620 = (($0) + -1)|0;

								 $1 = ($$01620|0)>(-1);

								 if ($1) {

								  $$01621 = $$01620;

								  while(1) {

								   $4 = (14328 + ($$01621<<2)|0);

								   $5 = HEAP32[$4>>2]|0;

								   $6 = ($5|0)==(0|0);

								   if (!($6)) {

								    _free($5);

								    $8 = HEAP32[3580]|0;

								    $9 = (($8) + -500)|0;

								    HEAP32[3580] = $9;

								   }

								   $$016 = (($$01621) + -1)|0;

								   $7 = ($$016|0)>(-1);

								   if ($7) {

								    $$01621 = $$016;

								   } else {

								    break;

								   }

								  }

								 }

								 HEAP32[3581] = 0;

								 $2 = HEAP32[3646]|0;

								 $$018 = (($2) + -1)|0;

								 $3 = ($$018|0)>(-1);

								 if ($3) {

								  $$019 = $$018;

								 } else {

								  HEAP32[3646] = 0;

								  return;

								 }

								 while(1) {

								  $10 = (14588 + ($$019<<2)|0);

								  $11 = HEAP32[$10>>2]|0;

								  $12 = ($11|0)==(0|0);

								  if (!($12)) {

								   _free($11);

								   $14 = HEAP32[3580]|0;

								   $15 = (($14) + -56)|0;

								   HEAP32[3580] = $15;

								  }

								  $$0 = (($$019) + -1)|0;

								  $13 = ($$0|0)>(-1);

								  if ($13) {

								   $$019 = $$0;

								  } else {

								   break;

								  }

								 }

								 HEAP32[3646] = 0;

								 return;

								}

								function _ClosePhysics() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAP32[3579] = 0;

								 $0 = HEAP32[3578]|0;

								 (_pthread_join(($0|0),(0|0))|0);

								 return;

								}

								function _main() {

								 var $$byval_copy1 = 0, $0 = 0, $1 = 0, $10 = 0.0, $11 = 0, $12 = 0, $13 = 0.0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0.0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0.0, $23 = 0, $24 = 0, $3 = 0;

								 var $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $$byval_copy1 = sp + 16|0;

								 $0 = sp + 8|0;

								 $1 = sp;

								 _SetConfigFlags(32);

								 $2 = HEAP32[2]|0;

								 $3 = HEAP32[3]|0;

								 _InitWindow($2,$3,3248);

								 _SetTargetFPS(60);

								 $4 = HEAP32[2]|0;

								 $5 = (_MeasureText(3279,30)|0);

								 $6 = (($4) + -10)|0;

								 $7 = (($6) - ($5))|0;

								 HEAP32[7743] = $7;

								 _InitPhysics();

								 $8 = HEAP32[2]|0;

								 $9 = (($8|0) / 2)&-1;

								 $10 = (+($9|0));

								 HEAPF32[$0>>2] = $10;

								 $11 = ((($0)) + 4|0);

								 $12 = HEAP32[3]|0;

								 $13 = (+($12|0));

								 HEAPF32[$11>>2] = $13;

								 ;HEAP32[$$byval_copy1>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$0+4>>2]|0;

								 $14 = (_CreatePhysicsBodyRectangle($$byval_copy1,500.0,100.0,10.0)|0);

								 HEAP32[7744] = $14;

								 $15 = ((($14)) + 4|0);

								 HEAP32[$15>>2] = 0;

								 $16 = HEAP32[2]|0;

								 $17 = (($16|0) / 2)&-1;

								 $18 = (+($17|0));

								 HEAPF32[$1>>2] = $18;

								 $19 = ((($1)) + 4|0);

								 $20 = HEAP32[3]|0;

								 $21 = (($20|0) / 2)&-1;

								 $22 = (+($21|0));

								 HEAPF32[$19>>2] = $22;

								 ;HEAP32[$$byval_copy1>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$1+4>>2]|0;

								 $23 = (_CreatePhysicsBodyCircle($$byval_copy1,45.0,10.0)|0);

								 HEAP32[7745] = $23;

								 $24 = ((($23)) + 4|0);

								 HEAP32[$24>>2] = 0;

								 _emscripten_set_main_loop((1|0),0,1);

								 _ClosePhysics();

								 _CloseWindow();

								 STACKTOP = sp;return 0;

								}

								function _UpdateDrawFrame() {

								 var $$03743 = 0, $$03743$in = 0, $$03840 = 0, $$039 = 0, $$byval_copy5 = 0, $$byval_copy6 = 0, $$byval_copy7 = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0.0, $18 = 0, $19 = 0, $2 = 0;

								 var $20 = 0.0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0.0, $26 = 0, $27 = 0, $28 = 0, $29 = 0.0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0.0, $36 = 0, $37 = 0, $38 = 0;

								 var $39 = 0, $4 = 0, $40 = 0.0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0;

								 var $57 = 0, $58 = 0, $59 = 0.0, $6 = 0, $60 = 0, $61 = 0, $62 = 0.0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0;

								 var $75 = 0, $76 = 0, $77 = 0, $8 = 0, $9 = 0, $exitcond = 0, $exitcond47 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 112|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(112|0);

								 $$byval_copy7 = sp + 88|0;

								 $$byval_copy6 = sp + 80|0;

								 $$byval_copy5 = sp + 72|0;

								 $0 = sp + 64|0;

								 $1 = sp + 56|0;

								 $2 = sp + 48|0;

								 $3 = sp + 40|0;

								 $4 = sp + 100|0;

								 $5 = sp + 24|0;

								 $6 = sp + 8|0;

								 $7 = sp + 96|0;

								 $8 = sp + 36|0;

								 $9 = sp + 32|0;

								 $10 = sp + 20|0;

								 $11 = sp + 16|0;

								 $12 = sp;

								 $13 = (_IsKeyPressed(82)|0);

								 $14 = ($13|0)==(0);

								 if (!($14)) {

								  _ResetPhysics();

								  $15 = HEAP32[2]|0;

								  $16 = (($15|0) / 2)&-1;

								  $17 = (+($16|0));

								  HEAPF32[$0>>2] = $17;

								  $18 = ((($0)) + 4|0);

								  $19 = HEAP32[3]|0;

								  $20 = (+($19|0));

								  HEAPF32[$18>>2] = $20;

								  ;HEAP32[$$byval_copy7>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$0+4>>2]|0;

								  $21 = (_CreatePhysicsBodyRectangle($$byval_copy7,500.0,100.0,10.0)|0);

								  HEAP32[7744] = $21;

								  $22 = ((($21)) + 4|0);

								  HEAP32[$22>>2] = 0;

								  $23 = HEAP32[2]|0;

								  $24 = (($23|0) / 2)&-1;

								  $25 = (+($24|0));

								  HEAPF32[$1>>2] = $25;

								  $26 = ((($1)) + 4|0);

								  $27 = HEAP32[3]|0;

								  $28 = (($27|0) / 2)&-1;

								  $29 = (+($28|0));

								  HEAPF32[$26>>2] = $29;

								  ;HEAP32[$$byval_copy7>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$1+4>>2]|0;

								  $30 = (_CreatePhysicsBodyCircle($$byval_copy7,45.0,10.0)|0);

								  HEAP32[7745] = $30;

								  $31 = ((($30)) + 4|0);

								  HEAP32[$31>>2] = 0;

								 }

								 $32 = (_IsMouseButtonPressed(0)|0);

								 $33 = ($32|0)==(0);

								 if ($33) {

								  $37 = (_IsMouseButtonPressed(1)|0);

								  $38 = ($37|0)==(0);

								  if (!($38)) {

								   _GetMousePosition($3);

								   $39 = (_GetRandomValue(10,45)|0);

								   $40 = (+($39|0));

								   ;HEAP32[$$byval_copy7>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$3+4>>2]|0;

								   (_CreatePhysicsBodyCircle($$byval_copy7,$40,10.0)|0);

								  }

								 } else {

								  _GetMousePosition($2);

								  $34 = (_GetRandomValue(20,80)|0);

								  $35 = (+($34|0));

								  $36 = (_GetRandomValue(3,8)|0);

								  ;HEAP32[$$byval_copy7>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$2+4>>2]|0;

								  (_CreatePhysicsBodyPolygon($$byval_copy7,$35,$36,10.0)|0);

								 }

								 $41 = (_GetPhysicsBodiesCount()|0);

								 $42 = ($41|0)>(0);

								 if ($42) {

								  $$03743$in = $41;

								  while(1) {

								   $$03743 = (($$03743$in) + -1)|0;

								   $55 = (_GetPhysicsBody($$03743)|0);

								   $56 = ($55|0)==(0|0);

								   if (!($56)) {

								    $58 = ((($55)) + 12|0);

								    $59 = +HEAPF32[$58>>2];

								    $60 = HEAP32[3]|0;

								    $61 = $60 << 1;

								    $62 = (+($61|0));

								    $63 = $59 > $62;

								    if ($63) {

								     _DestroyPhysicsBody($55);

								    }

								   }

								   $57 = ($$03743$in|0)>(1);

								   if ($57) {

								    $$03743$in = $$03743;

								   } else {

								    break;

								   }

								  }

								 }

								 _BeginDrawing();

								 HEAP8[$4>>0] = 0;

								 $43 = ((($4)) + 1|0);

								 HEAP8[$43>>0] = 0;

								 $44 = ((($4)) + 2|0);

								 HEAP8[$44>>0] = 0;

								 $45 = ((($4)) + 3|0);

								 HEAP8[$45>>0] = -1;

								 ;HEAP8[$$byval_copy7>>0]=HEAP8[$4>>0]|0;HEAP8[$$byval_copy7+1>>0]=HEAP8[$4+1>>0]|0;HEAP8[$$byval_copy7+2>>0]=HEAP8[$4+2>>0]|0;HEAP8[$$byval_copy7+3>>0]=HEAP8[$4+3>>0]|0;

								 _ClearBackground($$byval_copy7);

								 $46 = HEAP32[2]|0;

								 $47 = (($46) + -90)|0;

								 $48 = HEAP32[3]|0;

								 $49 = (($48) + -30)|0;

								 _DrawFPS($47,$49);

								 $50 = (_GetPhysicsBodiesCount()|0);

								 $51 = ($50|0)>(0);

								 if ($51) {

								  $52 = ((($7)) + 1|0);

								  $53 = ((($7)) + 2|0);

								  $54 = ((($7)) + 3|0);

								  $$03840 = 0;

								  while(1) {

								   $70 = (_GetPhysicsBody($$03840)|0);

								   $71 = ($70|0)==(0|0);

								   if (!($71)) {

								    $72 = (_GetPhysicsShapeVerticesCount($$03840)|0);

								    $73 = ($72|0)>(0);

								    if ($73) {

								     $$039 = 0;

								     while(1) {

								      _GetPhysicsShapeVertex($5,$70,$$039);

								      $74 = (($$039) + 1)|0;

								      $75 = ($74|0)<($72|0);

								      $76 = $75 ? $74 : 0;

								      _GetPhysicsShapeVertex($6,$70,$76);

								      HEAP8[$7>>0] = 0;

								      HEAP8[$52>>0] = -28;

								      HEAP8[$53>>0] = 48;

								      HEAP8[$54>>0] = -1;

								      ;HEAP32[$$byval_copy5>>2]=HEAP32[$5>>2]|0;HEAP32[$$byval_copy5+4>>2]=HEAP32[$5+4>>2]|0;

								      ;HEAP32[$$byval_copy6>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy6+4>>2]=HEAP32[$6+4>>2]|0;

								      ;HEAP8[$$byval_copy7>>0]=HEAP8[$7>>0]|0;HEAP8[$$byval_copy7+1>>0]=HEAP8[$7+1>>0]|0;HEAP8[$$byval_copy7+2>>0]=HEAP8[$7+2>>0]|0;HEAP8[$$byval_copy7+3>>0]=HEAP8[$7+3>>0]|0;

								      _DrawLineV($$byval_copy5,$$byval_copy6,$$byval_copy7);

								      $exitcond = ($74|0)==($72|0);

								      if ($exitcond) {

								       break;

								      } else {

								       $$039 = $74;

								      }

								     }

								    }

								   }

								   $77 = (($$03840) + 1)|0;

								   $exitcond47 = ($77|0)==($50|0);

								   if ($exitcond47) {

								    break;

								   } else {

								    $$03840 = $77;

								   }

								  }

								 }

								 HEAP32[$8>>2] = -1;

								 ;HEAP8[$$byval_copy7>>0]=HEAP8[$8>>0]|0;HEAP8[$$byval_copy7+1>>0]=HEAP8[$8+1>>0]|0;HEAP8[$$byval_copy7+2>>0]=HEAP8[$8+2>>0]|0;HEAP8[$$byval_copy7+3>>0]=HEAP8[$8+3>>0]|0;

								 _DrawText(3286,10,10,10,$$byval_copy7);

								 HEAP32[$9>>2] = -1;

								 ;HEAP8[$$byval_copy7>>0]=HEAP8[$9>>0]|0;HEAP8[$$byval_copy7+1>>0]=HEAP8[$9+1>>0]|0;HEAP8[$$byval_copy7+2>>0]=HEAP8[$9+2>>0]|0;HEAP8[$$byval_copy7+3>>0]=HEAP8[$9+3>>0]|0;

								 _DrawText(3324,10,25,10,$$byval_copy7);

								 HEAP32[$10>>2] = -1;

								 ;HEAP8[$$byval_copy7>>0]=HEAP8[$10>>0]|0;HEAP8[$$byval_copy7+1>>0]=HEAP8[$10+1>>0]|0;HEAP8[$$byval_copy7+2>>0]=HEAP8[$10+2>>0]|0;HEAP8[$$byval_copy7+3>>0]=HEAP8[$10+3>>0]|0;

								 _DrawText(3362,10,40,10,$$byval_copy7);

								 $64 = HEAP32[7743]|0;

								 $65 = HEAP32[4]|0;

								 HEAP32[$11>>2] = -1;

								 ;HEAP8[$$byval_copy7>>0]=HEAP8[$11>>0]|0;HEAP8[$$byval_copy7+1>>0]=HEAP8[$11+1>>0]|0;HEAP8[$$byval_copy7+2>>0]=HEAP8[$11+2>>0]|0;HEAP8[$$byval_copy7+3>>0]=HEAP8[$11+3>>0]|0;

								 _DrawText(3279,$64,$65,30,$$byval_copy7);

								 $66 = HEAP32[7743]|0;

								 $67 = (($66) + 50)|0;

								 $68 = HEAP32[4]|0;

								 $69 = (($68) + -7)|0;

								 HEAP32[$12>>2] = -1;

								 ;HEAP8[$$byval_copy7>>0]=HEAP8[$12>>0]|0;HEAP8[$$byval_copy7+1>>0]=HEAP8[$12+1>>0]|0;HEAP8[$$byval_copy7+2>>0]=HEAP8[$12+2>>0]|0;HEAP8[$$byval_copy7+3>>0]=HEAP8[$12+3>>0]|0;

								 _DrawText(3389,$67,$69,10,$$byval_copy7);

								 _EndDrawing();

								 STACKTOP = sp;return;

								}

								function _GetRandomNumber() {

								 var $0 = 0, $1 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_rand()|0);

								 $1 = (($0|0) % 361)&-1;

								 return ($1|0);

								}

								function _InitTimer() {

								 var $0 = 0, $1 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_time((0|0))|0);

								 _srand($0);

								 $1 = (+_GetCurrentTime());

								 HEAPF64[1753] = $1;

								 return;

								}

								function _GetCurrentTime() {

								 var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0.0, $13 = 0.0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $0 = sp;

								 (_clock_gettime(1,($0|0))|0);

								 $1 = HEAP32[$0>>2]|0;

								 $2 = ($1|0)<(0);

								 $3 = $2 << 31 >> 31;

								 $4 = (___muldi3(($1|0),($3|0),1000000000,0)|0);

								 $5 = tempRet0;

								 $6 = ((($0)) + 4|0);

								 $7 = HEAP32[$6>>2]|0;

								 $8 = ($7|0)<(0);

								 $9 = $8 << 31 >> 31;

								 $10 = (_i64Add(($4|0),($5|0),($7|0),($9|0))|0);

								 $11 = tempRet0;

								 $12 = (+($10>>>0)) + (4294967296.0*(+($11>>>0)));

								 $13 = $12 * 9.9999999999999995E-7;

								 STACKTOP = sp;return (+$13);

								}

								function _MathClamp() {

								 var $$sink = 0.0, $0 = 0.0, $1 = 0, $2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = +HEAPF64[1751];

								 $1 = $0 < 0.0;

								 if ($1) {

								  $$sink = 0.0;

								 } else {

								  $2 = $0 > 0.02;

								  if ($2) {

								   $$sink = 0.02;

								  } else {

								   return;

								  }

								 }

								 HEAPF64[1751] = $$sink;

								 return;

								}

								function _PhysicsStep() {

								 var $$0 = 0, $$0125165 = 0, $$0126163 = 0, $$0127147 = 0, $$0129148 = 0, $$0130 = 0, $$0130160 = 0, $$0130161 = 0, $$0131150 = 0, $$0132 = 0, $$0133152 = 0, $$0134155 = 0, $$0134155$ph = 0, $$0135158 = 0, $$0136156 = 0, $$0167 = 0, $$0168 = 0, $$pr = 0, $$pr172 = 0, $$sroa$0$0$$sroa_idx = 0;

								 var $$sroa$2$0$$sroa_idx1 = 0, $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0;

								 var $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0;

								 var $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0;

								 var $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0.0, $32 = 0, $33 = 0, $34 = 0.0, $35 = 0, $36 = 0, $37 = 0;

								 var $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0;

								 var $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0;

								 var $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0;

								 var $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $exitcond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[7746]|0;

								 $1 = (($0) + 1)|0;

								 HEAP32[7746] = $1;

								 $2 = HEAP32[3646]|0;

								 $$0167 = (($2) + -1)|0;

								 $3 = ($$0167|0)>(-1);

								 if ($3) {

								  $$0168 = $$0167;

								  while(1) {

								   $6 = (14588 + ($$0168<<2)|0);

								   $7 = HEAP32[$6>>2]|0;

								   $8 = ($7|0)==(0|0);

								   if (!($8)) {

								    _DestroyPhysicsManifold($7);

								   }

								   $$0 = (($$0168) + -1)|0;

								   $9 = ($$0|0)>(-1);

								   if ($9) {

								    $$0168 = $$0;

								   } else {

								    break;

								   }

								  }

								 }

								 $4 = HEAP32[3581]|0;

								 $5 = ($4|0)==(0);

								 if ($5) {

								  $17 = $4;

								  label = 8;

								 } else {

								  $$0125165 = 0;

								  while(1) {

								   $11 = (14328 + ($$0125165<<2)|0);

								   $12 = HEAP32[$11>>2]|0;

								   $13 = ((($12)) + 76|0);

								   HEAP32[$13>>2] = 0;

								   $14 = (($$0125165) + 1)|0;

								   $15 = ($14>>>0)<($4>>>0);

								   if ($15) {

								    $$0125165 = $14;

								   } else {

								    break;

								   }

								  }

								  $$pr = HEAP32[3581]|0;

								  $10 = ($$pr|0)==(0);

								  if (!($10)) {

								   $$0126163 = 0;

								   while(1) {

								    $19 = (14328 + ($$0126163<<2)|0);

								    $20 = HEAP32[$19>>2]|0;

								    $21 = ($20|0)==(0|0);

								    if (!($21)) {

								     $$0130160 = (($$0126163) + 1)|0;

								     $22 = HEAP32[3581]|0;

								     $23 = ($$0130160>>>0)<($22>>>0);

								     if ($23) {

								      $24 = ((($20)) + 56|0);

								      $25 = ((($20)) + 84|0);

								      $$0130161 = $$0130160;

								      while(1) {

								       $26 = (14328 + ($$0130161<<2)|0);

								       $27 = HEAP32[$26>>2]|0;

								       $28 = ($27|0)==(0|0);

								       do {

								        if (!($28)) {

								         $31 = +HEAPF32[$24>>2];

								         $32 = $31 == 0.0;

								         if ($32) {

								          $33 = ((($27)) + 56|0);

								          $34 = +HEAPF32[$33>>2];

								          $35 = $34 == 0.0;

								          if ($35) {

								           break;

								          }

								         }

								         $36 = HEAP32[$25>>2]|0;

								         $37 = ($36|0)==(1);

								         if ($37) {

								          $38 = ((($27)) + 84|0);

								          $39 = HEAP32[$38>>2]|0;

								          $40 = ($39|0)==(0);

								          if ($40) {

								           $41 = (_CreatePhysicsManifold($27,$20)|0);

								           $$0132 = $41;

								          } else {

								           label = 20;

								          }

								         } else {

								          label = 20;

								         }

								         if ((label|0) == 20) {

								          label = 0;

								          $42 = (_CreatePhysicsManifold($20,$27)|0);

								          $$0132 = $42;

								         }

								         _SolvePhysicsManifold($$0132);

								         $43 = ((($$0132)) + 40|0);

								         $44 = HEAP32[$43>>2]|0;

								         $45 = ($44|0)==(0);

								         if (!($45)) {

								          $46 = (_CreatePhysicsManifold($20,$27)|0);

								          $47 = ((($$0132)) + 12|0);

								          $48 = HEAP32[$47>>2]|0;

								          $49 = ((($46)) + 12|0);

								          HEAP32[$49>>2] = $48;

								          $50 = ((($46)) + 16|0);

								          $51 = ((($$0132)) + 16|0);

								          $52 = $51;

								          $53 = $52;

								          $54 = HEAP32[$53>>2]|0;

								          $55 = (($52) + 4)|0;

								          $56 = $55;

								          $57 = HEAP32[$56>>2]|0;

								          $58 = $50;

								          $59 = $58;

								          HEAP32[$59>>2] = $54;

								          $60 = (($58) + 4)|0;

								          $61 = $60;

								          HEAP32[$61>>2] = $57;

								          $62 = ((($46)) + 24|0);

								          $63 = ((($$0132)) + 24|0);

								          $64 = $63;

								          $65 = $64;

								          $66 = HEAP32[$65>>2]|0;

								          $67 = (($64) + 4)|0;

								          $68 = $67;

								          $69 = HEAP32[$68>>2]|0;

								          $70 = $62;

								          $71 = $70;

								          HEAP32[$71>>2] = $66;

								          $72 = (($70) + 4)|0;

								          $73 = $72;

								          HEAP32[$73>>2] = $69;

								          $74 = ((($46)) + 32|0);

								          $75 = ((($$0132)) + 32|0);

								          $76 = $75;

								          $77 = $76;

								          $78 = HEAP32[$77>>2]|0;

								          $79 = (($76) + 4)|0;

								          $80 = $79;

								          $81 = HEAP32[$80>>2]|0;

								          $82 = $74;

								          $83 = $82;

								          HEAP32[$83>>2] = $78;

								          $84 = (($82) + 4)|0;

								          $85 = $84;

								          HEAP32[$85>>2] = $81;

								          $86 = HEAP32[$43>>2]|0;

								          $87 = ((($46)) + 40|0);

								          HEAP32[$87>>2] = $86;

								          $88 = ((($$0132)) + 44|0);

								          $89 = HEAP32[$88>>2]|0;

								          $90 = ((($46)) + 44|0);

								          HEAP32[$90>>2] = $89;

								          $91 = ((($$0132)) + 48|0);

								          $92 = HEAP32[$91>>2]|0;

								          $93 = ((($46)) + 48|0);

								          HEAP32[$93>>2] = $92;

								          $94 = ((($$0132)) + 52|0);

								          $95 = HEAP32[$94>>2]|0;

								          $96 = ((($46)) + 52|0);

								          HEAP32[$96>>2] = $95;

								         }

								        }

								       } while(0);

								       $$0130 = (($$0130161) + 1)|0;

								       $29 = HEAP32[3581]|0;

								       $30 = ($$0130>>>0)<($29>>>0);

								       if ($30) {

								        $$0130161 = $$0130;

								       } else {

								        break;

								       }

								      }

								     }

								    }

								    $97 = (($$0126163) + 1)|0;

								    $98 = HEAP32[3581]|0;

								    $99 = ($97>>>0)<($98>>>0);

								    if ($99) {

								     $$0126163 = $97;

								    } else {

								     $17 = $98;

								     label = 8;

								     break;

								    }

								   }

								  }

								 }

								 if ((label|0) == 8) {

								  $16 = ($17|0)==(0);

								  if (!($16)) {

								   $18 = HEAP32[3581]|0;

								   $$0135158 = 0;

								   while(1) {

								    $103 = (14328 + ($$0135158<<2)|0);

								    $104 = HEAP32[$103>>2]|0;

								    $105 = ($104|0)==(0|0);

								    if (!($105)) {

								     _IntegratePhysicsForces($104);

								    }

								    $106 = (($$0135158) + 1)|0;

								    $107 = ($106>>>0)<($18>>>0);

								    if ($107) {

								     $$0135158 = $106;

								    } else {

								     break;

								    }

								   }

								  }

								 }

								 $100 = HEAP32[3646]|0;

								 $101 = ($100|0)==(0);

								 if ($101) {

								  $$0134155 = 0;$114 = 0;

								 } else {

								  $102 = HEAP32[3646]|0;

								  $$0136156 = 0;

								  while(1) {

								   $108 = (14588 + ($$0136156<<2)|0);

								   $109 = HEAP32[$108>>2]|0;

								   $110 = ($109|0)==(0|0);

								   if (!($110)) {

								    _InitializePhysicsManifolds($109);

								   }

								   $111 = (($$0136156) + 1)|0;

								   $112 = ($111>>>0)<($102>>>0);

								   if ($112) {

								    $$0136156 = $111;

								   } else {

								    $$0134155$ph = 0;

								    label = 32;

								    break;

								   }

								  }

								 }

								 while(1) {

								  if ((label|0) == 32) {

								   label = 0;

								   $$pr172 = HEAP32[3646]|0;

								   $$0134155 = $$0134155$ph;$114 = $$pr172;

								  }

								  $113 = ($114|0)==(0);

								  if (!($113)) {

								   $115 = (14588 + ($$0134155<<2)|0);

								   $$0133152 = 0;

								   while(1) {

								    $120 = HEAP32[$115>>2]|0;

								    $121 = ($120|0)==(0|0);

								    if (!($121)) {

								     _IntegratePhysicsImpulses($120);

								    }

								    $122 = (($$0133152) + 1)|0;

								    $123 = HEAP32[3646]|0;

								    $124 = ($122>>>0)<($123>>>0);

								    if ($124) {

								     $$0133152 = $122;

								    } else {

								     break;

								    }

								   }

								  }

								  $119 = (($$0134155) + 1)|0;

								  $exitcond = ($119|0)==(100);

								  if ($exitcond) {

								   break;

								  } else {

								   $$0134155$ph = $119;

								   label = 32;

								  }

								 }

								 $116 = HEAP32[3581]|0;

								 $117 = ($116|0)==(0);

								 if (!($117)) {

								  $118 = HEAP32[3581]|0;

								  $$0131150 = 0;

								  while(1) {

								   $128 = (14328 + ($$0131150<<2)|0);

								   $129 = HEAP32[$128>>2]|0;

								   $130 = ($129|0)==(0|0);

								   if (!($130)) {

								    _IntegratePhysicsVelocity($129);

								   }

								   $131 = (($$0131150) + 1)|0;

								   $132 = ($131>>>0)<($118>>>0);

								   if ($132) {

								    $$0131150 = $131;

								   } else {

								    break;

								   }

								  }

								 }

								 $125 = HEAP32[3646]|0;

								 $126 = ($125|0)==(0);

								 if (!($126)) {

								  $127 = HEAP32[3646]|0;

								  $$0129148 = 0;

								  while(1) {

								   $136 = (14588 + ($$0129148<<2)|0);

								   $137 = HEAP32[$136>>2]|0;

								   $138 = ($137|0)==(0|0);

								   if (!($138)) {

								    _CorrectPhysicsPositions($137);

								   }

								   $139 = (($$0129148) + 1)|0;

								   $140 = ($139>>>0)<($127>>>0);

								   if ($140) {

								    $$0129148 = $139;

								   } else {

								    break;

								   }

								  }

								 }

								 $133 = HEAP32[3581]|0;

								 $134 = ($133|0)==(0);

								 if ($134) {

								  return;

								 }

								 $135 = HEAP32[3581]|0;

								 $$0127147 = 0;

								 while(1) {

								  $141 = (14328 + ($$0127147<<2)|0);

								  $142 = HEAP32[$141>>2]|0;

								  $143 = ($142|0)==(0|0);

								  if (!($143)) {

								   $$sroa$0$0$$sroa_idx = ((($142)) + 24|0);

								   HEAPF32[$$sroa$0$0$$sroa_idx>>2] = 0.0;

								   $$sroa$2$0$$sroa_idx1 = ((($142)) + 28|0);

								   HEAPF32[$$sroa$2$0$$sroa_idx1>>2] = 0.0;

								   $144 = ((($142)) + 36|0);

								   HEAPF32[$144>>2] = 0.0;

								  }

								  $145 = (($$0127147) + 1)|0;

								  $146 = ($145>>>0)<($135>>>0);

								  if ($146) {

								   $$0127147 = $145;

								  } else {

								   break;

								  }

								 }

								 return;

								}

								function _DestroyPhysicsManifold($0) {

								 $0 = $0|0;

								 var $$02023 = 0, $$021 = 0, $$022 = 0, $$lcssa = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ($0|0)==(0|0);

								 if ($1) {

								  return;

								 }

								 $2 = HEAP32[$0>>2]|0;

								 $3 = HEAP32[3646]|0;

								 $4 = ($3|0)==(0);

								 L4: do {

								  if ($4) {

								   $$021 = -1;

								  } else {

								   $5 = HEAP32[3646]|0;

								   $$02023 = 0;

								   while(1) {

								    $6 = (14588 + ($$02023<<2)|0);

								    $7 = HEAP32[$6>>2]|0;

								    $8 = HEAP32[$7>>2]|0;

								    $9 = ($8|0)==($2|0);

								    if ($9) {

								     $$021 = $$02023;

								     break L4;

								    }

								    $10 = (($$02023) + 1)|0;

								    $11 = ($10>>>0)<($5>>>0);

								    if ($11) {

								     $$02023 = $10;

								    } else {

								     $$021 = -1;

								     break;

								    }

								   }

								  }

								 } while(0);

								 $12 = (14588 + ($$021<<2)|0);

								 $13 = HEAP32[$12>>2]|0;

								 _free($13);

								 $14 = HEAP32[3580]|0;

								 $15 = (($14) + -56)|0;

								 HEAP32[3580] = $15;

								 HEAP32[$12>>2] = 0;

								 $16 = HEAP32[3646]|0;

								 $17 = ($$021>>>0)<($16>>>0);

								 if ($17) {

								  $18 = HEAP32[3646]|0;

								  $$022 = $$021;$22 = $16;

								  while(1) {

								   $20 = (($$022) + 1)|0;

								   $21 = ($20>>>0)<($22>>>0);

								   if ($21) {

								    $24 = (14588 + ($$022<<2)|0);

								    $25 = (14588 + ($20<<2)|0);

								    $26 = HEAP32[$25>>2]|0;

								    HEAP32[$24>>2] = $26;

								   }

								   $23 = ($20>>>0)<($18>>>0);

								   if ($23) {

								    $$022 = $20;$22 = $18;

								   } else {

								    $$lcssa = $18;

								    break;

								   }

								  }

								 } else {

								  $$lcssa = $16;

								 }

								 $19 = (($$lcssa) + -1)|0;

								 HEAP32[3646] = $19;

								 return;

								}

								function _CreatePhysicsManifold($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$04457 = 0, $$044576162 = 0, $$04755 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0;

								 var $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 $2 = (_malloc(56)|0);

								 $3 = HEAP32[3580]|0;

								 $4 = (($3) + 56)|0;

								 HEAP32[3580] = $4;

								 $5 = HEAP32[3646]|0;

								 $6 = ($5|0)==(0);

								 $$04457 = 0;

								 L1: while(1) {

								  if ($6) {

								   $$044576162 = 0;

								   break;

								  } else {

								   $$04755 = 0;

								  }

								  while(1) {

								   $9 = (14588 + ($$04755<<2)|0);

								   $10 = HEAP32[$9>>2]|0;

								   $11 = HEAP32[$10>>2]|0;

								   $12 = ($11|0)==($$04457|0);

								   $8 = (($$04755) + 1)|0;

								   if ($12) {

								    break;

								   }

								   $7 = ($8>>>0)<($5>>>0);

								   if ($7) {

								    $$04755 = $8;

								   } else {

								    label = 6;

								    break L1;

								   }

								  }

								  $13 = (($$04457) + 1)|0;

								  $14 = ($13|0)<(4096);

								  if ($14) {

								   $$04457 = $13;

								  } else {

								   label = 8;

								   break;

								  }

								 }

								 if ((label|0) == 8) {

								  return ($2|0);

								 }

								 if ((label|0) == 6) {

								  $15 = ($$04457|0)==(-1);

								  if ($15) {

								   return ($2|0);

								  } else {

								   $$044576162 = $$04457;

								  }

								 }

								 HEAP32[$2>>2] = $$044576162;

								 $16 = ((($2)) + 4|0);

								 HEAP32[$16>>2] = $0;

								 $17 = ((($2)) + 8|0);

								 HEAP32[$17>>2] = $1;

								 $18 = ((($2)) + 12|0);

								 dest=$18; stop=dest+44|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 $19 = HEAP32[3646]|0;

								 $20 = (14588 + ($19<<2)|0);

								 HEAP32[$20>>2] = $2;

								 $21 = (($19) + 1)|0;

								 HEAP32[3646] = $21;

								 return ($2|0);

								}

								function _SolvePhysicsManifold($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0.0, $2 = 0, $20 = 0, $21 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 4|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ((($2)) + 84|0);

								 $4 = HEAP32[$3>>2]|0;

								 L1: do {

								  switch ($4|0) {

								  case 0:  {

								   $5 = ((($0)) + 8|0);

								   $6 = HEAP32[$5>>2]|0;

								   $7 = ((($6)) + 84|0);

								   $8 = HEAP32[$7>>2]|0;

								   switch ($8|0) {

								   case 0:  {

								    _SolveCircleToCircle($0);

								    break L1;

								    break;

								   }

								   case 1:  {

								    _SolveCircleToPolygon($0);

								    break L1;

								    break;

								   }

								   default: {

								    break L1;

								   }

								   }

								   break;

								  }

								  case 1:  {

								   $9 = ((($0)) + 8|0);

								   $10 = HEAP32[$9>>2]|0;

								   $11 = ((($10)) + 84|0);

								   $12 = HEAP32[$11>>2]|0;

								   switch ($12|0) {

								   case 0:  {

								    _SolvePolygonToCircle($0);

								    break L1;

								    break;

								   }

								   case 1:  {

								    _SolvePolygonToPolygon($0);

								    break L1;

								    break;

								   }

								   default: {

								    break L1;

								   }

								   }

								   break;

								  }

								  default: {

								  }

								  }

								 } while(0);

								 $13 = ((($0)) + 8|0);

								 $14 = HEAP32[$13>>2]|0;

								 $15 = ((($14)) + 76|0);

								 $16 = HEAP32[$15>>2]|0;

								 $17 = ($16|0)==(0);

								 if (!($17)) {

								  return;

								 }

								 $18 = ((($0)) + 20|0);

								 $19 = +HEAPF32[$18>>2];

								 $20 = $19 < 0.0;

								 $21 = $20&1;

								 HEAP32[$15>>2] = $21;

								 return;

								}

								function _IntegratePhysicsForces($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0.0, $14 = 0, $15 = 0.0, $16 = 0.0, $17 = 0.0, $18 = 0.0, $19 = 0, $2 = 0.0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0.0, $24 = 0, $25 = 0.0, $26 = 0.0, $27 = 0.0;

								 var $28 = 0.0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0.0, $33 = 0.0, $34 = 0.0, $35 = 0.0, $36 = 0.0, $37 = 0.0, $38 = 0.0, $39 = 0.0, $4 = 0, $40 = 0.0, $41 = 0.0, $42 = 0.0, $43 = 0.0, $44 = 0.0, $45 = 0.0;

								 var $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0.0, $51 = 0, $52 = 0.0, $53 = 0.0, $54 = 0.0, $55 = 0.0, $56 = 0, $57 = 0.0, $58 = 0.0, $59 = 0.0, $6 = 0, $60 = 0.0, $7 = 0, $8 = 0.0, $9 = 0.0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 56|0);

								 $2 = +HEAPF32[$1>>2];

								 $3 = $2 == 0.0;

								 if ($3) {

								  return;

								 }

								 $4 = ((($0)) + 4|0);

								 $5 = HEAP32[$4>>2]|0;

								 $6 = ($5|0)==(0);

								 if ($6) {

								  return;

								 }

								 $7 = ((($0)) + 24|0);

								 $8 = +HEAPF32[$7>>2];

								 $9 = $2 * $8;

								 $10 = $9;

								 $11 = +HEAPF64[1754];

								 $12 = $11 * 0.5;

								 $13 = $10 * $12;

								 $14 = ((($0)) + 16|0);

								 $15 = +HEAPF32[$14>>2];

								 $16 = $15;

								 $17 = $16 + $13;

								 $18 = $17;

								 HEAPF32[$14>>2] = $18;

								 $19 = ((($0)) + 28|0);

								 $20 = +HEAPF32[$19>>2];

								 $21 = $2 * $20;

								 $22 = $21;

								 $23 = $12 * $22;

								 $24 = ((($0)) + 20|0);

								 $25 = +HEAPF32[$24>>2];

								 $26 = $25;

								 $27 = $26 + $23;

								 $28 = $27;

								 HEAPF32[$24>>2] = $28;

								 $29 = ((($0)) + 72|0);

								 $30 = HEAP32[$29>>2]|0;

								 $31 = ($30|0)==(0);

								 if (!($31)) {

								  $32 = +HEAPF32[7747];

								  $33 = $32;

								  $34 = $12 * $33;

								  $35 = +HEAPF32[$14>>2];

								  $36 = $35;

								  $37 = $36 + $34;

								  $38 = $37;

								  HEAPF32[$14>>2] = $38;

								  $39 = +HEAPF32[5];

								  $40 = $39;

								  $41 = $12 * $40;

								  $42 = +HEAPF32[$24>>2];

								  $43 = $42;

								  $44 = $43 + $41;

								  $45 = $44;

								  HEAPF32[$24>>2] = $45;

								 }

								 $46 = ((($0)) + 80|0);

								 $47 = HEAP32[$46>>2]|0;

								 $48 = ($47|0)==(0);

								 if (!($48)) {

								  return;

								 }

								 $49 = ((($0)) + 36|0);

								 $50 = +HEAPF32[$49>>2];

								 $51 = ((($0)) + 48|0);

								 $52 = +HEAPF32[$51>>2];

								 $53 = $50 * $52;

								 $54 = $53;

								 $55 = $12 * $54;

								 $56 = ((($0)) + 32|0);

								 $57 = +HEAPF32[$56>>2];

								 $58 = $57;

								 $59 = $58 + $55;

								 $60 = $59;

								 HEAPF32[$56>>2] = $60;

								 return;

								}

								function _InitializePhysicsManifolds($0) {

								 $0 = $0|0;

								 var $$byval_copy14 = 0, $$byval_copy9 = 0, $1 = 0, $10 = 0, $11 = 0.0, $12 = 0, $13 = 0.0, $14 = 0.0, $15 = 0.0, $16 = 0, $17 = 0, $18 = 0.0, $19 = 0, $2 = 0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0, $24 = 0, $25 = 0.0;

								 var $26 = 0, $27 = 0.0, $28 = 0.0, $29 = 0.0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0.0, $43 = 0.0;

								 var $44 = 0.0, $45 = 0.0, $46 = 0.0, $47 = 0, $48 = 0.0, $49 = 0.0, $5 = 0, $50 = 0.0, $51 = 0.0, $52 = 0, $53 = 0.0, $54 = 0.0, $55 = 0.0, $56 = 0.0, $57 = 0.0, $58 = 0.0, $59 = 0.0, $6 = 0, $60 = 0.0, $61 = 0.0;

								 var $62 = 0.0, $63 = 0.0, $64 = 0.0, $65 = 0.0, $66 = 0.0, $67 = 0.0, $68 = 0.0, $69 = 0.0, $7 = 0, $70 = 0.0, $71 = 0.0, $72 = 0, $73 = 0, $74 = 0.0, $75 = 0.0, $76 = 0.0, $77 = 0.0, $78 = 0.0, $79 = 0.0, $8 = 0;

								 var $80 = 0.0, $81 = 0.0, $82 = 0.0, $83 = 0.0, $84 = 0.0, $85 = 0.0, $86 = 0.0, $87 = 0.0, $88 = 0.0, $89 = 0.0, $9 = 0, $90 = 0.0, $91 = 0.0, $92 = 0.0, $93 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $$byval_copy14 = sp + 48|0;

								 $$byval_copy9 = sp + 40|0;

								 $1 = sp + 24|0;

								 $2 = sp + 16|0;

								 $3 = sp + 8|0;

								 $4 = sp;

								 $5 = sp + 32|0;

								 $6 = ((($0)) + 4|0);

								 $7 = HEAP32[$6>>2]|0;

								 $8 = ((($0)) + 8|0);

								 $9 = HEAP32[$8>>2]|0;

								 $10 = ((($7)) + 68|0);

								 $11 = +HEAPF32[$10>>2];

								 $12 = ((($9)) + 68|0);

								 $13 = +HEAPF32[$12>>2];

								 $14 = $11 * $13;

								 $15 = (+Math_sqrt((+$14)));

								 $16 = ((($0)) + 44|0);

								 HEAPF32[$16>>2] = $15;

								 $17 = ((($7)) + 60|0);

								 $18 = +HEAPF32[$17>>2];

								 $19 = ((($9)) + 60|0);

								 $20 = +HEAPF32[$19>>2];

								 $21 = $18 * $20;

								 $22 = (+Math_sqrt((+$21)));

								 $23 = ((($0)) + 52|0);

								 HEAPF32[$23>>2] = $22;

								 $24 = ((($7)) + 64|0);

								 $25 = +HEAPF32[$24>>2];

								 $26 = ((($9)) + 64|0);

								 $27 = +HEAPF32[$26>>2];

								 $28 = $25 * $27;

								 $29 = (+Math_sqrt((+$28)));

								 $30 = ((($0)) + 48|0);

								 HEAPF32[$30>>2] = $29;

								 $31 = ((($7)) + 8|0);

								 $32 = ((($9)) + 8|0);

								 $33 = ((($7)) + 32|0);

								 $34 = ((($9)) + 32|0);

								 $35 = ((($9)) + 16|0);

								 $36 = ((($7)) + 16|0);

								 $37 = ((($9)) + 20|0);

								 $38 = ((($3)) + 4|0);

								 $39 = ((($7)) + 20|0);

								 $40 = ((($$byval_copy9)) + 4|0);

								 $41 = ((($4)) + 4|0);

								 $42 = +HEAPF32[7747];

								 $43 = $42;

								 $44 = +HEAPF64[1754];

								 $45 = $43 * $44;

								 $46 = $45;

								 $47 = ((($5)) + 4|0);

								 $48 = +HEAPF32[5];

								 $49 = $48;

								 $50 = $49 * $44;

								 $51 = $50;

								 $52 = ((($0)) + 24|0);

								 ;HEAP32[$$byval_copy9>>2]=HEAP32[$52>>2]|0;HEAP32[$$byval_copy9+4>>2]=HEAP32[$52+4>>2]|0;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$31>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$31+4>>2]|0;

								 _Vector2Subtract_4($1,$$byval_copy9,$$byval_copy14);

								 ;HEAP32[$$byval_copy9>>2]=HEAP32[$52>>2]|0;HEAP32[$$byval_copy9+4>>2]=HEAP32[$52+4>>2]|0;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$32>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$32+4>>2]|0;

								 _Vector2Subtract_4($2,$$byval_copy9,$$byval_copy14);

								 $53 = +HEAPF32[$33>>2];

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$1+4>>2]|0;

								 _MathCross($$byval_copy9,$53,$$byval_copy14);

								 $54 = +HEAPF32[$34>>2];

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$2+4>>2]|0;

								 _MathCross($3,$54,$$byval_copy14);

								 $55 = +HEAPF32[$35>>2];

								 $56 = +HEAPF32[$3>>2];

								 $57 = $55 + $56;

								 $58 = +HEAPF32[$36>>2];

								 $59 = $57 - $58;

								 $60 = +HEAPF32[$$byval_copy9>>2];

								 $61 = $59 - $60;

								 HEAPF32[$4>>2] = $61;

								 $62 = +HEAPF32[$37>>2];

								 $63 = +HEAPF32[$38>>2];

								 $64 = $62 + $63;

								 $65 = +HEAPF32[$39>>2];

								 $66 = $64 - $65;

								 $67 = +HEAPF32[$40>>2];

								 $68 = $66 - $67;

								 HEAPF32[$41>>2] = $68;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$4>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$4+4>>2]|0;

								 $69 = (+_MathLenSqr($$byval_copy14));

								 HEAPF32[$5>>2] = $46;

								 HEAPF32[$47>>2] = $51;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$5>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$5+4>>2]|0;

								 $70 = (+_MathLenSqr($$byval_copy14));

								 $71 = $70 + 9.9999999747524271E-7;

								 $72 = $69 < $71;

								 if ($72) {

								  HEAPF32[$16>>2] = 0.0;

								 }

								 $73 = ((($0)) + 32|0);

								 ;HEAP32[$$byval_copy9>>2]=HEAP32[$73>>2]|0;HEAP32[$$byval_copy9+4>>2]=HEAP32[$73+4>>2]|0;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$31>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$31+4>>2]|0;

								 _Vector2Subtract_4($1,$$byval_copy9,$$byval_copy14);

								 ;HEAP32[$$byval_copy9>>2]=HEAP32[$73>>2]|0;HEAP32[$$byval_copy9+4>>2]=HEAP32[$73+4>>2]|0;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$32>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$32+4>>2]|0;

								 _Vector2Subtract_4($2,$$byval_copy9,$$byval_copy14);

								 $74 = +HEAPF32[$33>>2];

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$1+4>>2]|0;

								 _MathCross($$byval_copy9,$74,$$byval_copy14);

								 $75 = +HEAPF32[$34>>2];

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$2+4>>2]|0;

								 _MathCross($3,$75,$$byval_copy14);

								 $76 = +HEAPF32[$35>>2];

								 $77 = +HEAPF32[$3>>2];

								 $78 = $76 + $77;

								 $79 = +HEAPF32[$36>>2];

								 $80 = $78 - $79;

								 $81 = +HEAPF32[$$byval_copy9>>2];

								 $82 = $80 - $81;

								 HEAPF32[$4>>2] = $82;

								 $83 = +HEAPF32[$37>>2];

								 $84 = +HEAPF32[$38>>2];

								 $85 = $83 + $84;

								 $86 = +HEAPF32[$39>>2];

								 $87 = $85 - $86;

								 $88 = +HEAPF32[$40>>2];

								 $89 = $87 - $88;

								 HEAPF32[$41>>2] = $89;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$4>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$4+4>>2]|0;

								 $90 = (+_MathLenSqr($$byval_copy14));

								 HEAPF32[$5>>2] = $46;

								 HEAPF32[$47>>2] = $51;

								 ;HEAP32[$$byval_copy14>>2]=HEAP32[$5>>2]|0;HEAP32[$$byval_copy14+4>>2]=HEAP32[$5+4>>2]|0;

								 $91 = (+_MathLenSqr($$byval_copy14));

								 $92 = $91 + 9.9999999747524271E-7;

								 $93 = $90 < $92;

								 if (!($93)) {

								  STACKTOP = sp;return;

								 }

								 HEAPF32[$16>>2] = 0.0;

								 STACKTOP = sp;return;

								}

								function _IntegratePhysicsImpulses($0) {

								 $0 = $0|0;

								 var $$0 = 0, $$0135139 = 0, $$1 = 0, $$byval_copy29 = 0, $$sink = 0.0, $$sink138 = 0.0, $$sroa$047$0$$sroa_idx = 0, $$sroa$050$0$$sroa_idx = 0, $$sroa$2$0$$sroa_idx2 = 0, $$sroa$248$0$$sroa_idx49 = 0, $$sroa$251$0$$sroa_idx52 = 0, $1 = 0, $10 = 0, $100 = 0.0, $101 = 0.0, $102 = 0, $103 = 0.0, $104 = 0.0, $105 = 0.0, $106 = 0.0;

								 var $107 = 0.0, $108 = 0.0, $109 = 0, $11 = 0, $110 = 0, $111 = 0.0, $112 = 0.0, $113 = 0.0, $114 = 0.0, $115 = 0.0, $116 = 0.0, $117 = 0.0, $118 = 0.0, $119 = 0.0, $12 = 0, $120 = 0, $121 = 0, $122 = 0.0, $123 = 0.0, $124 = 0.0;

								 var $125 = 0.0, $126 = 0.0, $127 = 0.0, $128 = 0.0, $129 = 0.0, $13 = 0, $130 = 0.0, $131 = 0, $132 = 0, $133 = 0.0, $134 = 0.0, $135 = 0.0, $136 = 0.0, $137 = 0.0, $138 = 0.0, $139 = 0.0, $14 = 0, $140 = 0.0, $141 = 0.0, $142 = 0;

								 var $143 = 0, $144 = 0.0, $145 = 0.0, $146 = 0.0, $147 = 0.0, $148 = 0.0, $149 = 0.0, $15 = 0, $150 = 0.0, $151 = 0.0, $152 = 0.0, $153 = 0.0, $154 = 0.0, $155 = 0.0, $156 = 0.0, $157 = 0.0, $158 = 0.0, $159 = 0.0, $16 = 0, $160 = 0.0;

								 var $161 = 0.0, $162 = 0.0, $163 = 0.0, $164 = 0.0, $165 = 0.0, $166 = 0.0, $167 = 0.0, $168 = 0.0, $169 = 0.0, $17 = 0, $170 = 0.0, $171 = 0.0, $172 = 0.0, $173 = 0.0, $174 = 0.0, $175 = 0.0, $176 = 0.0, $177 = 0.0, $178 = 0.0, $179 = 0.0;

								 var $18 = 0, $180 = 0, $181 = 0.0, $182 = 0.0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0.0, $189 = 0.0, $19 = 0, $190 = 0, $191 = 0.0, $192 = 0.0, $193 = 0.0, $194 = 0.0, $195 = 0.0, $196 = 0.0, $197 = 0.0;

								 var $198 = 0.0, $199 = 0.0, $2 = 0, $20 = 0, $200 = 0.0, $201 = 0, $202 = 0, $203 = 0.0, $204 = 0.0, $205 = 0.0, $206 = 0.0, $207 = 0.0, $208 = 0.0, $209 = 0.0, $21 = 0, $210 = 0.0, $211 = 0.0, $212 = 0, $213 = 0, $214 = 0.0;

								 var $215 = 0.0, $216 = 0.0, $217 = 0.0, $218 = 0.0, $219 = 0.0, $22 = 0.0, $220 = 0.0, $221 = 0.0, $222 = 0.0, $223 = 0, $224 = 0, $225 = 0.0, $226 = 0.0, $227 = 0.0, $228 = 0.0, $229 = 0.0, $23 = 0, $230 = 0.0, $231 = 0.0, $232 = 0.0;

								 var $233 = 0.0, $234 = 0, $235 = 0, $236 = 0.0, $237 = 0.0, $238 = 0.0, $239 = 0.0, $24 = 0.0, $240 = 0.0, $25 = 0.0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0;

								 var $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0;

								 var $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0.0, $65 = 0.0, $66 = 0.0, $67 = 0.0, $68 = 0.0, $69 = 0.0, $7 = 0, $70 = 0.0;

								 var $71 = 0.0, $72 = 0.0, $73 = 0.0, $74 = 0.0, $75 = 0.0, $76 = 0.0, $77 = 0.0, $78 = 0.0, $79 = 0.0, $8 = 0, $80 = 0.0, $81 = 0.0, $82 = 0.0, $83 = 0, $84 = 0.0, $85 = 0.0, $86 = 0.0, $87 = 0.0, $88 = 0.0, $89 = 0.0;

								 var $9 = 0, $90 = 0.0, $91 = 0.0, $92 = 0.0, $93 = 0.0, $94 = 0.0, $95 = 0.0, $96 = 0.0, $97 = 0.0, $98 = 0.0, $99 = 0.0, $cond1 = 0, $fabsf = 0.0, $fabsf136 = 0.0, $tmpcast137$byval_copy = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 144|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(144|0);

								 $tmpcast137$byval_copy = sp + 136|0;

								 $$byval_copy29 = sp + 128|0;

								 $1 = sp + 40|0;

								 $2 = sp + 32|0;

								 $3 = sp + 8|0;

								 $4 = sp + 120|0;

								 $5 = sp + 112|0;

								 $6 = sp + 104|0;

								 $7 = sp + 96|0;

								 $8 = sp + 24|0;

								 $9 = sp + 88|0;

								 $10 = sp + 80|0;

								 $11 = sp + 72|0;

								 $12 = sp + 64|0;

								 $13 = sp + 56|0;

								 $14 = sp + 16|0;

								 $15 = sp;

								 $16 = sp + 48|0;

								 $17 = ((($0)) + 4|0);

								 $18 = HEAP32[$17>>2]|0;

								 $19 = ((($0)) + 8|0);

								 $20 = HEAP32[$19>>2]|0;

								 $21 = ((($18)) + 56|0);

								 $22 = +HEAPF32[$21>>2];

								 $23 = ((($20)) + 56|0);

								 $24 = +HEAPF32[$23>>2];

								 $25 = $22 + $24;

								 $fabsf = (+Math_abs((+$25)));

								 $26 = !($fabsf <= 9.9999999747524271E-7);

								 if (!($26)) {

								  $$sroa$050$0$$sroa_idx = ((($18)) + 16|0);

								  HEAPF32[$$sroa$050$0$$sroa_idx>>2] = 0.0;

								  $$sroa$251$0$$sroa_idx52 = ((($18)) + 20|0);

								  HEAPF32[$$sroa$251$0$$sroa_idx52>>2] = 0.0;

								  $$sroa$047$0$$sroa_idx = ((($20)) + 16|0);

								  HEAPF32[$$sroa$047$0$$sroa_idx>>2] = 0.0;

								  $$sroa$248$0$$sroa_idx49 = ((($20)) + 20|0);

								  HEAPF32[$$sroa$248$0$$sroa_idx49>>2] = 0.0;

								  STACKTOP = sp;return;

								 }

								 $27 = ((($0)) + 40|0);

								 $28 = HEAP32[$27>>2]|0;

								 $29 = ($28|0)==(0);

								 if ($29) {

								  STACKTOP = sp;return;

								 }

								 $30 = ((($18)) + 8|0);

								 $31 = ((($20)) + 8|0);

								 $32 = ((($20)) + 16|0);

								 $33 = ((($20)) + 32|0);

								 $34 = ((($18)) + 16|0);

								 $35 = ((($18)) + 32|0);

								 $36 = ((($20)) + 20|0);

								 $37 = ((($6)) + 4|0);

								 $38 = ((($18)) + 20|0);

								 $39 = ((($7)) + 4|0);

								 $40 = ((($3)) + 4|0);

								 $41 = ((($0)) + 16|0);

								 $42 = ((($18)) + 48|0);

								 $43 = ((($20)) + 48|0);

								 $44 = ((($0)) + 44|0);

								 $45 = ((($8)) + 4|0);

								 $46 = ((($0)) + 20|0);

								 $47 = ((($18)) + 4|0);

								 $48 = ((($20)) + 4|0);

								 $49 = ((($12)) + 4|0);

								 $50 = ((($13)) + 4|0);

								 $51 = ((($14)) + 4|0);

								 $52 = ((($0)) + 52|0);

								 $$sroa$2$0$$sroa_idx2 = ((($15)) + 4|0);

								 $53 = ((($20)) + 80|0);

								 $54 = ((($18)) + 80|0);

								 $55 = ((($16)) + 4|0);

								 $56 = ((($0)) + 48|0);

								 $57 = ((($20)) + 80|0);

								 $58 = ((($18)) + 80|0);

								 $59 = ((($9)) + 4|0);

								 $$0135139 = 0;

								 while(1) {

								  $63 = (((($0)) + 24|0) + ($$0135139<<3)|0);

								  ;HEAP32[$$byval_copy29>>2]=HEAP32[$63>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$63+4>>2]|0;

								  ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$30>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$30+4>>2]|0;

								  _Vector2Subtract_4($1,$$byval_copy29,$tmpcast137$byval_copy);

								  ;HEAP32[$$byval_copy29>>2]=HEAP32[$63>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$63+4>>2]|0;

								  ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$31>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$31+4>>2]|0;

								  _Vector2Subtract_4($2,$$byval_copy29,$tmpcast137$byval_copy);

								  $64 = +HEAPF32[$32>>2];

								  $65 = +HEAPF32[$33>>2];

								  ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$2>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$2+4>>2]|0;

								  _MathCross($4,$65,$tmpcast137$byval_copy);

								  $66 = +HEAPF32[$4>>2];

								  $67 = $64 + $66;

								  $68 = +HEAPF32[$34>>2];

								  $69 = $67 - $68;

								  $70 = +HEAPF32[$35>>2];

								  ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$1>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$1+4>>2]|0;

								  _MathCross($5,$70,$tmpcast137$byval_copy);

								  $71 = +HEAPF32[$5>>2];

								  $72 = $69 - $71;

								  HEAPF32[$3>>2] = $72;

								  $73 = +HEAPF32[$36>>2];

								  $74 = +HEAPF32[$33>>2];

								  ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$2>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$2+4>>2]|0;

								  _MathCross($6,$74,$tmpcast137$byval_copy);

								  $75 = +HEAPF32[$37>>2];

								  $76 = $73 + $75;

								  $77 = +HEAPF32[$38>>2];

								  $78 = $76 - $77;

								  $79 = +HEAPF32[$35>>2];

								  ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$1>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$1+4>>2]|0;

								  _MathCross($7,$79,$tmpcast137$byval_copy);

								  $80 = +HEAPF32[$39>>2];

								  $81 = $78 - $80;

								  HEAPF32[$40>>2] = $81;

								  ;HEAP32[$$byval_copy29>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$3+4>>2]|0;

								  ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$41>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$41+4>>2]|0;

								  $82 = (+_MathDot($$byval_copy29,$tmpcast137$byval_copy));

								  $83 = $82 > 0.0;

								  if ($83) {

								   $$1 = 1;

								  } else {

								   ;HEAP32[$$byval_copy29>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$1+4>>2]|0;

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$41>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$41+4>>2]|0;

								   $84 = (+_MathCrossVector2($$byval_copy29,$tmpcast137$byval_copy));

								   ;HEAP32[$$byval_copy29>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$2+4>>2]|0;

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$41>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$41+4>>2]|0;

								   $85 = (+_MathCrossVector2($$byval_copy29,$tmpcast137$byval_copy));

								   $86 = +HEAPF32[$21>>2];

								   $87 = +HEAPF32[$23>>2];

								   $88 = $86 + $87;

								   $89 = $84 * $84;

								   $90 = +HEAPF32[$42>>2];

								   $91 = $89 * $90;

								   $92 = $88 + $91;

								   $93 = $85 * $85;

								   $94 = +HEAPF32[$43>>2];

								   $95 = $93 * $94;

								   $96 = $92 + $95;

								   $97 = +HEAPF32[$44>>2];

								   $98 = $97 + 1.0;

								   $99 = $82 * $98;

								   $100 = -$99;

								   $101 = $100 / $96;

								   $102 = HEAP32[$27>>2]|0;

								   $103 = (+($102>>>0));

								   $104 = $101 / $103;

								   $105 = +HEAPF32[$41>>2];

								   $106 = $105 * $104;

								   HEAPF32[$8>>2] = $106;

								   $107 = +HEAPF32[$46>>2];

								   $108 = $104 * $107;

								   HEAPF32[$45>>2] = $108;

								   $109 = HEAP32[$47>>2]|0;

								   $110 = ($109|0)==(0);

								   if (!($110)) {

								    $111 = +HEAPF32[$21>>2];

								    $112 = +HEAPF32[$8>>2];

								    $113 = $111 * $112;

								    $114 = +HEAPF32[$34>>2];

								    $115 = $114 - $113;

								    HEAPF32[$34>>2] = $115;

								    $116 = +HEAPF32[$45>>2];

								    $117 = $111 * $116;

								    $118 = +HEAPF32[$38>>2];

								    $119 = $118 - $117;

								    HEAPF32[$38>>2] = $119;

								    $120 = HEAP32[$58>>2]|0;

								    $121 = ($120|0)==(0);

								    if ($121) {

								     $122 = +HEAPF32[$42>>2];

								     $123 = +HEAPF32[$8>>2];

								     $124 = -$123;

								     HEAPF32[$9>>2] = $124;

								     $125 = +HEAPF32[$45>>2];

								     $126 = -$125;

								     HEAPF32[$59>>2] = $126;

								     ;HEAP32[$$byval_copy29>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$1+4>>2]|0;

								     ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$9>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$9+4>>2]|0;

								     $127 = (+_MathCrossVector2($$byval_copy29,$tmpcast137$byval_copy));

								     $128 = $122 * $127;

								     $129 = +HEAPF32[$35>>2];

								     $130 = $129 + $128;

								     HEAPF32[$35>>2] = $130;

								    }

								   }

								   $131 = HEAP32[$48>>2]|0;

								   $132 = ($131|0)==(0);

								   if (!($132)) {

								    $133 = +HEAPF32[$23>>2];

								    $134 = +HEAPF32[$8>>2];

								    $135 = $133 * $134;

								    $136 = +HEAPF32[$32>>2];

								    $137 = $136 + $135;

								    HEAPF32[$32>>2] = $137;

								    $138 = +HEAPF32[$45>>2];

								    $139 = $133 * $138;

								    $140 = +HEAPF32[$36>>2];

								    $141 = $140 + $139;

								    HEAPF32[$36>>2] = $141;

								    $142 = HEAP32[$57>>2]|0;

								    $143 = ($142|0)==(0);

								    if ($143) {

								     $144 = +HEAPF32[$43>>2];

								     ;HEAP32[$$byval_copy29>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$2+4>>2]|0;

								     ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$8>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$8+4>>2]|0;

								     $145 = (+_MathCrossVector2($$byval_copy29,$tmpcast137$byval_copy));

								     $146 = $144 * $145;

								     $147 = +HEAPF32[$33>>2];

								     $148 = $147 + $146;

								     HEAPF32[$33>>2] = $148;

								    }

								   }

								   $149 = +HEAPF32[$32>>2];

								   $150 = +HEAPF32[$33>>2];

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$2>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$2+4>>2]|0;

								   _MathCross($10,$150,$tmpcast137$byval_copy);

								   $151 = +HEAPF32[$10>>2];

								   $152 = $149 + $151;

								   $153 = +HEAPF32[$34>>2];

								   $154 = $152 - $153;

								   $155 = +HEAPF32[$35>>2];

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$1>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$1+4>>2]|0;

								   _MathCross($11,$155,$tmpcast137$byval_copy);

								   $156 = +HEAPF32[$11>>2];

								   $157 = $154 - $156;

								   HEAPF32[$3>>2] = $157;

								   $158 = +HEAPF32[$36>>2];

								   $159 = +HEAPF32[$33>>2];

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$2>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$2+4>>2]|0;

								   _MathCross($12,$159,$tmpcast137$byval_copy);

								   $160 = +HEAPF32[$49>>2];

								   $161 = $158 + $160;

								   $162 = +HEAPF32[$38>>2];

								   $163 = $161 - $162;

								   $164 = +HEAPF32[$35>>2];

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$1>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$1+4>>2]|0;

								   _MathCross($13,$164,$tmpcast137$byval_copy);

								   $165 = +HEAPF32[$50>>2];

								   $166 = $163 - $165;

								   HEAPF32[$40>>2] = $166;

								   $167 = +HEAPF32[$3>>2];

								   $168 = +HEAPF32[$41>>2];

								   ;HEAP32[$$byval_copy29>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$3+4>>2]|0;

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$41>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$41+4>>2]|0;

								   $169 = (+_MathDot($$byval_copy29,$tmpcast137$byval_copy));

								   $170 = $168 * $169;

								   $171 = $167 - $170;

								   HEAPF32[$14>>2] = $171;

								   $172 = +HEAPF32[$40>>2];

								   $173 = +HEAPF32[$46>>2];

								   ;HEAP32[$$byval_copy29>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$3+4>>2]|0;

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$41>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$41+4>>2]|0;

								   $174 = (+_MathDot($$byval_copy29,$tmpcast137$byval_copy));

								   $175 = $173 * $174;

								   $176 = $172 - $175;

								   HEAPF32[$51>>2] = $176;

								   _MathNormalize($14);

								   ;HEAP32[$$byval_copy29>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$3+4>>2]|0;

								   ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$14>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$14+4>>2]|0;

								   $177 = (+_MathDot($$byval_copy29,$tmpcast137$byval_copy));

								   $178 = -$177;

								   $179 = $178 / $96;

								   $180 = HEAP32[$27>>2]|0;

								   $181 = (+($180>>>0));

								   $182 = $179 / $181;

								   $fabsf136 = (+Math_abs((+$182)));

								   $183 = !($fabsf136 <= 9.9999999747524271E-7);

								   if ($183) {

								    $184 = $15;

								    $185 = $184;

								    HEAP32[$185>>2] = 0;

								    $186 = (($184) + 4)|0;

								    $187 = $186;

								    HEAP32[$187>>2] = 0;

								    $188 = +HEAPF32[$52>>2];

								    $189 = $104 * $188;

								    $190 = $fabsf136 < $189;

								    $191 = +HEAPF32[$14>>2];

								    $192 = +HEAPF32[$51>>2];

								    if ($190) {

								     $193 = $182 * $191;

								     $194 = $182 * $192;

								     $$sink = $194;$$sink138 = $193;

								    } else {

								     $195 = -$104;

								     $196 = $191 * $195;

								     $197 = +HEAPF32[$56>>2];

								     $198 = $196 * $197;

								     $199 = $192 * $195;

								     $200 = $199 * $197;

								     $$sink = $200;$$sink138 = $198;

								    }

								    HEAPF32[$15>>2] = $$sink138;

								    HEAPF32[$$sroa$2$0$$sroa_idx2>>2] = $$sink;

								    $201 = HEAP32[$47>>2]|0;

								    $202 = ($201|0)==(0);

								    if (!($202)) {

								     $203 = +HEAPF32[$21>>2];

								     $204 = +HEAPF32[$15>>2];

								     $205 = $203 * $204;

								     $206 = +HEAPF32[$34>>2];

								     $207 = $206 - $205;

								     HEAPF32[$34>>2] = $207;

								     $208 = +HEAPF32[$$sroa$2$0$$sroa_idx2>>2];

								     $209 = $203 * $208;

								     $210 = +HEAPF32[$38>>2];

								     $211 = $210 - $209;

								     HEAPF32[$38>>2] = $211;

								     $212 = HEAP32[$54>>2]|0;

								     $213 = ($212|0)==(0);

								     if ($213) {

								      $214 = +HEAPF32[$42>>2];

								      $215 = +HEAPF32[$15>>2];

								      $216 = -$215;

								      HEAPF32[$16>>2] = $216;

								      $217 = +HEAPF32[$$sroa$2$0$$sroa_idx2>>2];

								      $218 = -$217;

								      HEAPF32[$55>>2] = $218;

								      ;HEAP32[$$byval_copy29>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$1+4>>2]|0;

								      ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$16>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$16+4>>2]|0;

								      $219 = (+_MathCrossVector2($$byval_copy29,$tmpcast137$byval_copy));

								      $220 = $214 * $219;

								      $221 = +HEAPF32[$35>>2];

								      $222 = $221 + $220;

								      HEAPF32[$35>>2] = $222;

								     }

								    }

								    $223 = HEAP32[$48>>2]|0;

								    $224 = ($223|0)==(0);

								    if (!($224)) {

								     $225 = +HEAPF32[$23>>2];

								     $226 = +HEAPF32[$15>>2];

								     $227 = $225 * $226;

								     $228 = +HEAPF32[$32>>2];

								     $229 = $228 + $227;

								     HEAPF32[$32>>2] = $229;

								     $230 = +HEAPF32[$$sroa$2$0$$sroa_idx2>>2];

								     $231 = $225 * $230;

								     $232 = +HEAPF32[$36>>2];

								     $233 = $232 + $231;

								     HEAPF32[$36>>2] = $233;

								     $234 = HEAP32[$53>>2]|0;

								     $235 = ($234|0)==(0);

								     if ($235) {

								      $236 = +HEAPF32[$43>>2];

								      ;HEAP32[$$byval_copy29>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy29+4>>2]=HEAP32[$2+4>>2]|0;

								      ;HEAP32[$tmpcast137$byval_copy>>2]=HEAP32[$15>>2]|0;HEAP32[$tmpcast137$byval_copy+4>>2]=HEAP32[$15+4>>2]|0;

								      $237 = (+_MathCrossVector2($$byval_copy29,$tmpcast137$byval_copy));

								      $238 = $236 * $237;

								      $239 = +HEAPF32[$33>>2];

								      $240 = $239 + $238;

								      HEAPF32[$33>>2] = $240;

								     }

								    }

								    $$0 = 0;

								   } else {

								    $$0 = 1;

								   }

								   $$1 = $$0;

								  }

								  $cond1 = ($$1|0)==(0);

								  $62 = (($$0135139) + 1)|0;

								  if (!($cond1)) {

								   label = 26;

								   break;

								  }

								  $60 = HEAP32[$27>>2]|0;

								  $61 = ($62>>>0)<($60>>>0);

								  if ($61) {

								   $$0135139 = $62;

								  } else {

								   label = 26;

								   break;

								  }

								 }

								 if ((label|0) == 26) {

								  STACKTOP = sp;return;

								 }

								}

								function _IntegratePhysicsVelocity($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0.0, $14 = 0, $15 = 0.0, $16 = 0.0, $17 = 0.0, $18 = 0, $19 = 0.0, $2 = 0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0.0;

								 var $28 = 0.0, $29 = 0.0, $3 = 0, $30 = 0, $31 = 0.0, $32 = 0.0, $33 = 0.0, $34 = 0.0, $35 = 0, $36 = 0, $37 = 0.0, $4 = 0, $5 = 0.0, $6 = 0.0, $7 = 0.0, $8 = 0.0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 4|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ($2|0)==(0);

								 if ($3) {

								  return;

								 }

								 $4 = ((($0)) + 16|0);

								 $5 = +HEAPF32[$4>>2];

								 $6 = $5;

								 $7 = +HEAPF64[1754];

								 $8 = $6 * $7;

								 $9 = ((($0)) + 8|0);

								 $10 = +HEAPF32[$9>>2];

								 $11 = $10;

								 $12 = $8 + $11;

								 $13 = $12;

								 HEAPF32[$9>>2] = $13;

								 $14 = ((($0)) + 20|0);

								 $15 = +HEAPF32[$14>>2];

								 $16 = $15;

								 $17 = $7 * $16;

								 $18 = ((($0)) + 12|0);

								 $19 = +HEAPF32[$18>>2];

								 $20 = $19;

								 $21 = $20 + $17;

								 $22 = $21;

								 HEAPF32[$18>>2] = $22;

								 $23 = ((($0)) + 80|0);

								 $24 = HEAP32[$23>>2]|0;

								 $25 = ($24|0)==(0);

								 if ($25) {

								  $26 = ((($0)) + 32|0);

								  $27 = +HEAPF32[$26>>2];

								  $28 = $27;

								  $29 = $7 * $28;

								  $30 = ((($0)) + 40|0);

								  $31 = +HEAPF32[$30>>2];

								  $32 = $31;

								  $33 = $32 + $29;

								  $34 = $33;

								  HEAPF32[$30>>2] = $34;

								 }

								 $35 = ((($0)) + 484|0);

								 $36 = ((($0)) + 40|0);

								 $37 = +HEAPF32[$36>>2];

								 _Mat2Set($35,$37);

								 _IntegratePhysicsForces($0);

								 return;

								}

								function _CorrectPhysicsPositions($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0.0, $12 = 0, $13 = 0.0, $14 = 0.0, $15 = 0.0, $16 = 0, $17 = 0.0, $18 = 0.0, $19 = 0.0, $2 = 0, $20 = 0, $21 = 0.0, $22 = 0.0, $23 = 0.0, $24 = 0, $25 = 0, $26 = 0, $27 = 0.0;

								 var $28 = 0, $29 = 0.0, $3 = 0, $30 = 0.0, $31 = 0.0, $32 = 0, $33 = 0.0, $34 = 0.0, $35 = 0, $36 = 0, $37 = 0, $38 = 0.0, $39 = 0.0, $4 = 0, $40 = 0, $41 = 0.0, $42 = 0.0, $43 = 0.0, $44 = 0, $45 = 0.0;

								 var $46 = 0.0, $5 = 0, $6 = 0.0, $7 = 0.0, $8 = 0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 4|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ((($0)) + 8|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ((($0)) + 12|0);

								 $6 = +HEAPF32[$5>>2];

								 $7 = $6 + -0.05000000074505806;

								 $8 = $7 > 0.0;

								 $9 = $8 ? $7 : 0.0;

								 $10 = ((($2)) + 56|0);

								 $11 = +HEAPF32[$10>>2];

								 $12 = ((($4)) + 56|0);

								 $13 = +HEAPF32[$12>>2];

								 $14 = $11 + $13;

								 $15 = $9 / $14;

								 $16 = ((($0)) + 16|0);

								 $17 = +HEAPF32[$16>>2];

								 $18 = $17 * $15;

								 $19 = $18 * 0.40000000596046448;

								 $20 = ((($0)) + 20|0);

								 $21 = +HEAPF32[$20>>2];

								 $22 = $15 * $21;

								 $23 = $22 * 0.40000000596046448;

								 $24 = ((($2)) + 4|0);

								 $25 = HEAP32[$24>>2]|0;

								 $26 = ($25|0)==(0);

								 if (!($26)) {

								  $27 = $11 * $19;

								  $28 = ((($2)) + 8|0);

								  $29 = +HEAPF32[$28>>2];

								  $30 = $29 - $27;

								  HEAPF32[$28>>2] = $30;

								  $31 = $11 * $23;

								  $32 = ((($2)) + 12|0);

								  $33 = +HEAPF32[$32>>2];

								  $34 = $33 - $31;

								  HEAPF32[$32>>2] = $34;

								 }

								 $35 = ((($4)) + 4|0);

								 $36 = HEAP32[$35>>2]|0;

								 $37 = ($36|0)==(0);

								 if ($37) {

								  return;

								 }

								 $38 = +HEAPF32[$12>>2];

								 $39 = $19 * $38;

								 $40 = ((($4)) + 8|0);

								 $41 = +HEAPF32[$40>>2];

								 $42 = $41 + $39;

								 HEAPF32[$40>>2] = $42;

								 $43 = $23 * $38;

								 $44 = ((($4)) + 12|0);

								 $45 = +HEAPF32[$44>>2];

								 $46 = $43 + $45;

								 HEAPF32[$44>>2] = $46;

								 return;

								}

								function _SolveCircleToCircle($0) {

								 $0 = $0|0;

								 var $$byval_copy = 0, $$byval_copy2 = 0, $$sroa$0$0$$sroa_idx = 0, $$sroa$02$0$$sroa_idx = 0, $$sroa$05$0$$sroa_idx = 0, $$sroa$2$0$$sroa_idx1 = 0, $$sroa$23$0$$sroa_idx4 = 0, $$sroa$26$0$$sroa_idx7 = 0, $1 = 0, $10 = 0.0, $11 = 0, $12 = 0.0, $13 = 0.0, $14 = 0.0, $15 = 0, $16 = 0, $17 = 0.0, $18 = 0, $19 = 0, $2 = 0;

								 var $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0.0, $34 = 0, $35 = 0.0, $36 = 0.0, $37 = 0, $38 = 0.0;

								 var $39 = 0.0, $4 = 0, $40 = 0.0, $41 = 0.0, $42 = 0.0, $43 = 0.0, $44 = 0.0, $45 = 0, $46 = 0.0, $47 = 0.0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0.0, $53 = 0, $54 = 0, $6 = 0, $7 = 0;

								 var $8 = 0.0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $$byval_copy2 = sp + 16|0;

								 $$byval_copy = sp + 8|0;

								 $1 = sp;

								 $2 = ((($0)) + 4|0);

								 $3 = HEAP32[$2>>2]|0;

								 $4 = ((($0)) + 8|0);

								 $5 = HEAP32[$4>>2]|0;

								 $6 = ((($5)) + 8|0);

								 $7 = ((($3)) + 8|0);

								 ;HEAP32[$$byval_copy>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$6+4>>2]|0;

								 ;HEAP32[$$byval_copy2>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$7+4>>2]|0;

								 _Vector2Subtract_4($1,$$byval_copy,$$byval_copy2);

								 ;HEAP32[$$byval_copy2>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$1+4>>2]|0;

								 $8 = (+_MathLenSqr($$byval_copy2));

								 $9 = ((($3)) + 92|0);

								 $10 = +HEAPF32[$9>>2];

								 $11 = ((($5)) + 92|0);

								 $12 = +HEAPF32[$11>>2];

								 $13 = $10 + $12;

								 $14 = $13 * $13;

								 $15 = !($8 >= $14);

								 if (!($15)) {

								  $16 = ((($0)) + 40|0);

								  HEAP32[$16>>2] = 0;

								  STACKTOP = sp;return;

								 }

								 $17 = (+Math_sqrt((+$8)));

								 $18 = ((($0)) + 40|0);

								 HEAP32[$18>>2] = 1;

								 $19 = $17 == 0.0;

								 if ($19) {

								  $20 = HEAP32[$9>>2]|0;

								  $21 = ((($0)) + 12|0);

								  HEAP32[$21>>2] = $20;

								  $$sroa$05$0$$sroa_idx = ((($0)) + 16|0);

								  HEAPF32[$$sroa$05$0$$sroa_idx>>2] = 1.0;

								  $$sroa$26$0$$sroa_idx7 = ((($0)) + 20|0);

								  HEAPF32[$$sroa$26$0$$sroa_idx7>>2] = 0.0;

								  $22 = ((($0)) + 24|0);

								  $23 = $7;

								  $24 = $23;

								  $25 = HEAP32[$24>>2]|0;

								  $26 = (($23) + 4)|0;

								  $27 = $26;

								  $28 = HEAP32[$27>>2]|0;

								  $29 = $22;

								  $30 = $29;

								  HEAP32[$30>>2] = $25;

								  $31 = (($29) + 4)|0;

								  $32 = $31;

								  HEAP32[$32>>2] = $28;

								 } else {

								  $33 = $13 - $17;

								  $34 = ((($0)) + 12|0);

								  HEAPF32[$34>>2] = $33;

								  $35 = +HEAPF32[$1>>2];

								  $36 = $35 / $17;

								  $37 = ((($1)) + 4|0);

								  $38 = +HEAPF32[$37>>2];

								  $39 = $38 / $17;

								  $$sroa$02$0$$sroa_idx = ((($0)) + 16|0);

								  HEAPF32[$$sroa$02$0$$sroa_idx>>2] = $36;

								  $$sroa$23$0$$sroa_idx4 = ((($0)) + 20|0);

								  HEAPF32[$$sroa$23$0$$sroa_idx4>>2] = $39;

								  $40 = +HEAPF32[$9>>2];

								  $41 = $36 * $40;

								  $42 = +HEAPF32[$7>>2];

								  $43 = $41 + $42;

								  $44 = $39 * $40;

								  $45 = ((($3)) + 12|0);

								  $46 = +HEAPF32[$45>>2];

								  $47 = $44 + $46;

								  $$sroa$0$0$$sroa_idx = ((($0)) + 24|0);

								  HEAPF32[$$sroa$0$0$$sroa_idx>>2] = $43;

								  $$sroa$2$0$$sroa_idx1 = ((($0)) + 28|0);

								  HEAPF32[$$sroa$2$0$$sroa_idx1>>2] = $47;

								 }

								 $48 = ((($3)) + 76|0);

								 $49 = HEAP32[$48>>2]|0;

								 $50 = ($49|0)==(0);

								 if (!($50)) {

								  STACKTOP = sp;return;

								 }

								 $51 = ((($0)) + 20|0);

								 $52 = +HEAPF32[$51>>2];

								 $53 = $52 < 0.0;

								 $54 = $53&1;

								 HEAP32[$48>>2] = $54;

								 STACKTOP = sp;return;

								}

								function _SolveCircleToPolygon($0) {

								 $0 = $0|0;

								 var $$0$lcssa = 0.0, $$0125 = 0.0, $$093$lcssa = 0, $$093124 = 0, $$097123 = 0, $$1 = 0.0, $$194 = 0, $$byval_copy41 = 0, $$sroa$0$0$$sroa_idx = 0, $$sroa$011$0$$sroa_idx = 0, $$sroa$014$0$$sroa_idx = 0, $$sroa$04$0$$sroa_idx = 0, $$sroa$2$0$$sroa_idx3 = 0, $$sroa$212$0$$sroa_idx13 = 0, $$sroa$215$0$$sroa_idx16 = 0, $$sroa$25$0$$sroa_idx6 = 0, $1 = 0, $10 = 0, $100 = 0.0, $101 = 0.0;

								 var $102 = 0, $103 = 0, $104 = 0.0, $105 = 0.0, $106 = 0.0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0;

								 var $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0;

								 var $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0.0;

								 var $157 = 0.0, $158 = 0.0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0;

								 var $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0;

								 var $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0;

								 var $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0.0, $219 = 0.0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0;

								 var $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0.0, $233 = 0.0, $234 = 0, $235 = 0.0, $236 = 0.0, $237 = 0.0, $238 = 0.0, $239 = 0.0, $24 = 0, $240 = 0.0, $241 = 0.0, $242 = 0, $243 = 0.0, $244 = 0.0, $25 = 0, $26 = 0;

								 var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0;

								 var $45 = 0.0, $46 = 0.0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0;

								 var $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0;

								 var $81 = 0.0, $82 = 0.0, $83 = 0, $84 = 0.0, $85 = 0.0, $86 = 0, $87 = 0.0, $88 = 0.0, $89 = 0.0, $9 = 0, $90 = 0.0, $91 = 0.0, $92 = 0, $93 = 0.0, $94 = 0.0, $95 = 0, $96 = 0, $97 = 0.0, $98 = 0.0, $99 = 0;

								 var $tmpcast104$byval_copy42 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 608|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(608|0);

								 $tmpcast104$byval_copy42 = sp + 584|0;

								 $$byval_copy41 = sp + 568|0;

								 $1 = sp + 24|0;

								 $2 = sp + 552|0;

								 $3 = sp + 544|0;

								 $4 = sp + 88|0;

								 $5 = sp + 536|0;

								 $6 = sp + 16|0;

								 $7 = sp + 8|0;

								 $8 = sp;

								 $9 = sp + 528|0;

								 $10 = sp + 520|0;

								 $11 = sp + 512|0;

								 $12 = sp + 504|0;

								 $13 = sp + 80|0;

								 $14 = sp + 72|0;

								 $15 = sp + 64|0;

								 $16 = sp + 56|0;

								 $17 = sp + 48|0;

								 $18 = sp + 40|0;

								 $19 = sp + 496|0;

								 $20 = sp + 32|0;

								 $21 = ((($0)) + 4|0);

								 $22 = HEAP32[$21>>2]|0;

								 $23 = ((($0)) + 8|0);

								 $24 = HEAP32[$23>>2]|0;

								 $25 = ((($0)) + 40|0);

								 HEAP32[$25>>2] = 0;

								 $26 = ((($22)) + 8|0);

								 $27 = $26;

								 $28 = $27;

								 $29 = HEAP32[$28>>2]|0;

								 $30 = (($27) + 4)|0;

								 $31 = $30;

								 $32 = HEAP32[$31>>2]|0;

								 $33 = $1;

								 $34 = $33;

								 HEAP32[$34>>2] = $29;

								 $35 = (($33) + 4)|0;

								 $36 = $35;

								 HEAP32[$36>>2] = $32;

								 $37 = ((($24)) + 96|0);

								 $38 = ((($24)) + 484|0);

								 ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$38>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$38+4>>2]|0;HEAP32[$tmpcast104$byval_copy42+8>>2]=HEAP32[$38+8>>2]|0;HEAP32[$tmpcast104$byval_copy42+12>>2]=HEAP32[$38+12>>2]|0;

								 _Mat2Transpose($2,$tmpcast104$byval_copy42);

								 $39 = ((($24)) + 8|0);

								 ;HEAP32[$$byval_copy41>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$1+4>>2]|0;

								 ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$39>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$39+4>>2]|0;

								 _Vector2Subtract_4($3,$$byval_copy41,$tmpcast104$byval_copy42);

								 ;HEAP32[$$byval_copy41>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$2+4>>2]|0;HEAP32[$$byval_copy41+8>>2]=HEAP32[$2+8>>2]|0;HEAP32[$$byval_copy41+12>>2]=HEAP32[$2+12>>2]|0;

								 ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$3>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$3+4>>2]|0;

								 _Mat2MultiplyVector2($1,$$byval_copy41,$tmpcast104$byval_copy42);

								 _memcpy(($4|0),($37|0),404)|0;

								 $40 = HEAP32[$4>>2]|0;

								 $41 = ($40|0)==(0);

								 L1: do {

								  if ($41) {

								   $$0$lcssa = -3.4028234663852886E+38;$$093$lcssa = 0;

								  } else {

								   $42 = ((($22)) + 92|0);

								   $$0125 = -3.4028234663852886E+38;$$093124 = 0;$$097123 = 0;

								   while(1) {

								    $43 = (((($4)) + 196|0) + ($$097123<<3)|0);

								    $44 = (((($4)) + 4|0) + ($$097123<<3)|0);

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$1+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$44>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$44+4>>2]|0;

								    _Vector2Subtract_4($5,$$byval_copy41,$tmpcast104$byval_copy42);

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$43>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$43+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$5>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$5+4>>2]|0;

								    $45 = (+_MathDot($$byval_copy41,$tmpcast104$byval_copy42));

								    $46 = +HEAPF32[$42>>2];

								    $47 = $45 > $46;

								    $48 = $45 > $$0125;

								    if ($47) {

								     break;

								    }

								    $$1 = $48 ? $45 : $$0125;

								    $$194 = $48 ? $$097123 : $$093124;

								    $49 = (($$097123) + 1)|0;

								    $50 = HEAP32[$4>>2]|0;

								    $51 = ($49>>>0)<($50>>>0);

								    if ($51) {

								     $$0125 = $$1;$$093124 = $$194;$$097123 = $49;

								    } else {

								     $$0$lcssa = $$1;$$093$lcssa = $$194;

								     break L1;

								    }

								   }

								   STACKTOP = sp;return;

								  }

								 } while(0);

								 $52 = (((($4)) + 4|0) + ($$093$lcssa<<3)|0);

								 $53 = $52;

								 $54 = $53;

								 $55 = HEAP32[$54>>2]|0;

								 $56 = (($53) + 4)|0;

								 $57 = $56;

								 $58 = HEAP32[$57>>2]|0;

								 $59 = $6;

								 $60 = $59;

								 HEAP32[$60>>2] = $55;

								 $61 = (($59) + 4)|0;

								 $62 = $61;

								 HEAP32[$62>>2] = $58;

								 $63 = (($$093$lcssa) + 1)|0;

								 $64 = HEAP32[$4>>2]|0;

								 $65 = ($63>>>0)<($64>>>0);

								 $66 = $65 ? $63 : 0;

								 $67 = (((($4)) + 4|0) + ($66<<3)|0);

								 $68 = $67;

								 $69 = $68;

								 $70 = HEAP32[$69>>2]|0;

								 $71 = (($68) + 4)|0;

								 $72 = $71;

								 $73 = HEAP32[$72>>2]|0;

								 $74 = $7;

								 $75 = $74;

								 HEAP32[$75>>2] = $70;

								 $76 = (($74) + 4)|0;

								 $77 = $76;

								 HEAP32[$77>>2] = $73;

								 $78 = $$0$lcssa < 9.9999999747524271E-7;

								 do {

								  if ($78) {

								   HEAP32[$25>>2] = 1;

								   $79 = ((($4)) + 388|0);

								   $80 = (((($4)) + 196|0) + ($$093$lcssa<<3)|0);

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$79>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$79+4>>2]|0;HEAP32[$$byval_copy41+8>>2]=HEAP32[$79+8>>2]|0;HEAP32[$$byval_copy41+12>>2]=HEAP32[$79+12>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$80>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$80+4>>2]|0;

								   _Mat2MultiplyVector2($8,$$byval_copy41,$tmpcast104$byval_copy42);

								   $81 = +HEAPF32[$8>>2];

								   $82 = -$81;

								   $83 = ((($8)) + 4|0);

								   $84 = +HEAPF32[$83>>2];

								   $85 = -$84;

								   $$sroa$014$0$$sroa_idx = ((($0)) + 16|0);

								   HEAPF32[$$sroa$014$0$$sroa_idx>>2] = $82;

								   $$sroa$215$0$$sroa_idx16 = ((($0)) + 20|0);

								   HEAPF32[$$sroa$215$0$$sroa_idx16>>2] = $85;

								   $86 = ((($22)) + 92|0);

								   $87 = +HEAPF32[$86>>2];

								   $88 = $87 * $82;

								   $89 = +HEAPF32[$26>>2];

								   $90 = $88 + $89;

								   $91 = $87 * $85;

								   $92 = ((($22)) + 12|0);

								   $93 = +HEAPF32[$92>>2];

								   $94 = $91 + $93;

								   $$sroa$011$0$$sroa_idx = ((($0)) + 24|0);

								   HEAPF32[$$sroa$011$0$$sroa_idx>>2] = $90;

								   $$sroa$212$0$$sroa_idx13 = ((($0)) + 28|0);

								   HEAPF32[$$sroa$212$0$$sroa_idx13>>2] = $94;

								   $95 = HEAP32[$86>>2]|0;

								   $96 = ((($0)) + 12|0);

								   HEAP32[$96>>2] = $95;

								  } else {

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$1+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$6>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$6+4>>2]|0;

								   _Vector2Subtract_4($9,$$byval_copy41,$tmpcast104$byval_copy42);

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$7+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$6>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$6+4>>2]|0;

								   _Vector2Subtract_4($10,$$byval_copy41,$tmpcast104$byval_copy42);

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$9>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$9+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$10>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$10+4>>2]|0;

								   $97 = (+_MathDot($$byval_copy41,$tmpcast104$byval_copy42));

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$1+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$7+4>>2]|0;

								   _Vector2Subtract_4($11,$$byval_copy41,$tmpcast104$byval_copy42);

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$6+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$7+4>>2]|0;

								   _Vector2Subtract_4($12,$$byval_copy41,$tmpcast104$byval_copy42);

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$11>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$11+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$12>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$12+4>>2]|0;

								   $98 = (+_MathDot($$byval_copy41,$tmpcast104$byval_copy42));

								   $99 = ((($22)) + 92|0);

								   $100 = +HEAPF32[$99>>2];

								   $101 = $100 - $$0$lcssa;

								   $102 = ((($0)) + 12|0);

								   HEAPF32[$102>>2] = $101;

								   $103 = !($97 <= 0.0);

								   if (!($103)) {

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$1+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$6>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$6+4>>2]|0;

								    $104 = (+_DistSqr($$byval_copy41,$tmpcast104$byval_copy42));

								    $105 = +HEAPF32[$99>>2];

								    $106 = $105 * $105;

								    $107 = $104 > $106;

								    if ($107) {

								     break;

								    }

								    HEAP32[$25>>2] = 1;

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$6+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$1>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$1+4>>2]|0;

								    _Vector2Subtract_4($8,$$byval_copy41,$tmpcast104$byval_copy42);

								    $108 = ((($4)) + 388|0);

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$108>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$108+4>>2]|0;HEAP32[$$byval_copy41+8>>2]=HEAP32[$108+8>>2]|0;HEAP32[$$byval_copy41+12>>2]=HEAP32[$108+12>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$8>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$8+4>>2]|0;

								    _Mat2MultiplyVector2($13,$$byval_copy41,$tmpcast104$byval_copy42);

								    $109 = $13;

								    $110 = $109;

								    $111 = HEAP32[$110>>2]|0;

								    $112 = (($109) + 4)|0;

								    $113 = $112;

								    $114 = HEAP32[$113>>2]|0;

								    $115 = $8;

								    $116 = $115;

								    HEAP32[$116>>2] = $111;

								    $117 = (($115) + 4)|0;

								    $118 = $117;

								    HEAP32[$118>>2] = $114;

								    _MathNormalize($8);

								    $119 = ((($0)) + 16|0);

								    $120 = $8;

								    $121 = $120;

								    $122 = HEAP32[$121>>2]|0;

								    $123 = (($120) + 4)|0;

								    $124 = $123;

								    $125 = HEAP32[$124>>2]|0;

								    $126 = $119;

								    $127 = $126;

								    HEAP32[$127>>2] = $122;

								    $128 = (($126) + 4)|0;

								    $129 = $128;

								    HEAP32[$129>>2] = $125;

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$108>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$108+4>>2]|0;HEAP32[$$byval_copy41+8>>2]=HEAP32[$108+8>>2]|0;HEAP32[$$byval_copy41+12>>2]=HEAP32[$108+12>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$6>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$6+4>>2]|0;

								    _Mat2MultiplyVector2($14,$$byval_copy41,$tmpcast104$byval_copy42);

								    $130 = $14;

								    $131 = $130;

								    $132 = HEAP32[$131>>2]|0;

								    $133 = (($130) + 4)|0;

								    $134 = $133;

								    $135 = HEAP32[$134>>2]|0;

								    $136 = $6;

								    $137 = $136;

								    HEAP32[$137>>2] = $132;

								    $138 = (($136) + 4)|0;

								    $139 = $138;

								    HEAP32[$139>>2] = $135;

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$6+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$39>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$39+4>>2]|0;

								    _Vector2Add_2($15,$$byval_copy41,$tmpcast104$byval_copy42);

								    $140 = $15;

								    $141 = $140;

								    $142 = HEAP32[$141>>2]|0;

								    $143 = (($140) + 4)|0;

								    $144 = $143;

								    $145 = HEAP32[$144>>2]|0;

								    $146 = $6;

								    $147 = $146;

								    HEAP32[$147>>2] = $142;

								    $148 = (($146) + 4)|0;

								    $149 = $148;

								    HEAP32[$149>>2] = $145;

								    $150 = ((($0)) + 24|0);

								    $151 = $150;

								    $152 = $151;

								    HEAP32[$152>>2] = $142;

								    $153 = (($151) + 4)|0;

								    $154 = $153;

								    HEAP32[$154>>2] = $145;

								    break;

								   }

								   $155 = !($98 <= 0.0);

								   if (!($155)) {

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$1+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$7+4>>2]|0;

								    $156 = (+_DistSqr($$byval_copy41,$tmpcast104$byval_copy42));

								    $157 = +HEAPF32[$99>>2];

								    $158 = $157 * $157;

								    $159 = $156 > $158;

								    if ($159) {

								     break;

								    }

								    HEAP32[$25>>2] = 1;

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$7+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$1>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$1+4>>2]|0;

								    _Vector2Subtract_4($8,$$byval_copy41,$tmpcast104$byval_copy42);

								    $160 = ((($4)) + 388|0);

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$160>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$160+4>>2]|0;HEAP32[$$byval_copy41+8>>2]=HEAP32[$160+8>>2]|0;HEAP32[$$byval_copy41+12>>2]=HEAP32[$160+12>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$7+4>>2]|0;

								    _Mat2MultiplyVector2($16,$$byval_copy41,$tmpcast104$byval_copy42);

								    $161 = $16;

								    $162 = $161;

								    $163 = HEAP32[$162>>2]|0;

								    $164 = (($161) + 4)|0;

								    $165 = $164;

								    $166 = HEAP32[$165>>2]|0;

								    $167 = $7;

								    $168 = $167;

								    HEAP32[$168>>2] = $163;

								    $169 = (($167) + 4)|0;

								    $170 = $169;

								    HEAP32[$170>>2] = $166;

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$7+4>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$39>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$39+4>>2]|0;

								    _Vector2Add_2($17,$$byval_copy41,$tmpcast104$byval_copy42);

								    $171 = $17;

								    $172 = $171;

								    $173 = HEAP32[$172>>2]|0;

								    $174 = (($171) + 4)|0;

								    $175 = $174;

								    $176 = HEAP32[$175>>2]|0;

								    $177 = $7;

								    $178 = $177;

								    HEAP32[$178>>2] = $173;

								    $179 = (($177) + 4)|0;

								    $180 = $179;

								    HEAP32[$180>>2] = $176;

								    $181 = ((($0)) + 24|0);

								    $182 = $181;

								    $183 = $182;

								    HEAP32[$183>>2] = $173;

								    $184 = (($182) + 4)|0;

								    $185 = $184;

								    HEAP32[$185>>2] = $176;

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$160>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$160+4>>2]|0;HEAP32[$$byval_copy41+8>>2]=HEAP32[$160+8>>2]|0;HEAP32[$$byval_copy41+12>>2]=HEAP32[$160+12>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$8>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$8+4>>2]|0;

								    _Mat2MultiplyVector2($18,$$byval_copy41,$tmpcast104$byval_copy42);

								    $186 = $18;

								    $187 = $186;

								    $188 = HEAP32[$187>>2]|0;

								    $189 = (($186) + 4)|0;

								    $190 = $189;

								    $191 = HEAP32[$190>>2]|0;

								    $192 = $8;

								    $193 = $192;

								    HEAP32[$193>>2] = $188;

								    $194 = (($192) + 4)|0;

								    $195 = $194;

								    HEAP32[$195>>2] = $191;

								    _MathNormalize($8);

								    $196 = ((($0)) + 16|0);

								    $197 = $8;

								    $198 = $197;

								    $199 = HEAP32[$198>>2]|0;

								    $200 = (($197) + 4)|0;

								    $201 = $200;

								    $202 = HEAP32[$201>>2]|0;

								    $203 = $196;

								    $204 = $203;

								    HEAP32[$204>>2] = $199;

								    $205 = (($203) + 4)|0;

								    $206 = $205;

								    HEAP32[$206>>2] = $202;

								    break;

								   }

								   $207 = (((($4)) + 196|0) + ($$093$lcssa<<3)|0);

								   $208 = $207;

								   $209 = $208;

								   $210 = HEAP32[$209>>2]|0;

								   $211 = (($208) + 4)|0;

								   $212 = $211;

								   $213 = HEAP32[$212>>2]|0;

								   $214 = $8;

								   $215 = $214;

								   HEAP32[$215>>2] = $210;

								   $216 = (($214) + 4)|0;

								   $217 = $216;

								   HEAP32[$217>>2] = $213;

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$1+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$6>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$6+4>>2]|0;

								   _Vector2Subtract_4($19,$$byval_copy41,$tmpcast104$byval_copy42);

								   ;HEAP32[$$byval_copy41>>2]=HEAP32[$19>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$19+4>>2]|0;

								   ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$8>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$8+4>>2]|0;

								   $218 = (+_MathDot($$byval_copy41,$tmpcast104$byval_copy42));

								   $219 = +HEAPF32[$99>>2];

								   $220 = $218 > $219;

								   if ($220) {

								    break;

								   } else {

								    $221 = ((($4)) + 388|0);

								    ;HEAP32[$$byval_copy41>>2]=HEAP32[$221>>2]|0;HEAP32[$$byval_copy41+4>>2]=HEAP32[$221+4>>2]|0;HEAP32[$$byval_copy41+8>>2]=HEAP32[$221+8>>2]|0;HEAP32[$$byval_copy41+12>>2]=HEAP32[$221+12>>2]|0;

								    ;HEAP32[$tmpcast104$byval_copy42>>2]=HEAP32[$8>>2]|0;HEAP32[$tmpcast104$byval_copy42+4>>2]=HEAP32[$8+4>>2]|0;

								    _Mat2MultiplyVector2($20,$$byval_copy41,$tmpcast104$byval_copy42);

								    $222 = $20;

								    $223 = $222;

								    $224 = HEAP32[$223>>2]|0;

								    $225 = (($222) + 4)|0;

								    $226 = $225;

								    $227 = HEAP32[$226>>2]|0;

								    $228 = $8;

								    $229 = $228;

								    HEAP32[$229>>2] = $224;

								    $230 = (($228) + 4)|0;

								    $231 = $230;

								    HEAP32[$231>>2] = $227;

								    $232 = +HEAPF32[$8>>2];

								    $233 = -$232;

								    $234 = ((($8)) + 4|0);

								    $235 = +HEAPF32[$234>>2];

								    $236 = -$235;

								    $$sroa$04$0$$sroa_idx = ((($0)) + 16|0);

								    HEAPF32[$$sroa$04$0$$sroa_idx>>2] = $233;

								    $$sroa$25$0$$sroa_idx6 = ((($0)) + 20|0);

								    HEAPF32[$$sroa$25$0$$sroa_idx6>>2] = $236;

								    $237 = +HEAPF32[$99>>2];

								    $238 = $237 * $233;

								    $239 = +HEAPF32[$26>>2];

								    $240 = $238 + $239;

								    $241 = $237 * $236;

								    $242 = ((($22)) + 12|0);

								    $243 = +HEAPF32[$242>>2];

								    $244 = $241 + $243;

								    $$sroa$0$0$$sroa_idx = ((($0)) + 24|0);

								    HEAPF32[$$sroa$0$0$$sroa_idx>>2] = $240;

								    $$sroa$2$0$$sroa_idx3 = ((($0)) + 28|0);

								    HEAPF32[$$sroa$2$0$$sroa_idx3>>2] = $244;

								    HEAP32[$25>>2] = 1;

								    break;

								   }

								  }

								 } while(0);

								 STACKTOP = sp;return;

								}

								function _SolvePolygonToCircle($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0.0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0.0, $7 = 0.0, $8 = 0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 4|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ((($0)) + 8|0);

								 $4 = HEAP32[$3>>2]|0;

								 HEAP32[$1>>2] = $4;

								 HEAP32[$3>>2] = $2;

								 _SolveCircleToPolygon($0);

								 $5 = ((($0)) + 16|0);

								 $6 = +HEAPF32[$5>>2];

								 $7 = -$6;

								 HEAPF32[$5>>2] = $7;

								 $8 = ((($0)) + 20|0);

								 $9 = +HEAPF32[$8>>2];

								 $10 = -$9;

								 HEAPF32[$8>>2] = $10;

								 return;

								}

								function _SolvePolygonToPolygon($0) {

								 $0 = $0|0;

								 var $$0 = 0, $$051 = 0, $$051$in = 0, $$052 = 0, $$1 = 0, $$byval_copy24 = 0, $$sink = 0.0, $$sroa$0$0$$sroa_idx = 0, $$sroa$2$0$$sroa_idx12 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0.0;

								 var $109 = 0.0, $11 = 0, $110 = 0.0, $111 = 0.0, $112 = 0.0, $113 = 0.0, $114 = 0.0, $115 = 0.0, $116 = 0, $117 = 0.0, $118 = 0.0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0.0, $125 = 0.0, $126 = 0.0;

								 var $127 = 0.0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0.0, $14 = 0, $140 = 0.0, $141 = 0, $142 = 0.0, $143 = 0, $144 = 0;

								 var $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0.0, $156 = 0.0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0;

								 var $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0.0, $17 = 0, $170 = 0.0, $171 = 0, $172 = 0.0, $173 = 0.0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0;

								 var $25 = 0.0, $26 = 0, $27 = 0.0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0;

								 var $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0;

								 var $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0;

								 var $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0;

								 var $98 = 0, $99 = 0, $tmpcast58$byval_copy23 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 3008|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(3008|0);

								 $$byval_copy24 = sp + 2584|0;

								 $tmpcast58$byval_copy23 = sp + 2168|0;

								 $1 = sp + 1744|0;

								 $2 = sp + 1328|0;

								 $3 = sp + 1324|0;

								 $4 = sp + 1320|0;

								 $5 = sp + 904|0;

								 $6 = sp + 488|0;

								 $7 = sp + 24|0;

								 $8 = sp + 80|0;

								 $9 = sp + 16|0;

								 $10 = sp + 8|0;

								 $11 = sp + 64|0;

								 $12 = sp + 56|0;

								 $13 = sp + 48|0;

								 $14 = sp + 40|0;

								 $15 = sp + 72|0;

								 $16 = sp;

								 $17 = sp + 2160|0;

								 $18 = ((($0)) + 4|0);

								 $19 = HEAP32[$18>>2]|0;

								 $20 = ((($19)) + 84|0);

								 _memcpy(($1|0),($20|0),416)|0;

								 $21 = ((($0)) + 8|0);

								 $22 = HEAP32[$21>>2]|0;

								 $23 = ((($22)) + 84|0);

								 _memcpy(($2|0),($23|0),416)|0;

								 $24 = ((($0)) + 40|0);

								 HEAP32[$24>>2] = 0;

								 HEAP32[$3>>2] = 0;

								 _memcpy(($tmpcast58$byval_copy23|0),($1|0),416)|0;

								 _memcpy(($$byval_copy24|0),($2|0),416)|0;

								 $25 = (+_FindAxisLeastPenetration($3,$tmpcast58$byval_copy23,$$byval_copy24));

								 $26 = !($25 >= 0.0);

								 if (!($26)) {

								  STACKTOP = sp;return;

								 }

								 HEAP32[$4>>2] = 0;

								 _memcpy(($tmpcast58$byval_copy23|0),($2|0),416)|0;

								 _memcpy(($$byval_copy24|0),($1|0),416)|0;

								 $27 = (+_FindAxisLeastPenetration($4,$tmpcast58$byval_copy23,$$byval_copy24));

								 $28 = !($27 >= 0.0);

								 if ($28) {

								  $29 = (_BiasGreaterThan($25,$27)|0);

								  $30 = ($29|0)==(0);

								  if ($30) {

								   _memcpy(($5|0),($2|0),416)|0;

								   _memcpy(($6|0),($1|0),416)|0;

								   $$051$in = $4;$$052 = 1;

								  } else {

								   _memcpy(($5|0),($1|0),416)|0;

								   _memcpy(($6|0),($2|0),416)|0;

								   $$051$in = $3;$$052 = 0;

								  }

								  $$051 = HEAP32[$$051$in>>2]|0;

								  $31 = ((($7)) + 8|0);

								  _memcpy(($tmpcast58$byval_copy23|0),($5|0),416)|0;

								  _memcpy(($$byval_copy24|0),($6|0),416)|0;

								  _FindIncidentFace($7,$31,$tmpcast58$byval_copy23,$$byval_copy24,$$051);

								  $32 = ((($5)) + 12|0);

								  _memcpy(($8|0),($32|0),404)|0;

								  $33 = (((($8)) + 4|0) + ($$051<<3)|0);

								  $34 = $33;

								  $35 = $34;

								  $36 = HEAP32[$35>>2]|0;

								  $37 = (($34) + 4)|0;

								  $38 = $37;

								  $39 = HEAP32[$38>>2]|0;

								  $40 = $9;

								  $41 = $40;

								  HEAP32[$41>>2] = $36;

								  $42 = (($40) + 4)|0;

								  $43 = $42;

								  HEAP32[$43>>2] = $39;

								  $44 = (($$051) + 1)|0;

								  $45 = HEAP32[$8>>2]|0;

								  $46 = ($44>>>0)<($45>>>0);

								  $47 = $46 ? $44 : 0;

								  $48 = (((($8)) + 4|0) + ($47<<3)|0);

								  $49 = $48;

								  $50 = $49;

								  $51 = HEAP32[$50>>2]|0;

								  $52 = (($49) + 4)|0;

								  $53 = $52;

								  $54 = HEAP32[$53>>2]|0;

								  $55 = $10;

								  $56 = $55;

								  HEAP32[$56>>2] = $51;

								  $57 = (($55) + 4)|0;

								  $58 = $57;

								  HEAP32[$58>>2] = $54;

								  $59 = ((($8)) + 388|0);

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$59>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$59+4>>2]|0;HEAP32[$tmpcast58$byval_copy23+8>>2]=HEAP32[$59+8>>2]|0;HEAP32[$tmpcast58$byval_copy23+12>>2]=HEAP32[$59+12>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$9>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$9+4>>2]|0;

								  _Mat2MultiplyVector2($11,$tmpcast58$byval_copy23,$$byval_copy24);

								  $60 = $11;

								  $61 = $60;

								  $62 = HEAP32[$61>>2]|0;

								  $63 = (($60) + 4)|0;

								  $64 = $63;

								  $65 = HEAP32[$64>>2]|0;

								  $66 = $9;

								  $67 = $66;

								  HEAP32[$67>>2] = $62;

								  $68 = (($66) + 4)|0;

								  $69 = $68;

								  HEAP32[$69>>2] = $65;

								  $70 = ((($5)) + 4|0);

								  $71 = HEAP32[$70>>2]|0;

								  $72 = ((($71)) + 8|0);

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$9>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$9+4>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$72>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$72+4>>2]|0;

								  _Vector2Add_2($12,$tmpcast58$byval_copy23,$$byval_copy24);

								  $73 = $12;

								  $74 = $73;

								  $75 = HEAP32[$74>>2]|0;

								  $76 = (($73) + 4)|0;

								  $77 = $76;

								  $78 = HEAP32[$77>>2]|0;

								  $79 = $9;

								  $80 = $79;

								  HEAP32[$80>>2] = $75;

								  $81 = (($79) + 4)|0;

								  $82 = $81;

								  HEAP32[$82>>2] = $78;

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$59>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$59+4>>2]|0;HEAP32[$tmpcast58$byval_copy23+8>>2]=HEAP32[$59+8>>2]|0;HEAP32[$tmpcast58$byval_copy23+12>>2]=HEAP32[$59+12>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$10>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$10+4>>2]|0;

								  _Mat2MultiplyVector2($13,$tmpcast58$byval_copy23,$$byval_copy24);

								  $83 = $13;

								  $84 = $83;

								  $85 = HEAP32[$84>>2]|0;

								  $86 = (($83) + 4)|0;

								  $87 = $86;

								  $88 = HEAP32[$87>>2]|0;

								  $89 = $10;

								  $90 = $89;

								  HEAP32[$90>>2] = $85;

								  $91 = (($89) + 4)|0;

								  $92 = $91;

								  HEAP32[$92>>2] = $88;

								  $93 = HEAP32[$70>>2]|0;

								  $94 = ((($93)) + 8|0);

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$10>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$10+4>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$94>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$94+4>>2]|0;

								  _Vector2Add_2($14,$tmpcast58$byval_copy23,$$byval_copy24);

								  $95 = $14;

								  $96 = $95;

								  $97 = HEAP32[$96>>2]|0;

								  $98 = (($95) + 4)|0;

								  $99 = $98;

								  $100 = HEAP32[$99>>2]|0;

								  $101 = $10;

								  $102 = $101;

								  HEAP32[$102>>2] = $97;

								  $103 = (($101) + 4)|0;

								  $104 = $103;

								  HEAP32[$104>>2] = $100;

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$10>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$10+4>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$9>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$9+4>>2]|0;

								  _Vector2Subtract_4($15,$tmpcast58$byval_copy23,$$byval_copy24);

								  _MathNormalize($15);

								  $105 = ((($15)) + 4|0);

								  $106 = HEAP32[$105>>2]|0;

								  HEAP32[$16>>2] = $106;

								  $107 = ((($16)) + 4|0);

								  $108 = +HEAPF32[$15>>2];

								  $109 = -$108;

								  HEAPF32[$107>>2] = $109;

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$16>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$16+4>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$9>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$9+4>>2]|0;

								  $110 = (+_MathDot($tmpcast58$byval_copy23,$$byval_copy24));

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$15>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$15+4>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$9>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$9+4>>2]|0;

								  $111 = (+_MathDot($tmpcast58$byval_copy23,$$byval_copy24));

								  $112 = -$111;

								  ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$15>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$15+4>>2]|0;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$10>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$10+4>>2]|0;

								  $113 = (+_MathDot($tmpcast58$byval_copy23,$$byval_copy24));

								  $114 = +HEAPF32[$15>>2];

								  $115 = -$114;

								  HEAPF32[$17>>2] = $115;

								  $116 = ((($17)) + 4|0);

								  $117 = +HEAPF32[$105>>2];

								  $118 = -$117;

								  HEAPF32[$116>>2] = $118;

								  ;HEAP32[$$byval_copy24>>2]=HEAP32[$17>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$17+4>>2]|0;

								  $119 = (_Clip($$byval_copy24,$112,$7,$31)|0);

								  $120 = ($119|0)<(2);

								  if (!($120)) {

								   ;HEAP32[$$byval_copy24>>2]=HEAP32[$15>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$15+4>>2]|0;

								   $121 = (_Clip($$byval_copy24,$113,$7,$31)|0);

								   $122 = ($121|0)<(2);

								   if (!($122)) {

								    $123 = ($$052|0)==(0);

								    if ($123) {

								     $128 = ((($0)) + 16|0);

								     $129 = $16;

								     $130 = $129;

								     $131 = HEAP32[$130>>2]|0;

								     $132 = (($129) + 4)|0;

								     $133 = $132;

								     $134 = HEAP32[$133>>2]|0;

								     $135 = $128;

								     $136 = $135;

								     HEAP32[$136>>2] = $131;

								     $137 = (($135) + 4)|0;

								     $138 = $137;

								     HEAP32[$138>>2] = $134;

								    } else {

								     $124 = +HEAPF32[$16>>2];

								     $125 = -$124;

								     $126 = +HEAPF32[$107>>2];

								     $127 = -$126;

								     $$sroa$0$0$$sroa_idx = ((($0)) + 16|0);

								     HEAPF32[$$sroa$0$0$$sroa_idx>>2] = $125;

								     $$sroa$2$0$$sroa_idx12 = ((($0)) + 20|0);

								     HEAPF32[$$sroa$2$0$$sroa_idx12>>2] = $127;

								    }

								    ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$16>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$16+4>>2]|0;

								    ;HEAP32[$$byval_copy24>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$7+4>>2]|0;

								    $139 = (+_MathDot($tmpcast58$byval_copy23,$$byval_copy24));

								    $140 = $139 - $110;

								    $141 = !($140 <= 0.0);

								    if ($141) {

								     $$0 = 0;$$sink = 0.0;

								    } else {

								     $142 = -$140;

								     $143 = ((($0)) + 24|0);

								     $144 = $7;

								     $145 = $144;

								     $146 = HEAP32[$145>>2]|0;

								     $147 = (($144) + 4)|0;

								     $148 = $147;

								     $149 = HEAP32[$148>>2]|0;

								     $150 = $143;

								     $151 = $150;

								     HEAP32[$151>>2] = $146;

								     $152 = (($150) + 4)|0;

								     $153 = $152;

								     HEAP32[$153>>2] = $149;

								     $$0 = 1;$$sink = $142;

								    }

								    $154 = ((($0)) + 12|0);

								    HEAPF32[$154>>2] = $$sink;

								    ;HEAP32[$tmpcast58$byval_copy23>>2]=HEAP32[$16>>2]|0;HEAP32[$tmpcast58$byval_copy23+4>>2]=HEAP32[$16+4>>2]|0;

								    ;HEAP32[$$byval_copy24>>2]=HEAP32[$31>>2]|0;HEAP32[$$byval_copy24+4>>2]=HEAP32[$31+4>>2]|0;

								    $155 = (+_MathDot($tmpcast58$byval_copy23,$$byval_copy24));

								    $156 = $155 - $110;

								    $157 = !($156 <= 0.0);

								    if ($157) {

								     $$1 = $$0;

								    } else {

								     $158 = (((($0)) + 24|0) + ($$0<<3)|0);

								     $159 = $31;

								     $160 = $159;

								     $161 = HEAP32[$160>>2]|0;

								     $162 = (($159) + 4)|0;

								     $163 = $162;

								     $164 = HEAP32[$163>>2]|0;

								     $165 = $158;

								     $166 = $165;

								     HEAP32[$166>>2] = $161;

								     $167 = (($165) + 4)|0;

								     $168 = $167;

								     HEAP32[$168>>2] = $164;

								     $169 = +HEAPF32[$154>>2];

								     $170 = $169 - $156;

								     $171 = (($$0) + 1)|0;

								     $172 = (+($171|0));

								     $173 = $170 / $172;

								     HEAPF32[$154>>2] = $173;

								     $$1 = $171;

								    }

								    HEAP32[$24>>2] = $$1;

								   }

								  }

								 }

								 STACKTOP = sp;return;

								}

								function _MathLenSqr($0) {

								 $0 = $0|0;

								 var $1 = 0.0, $2 = 0.0, $3 = 0, $4 = 0.0, $5 = 0.0, $6 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = +HEAPF32[$0>>2];

								 $2 = $1 * $1;

								 $3 = ((($0)) + 4|0);

								 $4 = +HEAPF32[$3>>2];

								 $5 = $4 * $4;

								 $6 = $2 + $5;

								 return (+$6);

								}

								function _Mat2Transpose($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $10 = 0, $11 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP32[$1>>2]|0;

								 HEAP32[$0>>2] = $2;

								 $3 = ((($0)) + 4|0);

								 $4 = ((($1)) + 8|0);

								 $5 = HEAP32[$4>>2]|0;

								 HEAP32[$3>>2] = $5;

								 $6 = ((($0)) + 8|0);

								 $7 = ((($1)) + 4|0);

								 $8 = HEAP32[$7>>2]|0;

								 HEAP32[$6>>2] = $8;

								 $9 = ((($0)) + 12|0);

								 $10 = ((($1)) + 12|0);

								 $11 = HEAP32[$10>>2]|0;

								 HEAP32[$9>>2] = $11;

								 return;

								}

								function _MathDot($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $10 = 0.0, $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0, $6 = 0.0, $7 = 0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = +HEAPF32[$0>>2];

								 $3 = +HEAPF32[$1>>2];

								 $4 = $2 * $3;

								 $5 = ((($0)) + 4|0);

								 $6 = +HEAPF32[$5>>2];

								 $7 = ((($1)) + 4|0);

								 $8 = +HEAPF32[$7>>2];

								 $9 = $6 * $8;

								 $10 = $4 + $9;

								 return (+$10);

								}

								function _DistSqr($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$byval_copy2 = 0, $$byval_copy3 = 0, $2 = 0, $3 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $$byval_copy3 = sp + 16|0;

								 $$byval_copy2 = sp + 8|0;

								 $2 = sp;

								 ;HEAP32[$$byval_copy2>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$0+4>>2]|0;

								 ;HEAP32[$$byval_copy3>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy3+4>>2]=HEAP32[$1+4>>2]|0;

								 _Vector2Subtract_4($2,$$byval_copy2,$$byval_copy3);

								 ;HEAP32[$$byval_copy2>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$2+4>>2]|0;

								 ;HEAP32[$$byval_copy3>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy3+4>>2]=HEAP32[$2+4>>2]|0;

								 $3 = (+_MathDot($$byval_copy2,$$byval_copy3));

								 STACKTOP = sp;return (+$3);

								}

								function _FindAxisLeastPenetration($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$0$lcssa = 0.0, $$01727 = 0, $$018$lcssa = 0, $$01826 = 0, $$028 = 0.0, $$1 = 0.0, $$119 = 0, $$byval_copy16 = 0, $10 = 0, $100 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0;

								 var $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0.0, $38 = 0.0, $39 = 0.0;

								 var $4 = 0, $40 = 0.0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0;

								 var $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0;

								 var $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0;

								 var $94 = 0, $95 = 0, $96 = 0.0, $97 = 0, $98 = 0, $99 = 0, $tmpcast$byval_copy15 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 1344|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(1344|0);

								 $$byval_copy16 = sp + 1320|0;

								 $tmpcast$byval_copy15 = sp + 904|0;

								 $3 = sp + 484|0;

								 $4 = sp + 80|0;

								 $5 = sp + 8|0;

								 $6 = sp + 72|0;

								 $7 = sp + 56|0;

								 $8 = sp + 48|0;

								 $9 = sp + 896|0;

								 $10 = sp;

								 $11 = sp + 40|0;

								 $12 = sp + 32|0;

								 $13 = sp + 24|0;

								 $14 = sp + 16|0;

								 $15 = sp + 888|0;

								 $16 = ((($1)) + 12|0);

								 _memcpy(($3|0),($16|0),404)|0;

								 $17 = ((($2)) + 12|0);

								 _memcpy(($4|0),($17|0),404)|0;

								 $18 = HEAP32[$3>>2]|0;

								 $19 = ($18|0)==(0);

								 if ($19) {

								  $$0$lcssa = -3.4028234663852886E+38;$$018$lcssa = 0;

								  HEAP32[$0>>2] = $$018$lcssa;

								  STACKTOP = sp;return (+$$0$lcssa);

								 }

								 $20 = ((($3)) + 388|0);

								 $21 = ((($4)) + 388|0);

								 $22 = ((($9)) + 4|0);

								 $23 = ((($5)) + 4|0);

								 $24 = ((($1)) + 4|0);

								 $25 = ((($2)) + 4|0);

								 $$01727 = 0;$$01826 = 0;$$028 = -3.4028234663852886E+38;

								 while(1) {

								  $26 = (((($3)) + 196|0) + ($$01727<<3)|0);

								  $27 = $26;

								  $28 = $27;

								  $29 = HEAP32[$28>>2]|0;

								  $30 = (($27) + 4)|0;

								  $31 = $30;

								  $32 = HEAP32[$31>>2]|0;

								  $33 = $5;

								  $34 = $33;

								  HEAP32[$34>>2] = $29;

								  $35 = (($33) + 4)|0;

								  $36 = $35;

								  HEAP32[$36>>2] = $32;

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$20>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$20+4>>2]|0;HEAP32[$tmpcast$byval_copy15+8>>2]=HEAP32[$20+8>>2]|0;HEAP32[$tmpcast$byval_copy15+12>>2]=HEAP32[$20+12>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$5>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$5+4>>2]|0;

								  _Mat2MultiplyVector2($6,$tmpcast$byval_copy15,$$byval_copy16);

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$21>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$21+4>>2]|0;HEAP32[$$byval_copy16+8>>2]=HEAP32[$21+8>>2]|0;HEAP32[$$byval_copy16+12>>2]=HEAP32[$21+12>>2]|0;

								  _Mat2Transpose($7,$$byval_copy16);

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$7+4>>2]|0;HEAP32[$tmpcast$byval_copy15+8>>2]=HEAP32[$7+8>>2]|0;HEAP32[$tmpcast$byval_copy15+12>>2]=HEAP32[$7+12>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$6+4>>2]|0;

								  _Mat2MultiplyVector2($5,$tmpcast$byval_copy15,$$byval_copy16);

								  $37 = +HEAPF32[$5>>2];

								  $38 = -$37;

								  HEAPF32[$9>>2] = $38;

								  $39 = +HEAPF32[$23>>2];

								  $40 = -$39;

								  HEAPF32[$22>>2] = $40;

								  _memcpy(($tmpcast$byval_copy15|0),($2|0),416)|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$9>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$9+4>>2]|0;

								  _GetSupport($8,$tmpcast$byval_copy15,$$byval_copy16);

								  $41 = (((($3)) + 4|0) + ($$01727<<3)|0);

								  $42 = $41;

								  $43 = $42;

								  $44 = HEAP32[$43>>2]|0;

								  $45 = (($42) + 4)|0;

								  $46 = $45;

								  $47 = HEAP32[$46>>2]|0;

								  $48 = $10;

								  $49 = $48;

								  HEAP32[$49>>2] = $44;

								  $50 = (($48) + 4)|0;

								  $51 = $50;

								  HEAP32[$51>>2] = $47;

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$20>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$20+4>>2]|0;HEAP32[$tmpcast$byval_copy15+8>>2]=HEAP32[$20+8>>2]|0;HEAP32[$tmpcast$byval_copy15+12>>2]=HEAP32[$20+12>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$10>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$10+4>>2]|0;

								  _Mat2MultiplyVector2($11,$tmpcast$byval_copy15,$$byval_copy16);

								  $52 = $11;

								  $53 = $52;

								  $54 = HEAP32[$53>>2]|0;

								  $55 = (($52) + 4)|0;

								  $56 = $55;

								  $57 = HEAP32[$56>>2]|0;

								  $58 = $10;

								  $59 = $58;

								  HEAP32[$59>>2] = $54;

								  $60 = (($58) + 4)|0;

								  $61 = $60;

								  HEAP32[$61>>2] = $57;

								  $62 = HEAP32[$24>>2]|0;

								  $63 = ((($62)) + 8|0);

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$10>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$10+4>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$63>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$63+4>>2]|0;

								  _Vector2Add_2($12,$tmpcast$byval_copy15,$$byval_copy16);

								  $64 = $12;

								  $65 = $64;

								  $66 = HEAP32[$65>>2]|0;

								  $67 = (($64) + 4)|0;

								  $68 = $67;

								  $69 = HEAP32[$68>>2]|0;

								  $70 = $10;

								  $71 = $70;

								  HEAP32[$71>>2] = $66;

								  $72 = (($70) + 4)|0;

								  $73 = $72;

								  HEAP32[$73>>2] = $69;

								  $74 = HEAP32[$25>>2]|0;

								  $75 = ((($74)) + 8|0);

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$10>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$10+4>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$75>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$75+4>>2]|0;

								  _Vector2Subtract_4($13,$tmpcast$byval_copy15,$$byval_copy16);

								  $76 = $13;

								  $77 = $76;

								  $78 = HEAP32[$77>>2]|0;

								  $79 = (($76) + 4)|0;

								  $80 = $79;

								  $81 = HEAP32[$80>>2]|0;

								  $82 = $10;

								  $83 = $82;

								  HEAP32[$83>>2] = $78;

								  $84 = (($82) + 4)|0;

								  $85 = $84;

								  HEAP32[$85>>2] = $81;

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$7+4>>2]|0;HEAP32[$tmpcast$byval_copy15+8>>2]=HEAP32[$7+8>>2]|0;HEAP32[$tmpcast$byval_copy15+12>>2]=HEAP32[$7+12>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$10>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$10+4>>2]|0;

								  _Mat2MultiplyVector2($14,$tmpcast$byval_copy15,$$byval_copy16);

								  $86 = $14;

								  $87 = $86;

								  $88 = HEAP32[$87>>2]|0;

								  $89 = (($86) + 4)|0;

								  $90 = $89;

								  $91 = HEAP32[$90>>2]|0;

								  $92 = $10;

								  $93 = $92;

								  HEAP32[$93>>2] = $88;

								  $94 = (($92) + 4)|0;

								  $95 = $94;

								  HEAP32[$95>>2] = $91;

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$8>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$8+4>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$10>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$10+4>>2]|0;

								  _Vector2Subtract_4($15,$tmpcast$byval_copy15,$$byval_copy16);

								  ;HEAP32[$tmpcast$byval_copy15>>2]=HEAP32[$5>>2]|0;HEAP32[$tmpcast$byval_copy15+4>>2]=HEAP32[$5+4>>2]|0;

								  ;HEAP32[$$byval_copy16>>2]=HEAP32[$15>>2]|0;HEAP32[$$byval_copy16+4>>2]=HEAP32[$15+4>>2]|0;

								  $96 = (+_MathDot($tmpcast$byval_copy15,$$byval_copy16));

								  $97 = $96 > $$028;

								  $$119 = $97 ? $$01727 : $$01826;

								  $$1 = $97 ? $96 : $$028;

								  $98 = (($$01727) + 1)|0;

								  $99 = HEAP32[$3>>2]|0;

								  $100 = ($98>>>0)<($99>>>0);

								  if ($100) {

								   $$01727 = $98;$$01826 = $$119;$$028 = $$1;

								  } else {

								   $$0$lcssa = $$1;$$018$lcssa = $$119;

								   break;

								  }

								 }

								 HEAP32[$0>>2] = $$018$lcssa;

								 STACKTOP = sp;return (+$$0$lcssa);

								}

								function _BiasGreaterThan($0,$1) {

								 $0 = +$0;

								 $1 = +$1;

								 var $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0, $6 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = $1 * 0.94999998807907104;

								 $3 = $0 * 0.0099999997764825821;

								 $4 = $3 + $2;

								 $5 = $4 <= $0;

								 $6 = $5&1;

								 return ($6|0);

								}

								function _FindIncidentFace($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $$0$lcssa = 0, $$02434 = 0, $$02533 = 0.0, $$035 = 0, $$1 = 0, $$126 = 0.0, $$byval_copy13 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0.0, $106 = 0, $107 = 0, $108 = 0, $11 = 0, $12 = 0, $13 = 0;

								 var $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0;

								 var $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0;

								 var $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0;

								 var $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0;

								 var $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $tmpcast$byval_copy12 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 912|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(912|0);

								 $$byval_copy13 = sp + 896|0;

								 $tmpcast$byval_copy12 = sp + 880|0;

								 $5 = sp + 460|0;

								 $6 = sp + 56|0;

								 $7 = sp;

								 $8 = sp + 48|0;

								 $9 = sp + 864|0;

								 $10 = sp + 40|0;

								 $11 = sp + 32|0;

								 $12 = sp + 24|0;

								 $13 = sp + 16|0;

								 $14 = sp + 8|0;

								 $15 = ((($2)) + 12|0);

								 _memcpy(($5|0),($15|0),404)|0;

								 $16 = ((($3)) + 12|0);

								 _memcpy(($6|0),($16|0),404)|0;

								 $17 = (((($5)) + 196|0) + ($4<<3)|0);

								 $18 = $17;

								 $19 = $18;

								 $20 = HEAP32[$19>>2]|0;

								 $21 = (($18) + 4)|0;

								 $22 = $21;

								 $23 = HEAP32[$22>>2]|0;

								 $24 = $7;

								 $25 = $24;

								 HEAP32[$25>>2] = $20;

								 $26 = (($24) + 4)|0;

								 $27 = $26;

								 HEAP32[$27>>2] = $23;

								 $28 = ((($5)) + 388|0);

								 ;HEAP32[$tmpcast$byval_copy12>>2]=HEAP32[$28>>2]|0;HEAP32[$tmpcast$byval_copy12+4>>2]=HEAP32[$28+4>>2]|0;HEAP32[$tmpcast$byval_copy12+8>>2]=HEAP32[$28+8>>2]|0;HEAP32[$tmpcast$byval_copy12+12>>2]=HEAP32[$28+12>>2]|0;

								 ;HEAP32[$$byval_copy13>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$7+4>>2]|0;

								 _Mat2MultiplyVector2($8,$tmpcast$byval_copy12,$$byval_copy13);

								 $29 = $8;

								 $30 = $29;

								 $31 = HEAP32[$30>>2]|0;

								 $32 = (($29) + 4)|0;

								 $33 = $32;

								 $34 = HEAP32[$33>>2]|0;

								 $35 = $7;

								 $36 = $35;

								 HEAP32[$36>>2] = $31;

								 $37 = (($35) + 4)|0;

								 $38 = $37;

								 HEAP32[$38>>2] = $34;

								 $39 = ((($6)) + 388|0);

								 ;HEAP32[$$byval_copy13>>2]=HEAP32[$39>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$39+4>>2]|0;HEAP32[$$byval_copy13+8>>2]=HEAP32[$39+8>>2]|0;HEAP32[$$byval_copy13+12>>2]=HEAP32[$39+12>>2]|0;

								 _Mat2Transpose($9,$$byval_copy13);

								 ;HEAP32[$tmpcast$byval_copy12>>2]=HEAP32[$9>>2]|0;HEAP32[$tmpcast$byval_copy12+4>>2]=HEAP32[$9+4>>2]|0;HEAP32[$tmpcast$byval_copy12+8>>2]=HEAP32[$9+8>>2]|0;HEAP32[$tmpcast$byval_copy12+12>>2]=HEAP32[$9+12>>2]|0;

								 ;HEAP32[$$byval_copy13>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$7+4>>2]|0;

								 _Mat2MultiplyVector2($10,$tmpcast$byval_copy12,$$byval_copy13);

								 $40 = $10;

								 $41 = $40;

								 $42 = HEAP32[$41>>2]|0;

								 $43 = (($40) + 4)|0;

								 $44 = $43;

								 $45 = HEAP32[$44>>2]|0;

								 $46 = $7;

								 $47 = $46;

								 HEAP32[$47>>2] = $42;

								 $48 = (($46) + 4)|0;

								 $49 = $48;

								 HEAP32[$49>>2] = $45;

								 $50 = HEAP32[$6>>2]|0;

								 $51 = ($50|0)==(0);

								 if ($51) {

								  $$0$lcssa = 0;

								 } else {

								  $52 = HEAP32[$6>>2]|0;

								  $$02434 = 0;$$02533 = 3.4028234663852886E+38;$$035 = 0;

								  while(1) {

								   $104 = (((($6)) + 196|0) + ($$02434<<3)|0);

								   ;HEAP32[$tmpcast$byval_copy12>>2]=HEAP32[$7>>2]|0;HEAP32[$tmpcast$byval_copy12+4>>2]=HEAP32[$7+4>>2]|0;

								   ;HEAP32[$$byval_copy13>>2]=HEAP32[$104>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$104+4>>2]|0;

								   $105 = (+_MathDot($tmpcast$byval_copy12,$$byval_copy13));

								   $106 = $105 < $$02533;

								   $$126 = $106 ? $105 : $$02533;

								   $$1 = $106 ? $$02434 : $$035;

								   $107 = (($$02434) + 1)|0;

								   $108 = ($107>>>0)<($52>>>0);

								   if ($108) {

								    $$02434 = $107;$$02533 = $$126;$$035 = $$1;

								   } else {

								    $$0$lcssa = $$1;

								    break;

								   }

								  }

								 }

								 $53 = (((($6)) + 4|0) + ($$0$lcssa<<3)|0);

								 ;HEAP32[$tmpcast$byval_copy12>>2]=HEAP32[$39>>2]|0;HEAP32[$tmpcast$byval_copy12+4>>2]=HEAP32[$39+4>>2]|0;HEAP32[$tmpcast$byval_copy12+8>>2]=HEAP32[$39+8>>2]|0;HEAP32[$tmpcast$byval_copy12+12>>2]=HEAP32[$39+12>>2]|0;

								 ;HEAP32[$$byval_copy13>>2]=HEAP32[$53>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$53+4>>2]|0;

								 _Mat2MultiplyVector2($11,$tmpcast$byval_copy12,$$byval_copy13);

								 $54 = $11;

								 $55 = $54;

								 $56 = HEAP32[$55>>2]|0;

								 $57 = (($54) + 4)|0;

								 $58 = $57;

								 $59 = HEAP32[$58>>2]|0;

								 $60 = $0;

								 $61 = $60;

								 HEAP32[$61>>2] = $56;

								 $62 = (($60) + 4)|0;

								 $63 = $62;

								 HEAP32[$63>>2] = $59;

								 $64 = ((($3)) + 4|0);

								 $65 = HEAP32[$64>>2]|0;

								 $66 = ((($65)) + 8|0);

								 ;HEAP32[$tmpcast$byval_copy12>>2]=HEAP32[$0>>2]|0;HEAP32[$tmpcast$byval_copy12+4>>2]=HEAP32[$0+4>>2]|0;

								 ;HEAP32[$$byval_copy13>>2]=HEAP32[$66>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$66+4>>2]|0;

								 _Vector2Add_2($12,$tmpcast$byval_copy12,$$byval_copy13);

								 $67 = $12;

								 $68 = $67;

								 $69 = HEAP32[$68>>2]|0;

								 $70 = (($67) + 4)|0;

								 $71 = $70;

								 $72 = HEAP32[$71>>2]|0;

								 $73 = $0;

								 $74 = $73;

								 HEAP32[$74>>2] = $69;

								 $75 = (($73) + 4)|0;

								 $76 = $75;

								 HEAP32[$76>>2] = $72;

								 $77 = (($$0$lcssa) + 1)|0;

								 $78 = HEAP32[$6>>2]|0;

								 $79 = ($77>>>0)<($78>>>0);

								 $80 = $79 ? $77 : 0;

								 $81 = (((($6)) + 4|0) + ($80<<3)|0);

								 ;HEAP32[$tmpcast$byval_copy12>>2]=HEAP32[$39>>2]|0;HEAP32[$tmpcast$byval_copy12+4>>2]=HEAP32[$39+4>>2]|0;HEAP32[$tmpcast$byval_copy12+8>>2]=HEAP32[$39+8>>2]|0;HEAP32[$tmpcast$byval_copy12+12>>2]=HEAP32[$39+12>>2]|0;

								 ;HEAP32[$$byval_copy13>>2]=HEAP32[$81>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$81+4>>2]|0;

								 _Mat2MultiplyVector2($13,$tmpcast$byval_copy12,$$byval_copy13);

								 $82 = $13;

								 $83 = $82;

								 $84 = HEAP32[$83>>2]|0;

								 $85 = (($82) + 4)|0;

								 $86 = $85;

								 $87 = HEAP32[$86>>2]|0;

								 $88 = $1;

								 $89 = $88;

								 HEAP32[$89>>2] = $84;

								 $90 = (($88) + 4)|0;

								 $91 = $90;

								 HEAP32[$91>>2] = $87;

								 $92 = HEAP32[$64>>2]|0;

								 $93 = ((($92)) + 8|0);

								 ;HEAP32[$tmpcast$byval_copy12>>2]=HEAP32[$1>>2]|0;HEAP32[$tmpcast$byval_copy12+4>>2]=HEAP32[$1+4>>2]|0;

								 ;HEAP32[$$byval_copy13>>2]=HEAP32[$93>>2]|0;HEAP32[$$byval_copy13+4>>2]=HEAP32[$93+4>>2]|0;

								 _Vector2Add_2($14,$tmpcast$byval_copy12,$$byval_copy13);

								 $94 = $14;

								 $95 = $94;

								 $96 = HEAP32[$95>>2]|0;

								 $97 = (($94) + 4)|0;

								 $98 = $97;

								 $99 = HEAP32[$98>>2]|0;

								 $100 = $1;

								 $101 = $100;

								 HEAP32[$101>>2] = $96;

								 $102 = (($100) + 4)|0;

								 $103 = $102;

								 HEAP32[$103>>2] = $99;

								 STACKTOP = sp;return;

								}

								function _Clip($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $$0 = 0, $$1 = 0, $$2 = 0, $$byval_copy6 = 0, $$byval_copy7 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0;

								 var $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0.0, $29 = 0.0, $30 = 0.0, $31 = 0.0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0;

								 var $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0;

								 var $56 = 0.0, $57 = 0, $58 = 0.0, $59 = 0.0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0.0, $72 = 0.0, $73 = 0;

								 var $74 = 0.0, $75 = 0.0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0;

								 var $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 48|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(48|0);

								 $$byval_copy7 = sp + 40|0;

								 $$byval_copy6 = sp + 32|0;

								 $4 = sp;

								 $5 = sp + 24|0;

								 $6 = sp + 16|0;

								 $7 = $2;

								 $8 = $7;

								 $9 = HEAP32[$8>>2]|0;

								 $10 = (($7) + 4)|0;

								 $11 = $10;

								 $12 = HEAP32[$11>>2]|0;

								 $13 = $4;

								 $14 = $13;

								 HEAP32[$14>>2] = $9;

								 $15 = (($13) + 4)|0;

								 $16 = $15;

								 HEAP32[$16>>2] = $12;

								 $17 = ((($4)) + 8|0);

								 $18 = $3;

								 $19 = $18;

								 $20 = HEAP32[$19>>2]|0;

								 $21 = (($18) + 4)|0;

								 $22 = $21;

								 $23 = HEAP32[$22>>2]|0;

								 $24 = $17;

								 $25 = $24;

								 HEAP32[$25>>2] = $20;

								 $26 = (($24) + 4)|0;

								 $27 = $26;

								 HEAP32[$27>>2] = $23;

								 ;HEAP32[$$byval_copy6>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy6+4>>2]=HEAP32[$0+4>>2]|0;

								 ;HEAP32[$$byval_copy7>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$2+4>>2]|0;

								 $28 = (+_MathDot($$byval_copy6,$$byval_copy7));

								 $29 = $28 - $1;

								 ;HEAP32[$$byval_copy6>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy6+4>>2]=HEAP32[$0+4>>2]|0;

								 ;HEAP32[$$byval_copy7>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$3+4>>2]|0;

								 $30 = (+_MathDot($$byval_copy6,$$byval_copy7));

								 $31 = $30 - $1;

								 $32 = !($29 <= 0.0);

								 if ($32) {

								  $$0 = 0;

								 } else {

								  $33 = $2;

								  $34 = $33;

								  $35 = HEAP32[$34>>2]|0;

								  $36 = (($33) + 4)|0;

								  $37 = $36;

								  $38 = HEAP32[$37>>2]|0;

								  $39 = $4;

								  $40 = $39;

								  HEAP32[$40>>2] = $35;

								  $41 = (($39) + 4)|0;

								  $42 = $41;

								  HEAP32[$42>>2] = $38;

								  $$0 = 1;

								 }

								 $43 = !($31 <= 0.0);

								 if ($43) {

								  $$1 = $$0;

								 } else {

								  $44 = (($4) + ($$0<<3)|0);

								  $45 = (($$0) + 1)|0;

								  $46 = $3;

								  $47 = $46;

								  $48 = HEAP32[$47>>2]|0;

								  $49 = (($46) + 4)|0;

								  $50 = $49;

								  $51 = HEAP32[$50>>2]|0;

								  $52 = $44;

								  $53 = $52;

								  HEAP32[$53>>2] = $48;

								  $54 = (($52) + 4)|0;

								  $55 = $54;

								  HEAP32[$55>>2] = $51;

								  $$1 = $45;

								 }

								 $56 = $29 * $31;

								 $57 = $56 < 0.0;

								 if (!($57)) {

								  $$2 = $$1;

								  $87 = $4;

								  $88 = $87;

								  $89 = HEAP32[$88>>2]|0;

								  $90 = (($87) + 4)|0;

								  $91 = $90;

								  $92 = HEAP32[$91>>2]|0;

								  $93 = $2;

								  $94 = $93;

								  HEAP32[$94>>2] = $89;

								  $95 = (($93) + 4)|0;

								  $96 = $95;

								  HEAP32[$96>>2] = $92;

								  $97 = $17;

								  $98 = $97;

								  $99 = HEAP32[$98>>2]|0;

								  $100 = (($97) + 4)|0;

								  $101 = $100;

								  $102 = HEAP32[$101>>2]|0;

								  $103 = $3;

								  $104 = $103;

								  HEAP32[$104>>2] = $99;

								  $105 = (($103) + 4)|0;

								  $106 = $105;

								  HEAP32[$106>>2] = $102;

								  STACKTOP = sp;return ($$2|0);

								 }

								 $58 = $29 - $31;

								 $59 = $29 / $58;

								 $60 = (($4) + ($$1<<3)|0);

								 $61 = $2;

								 $62 = $61;

								 $63 = HEAP32[$62>>2]|0;

								 $64 = (($61) + 4)|0;

								 $65 = $64;

								 $66 = HEAP32[$65>>2]|0;

								 $67 = $60;

								 $68 = $67;

								 HEAP32[$68>>2] = $63;

								 $69 = (($67) + 4)|0;

								 $70 = $69;

								 HEAP32[$70>>2] = $66;

								 ;HEAP32[$$byval_copy6>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy6+4>>2]=HEAP32[$3+4>>2]|0;

								 ;HEAP32[$$byval_copy7>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$2+4>>2]|0;

								 _Vector2Subtract_4($5,$$byval_copy6,$$byval_copy7);

								 $71 = +HEAPF32[$5>>2];

								 $72 = $59 * $71;

								 HEAPF32[$5>>2] = $72;

								 $73 = ((($5)) + 4|0);

								 $74 = +HEAPF32[$73>>2];

								 $75 = $59 * $74;

								 HEAPF32[$73>>2] = $75;

								 ;HEAP32[$$byval_copy6>>2]=HEAP32[$60>>2]|0;HEAP32[$$byval_copy6+4>>2]=HEAP32[$60+4>>2]|0;

								 ;HEAP32[$$byval_copy7>>2]=HEAP32[$5>>2]|0;HEAP32[$$byval_copy7+4>>2]=HEAP32[$5+4>>2]|0;

								 _Vector2Add_2($6,$$byval_copy6,$$byval_copy7);

								 $76 = $6;

								 $77 = $76;

								 $78 = HEAP32[$77>>2]|0;

								 $79 = (($76) + 4)|0;

								 $80 = $79;

								 $81 = HEAP32[$80>>2]|0;

								 $82 = $60;

								 $83 = $82;

								 HEAP32[$83>>2] = $78;

								 $84 = (($82) + 4)|0;

								 $85 = $84;

								 HEAP32[$85>>2] = $81;

								 $86 = (($$1) + 1)|0;

								 $$2 = $86;

								 $87 = $4;

								 $88 = $87;

								 $89 = HEAP32[$88>>2]|0;

								 $90 = (($87) + 4)|0;

								 $91 = $90;

								 $92 = HEAP32[$91>>2]|0;

								 $93 = $2;

								 $94 = $93;

								 HEAP32[$94>>2] = $89;

								 $95 = (($93) + 4)|0;

								 $96 = $95;

								 HEAP32[$96>>2] = $92;

								 $97 = $17;

								 $98 = $97;

								 $99 = HEAP32[$98>>2]|0;

								 $100 = (($97) + 4)|0;

								 $101 = $100;

								 $102 = HEAP32[$101>>2]|0;

								 $103 = $3;

								 $104 = $103;

								 HEAP32[$104>>2] = $99;

								 $105 = (($103) + 4)|0;

								 $106 = $105;

								 HEAP32[$106>>2] = $102;

								 STACKTOP = sp;return ($$2|0);

								}

								function _GetSupport($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$01318 = 0, $$019 = 0.0, $$1 = 0.0, $$byval_copy = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $26 = 0.0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $tmpcast$byval_copy = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 432|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(432|0);

								 $$byval_copy = sp + 424|0;

								 $tmpcast$byval_copy = sp + 416|0;

								 $3 = sp + 8|0;

								 $4 = sp;

								 $5 = ((($1)) + 12|0);

								 _memcpy(($3|0),($5|0),404)|0;

								 $6 = HEAP32[$3>>2]|0;

								 $7 = ($6|0)==(0);

								 if ($7) {

								  $11 = 0;$14 = 0;

								  $9 = $0;

								  $10 = $9;

								  HEAP32[$10>>2] = $11;

								  $12 = (($9) + 4)|0;

								  $13 = $12;

								  HEAP32[$13>>2] = $14;

								  STACKTOP = sp;return;

								 }

								 $8 = HEAP32[$3>>2]|0;

								 $$01318 = 0;$$019 = -3.4028234663852886E+38;$29 = 0;$31 = 0;

								 while(1) {

								  $15 = (((($3)) + 4|0) + ($$01318<<3)|0);

								  $16 = $15;

								  $17 = $16;

								  $18 = HEAP32[$17>>2]|0;

								  $19 = (($16) + 4)|0;

								  $20 = $19;

								  $21 = HEAP32[$20>>2]|0;

								  $22 = $4;

								  $23 = $22;

								  HEAP32[$23>>2] = $18;

								  $24 = (($22) + 4)|0;

								  $25 = $24;

								  HEAP32[$25>>2] = $21;

								  ;HEAP32[$tmpcast$byval_copy>>2]=HEAP32[$4>>2]|0;HEAP32[$tmpcast$byval_copy+4>>2]=HEAP32[$4+4>>2]|0;

								  ;HEAP32[$$byval_copy>>2]=HEAP32[$2>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$2+4>>2]|0;

								  $26 = (+_MathDot($tmpcast$byval_copy,$$byval_copy));

								  $27 = $26 > $$019;

								  $28 = $27 ? $18 : $29;

								  $30 = $27 ? $21 : $31;

								  $$1 = $27 ? $26 : $$019;

								  $32 = (($$01318) + 1)|0;

								  $33 = ($32>>>0)<($8>>>0);

								  if ($33) {

								   $$01318 = $32;$$019 = $$1;$29 = $28;$31 = $30;

								  } else {

								   $11 = $28;$14 = $30;

								   break;

								  }

								 }

								 $9 = $0;

								 $10 = $9;

								 HEAP32[$10>>2] = $11;

								 $12 = (($9) + 4)|0;

								 $13 = $12;

								 HEAP32[$13>>2] = $14;

								 STACKTOP = sp;return;

								}

								function _MathCross($0,$1,$2) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = $2|0;

								 var $3 = 0, $4 = 0.0, $5 = 0.0, $6 = 0.0, $7 = 0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ((($2)) + 4|0);

								 $4 = +HEAPF32[$3>>2];

								 $5 = $4 * $1;

								 $6 = -$5;

								 HEAPF32[$0>>2] = $6;

								 $7 = ((($0)) + 4|0);

								 $8 = +HEAPF32[$2>>2];

								 $9 = $8 * $1;

								 HEAPF32[$7>>2] = $9;

								 return;

								}

								function _Mat2Set($0,$1) {

								 $0 = $0|0;

								 $1 = +$1;

								 var $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = (+Math_cos((+$1)));

								 $3 = (+Math_sin((+$1)));

								 HEAPF32[$0>>2] = $2;

								 $4 = -$3;

								 $5 = ((($0)) + 4|0);

								 HEAPF32[$5>>2] = $4;

								 $6 = ((($0)) + 8|0);

								 HEAPF32[$6>>2] = $3;

								 $7 = ((($0)) + 12|0);

								 HEAPF32[$7>>2] = $2;

								 return;

								}

								function _Vector2Distance($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0.0, $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0.0, $8 = 0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = +HEAPF32[$0>>2];

								 $3 = +HEAPF32[$1>>2];

								 $4 = $2 - $3;

								 $5 = $4 * $4;

								 $6 = ((($0)) + 4|0);

								 $7 = +HEAPF32[$6>>2];

								 $8 = ((($1)) + 4|0);

								 $9 = +HEAPF32[$8>>2];

								 $10 = $7 - $9;

								 $11 = $10 * $10;

								 $12 = $5 + $11;

								 $13 = (+Math_sqrt((+$12)));

								 return (+$13);

								}

								function _Vector2Angle($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0.0, $10 = 0.0, $11 = 0.0, $12 = 0, $13 = 0.0, $2 = 0, $3 = 0.0, $4 = 0, $5 = 0.0, $6 = 0.0, $7 = 0.0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ((($1)) + 4|0);

								 $3 = +HEAPF32[$2>>2];

								 $4 = ((($0)) + 4|0);

								 $5 = +HEAPF32[$4>>2];

								 $6 = $3 - $5;

								 $7 = +HEAPF32[$1>>2];

								 $8 = +HEAPF32[$0>>2];

								 $9 = $7 - $8;

								 $10 = (+Math_atan2((+$6),(+$9)));

								 $11 = $10 * 57.2957763671875;

								 $12 = $11 < 0.0;

								 $13 = $11 + 360.0;

								 $$0 = $12 ? $13 : $11;

								 return (+$$0);

								}

								function _VectorZero($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAPF32[$0>>2] = 0.0;

								 $1 = ((($0)) + 4|0);

								 HEAPF32[$1>>2] = 0.0;

								 $2 = ((($0)) + 8|0);

								 HEAPF32[$2>>2] = 0.0;

								 return;

								}

								function _VectorLength($0) {

								 $0 = $0|0;

								 var $1 = 0.0, $10 = 0.0, $11 = 0.0, $2 = 0.0, $3 = 0, $4 = 0.0, $5 = 0.0, $6 = 0.0, $7 = 0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = +HEAPF32[$0>>2];

								 $2 = $1 * $1;

								 $3 = ((($0)) + 4|0);

								 $4 = +HEAPF32[$3>>2];

								 $5 = $4 * $4;

								 $6 = $2 + $5;

								 $7 = ((($0)) + 8|0);

								 $8 = +HEAPF32[$7>>2];

								 $9 = $8 * $8;

								 $10 = $6 + $9;

								 $11 = (+Math_sqrt((+$10)));

								 return (+$11);

								}

								function _VectorNormalize($0) {

								 $0 = $0|0;

								 var $$byval_copy = 0, $$op = 0.0, $1 = 0.0, $10 = 0.0, $11 = 0.0, $2 = 0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0.0, $8 = 0.0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $$byval_copy = sp;

								 ;HEAP32[$$byval_copy>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$0+4>>2]|0;HEAP32[$$byval_copy+8>>2]=HEAP32[$0+8>>2]|0;

								 $1 = (+_VectorLength($$byval_copy));

								 $2 = $1 == 0.0;

								 $$op = 1.0 / $1;

								 $3 = $2 ? 1.0 : $$op;

								 $4 = +HEAPF32[$0>>2];

								 $5 = $4 * $3;

								 HEAPF32[$0>>2] = $5;

								 $6 = ((($0)) + 4|0);

								 $7 = +HEAPF32[$6>>2];

								 $8 = $3 * $7;

								 HEAPF32[$6>>2] = $8;

								 $9 = ((($0)) + 8|0);

								 $10 = +HEAPF32[$9>>2];

								 $11 = $3 * $10;

								 HEAPF32[$9>>2] = $11;

								 STACKTOP = sp;return;

								}

								function _VectorTransform($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0, $14 = 0.0, $15 = 0.0, $16 = 0.0, $17 = 0, $18 = 0.0, $19 = 0.0, $2 = 0.0, $20 = 0, $21 = 0.0, $22 = 0.0, $23 = 0, $24 = 0.0, $25 = 0.0, $26 = 0.0, $27 = 0, $28 = 0.0;

								 var $29 = 0.0, $3 = 0, $30 = 0.0, $31 = 0, $32 = 0.0, $33 = 0.0, $34 = 0, $35 = 0.0, $36 = 0.0, $37 = 0, $38 = 0.0, $39 = 0.0, $4 = 0.0, $40 = 0.0, $41 = 0, $42 = 0.0, $43 = 0.0, $44 = 0.0, $45 = 0, $46 = 0.0;

								 var $47 = 0.0, $5 = 0, $6 = 0.0, $7 = 0.0, $8 = 0.0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = +HEAPF32[$0>>2];

								 $3 = ((($0)) + 4|0);

								 $4 = +HEAPF32[$3>>2];

								 $5 = ((($0)) + 8|0);

								 $6 = +HEAPF32[$5>>2];

								 $7 = +HEAPF32[$1>>2];

								 $8 = $2 * $7;

								 $9 = ((($1)) + 4|0);

								 $10 = +HEAPF32[$9>>2];

								 $11 = $4 * $10;

								 $12 = $8 + $11;

								 $13 = ((($1)) + 8|0);

								 $14 = +HEAPF32[$13>>2];

								 $15 = $6 * $14;

								 $16 = $12 + $15;

								 $17 = ((($1)) + 12|0);

								 $18 = +HEAPF32[$17>>2];

								 $19 = $18 + $16;

								 HEAPF32[$0>>2] = $19;

								 $20 = ((($1)) + 16|0);

								 $21 = +HEAPF32[$20>>2];

								 $22 = $2 * $21;

								 $23 = ((($1)) + 20|0);

								 $24 = +HEAPF32[$23>>2];

								 $25 = $4 * $24;

								 $26 = $22 + $25;

								 $27 = ((($1)) + 24|0);

								 $28 = +HEAPF32[$27>>2];

								 $29 = $6 * $28;

								 $30 = $26 + $29;

								 $31 = ((($1)) + 28|0);

								 $32 = +HEAPF32[$31>>2];

								 $33 = $32 + $30;

								 HEAPF32[$3>>2] = $33;

								 $34 = ((($1)) + 32|0);

								 $35 = +HEAPF32[$34>>2];

								 $36 = $2 * $35;

								 $37 = ((($1)) + 36|0);

								 $38 = +HEAPF32[$37>>2];

								 $39 = $4 * $38;

								 $40 = $36 + $39;

								 $41 = ((($1)) + 40|0);

								 $42 = +HEAPF32[$41>>2];

								 $43 = $6 * $42;

								 $44 = $40 + $43;

								 $45 = ((($1)) + 44|0);

								 $46 = +HEAPF32[$45>>2];

								 $47 = $46 + $44;

								 HEAPF32[$5>>2] = $47;

								 return;

								}

								function _MatrixTranspose($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $3 = 0, $4 = 0, $5 = 0;

								 var $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 4|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ((($0)) + 8|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ((($0)) + 12|0);

								 $6 = HEAP32[$5>>2]|0;

								 $7 = ((($0)) + 16|0);

								 $8 = HEAP32[$7>>2]|0;

								 $9 = ((($0)) + 24|0);

								 $10 = HEAP32[$9>>2]|0;

								 $11 = ((($0)) + 28|0);

								 $12 = HEAP32[$11>>2]|0;

								 $13 = ((($0)) + 32|0);

								 $14 = HEAP32[$13>>2]|0;

								 $15 = ((($0)) + 36|0);

								 $16 = HEAP32[$15>>2]|0;

								 $17 = ((($0)) + 44|0);

								 $18 = HEAP32[$17>>2]|0;

								 $19 = ((($0)) + 48|0);

								 $20 = HEAP32[$19>>2]|0;

								 $21 = ((($0)) + 52|0);

								 $22 = HEAP32[$21>>2]|0;

								 $23 = ((($0)) + 56|0);

								 $24 = HEAP32[$23>>2]|0;

								 HEAP32[$1>>2] = $8;

								 HEAP32[$3>>2] = $14;

								 HEAP32[$5>>2] = $20;

								 HEAP32[$7>>2] = $2;

								 HEAP32[$9>>2] = $16;

								 HEAP32[$11>>2] = $22;

								 HEAP32[$13>>2] = $4;

								 HEAP32[$15>>2] = $10;

								 HEAP32[$17>>2] = $24;

								 HEAP32[$19>>2] = $6;

								 HEAP32[$21>>2] = $12;

								 HEAP32[$23>>2] = $18;

								 return;

								}

								function _MatrixIdentity($0) {

								 $0 = $0|0;

								 var $$sroa$5$0$$sroa_idx = 0, $$sroa$55$0$$sroa_idx6 = 0, $$sroa$6$0$$sroa_idx = 0, $$sroa$611$0$$sroa_idx12 = 0, $$sroa$7$0$$sroa_idx = 0, $$sroa$717$0$$sroa_idx18 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAPF32[$0>>2] = 1.0;

								 $$sroa$5$0$$sroa_idx = ((($0)) + 4|0);

								 ;HEAP32[$$sroa$5$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$5$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$5$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$5$0$$sroa_idx+12>>2]=0|0;

								 $$sroa$55$0$$sroa_idx6 = ((($0)) + 20|0);

								 HEAPF32[$$sroa$55$0$$sroa_idx6>>2] = 1.0;

								 $$sroa$6$0$$sroa_idx = ((($0)) + 24|0);

								 ;HEAP32[$$sroa$6$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$6$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$6$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$6$0$$sroa_idx+12>>2]=0|0;

								 $$sroa$611$0$$sroa_idx12 = ((($0)) + 40|0);

								 HEAPF32[$$sroa$611$0$$sroa_idx12>>2] = 1.0;

								 $$sroa$7$0$$sroa_idx = ((($0)) + 44|0);

								 ;HEAP32[$$sroa$7$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$7$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$7$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$7$0$$sroa_idx+12>>2]=0|0;

								 $$sroa$717$0$$sroa_idx18 = ((($0)) + 60|0);

								 HEAPF32[$$sroa$717$0$$sroa_idx18>>2] = 1.0;

								 return;

								}

								function _MatrixTranslate($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = +$2;

								 $3 = +$3;

								 var $$sroa$13$0$$sroa_idx20 = 0, $$sroa$14$0$$sroa_idx22 = 0, $$sroa$15$0$$sroa_idx24 = 0, $$sroa$16$0$$sroa_idx26 = 0, $$sroa$17$0$$sroa_idx28 = 0, $$sroa$18$0$$sroa_idx30 = 0, $$sroa$4$0$$sroa_idx2 = 0, $$sroa$8$0$$sroa_idx10 = 0, $$sroa$9$0$$sroa_idx12 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAPF32[$0>>2] = 1.0;

								 $$sroa$4$0$$sroa_idx2 = ((($0)) + 4|0);

								 $$sroa$8$0$$sroa_idx10 = ((($0)) + 20|0);

								 ;HEAP32[$$sroa$4$0$$sroa_idx2>>2]=0|0;HEAP32[$$sroa$4$0$$sroa_idx2+4>>2]=0|0;HEAP32[$$sroa$4$0$$sroa_idx2+8>>2]=0|0;HEAP32[$$sroa$4$0$$sroa_idx2+12>>2]=0|0;

								 HEAPF32[$$sroa$8$0$$sroa_idx10>>2] = 1.0;

								 $$sroa$9$0$$sroa_idx12 = ((($0)) + 24|0);

								 $$sroa$13$0$$sroa_idx20 = ((($0)) + 40|0);

								 ;HEAP32[$$sroa$9$0$$sroa_idx12>>2]=0|0;HEAP32[$$sroa$9$0$$sroa_idx12+4>>2]=0|0;HEAP32[$$sroa$9$0$$sroa_idx12+8>>2]=0|0;HEAP32[$$sroa$9$0$$sroa_idx12+12>>2]=0|0;

								 HEAPF32[$$sroa$13$0$$sroa_idx20>>2] = 1.0;

								 $$sroa$14$0$$sroa_idx22 = ((($0)) + 44|0);

								 HEAPF32[$$sroa$14$0$$sroa_idx22>>2] = 0.0;

								 $$sroa$15$0$$sroa_idx24 = ((($0)) + 48|0);

								 HEAPF32[$$sroa$15$0$$sroa_idx24>>2] = $1;

								 $$sroa$16$0$$sroa_idx26 = ((($0)) + 52|0);

								 HEAPF32[$$sroa$16$0$$sroa_idx26>>2] = $2;

								 $$sroa$17$0$$sroa_idx28 = ((($0)) + 56|0);

								 HEAPF32[$$sroa$17$0$$sroa_idx28>>2] = $3;

								 $$sroa$18$0$$sroa_idx30 = ((($0)) + 60|0);

								 HEAPF32[$$sroa$18$0$$sroa_idx30>>2] = 1.0;

								 return;

								}

								function _MatrixRotate($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = +$2;

								 var $$ = 0.0, $$221 = 0.0, $$222 = 0.0, $$sroa$10$0$$sroa_idx199 = 0, $$sroa$11$0$$sroa_idx201 = 0, $$sroa$12$0$$sroa_idx203 = 0, $$sroa$13$0$$sroa_idx205 = 0, $$sroa$14$0$$sroa_idx207 = 0, $$sroa$15$0$$sroa_idx209 = 0, $$sroa$16$0$$sroa_idx211 = 0, $$sroa$17$0$$sroa_idx213 = 0, $$sroa$18$0$$sroa_idx215 = 0, $$sroa$4$0$$sroa_idx187 = 0, $$sroa$5$0$$sroa_idx189 = 0, $$sroa$6$0$$sroa_idx191 = 0, $$sroa$7$0$$sroa_idx193 = 0, $$sroa$8$0$$sroa_idx195 = 0, $$sroa$9$0$$sroa_idx197 = 0, $10 = 0.0, $100 = 0.0;

								 var $101 = 0.0, $102 = 0.0, $103 = 0.0, $104 = 0.0, $105 = 0.0, $106 = 0.0, $107 = 0.0, $108 = 0.0, $109 = 0.0, $11 = 0.0, $110 = 0.0, $111 = 0.0, $112 = 0.0, $113 = 0.0, $114 = 0.0, $115 = 0.0, $116 = 0.0, $117 = 0.0, $118 = 0.0, $119 = 0.0;

								 var $12 = 0.0, $120 = 0.0, $121 = 0.0, $122 = 0.0, $123 = 0.0, $124 = 0.0, $125 = 0.0, $126 = 0.0, $127 = 0.0, $128 = 0.0, $129 = 0.0, $13 = 0.0, $130 = 0.0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0;

								 var $138 = 0, $14 = 0.0, $15 = 0, $16 = 0, $17 = 0.0, $18 = 0.0, $19 = 0.0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0.0, $24 = 0.0, $25 = 0, $26 = 0.0, $27 = 0, $28 = 0.0, $29 = 0, $3 = 0, $30 = 0.0, $31 = 0;

								 var $32 = 0.0, $33 = 0, $34 = 0.0, $35 = 0, $36 = 0.0, $37 = 0, $38 = 0.0, $39 = 0, $4 = 0.0, $40 = 0.0, $41 = 0, $42 = 0.0, $43 = 0, $44 = 0.0, $45 = 0, $46 = 0.0, $47 = 0.0, $48 = 0.0, $49 = 0.0, $5 = 0;

								 var $50 = 0.0, $51 = 0.0, $52 = 0.0, $53 = 0.0, $54 = 0.0, $55 = 0.0, $56 = 0.0, $57 = 0.0, $58 = 0.0, $59 = 0.0, $6 = 0.0, $60 = 0.0, $61 = 0.0, $62 = 0.0, $63 = 0.0, $64 = 0.0, $65 = 0.0, $66 = 0.0, $67 = 0.0, $68 = 0.0;

								 var $69 = 0.0, $7 = 0, $70 = 0.0, $71 = 0.0, $72 = 0.0, $73 = 0.0, $74 = 0.0, $75 = 0.0, $76 = 0.0, $77 = 0.0, $78 = 0.0, $79 = 0.0, $8 = 0.0, $80 = 0.0, $81 = 0.0, $82 = 0.0, $83 = 0.0, $84 = 0.0, $85 = 0.0, $86 = 0.0;

								 var $87 = 0.0, $88 = 0.0, $89 = 0.0, $9 = 0.0, $90 = 0.0, $91 = 0.0, $92 = 0.0, $93 = 0.0, $94 = 0.0, $95 = 0.0, $96 = 0.0, $97 = 0.0, $98 = 0.0, $99 = 0.0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $3 = sp;

								 _MatrixIdentity($3);

								 $4 = +HEAPF32[$1>>2];

								 $5 = ((($1)) + 4|0);

								 $6 = +HEAPF32[$5>>2];

								 $7 = ((($1)) + 8|0);

								 $8 = +HEAPF32[$7>>2];

								 $9 = $4 * $4;

								 $10 = $6 * $6;

								 $11 = $9 + $10;

								 $12 = $8 * $8;

								 $13 = $11 + $12;

								 $14 = (+Math_sqrt((+$13)));

								 $15 = $14 != 1.0;

								 $16 = $14 != 0.0;

								 $or$cond = $15 & $16;

								 $17 = 1.0 / $14;

								 $18 = $4 * $17;

								 $19 = $6 * $17;

								 $20 = $8 * $17;

								 $$ = $or$cond ? $20 : $8;

								 $$221 = $or$cond ? $19 : $6;

								 $$222 = $or$cond ? $18 : $4;

								 $21 = (+Math_sin((+$2)));

								 $22 = (+Math_cos((+$2)));

								 $23 = 1.0 - $22;

								 $24 = +HEAPF32[$3>>2];

								 $25 = ((($3)) + 16|0);

								 $26 = +HEAPF32[$25>>2];

								 $27 = ((($3)) + 32|0);

								 $28 = +HEAPF32[$27>>2];

								 $29 = ((($3)) + 48|0);

								 $30 = +HEAPF32[$29>>2];

								 $31 = ((($3)) + 4|0);

								 $32 = +HEAPF32[$31>>2];

								 $33 = ((($3)) + 20|0);

								 $34 = +HEAPF32[$33>>2];

								 $35 = ((($3)) + 36|0);

								 $36 = +HEAPF32[$35>>2];

								 $37 = ((($3)) + 52|0);

								 $38 = +HEAPF32[$37>>2];

								 $39 = ((($3)) + 8|0);

								 $40 = +HEAPF32[$39>>2];

								 $41 = ((($3)) + 24|0);

								 $42 = +HEAPF32[$41>>2];

								 $43 = ((($3)) + 40|0);

								 $44 = +HEAPF32[$43>>2];

								 $45 = ((($3)) + 56|0);

								 $46 = +HEAPF32[$45>>2];

								 $47 = $$222 * $$222;

								 $48 = $23 * $47;

								 $49 = $22 + $48;

								 $50 = $$221 * $$222;

								 $51 = $23 * $50;

								 $52 = $21 * $$;

								 $53 = $52 + $51;

								 $54 = $$ * $$222;

								 $55 = $23 * $54;

								 $56 = $21 * $$221;

								 $57 = $55 - $56;

								 $58 = $51 - $52;

								 $59 = $$221 * $$221;

								 $60 = $23 * $59;

								 $61 = $22 + $60;

								 $62 = $$ * $$221;

								 $63 = $23 * $62;

								 $64 = $21 * $$222;

								 $65 = $64 + $63;

								 $66 = $56 + $55;

								 $67 = $63 - $64;

								 $68 = $$ * $$;

								 $69 = $23 * $68;

								 $70 = $22 + $69;

								 $71 = $24 * $49;

								 $72 = $53 * $32;

								 $73 = $71 + $72;

								 $74 = $57 * $40;

								 $75 = $73 + $74;

								 $76 = $26 * $49;

								 $77 = $53 * $34;

								 $78 = $76 + $77;

								 $79 = $57 * $42;

								 $80 = $78 + $79;

								 $81 = $28 * $49;

								 $82 = $53 * $36;

								 $83 = $81 + $82;

								 $84 = $57 * $44;

								 $85 = $83 + $84;

								 $86 = $30 * $49;

								 $87 = $53 * $38;

								 $88 = $86 + $87;

								 $89 = $57 * $46;

								 $90 = $88 + $89;

								 $91 = $24 * $58;

								 $92 = $61 * $32;

								 $93 = $91 + $92;

								 $94 = $65 * $40;

								 $95 = $93 + $94;

								 $96 = $26 * $58;

								 $97 = $61 * $34;

								 $98 = $96 + $97;

								 $99 = $65 * $42;

								 $100 = $98 + $99;

								 $101 = $28 * $58;

								 $102 = $61 * $36;

								 $103 = $101 + $102;

								 $104 = $65 * $44;

								 $105 = $103 + $104;

								 $106 = $30 * $58;

								 $107 = $61 * $38;

								 $108 = $106 + $107;

								 $109 = $65 * $46;

								 $110 = $108 + $109;

								 $111 = $24 * $66;

								 $112 = $67 * $32;

								 $113 = $111 + $112;

								 $114 = $70 * $40;

								 $115 = $113 + $114;

								 $116 = $26 * $66;

								 $117 = $67 * $34;

								 $118 = $116 + $117;

								 $119 = $70 * $42;

								 $120 = $118 + $119;

								 $121 = $28 * $66;

								 $122 = $67 * $36;

								 $123 = $121 + $122;

								 $124 = $70 * $44;

								 $125 = $123 + $124;

								 $126 = $30 * $66;

								 $127 = $67 * $38;

								 $128 = $126 + $127;

								 $129 = $70 * $46;

								 $130 = $128 + $129;

								 $131 = ((($3)) + 12|0);

								 $132 = HEAP32[$131>>2]|0;

								 $133 = ((($3)) + 28|0);

								 $134 = HEAP32[$133>>2]|0;

								 $135 = ((($3)) + 44|0);

								 $136 = HEAP32[$135>>2]|0;

								 $137 = ((($3)) + 60|0);

								 $138 = HEAP32[$137>>2]|0;

								 HEAPF32[$0>>2] = $75;

								 $$sroa$4$0$$sroa_idx187 = ((($0)) + 4|0);

								 HEAPF32[$$sroa$4$0$$sroa_idx187>>2] = $95;

								 $$sroa$5$0$$sroa_idx189 = ((($0)) + 8|0);

								 HEAPF32[$$sroa$5$0$$sroa_idx189>>2] = $115;

								 $$sroa$6$0$$sroa_idx191 = ((($0)) + 12|0);

								 HEAP32[$$sroa$6$0$$sroa_idx191>>2] = $132;

								 $$sroa$7$0$$sroa_idx193 = ((($0)) + 16|0);

								 HEAPF32[$$sroa$7$0$$sroa_idx193>>2] = $80;

								 $$sroa$8$0$$sroa_idx195 = ((($0)) + 20|0);

								 HEAPF32[$$sroa$8$0$$sroa_idx195>>2] = $100;

								 $$sroa$9$0$$sroa_idx197 = ((($0)) + 24|0);

								 HEAPF32[$$sroa$9$0$$sroa_idx197>>2] = $120;

								 $$sroa$10$0$$sroa_idx199 = ((($0)) + 28|0);

								 HEAP32[$$sroa$10$0$$sroa_idx199>>2] = $134;

								 $$sroa$11$0$$sroa_idx201 = ((($0)) + 32|0);

								 HEAPF32[$$sroa$11$0$$sroa_idx201>>2] = $85;

								 $$sroa$12$0$$sroa_idx203 = ((($0)) + 36|0);

								 HEAPF32[$$sroa$12$0$$sroa_idx203>>2] = $105;

								 $$sroa$13$0$$sroa_idx205 = ((($0)) + 40|0);

								 HEAPF32[$$sroa$13$0$$sroa_idx205>>2] = $125;

								 $$sroa$14$0$$sroa_idx207 = ((($0)) + 44|0);

								 HEAP32[$$sroa$14$0$$sroa_idx207>>2] = $136;

								 $$sroa$15$0$$sroa_idx209 = ((($0)) + 48|0);

								 HEAPF32[$$sroa$15$0$$sroa_idx209>>2] = $90;

								 $$sroa$16$0$$sroa_idx211 = ((($0)) + 52|0);

								 HEAPF32[$$sroa$16$0$$sroa_idx211>>2] = $110;

								 $$sroa$17$0$$sroa_idx213 = ((($0)) + 56|0);

								 HEAPF32[$$sroa$17$0$$sroa_idx213>>2] = $130;

								 $$sroa$18$0$$sroa_idx215 = ((($0)) + 60|0);

								 HEAP32[$$sroa$18$0$$sroa_idx215>>2] = $138;

								 STACKTOP = sp;return;

								}

								function _MatrixScale($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = +$2;

								 $3 = +$3;

								 var $$sroa$5$0$$sroa_idx = 0, $$sroa$55$0$$sroa_idx6 = 0, $$sroa$6$0$$sroa_idx = 0, $$sroa$611$0$$sroa_idx12 = 0, $$sroa$7$0$$sroa_idx = 0, $$sroa$717$0$$sroa_idx18 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAPF32[$0>>2] = $1;

								 $$sroa$5$0$$sroa_idx = ((($0)) + 4|0);

								 ;HEAP32[$$sroa$5$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$5$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$5$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$5$0$$sroa_idx+12>>2]=0|0;

								 $$sroa$55$0$$sroa_idx6 = ((($0)) + 20|0);

								 HEAPF32[$$sroa$55$0$$sroa_idx6>>2] = $2;

								 $$sroa$6$0$$sroa_idx = ((($0)) + 24|0);

								 ;HEAP32[$$sroa$6$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$6$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$6$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$6$0$$sroa_idx+12>>2]=0|0;

								 $$sroa$611$0$$sroa_idx12 = ((($0)) + 40|0);

								 HEAPF32[$$sroa$611$0$$sroa_idx12>>2] = $3;

								 $$sroa$7$0$$sroa_idx = ((($0)) + 44|0);

								 ;HEAP32[$$sroa$7$0$$sroa_idx>>2]=0|0;HEAP32[$$sroa$7$0$$sroa_idx+4>>2]=0|0;HEAP32[$$sroa$7$0$$sroa_idx+8>>2]=0|0;HEAP32[$$sroa$7$0$$sroa_idx+12>>2]=0|0;

								 $$sroa$717$0$$sroa_idx18 = ((($0)) + 60|0);

								 HEAPF32[$$sroa$717$0$$sroa_idx18>>2] = 1.0;

								 return;

								}

								function _MatrixMultiply($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$sroa$10$0$$sroa_idx14 = 0, $$sroa$11$0$$sroa_idx16 = 0, $$sroa$12$0$$sroa_idx18 = 0, $$sroa$13$0$$sroa_idx20 = 0, $$sroa$14$0$$sroa_idx22 = 0, $$sroa$15$0$$sroa_idx24 = 0, $$sroa$16$0$$sroa_idx26 = 0, $$sroa$17$0$$sroa_idx28 = 0, $$sroa$18$0$$sroa_idx30 = 0, $$sroa$4$0$$sroa_idx2 = 0, $$sroa$5$0$$sroa_idx4 = 0, $$sroa$6$0$$sroa_idx6 = 0, $$sroa$7$0$$sroa_idx8 = 0, $$sroa$8$0$$sroa_idx10 = 0, $$sroa$9$0$$sroa_idx12 = 0, $10 = 0.0, $100 = 0.0, $101 = 0.0, $102 = 0.0, $103 = 0.0;

								 var $104 = 0.0, $105 = 0, $106 = 0.0, $107 = 0.0, $108 = 0, $109 = 0.0, $11 = 0.0, $110 = 0.0, $111 = 0.0, $112 = 0, $113 = 0.0, $114 = 0.0, $115 = 0.0, $116 = 0, $117 = 0.0, $118 = 0.0, $119 = 0.0, $12 = 0, $120 = 0.0, $121 = 0.0;

								 var $122 = 0.0, $123 = 0.0, $124 = 0.0, $125 = 0.0, $126 = 0.0, $127 = 0.0, $128 = 0.0, $129 = 0.0, $13 = 0.0, $130 = 0.0, $131 = 0.0, $132 = 0.0, $133 = 0.0, $134 = 0.0, $135 = 0.0, $136 = 0.0, $137 = 0.0, $138 = 0.0, $139 = 0.0, $14 = 0;

								 var $140 = 0.0, $141 = 0, $142 = 0.0, $143 = 0.0, $144 = 0, $145 = 0.0, $146 = 0.0, $147 = 0.0, $148 = 0, $149 = 0.0, $15 = 0.0, $150 = 0.0, $151 = 0.0, $152 = 0, $153 = 0.0, $154 = 0.0, $155 = 0.0, $156 = 0.0, $157 = 0.0, $158 = 0.0;

								 var $159 = 0.0, $16 = 0.0, $160 = 0.0, $161 = 0.0, $162 = 0.0, $163 = 0.0, $164 = 0.0, $165 = 0.0, $166 = 0.0, $167 = 0.0, $168 = 0.0, $169 = 0.0, $17 = 0.0, $170 = 0.0, $171 = 0.0, $172 = 0.0, $173 = 0.0, $174 = 0.0, $175 = 0.0, $176 = 0.0;

								 var $18 = 0, $19 = 0.0, $20 = 0, $21 = 0.0, $22 = 0.0, $23 = 0.0, $24 = 0, $25 = 0.0, $26 = 0.0, $27 = 0, $28 = 0.0, $29 = 0.0, $3 = 0.0, $30 = 0.0, $31 = 0, $32 = 0.0, $33 = 0.0, $34 = 0.0, $35 = 0, $36 = 0.0;

								 var $37 = 0.0, $38 = 0.0, $39 = 0, $4 = 0.0, $40 = 0.0, $41 = 0.0, $42 = 0, $43 = 0.0, $44 = 0.0, $45 = 0.0, $46 = 0, $47 = 0.0, $48 = 0.0, $49 = 0.0, $5 = 0.0, $50 = 0, $51 = 0.0, $52 = 0.0, $53 = 0.0, $54 = 0;

								 var $55 = 0.0, $56 = 0.0, $57 = 0, $58 = 0.0, $59 = 0.0, $6 = 0, $60 = 0.0, $61 = 0, $62 = 0.0, $63 = 0.0, $64 = 0.0, $65 = 0, $66 = 0.0, $67 = 0.0, $68 = 0.0, $69 = 0, $7 = 0.0, $70 = 0.0, $71 = 0.0, $72 = 0;

								 var $73 = 0.0, $74 = 0.0, $75 = 0.0, $76 = 0, $77 = 0.0, $78 = 0.0, $79 = 0.0, $8 = 0, $80 = 0, $81 = 0.0, $82 = 0.0, $83 = 0.0, $84 = 0.0, $85 = 0.0, $86 = 0.0, $87 = 0.0, $88 = 0.0, $89 = 0.0, $9 = 0.0, $90 = 0.0;

								 var $91 = 0.0, $92 = 0.0, $93 = 0.0, $94 = 0.0, $95 = 0.0, $96 = 0.0, $97 = 0.0, $98 = 0.0, $99 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = +HEAPF32[$2>>2];

								 $4 = +HEAPF32[$1>>2];

								 $5 = $3 * $4;

								 $6 = ((($2)) + 16|0);

								 $7 = +HEAPF32[$6>>2];

								 $8 = ((($1)) + 4|0);

								 $9 = +HEAPF32[$8>>2];

								 $10 = $7 * $9;

								 $11 = $5 + $10;

								 $12 = ((($2)) + 32|0);

								 $13 = +HEAPF32[$12>>2];

								 $14 = ((($1)) + 8|0);

								 $15 = +HEAPF32[$14>>2];

								 $16 = $13 * $15;

								 $17 = $11 + $16;

								 $18 = ((($2)) + 48|0);

								 $19 = +HEAPF32[$18>>2];

								 $20 = ((($1)) + 12|0);

								 $21 = +HEAPF32[$20>>2];

								 $22 = $19 * $21;

								 $23 = $17 + $22;

								 $24 = ((($1)) + 16|0);

								 $25 = +HEAPF32[$24>>2];

								 $26 = $3 * $25;

								 $27 = ((($1)) + 20|0);

								 $28 = +HEAPF32[$27>>2];

								 $29 = $7 * $28;

								 $30 = $26 + $29;

								 $31 = ((($1)) + 24|0);

								 $32 = +HEAPF32[$31>>2];

								 $33 = $13 * $32;

								 $34 = $30 + $33;

								 $35 = ((($1)) + 28|0);

								 $36 = +HEAPF32[$35>>2];

								 $37 = $19 * $36;

								 $38 = $34 + $37;

								 $39 = ((($1)) + 32|0);

								 $40 = +HEAPF32[$39>>2];

								 $41 = $3 * $40;

								 $42 = ((($1)) + 36|0);

								 $43 = +HEAPF32[$42>>2];

								 $44 = $7 * $43;

								 $45 = $41 + $44;

								 $46 = ((($1)) + 40|0);

								 $47 = +HEAPF32[$46>>2];

								 $48 = $13 * $47;

								 $49 = $45 + $48;

								 $50 = ((($1)) + 44|0);

								 $51 = +HEAPF32[$50>>2];

								 $52 = $19 * $51;

								 $53 = $49 + $52;

								 $54 = ((($1)) + 48|0);

								 $55 = +HEAPF32[$54>>2];

								 $56 = $3 * $55;

								 $57 = ((($1)) + 52|0);

								 $58 = +HEAPF32[$57>>2];

								 $59 = $7 * $58;

								 $60 = $56 + $59;

								 $61 = ((($1)) + 56|0);

								 $62 = +HEAPF32[$61>>2];

								 $63 = $13 * $62;

								 $64 = $60 + $63;

								 $65 = ((($1)) + 60|0);

								 $66 = +HEAPF32[$65>>2];

								 $67 = $19 * $66;

								 $68 = $64 + $67;

								 $69 = ((($2)) + 4|0);

								 $70 = +HEAPF32[$69>>2];

								 $71 = $4 * $70;

								 $72 = ((($2)) + 20|0);

								 $73 = +HEAPF32[$72>>2];

								 $74 = $9 * $73;

								 $75 = $71 + $74;

								 $76 = ((($2)) + 36|0);

								 $77 = +HEAPF32[$76>>2];

								 $78 = $15 * $77;

								 $79 = $75 + $78;

								 $80 = ((($2)) + 52|0);

								 $81 = +HEAPF32[$80>>2];

								 $82 = $21 * $81;

								 $83 = $79 + $82;

								 $84 = $25 * $70;

								 $85 = $28 * $73;

								 $86 = $84 + $85;

								 $87 = $32 * $77;

								 $88 = $86 + $87;

								 $89 = $36 * $81;

								 $90 = $88 + $89;

								 $91 = $40 * $70;

								 $92 = $43 * $73;

								 $93 = $91 + $92;

								 $94 = $47 * $77;

								 $95 = $93 + $94;

								 $96 = $51 * $81;

								 $97 = $95 + $96;

								 $98 = $55 * $70;

								 $99 = $58 * $73;

								 $100 = $98 + $99;

								 $101 = $62 * $77;

								 $102 = $100 + $101;

								 $103 = $66 * $81;

								 $104 = $102 + $103;

								 $105 = ((($2)) + 8|0);

								 $106 = +HEAPF32[$105>>2];

								 $107 = $4 * $106;

								 $108 = ((($2)) + 24|0);

								 $109 = +HEAPF32[$108>>2];

								 $110 = $9 * $109;

								 $111 = $107 + $110;

								 $112 = ((($2)) + 40|0);

								 $113 = +HEAPF32[$112>>2];

								 $114 = $15 * $113;

								 $115 = $111 + $114;

								 $116 = ((($2)) + 56|0);

								 $117 = +HEAPF32[$116>>2];

								 $118 = $21 * $117;

								 $119 = $115 + $118;

								 $120 = $25 * $106;

								 $121 = $28 * $109;

								 $122 = $120 + $121;

								 $123 = $32 * $113;

								 $124 = $122 + $123;

								 $125 = $36 * $117;

								 $126 = $124 + $125;

								 $127 = $40 * $106;

								 $128 = $43 * $109;

								 $129 = $127 + $128;

								 $130 = $47 * $113;

								 $131 = $129 + $130;

								 $132 = $51 * $117;

								 $133 = $131 + $132;

								 $134 = $55 * $106;

								 $135 = $58 * $109;

								 $136 = $134 + $135;

								 $137 = $62 * $113;

								 $138 = $136 + $137;

								 $139 = $66 * $117;

								 $140 = $138 + $139;

								 $141 = ((($2)) + 12|0);

								 $142 = +HEAPF32[$141>>2];

								 $143 = $4 * $142;

								 $144 = ((($2)) + 28|0);

								 $145 = +HEAPF32[$144>>2];

								 $146 = $9 * $145;

								 $147 = $143 + $146;

								 $148 = ((($2)) + 44|0);

								 $149 = +HEAPF32[$148>>2];

								 $150 = $15 * $149;

								 $151 = $147 + $150;

								 $152 = ((($2)) + 60|0);

								 $153 = +HEAPF32[$152>>2];

								 $154 = $21 * $153;

								 $155 = $151 + $154;

								 $156 = $25 * $142;

								 $157 = $28 * $145;

								 $158 = $156 + $157;

								 $159 = $32 * $149;

								 $160 = $158 + $159;

								 $161 = $36 * $153;

								 $162 = $160 + $161;

								 $163 = $40 * $142;

								 $164 = $43 * $145;

								 $165 = $163 + $164;

								 $166 = $47 * $149;

								 $167 = $165 + $166;

								 $168 = $51 * $153;

								 $169 = $167 + $168;

								 $170 = $55 * $142;

								 $171 = $58 * $145;

								 $172 = $170 + $171;

								 $173 = $62 * $149;

								 $174 = $172 + $173;

								 $175 = $66 * $153;

								 $176 = $174 + $175;

								 HEAPF32[$0>>2] = $23;

								 $$sroa$4$0$$sroa_idx2 = ((($0)) + 4|0);

								 HEAPF32[$$sroa$4$0$$sroa_idx2>>2] = $83;

								 $$sroa$5$0$$sroa_idx4 = ((($0)) + 8|0);

								 HEAPF32[$$sroa$5$0$$sroa_idx4>>2] = $119;

								 $$sroa$6$0$$sroa_idx6 = ((($0)) + 12|0);

								 HEAPF32[$$sroa$6$0$$sroa_idx6>>2] = $155;

								 $$sroa$7$0$$sroa_idx8 = ((($0)) + 16|0);

								 HEAPF32[$$sroa$7$0$$sroa_idx8>>2] = $38;

								 $$sroa$8$0$$sroa_idx10 = ((($0)) + 20|0);

								 HEAPF32[$$sroa$8$0$$sroa_idx10>>2] = $90;

								 $$sroa$9$0$$sroa_idx12 = ((($0)) + 24|0);

								 HEAPF32[$$sroa$9$0$$sroa_idx12>>2] = $126;

								 $$sroa$10$0$$sroa_idx14 = ((($0)) + 28|0);

								 HEAPF32[$$sroa$10$0$$sroa_idx14>>2] = $162;

								 $$sroa$11$0$$sroa_idx16 = ((($0)) + 32|0);

								 HEAPF32[$$sroa$11$0$$sroa_idx16>>2] = $53;

								 $$sroa$12$0$$sroa_idx18 = ((($0)) + 36|0);

								 HEAPF32[$$sroa$12$0$$sroa_idx18>>2] = $97;

								 $$sroa$13$0$$sroa_idx20 = ((($0)) + 40|0);

								 HEAPF32[$$sroa$13$0$$sroa_idx20>>2] = $133;

								 $$sroa$14$0$$sroa_idx22 = ((($0)) + 44|0);

								 HEAPF32[$$sroa$14$0$$sroa_idx22>>2] = $169;

								 $$sroa$15$0$$sroa_idx24 = ((($0)) + 48|0);

								 HEAPF32[$$sroa$15$0$$sroa_idx24>>2] = $68;

								 $$sroa$16$0$$sroa_idx26 = ((($0)) + 52|0);

								 HEAPF32[$$sroa$16$0$$sroa_idx26>>2] = $104;

								 $$sroa$17$0$$sroa_idx28 = ((($0)) + 56|0);

								 HEAPF32[$$sroa$17$0$$sroa_idx28>>2] = $140;

								 $$sroa$18$0$$sroa_idx30 = ((($0)) + 60|0);

								 HEAPF32[$$sroa$18$0$$sroa_idx30>>2] = $176;

								 return;

								}

								function _MatrixOrtho($0,$1,$2,$3,$4,$5,$6) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = +$2;

								 $3 = +$3;

								 $4 = +$4;

								 $5 = +$5;

								 $6 = +$6;

								 var $$sroa$10$0$$sroa_idx24 = 0, $$sroa$11$0$$sroa_idx26 = 0, $$sroa$12$0$$sroa_idx28 = 0, $$sroa$13$0$$sroa_idx30 = 0, $$sroa$14$0$$sroa_idx32 = 0, $$sroa$15$0$$sroa_idx34 = 0, $$sroa$16$0$$sroa_idx36 = 0, $$sroa$17$0$$sroa_idx38 = 0, $$sroa$18$0$$sroa_idx40 = 0, $$sroa$4$0$$sroa_idx12 = 0, $$sroa$5$0$$sroa_idx14 = 0, $$sroa$6$0$$sroa_idx16 = 0, $$sroa$7$0$$sroa_idx18 = 0, $$sroa$8$0$$sroa_idx20 = 0, $$sroa$9$0$$sroa_idx22 = 0, $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0.0, $14 = 0.0;

								 var $15 = 0.0, $16 = 0.0, $17 = 0.0, $18 = 0.0, $19 = 0.0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0.0, $24 = 0.0, $25 = 0.0, $26 = 0.0, $27 = 0.0, $28 = 0.0, $29 = 0.0, $30 = 0.0, $7 = 0.0, $8 = 0.0, $9 = 0.0, label = 0;

								 var sp = 0;

								 sp = STACKTOP;

								 $7 = $2 - $1;

								 $8 = $7;

								 $9 = $4 - $3;

								 $10 = $9;

								 $11 = $6 - $5;

								 $12 = $11;

								 $13 = 2.0 / $8;

								 $14 = 2.0 / $10;

								 $15 = -2.0 / $12;

								 $16 = $1 + $2;

								 $17 = -$16;

								 $18 = $8;

								 $19 = $17 / $18;

								 $20 = $19;

								 $21 = $3 + $4;

								 $22 = -$21;

								 $23 = $10;

								 $24 = $22 / $23;

								 $25 = $24;

								 $26 = $5 + $6;

								 $27 = -$26;

								 $28 = $12;

								 $29 = $27 / $28;

								 $30 = $29;

								 HEAPF32[$0>>2] = $13;

								 $$sroa$4$0$$sroa_idx12 = ((($0)) + 4|0);

								 HEAPF32[$$sroa$4$0$$sroa_idx12>>2] = 0.0;

								 $$sroa$5$0$$sroa_idx14 = ((($0)) + 8|0);

								 HEAPF32[$$sroa$5$0$$sroa_idx14>>2] = 0.0;

								 $$sroa$6$0$$sroa_idx16 = ((($0)) + 12|0);

								 HEAPF32[$$sroa$6$0$$sroa_idx16>>2] = $20;

								 $$sroa$7$0$$sroa_idx18 = ((($0)) + 16|0);

								 HEAPF32[$$sroa$7$0$$sroa_idx18>>2] = 0.0;

								 $$sroa$8$0$$sroa_idx20 = ((($0)) + 20|0);

								 HEAPF32[$$sroa$8$0$$sroa_idx20>>2] = $14;

								 $$sroa$9$0$$sroa_idx22 = ((($0)) + 24|0);

								 HEAPF32[$$sroa$9$0$$sroa_idx22>>2] = 0.0;

								 $$sroa$10$0$$sroa_idx24 = ((($0)) + 28|0);

								 HEAPF32[$$sroa$10$0$$sroa_idx24>>2] = $25;

								 $$sroa$11$0$$sroa_idx26 = ((($0)) + 32|0);

								 HEAPF32[$$sroa$11$0$$sroa_idx26>>2] = 0.0;

								 $$sroa$12$0$$sroa_idx28 = ((($0)) + 36|0);

								 HEAPF32[$$sroa$12$0$$sroa_idx28>>2] = 0.0;

								 $$sroa$13$0$$sroa_idx30 = ((($0)) + 40|0);

								 HEAPF32[$$sroa$13$0$$sroa_idx30>>2] = $15;

								 $$sroa$14$0$$sroa_idx32 = ((($0)) + 44|0);

								 HEAPF32[$$sroa$14$0$$sroa_idx32>>2] = $30;

								 $$sroa$15$0$$sroa_idx34 = ((($0)) + 48|0);

								 HEAPF32[$$sroa$15$0$$sroa_idx34>>2] = 0.0;

								 $$sroa$16$0$$sroa_idx36 = ((($0)) + 52|0);

								 HEAPF32[$$sroa$16$0$$sroa_idx36>>2] = 0.0;

								 $$sroa$17$0$$sroa_idx38 = ((($0)) + 56|0);

								 HEAPF32[$$sroa$17$0$$sroa_idx38>>2] = 0.0;

								 $$sroa$18$0$$sroa_idx40 = ((($0)) + 60|0);

								 HEAPF32[$$sroa$18$0$$sroa_idx40>>2] = 1.0;

								 return;

								}

								function _ProcessGestureEvent($0) {

								 $0 = $0|0;

								 var $$$sink = 0, $$sink = 0, $$sink10 = 0, $$sink11 = 0, $$sink16 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0.0, $111 = 0.0;

								 var $112 = 0.0, $113 = 0.0, $114 = 0.0, $115 = 0.0, $116 = 0.0, $117 = 0, $118 = 0, $119 = 0, $12 = 0.0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0;

								 var $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0;

								 var $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0.0, $16 = 0, $160 = 0.0, $161 = 0.0, $162 = 0.0, $163 = 0.0, $164 = 0.0, $165 = 0.0, $166 = 0;

								 var $167 = 0.0, $168 = 0, $169 = 0.0, $17 = 0, $170 = 0.0, $171 = 0.0, $172 = 0, $173 = 0.0, $174 = 0.0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0;

								 var $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0;

								 var $46 = 0, $47 = 0, $48 = 0.0, $49 = 0.0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0.0, $56 = 0.0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0;

								 var $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0.0, $81 = 0;

								 var $82 = 0.0, $83 = 0.0, $84 = 0.0, $85 = 0.0, $86 = 0.0, $87 = 0.0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $moveDownPosition$byval_copy11 = 0;

								 var $moveDownPosition2$byval_copy12 = 0, $or$cond = 0, $or$cond3 = 0, $or$cond5 = 0, $or$cond7 = 0, $or$cond9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $moveDownPosition2$byval_copy12 = sp + 8|0;

								 $moveDownPosition$byval_copy11 = sp;

								 $1 = ((($0)) + 4|0);

								 $2 = HEAP32[$1>>2]|0;

								 HEAP32[7749] = $2;

								 $3 = ($2|0)<(2);

								 $4 = HEAP32[$0>>2]|0;

								 $5 = ($4|0)==(1);

								 if (!($3)) {

								  if ($5) {

								   $88 = ((($0)) + 24|0);

								   $89 = $88;

								   $90 = $89;

								   $91 = HEAP32[$90>>2]|0;

								   $92 = (($89) + 4)|0;

								   $93 = $92;

								   $94 = HEAP32[$93>>2]|0;

								   $95 = 14040;

								   $96 = $95;

								   HEAP32[$96>>2] = $91;

								   $97 = (($95) + 4)|0;

								   $98 = $97;

								   HEAP32[$98>>2] = $94;

								   $99 = ((($0)) + 32|0);

								   $100 = $99;

								   $101 = $100;

								   $102 = HEAP32[$101>>2]|0;

								   $103 = (($100) + 4)|0;

								   $104 = $103;

								   $105 = HEAP32[$104>>2]|0;

								   $106 = 14080;

								   $107 = $106;

								   HEAP32[$107>>2] = $102;

								   $108 = (($106) + 4)|0;

								   $109 = $108;

								   HEAP32[$109>>2] = $105;

								   $110 = +HEAPF32[3520];

								   $111 = +HEAPF32[3510];

								   $112 = $110 - $111;

								   HEAPF32[3522] = $112;

								   $113 = +HEAPF32[(14084)>>2];

								   $114 = +HEAPF32[(14044)>>2];

								   $115 = $113 - $114;

								   HEAPF32[(14092)>>2] = $115;

								   HEAP32[7748] = 4;

								   STACKTOP = sp;return;

								  }

								  switch ($4|0) {

								  case 2:  {

								   ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14072>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14072+4>>2]|0;

								   ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14096>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14096+4>>2]|0;

								   $116 = (+_Vector2Distance($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								   HEAPF32[7754] = $116;

								   $117 = 14072;

								   $118 = $117;

								   $119 = HEAP32[$118>>2]|0;

								   $120 = (($117) + 4)|0;

								   $121 = $120;

								   $122 = HEAP32[$121>>2]|0;

								   $123 = 14040;

								   $124 = $123;

								   HEAP32[$124>>2] = $119;

								   $125 = (($123) + 4)|0;

								   $126 = $125;

								   HEAP32[$126>>2] = $122;

								   $127 = 14096;

								   $128 = $127;

								   $129 = HEAP32[$128>>2]|0;

								   $130 = (($127) + 4)|0;

								   $131 = $130;

								   $132 = HEAP32[$131>>2]|0;

								   $133 = 14080;

								   $134 = $133;

								   HEAP32[$134>>2] = $129;

								   $135 = (($133) + 4)|0;

								   $136 = $135;

								   HEAP32[$136>>2] = $132;

								   $137 = ((($0)) + 24|0);

								   $138 = $137;

								   $139 = $138;

								   $140 = HEAP32[$139>>2]|0;

								   $141 = (($138) + 4)|0;

								   $142 = $141;

								   $143 = HEAP32[$142>>2]|0;

								   $144 = 14072;

								   $145 = $144;

								   HEAP32[$145>>2] = $140;

								   $146 = (($144) + 4)|0;

								   $147 = $146;

								   HEAP32[$147>>2] = $143;

								   $148 = ((($0)) + 32|0);

								   $149 = $148;

								   $150 = $149;

								   $151 = HEAP32[$150>>2]|0;

								   $152 = (($149) + 4)|0;

								   $153 = $152;

								   $154 = HEAP32[$153>>2]|0;

								   $155 = 14096;

								   $156 = $155;

								   HEAP32[$156>>2] = $151;

								   $157 = (($155) + 4)|0;

								   $158 = $157;

								   HEAP32[$158>>2] = $154;

								   $159 = +HEAPF32[3524];

								   $160 = +HEAPF32[3518];

								   $161 = $159 - $160;

								   HEAPF32[3522] = $161;

								   $162 = +HEAPF32[(14100)>>2];

								   $163 = +HEAPF32[(14076)>>2];

								   $164 = $162 - $163;

								   HEAPF32[(14092)>>2] = $164;

								   ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14040>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14040+4>>2]|0;

								   ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14072>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14072+4>>2]|0;

								   $165 = (+_Vector2Distance($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								   $166 = !($165 >= 0.004999999888241291);

								   if ($166) {

								    ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14080>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14080+4>>2]|0;

								    ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14096>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14096+4>>2]|0;

								    $167 = (+_Vector2Distance($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								    $168 = !($167 >= 0.004999999888241291);

								    if ($168) {

								     $$sink16 = 4;

								    } else {

								     label = 29;

								    }

								   } else {

								    label = 29;

								   }

								   if ((label|0) == 29) {

								    ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14072>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14072+4>>2]|0;

								    ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14096>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14096+4>>2]|0;

								    $169 = (+_Vector2Distance($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								    $170 = +HEAPF32[7754];

								    $171 = $169 - $170;

								    $172 = $171 < 0.0;

								    $$sink11 = $172 ? 256 : 512;

								    $$sink16 = $$sink11;

								   }

								   HEAP32[7748] = $$sink16;

								   ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14072>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14072+4>>2]|0;

								   ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14096>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14096+4>>2]|0;

								   $173 = (+_Vector2Angle($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								   $174 = 360.0 - $173;

								   HEAPF32[7755] = $174;

								   STACKTOP = sp;return;

								   break;

								  }

								  case 0:  {

								   HEAPF32[7754] = 0.0;

								   HEAPF32[7755] = 0.0;

								   HEAPF32[3522] = 0.0;

								   HEAPF32[(14092)>>2] = 0.0;

								   HEAP32[7749] = 0;

								   HEAP32[7748] = 0;

								   STACKTOP = sp;return;

								   break;

								  }

								  default: {

								   STACKTOP = sp;return;

								  }

								  }

								 }

								 if ($5) {

								  $6 = HEAP32[7750]|0;

								  $7 = (($6) + 1)|0;

								  HEAP32[7750] = $7;

								  $8 = HEAP32[7748]|0;

								  $9 = ($8|0)==(0);

								  $10 = ($6|0)>(0);

								  $or$cond = $10 & $9;

								  if ($or$cond) {

								   $11 = ((($0)) + 24|0);

								   ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14040>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14040+4>>2]|0;

								   ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[$11>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[$11+4>>2]|0;

								   $12 = (+_Vector2Distance($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								   $13 = $12 < 0.029999999329447746;

								   if ($13) {

								    HEAP32[7748] = 2;

								    HEAP32[7750] = 0;

								   } else {

								    label = 6;

								   }

								  } else {

								   label = 6;

								  }

								  if ((label|0) == 6) {

								   HEAP32[7750] = 1;

								   HEAP32[7748] = 1;

								  }

								  $14 = ((($0)) + 24|0);

								  $15 = $14;

								  $16 = $15;

								  $17 = HEAP32[$16>>2]|0;

								  $18 = (($15) + 4)|0;

								  $19 = $18;

								  $20 = HEAP32[$19>>2]|0;

								  $21 = 14040;

								  $22 = $21;

								  HEAP32[$22>>2] = $17;

								  $23 = (($21) + 4)|0;

								  $24 = $23;

								  HEAP32[$24>>2] = $20;

								  $25 = 14048;

								  $26 = $25;

								  HEAP32[$26>>2] = $17;

								  $27 = (($25) + 4)|0;

								  $28 = $27;

								  HEAP32[$28>>2] = $20;

								  $29 = 14056;

								  $30 = $29;

								  HEAP32[$30>>2] = $17;

								  $31 = (($29) + 4)|0;

								  $32 = $31;

								  HEAP32[$32>>2] = $20;

								  $33 = ((($0)) + 8|0);

								  $34 = HEAP32[$33>>2]|0;

								  HEAP32[6] = $34;

								  HEAPF32[3516] = 0.0;

								  HEAPF32[(14068)>>2] = 0.0;

								  STACKTOP = sp;return;

								 }

								 switch ($4|0) {

								 case 0:  {

								  $35 = HEAP32[7748]|0;

								  $36 = ($35|0)==(8);

								  if ($36) {

								   $37 = ((($0)) + 24|0);

								   $38 = $37;

								   $39 = $38;

								   $40 = HEAP32[$39>>2]|0;

								   $41 = (($38) + 4)|0;

								   $42 = $41;

								   $43 = HEAP32[$42>>2]|0;

								   $44 = 14056;

								   $45 = $44;

								   HEAP32[$45>>2] = $40;

								   $46 = (($44) + 4)|0;

								   $47 = $46;

								   HEAP32[$47>>2] = $43;

								  }

								  ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14040>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14040+4>>2]|0;

								  ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14056>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14056+4>>2]|0;

								  $48 = (+_Vector2Distance($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								  $49 = $48 / 0.0;

								  HEAPF32[7751] = $49;

								  HEAP32[7752] = 0;

								  $50 = $49 > 5.0000002374872565E-4;

								  if ($50) {

								   $51 = HEAP32[6]|0;

								   $52 = ((($0)) + 8|0);

								   $53 = HEAP32[$52>>2]|0;

								   $54 = ($51|0)==($53|0);

								   if ($54) {

								    ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14040>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14040+4>>2]|0;

								    ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14056>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14056+4>>2]|0;

								    $55 = (+_Vector2Angle($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								    $56 = 360.0 - $55;

								    HEAPF32[7753] = $56;

								    $57 = $56 < 30.0;

								    $58 = $56 > 330.0;

								    $or$cond3 = $57 | $58;

								    if ($or$cond3) {

								     $$sink10 = 16;

								    } else {

								     $59 = $56 > 30.0;

								     $60 = $56 < 120.0;

								     $or$cond5 = $59 & $60;

								     if ($or$cond5) {

								      $$sink10 = 64;

								     } else {

								      $61 = $56 > 120.0;

								      $62 = $56 < 210.0;

								      $or$cond7 = $61 & $62;

								      $63 = $56 > 210.0;

								      $64 = $56 < 300.0;

								      $or$cond9 = $63 & $64;

								      $$sink = $or$cond9 ? 128 : 0;

								      $$$sink = $or$cond7 ? 32 : $$sink;

								      $$sink10 = $$$sink;

								     }

								    }

								   } else {

								    label = 16;

								   }

								  } else {

								   label = 16;

								  }

								  if ((label|0) == 16) {

								   HEAPF32[7751] = 0.0;

								   HEAPF32[7753] = 0.0;

								   $$sink10 = 0;

								  }

								  HEAP32[7748] = $$sink10;

								  HEAPF32[3512] = 0.0;

								  HEAPF32[(14052)>>2] = 0.0;

								  HEAP32[7749] = 0;

								  STACKTOP = sp;return;

								  break;

								 }

								 case 2:  {

								  $65 = HEAP32[7752]|0;

								  $66 = ($65|0)==(0);

								  if ($66) {

								   HEAP32[7752] = 1;

								  }

								  $67 = ((($0)) + 24|0);

								  $68 = $67;

								  $69 = $68;

								  $70 = HEAP32[$69>>2]|0;

								  $71 = (($68) + 4)|0;

								  $72 = $71;

								  $73 = HEAP32[$72>>2]|0;

								  $74 = 14072;

								  $75 = $74;

								  HEAP32[$75>>2] = $70;

								  $76 = (($74) + 4)|0;

								  $77 = $76;

								  HEAP32[$77>>2] = $73;

								  $78 = HEAP32[7748]|0;

								  $79 = ($78|0)==(4);

								  if ($79) {

								   ;HEAP32[$moveDownPosition$byval_copy11>>2]=HEAP32[14040>>2]|0;HEAP32[$moveDownPosition$byval_copy11+4>>2]=HEAP32[14040+4>>2]|0;

								   ;HEAP32[$moveDownPosition2$byval_copy12>>2]=HEAP32[14072>>2]|0;HEAP32[$moveDownPosition2$byval_copy12+4>>2]=HEAP32[14072+4>>2]|0;

								   $80 = (+_Vector2Distance($moveDownPosition$byval_copy11,$moveDownPosition2$byval_copy12));

								   $81 = !($80 >= 0.014999999664723873);

								   if (!($81)) {

								    HEAP32[7748] = 8;

								   }

								  }

								  $82 = +HEAPF32[3518];

								  $83 = +HEAPF32[3512];

								  $84 = $82 - $83;

								  HEAPF32[3516] = $84;

								  $85 = +HEAPF32[(14076)>>2];

								  $86 = +HEAPF32[(14052)>>2];

								  $87 = $85 - $86;

								  HEAPF32[(14068)>>2] = $87;

								  STACKTOP = sp;return;

								  break;

								 }

								 default: {

								  STACKTOP = sp;return;

								 }

								 }

								}

								function _UpdateGestures() {

								 var $$off = 0, $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $or$cond3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[7748]|0;

								 $$off = (($0) + -1)|0;

								 $1 = ($$off>>>0)<(2);

								 $2 = HEAP32[7749]|0;

								 $3 = ($2|0)<(2);

								 $or$cond3 = $1 & $3;

								 if ($or$cond3) {

								  HEAP32[7748] = 4;

								 }

								 $4 = HEAP32[7748]|0;

								 $5 = (($4) + -16)|0;

								 $6 = $5 >>> 4;

								 $7 = $5 << 28;

								 $8 = $6 | $7;

								 switch ($8|0) {

								 case 0: case 1: case 3: case 7:  {

								  break;

								 }

								 default: {

								  return;

								 }

								 }

								 HEAP32[7748] = 0;

								 return;

								}

								function _GetMousePosition($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = 14104;

								 $2 = $1;

								 $3 = HEAP32[$2>>2]|0;

								 $4 = (($1) + 4)|0;

								 $5 = $4;

								 $6 = HEAP32[$5>>2]|0;

								 $7 = $0;

								 $8 = $7;

								 HEAP32[$8>>2] = $3;

								 $9 = (($7) + 4)|0;

								 $10 = $9;

								 HEAP32[$10>>2] = $6;

								 return;

								}

								function _GetScreenWidth() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[7758]|0;

								 return ($0|0);

								}

								function _GetScreenHeight() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[7757]|0;

								 return ($0|0);

								}

								function _InitWindow($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $3 = 0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0.0, $8 = 0.0, $9 = 0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 _TraceLog(0,3400,$vararg_buffer);

								 HEAP32[7760] = $2;

								 _InitGraphicsDevice($0,$1);

								 _LoadDefaultFont();

								 _InitTimer_12();

								 (_emscripten_set_fullscreenchange_callback((0|0),(0|0),1,(4|0))|0);

								 (_emscripten_set_keypress_callback((3429|0),(0|0),1,(5|0))|0);

								 (_emscripten_set_click_callback((3429|0),(0|0),1,(6|0))|0);

								 (_emscripten_set_touchstart_callback((3429|0),(0|0),1,(7|0))|0);

								 (_emscripten_set_touchend_callback((3429|0),(0|0),1,(7|0))|0);

								 (_emscripten_set_touchmove_callback((3429|0),(0|0),1,(7|0))|0);

								 (_emscripten_set_touchcancel_callback((3429|0),(0|0),1,(7|0))|0);

								 (_emscripten_set_gamepadconnected_callback((0|0),1,(8|0))|0);

								 (_emscripten_set_gamepaddisconnected_callback((0|0),1,(8|0))|0);

								 $3 = HEAP32[7758]|0;

								 $4 = (+($3|0));

								 $5 = $4 * 0.5;

								 HEAPF32[3526] = $5;

								 $6 = HEAP32[7757]|0;

								 $7 = (+($6|0));

								 $8 = $7 * 0.5;

								 HEAPF32[(14108)>>2] = $8;

								 $9 = HEAP32[7761]|0;

								 $10 = ($9|0)==(0);

								 if ($10) {

								  STACKTOP = sp;return;

								 }

								 _SetTargetFPS(60);

								 _LogoAnimation();

								 STACKTOP = sp;return;

								}

								function _TraceLog($0,$1,$varargs) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $varargs = $varargs|0;

								 var $10 = 0, $11 = 0, $12 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $endptr = 0, $strlen = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $2 = sp;

								 switch ($0|0) {

								 case 0:  {

								  ;HEAP8[14144>>0]=HEAP8[7958>>0]|0;HEAP8[14144+1>>0]=HEAP8[7958+1>>0]|0;HEAP8[14144+2>>0]=HEAP8[7958+2>>0]|0;HEAP8[14144+3>>0]=HEAP8[7958+3>>0]|0;HEAP8[14144+4>>0]=HEAP8[7958+4>>0]|0;HEAP8[14144+5>>0]=HEAP8[7958+5>>0]|0;HEAP8[14144+6>>0]=HEAP8[7958+6>>0]|0;

								  break;

								 }

								 case 1:  {

								  $3 = 14144;

								  $4 = $3;

								  HEAP32[$4>>2] = 1330795077;

								  $5 = (($3) + 4)|0;

								  $6 = $5;

								  HEAP32[$6>>2] = 2112082;

								  break;

								 }

								 case 2:  {

								  dest=14144; src=7965; stop=dest+10|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0));

								  break;

								 }

								 case 3:  {

								  $7 = 14144;

								  $8 = $7;

								  HEAP32[$8>>2] = 1430406468;

								  $9 = (($7) + 4)|0;

								  $10 = $9;

								  HEAP32[$10>>2] = 2112071;

								  break;

								 }

								 default: {

								 }

								 }

								 (_strcat(14144,$1)|0);

								 $strlen = (_strlen(14144)|0);

								 $endptr = (14144 + ($strlen)|0);

								 HEAP8[$endptr>>0]=10&255;HEAP8[$endptr+1>>0]=10>>8;

								 HEAP32[$2>>2] = $varargs;

								 $11 = ($0|0)==(3);

								 if ($11) {

								  STACKTOP = sp;return;

								 }

								 (_vprintf(14144,$2)|0);

								 $12 = ($0|0)==(1);

								 if ($12) {

								  _exit(1);

								  // unreachable;

								 } else {

								  STACKTOP = sp;return;

								 }

								}

								function _InitGraphicsDevice($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$015 = 0, $$byval_copy = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0;

								 var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0;

								 var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0;

								 var $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0.0, $79 = 0, $8 = 0, $80 = 0;

								 var $81 = 0, $82 = 0.0, $83 = 0, $84 = 0, $85 = 0, $9 = 0, $vararg_buffer = 0, $vararg_buffer1 = 0, $vararg_buffer10 = 0, $vararg_buffer14 = 0, $vararg_buffer18 = 0, $vararg_buffer22 = 0, $vararg_buffer3 = 0, $vararg_buffer6 = 0, $vararg_buffer8 = 0, $vararg_ptr13 = 0, $vararg_ptr17 = 0, $vararg_ptr21 = 0, $vararg_ptr5 = 0, dest = 0;

								 var label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 144|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(144|0);

								 $$byval_copy = sp + 136|0;

								 $vararg_buffer22 = sp + 64|0;

								 $vararg_buffer18 = sp + 56|0;

								 $vararg_buffer14 = sp + 48|0;

								 $vararg_buffer10 = sp + 40|0;

								 $vararg_buffer8 = sp + 32|0;

								 $vararg_buffer6 = sp + 24|0;

								 $vararg_buffer3 = sp + 16|0;

								 $vararg_buffer1 = sp + 8|0;

								 $vararg_buffer = sp;

								 $2 = sp + 72|0;

								 $3 = sp + 140|0;

								 HEAP32[7758] = $0;

								 HEAP32[7757] = $1;

								 _MatrixIdentity($2);

								 dest=31120; src=$2; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 (_glfwSetErrorCallback((1|0))|0);

								 $4 = (_glfwInit()|0);

								 $5 = ($4|0)==(0);

								 if ($5) {

								  _TraceLog(1,4100,$vararg_buffer);

								 }

								 $6 = HEAP32[7758]|0;

								 HEAP32[7796] = $6;

								 $7 = HEAP32[7757]|0;

								 HEAP32[7797] = $7;

								 _glfwDefaultWindowHints();

								 $8 = HEAP8[35996]|0;

								 $9 = $8 & 4;

								 $10 = ($9<<24>>24)==(0);

								 if ($10) {

								  _glfwWindowHint(131075,0);

								 } else {

								  _glfwWindowHint(131075,1);

								 }

								 $11 = HEAP8[35996]|0;

								 $12 = $11 & 8;

								 $13 = ($12<<24>>24)==(0);

								 if (!($13)) {

								  _glfwWindowHint(131077,1);

								 }

								 $14 = HEAP8[35996]|0;

								 $15 = $14 & 32;

								 $16 = ($15<<24>>24)==(0);

								 if (!($16)) {

								  _glfwWindowHint(135181,4);

								  _TraceLog(0,4126,$vararg_buffer1);

								 }

								 $17 = (_rlGetVersion()|0);

								 $18 = ($17|0)==(2);

								 if ($18) {

								  _glfwWindowHint(139266,2);

								  _glfwWindowHint(139267,1);

								 } else {

								  $19 = (_rlGetVersion()|0);

								  $20 = ($19|0)==(3);

								  if ($20) {

								   _glfwWindowHint(139266,3);

								   _glfwWindowHint(139267,3);

								   _glfwWindowHint(139272,204801);

								   _glfwWindowHint(139270,0);

								  }

								 }

								 $21 = HEAP32[7798]|0;

								 $22 = ($21|0)==(0);

								 if ($22) {

								  $47 = HEAP32[7758]|0;

								  $48 = HEAP32[7757]|0;

								  $49 = HEAP32[7760]|0;

								  $50 = (_glfwCreateWindow(($47|0),($48|0),($49|0),(0|0),(0|0))|0);

								  HEAP32[7756] = $50;

								  $51 = HEAP32[7758]|0;

								  HEAP32[7799] = $51;

								  $52 = HEAP32[7757]|0;

								  HEAP32[7800] = $52;

								  $54 = $50;

								 } else {

								  $23 = (_glfwGetPrimaryMonitor()|0);

								  $24 = (_glfwGetVideoModes(($23|0),($$byval_copy|0))|0);

								  $25 = HEAP32[$$byval_copy>>2]|0;

								  $26 = ($25|0)>(0);

								  L22: do {

								   if ($26) {

								    $27 = HEAP32[7758]|0;

								    $28 = HEAP32[$$byval_copy>>2]|0;

								    $29 = HEAP32[7757]|0;

								    $$015 = 0;

								    while(1) {

								     $30 = (($24) + (($$015*24)|0)|0);

								     $31 = HEAP32[$30>>2]|0;

								     $32 = ($31|0)<($27|0);

								     if (!($32)) {

								      $33 = (((($24) + (($$015*24)|0)|0)) + 4|0);

								      $34 = HEAP32[$33>>2]|0;

								      $35 = ($34|0)<($29|0);

								      if (!($35)) {

								       break;

								      }

								     }

								     $36 = (($$015) + 1)|0;

								     $37 = ($36|0)<($28|0);

								     if ($37) {

								      $$015 = $36;

								     } else {

								      break L22;

								     }

								    }

								    HEAP32[7796] = $31;

								    HEAP32[7797] = $34;

								   }

								  } while(0);

								  $38 = HEAP32[7796]|0;

								  $39 = HEAP32[7797]|0;

								  HEAP32[$vararg_buffer3>>2] = $38;

								  $vararg_ptr5 = ((($vararg_buffer3)) + 4|0);

								  HEAP32[$vararg_ptr5>>2] = $39;

								  _TraceLog(2,4151,$vararg_buffer3);

								  $40 = HEAP32[7796]|0;

								  $41 = HEAP32[7797]|0;

								  _SetupFramebufferSize($40,$41);

								  $42 = HEAP32[7796]|0;

								  $43 = HEAP32[7797]|0;

								  $44 = HEAP32[7760]|0;

								  $45 = (_glfwGetPrimaryMonitor()|0);

								  $46 = (_glfwCreateWindow(($42|0),($43|0),($44|0),($45|0),(0|0))|0);

								  HEAP32[7756] = $46;

								  $54 = $46;

								 }

								 $53 = ($54|0)==(0|0);

								 if ($53) {

								  _glfwTerminate();

								  _TraceLog(1,4189,$vararg_buffer6);

								 } else {

								  _TraceLog(0,4222,$vararg_buffer8);

								  $55 = HEAP32[7799]|0;

								  $56 = HEAP32[7800]|0;

								  HEAP32[$vararg_buffer10>>2] = $55;

								  $vararg_ptr13 = ((($vararg_buffer10)) + 4|0);

								  HEAP32[$vararg_ptr13>>2] = $56;

								  _TraceLog(0,4262,$vararg_buffer10);

								  $57 = HEAP32[7758]|0;

								  $58 = HEAP32[7757]|0;

								  HEAP32[$vararg_buffer14>>2] = $57;

								  $vararg_ptr17 = ((($vararg_buffer14)) + 4|0);

								  HEAP32[$vararg_ptr17>>2] = $58;

								  _TraceLog(0,4283,$vararg_buffer14);

								  $59 = HEAP32[7801]|0;

								  $60 = HEAP32[7802]|0;

								  HEAP32[$vararg_buffer18>>2] = $59;

								  $vararg_ptr21 = ((($vararg_buffer18)) + 4|0);

								  HEAP32[$vararg_ptr21>>2] = $60;

								  _TraceLog(0,4304,$vararg_buffer18);

								 }

								 $61 = HEAP32[7756]|0;

								 (_glfwSetWindowSizeCallback(($61|0),(1|0))|0);

								 $62 = HEAP32[7756]|0;

								 (_glfwSetCursorEnterCallback(($62|0),(2|0))|0);

								 $63 = HEAP32[7756]|0;

								 (_glfwSetKeyCallback(($63|0),(1|0))|0);

								 $64 = HEAP32[7756]|0;

								 (_glfwSetMouseButtonCallback(($64|0),(1|0))|0);

								 $65 = HEAP32[7756]|0;

								 (_glfwSetCursorPosCallback(($65|0),(1|0))|0);

								 $66 = HEAP32[7756]|0;

								 (_glfwSetCharCallback(($66|0),(3|0))|0);

								 $67 = HEAP32[7756]|0;

								 (_glfwSetScrollCallback(($67|0),(2|0))|0);

								 $68 = HEAP32[7756]|0;

								 (_glfwSetWindowIconifyCallback(($68|0),(4|0))|0);

								 $69 = HEAP32[7756]|0;

								 _glfwMakeContextCurrent(($69|0));

								 _glfwSwapInterval(0);

								 $70 = HEAP8[35996]|0;

								 $71 = $70 & 64;

								 $72 = ($71<<24>>24)==(0);

								 if ($72) {

								  $73 = HEAP32[7758]|0;

								  $74 = HEAP32[7757]|0;

								  _rlglInit($73,$74);

								  _SetupViewport();

								  _rlMatrixMode(5889);

								  _rlLoadIdentity();

								  $75 = HEAP32[7799]|0;

								  $76 = HEAP32[7801]|0;

								  $77 = (($75) - ($76))|0;

								  $78 = (+($77|0));

								  $79 = HEAP32[7800]|0;

								  $80 = HEAP32[7802]|0;

								  $81 = (($79) - ($80))|0;

								  $82 = (+($81|0));

								  _rlOrtho(0.0,$78,$82,0.0,0.0,1.0);

								  _rlMatrixMode(5888);

								  _rlLoadIdentity();

								  HEAP8[$3>>0] = -11;

								  $83 = ((($3)) + 1|0);

								  HEAP8[$83>>0] = -11;

								  $84 = ((($3)) + 2|0);

								  HEAP8[$84>>0] = -11;

								  $85 = ((($3)) + 3|0);

								  HEAP8[$85>>0] = -1;

								  ;HEAP8[$$byval_copy>>0]=HEAP8[$3>>0]|0;HEAP8[$$byval_copy+1>>0]=HEAP8[$3+1>>0]|0;HEAP8[$$byval_copy+2>>0]=HEAP8[$3+2>>0]|0;HEAP8[$$byval_copy+3>>0]=HEAP8[$3+3>>0]|0;

								  _ClearBackground($$byval_copy);

								  STACKTOP = sp;return;

								 }

								 _glfwSwapInterval(1);

								 _TraceLog(0,4329,$vararg_buffer22);

								 $73 = HEAP32[7758]|0;

								 $74 = HEAP32[7757]|0;

								 _rlglInit($73,$74);

								 _SetupViewport();

								 _rlMatrixMode(5889);

								 _rlLoadIdentity();

								 $75 = HEAP32[7799]|0;

								 $76 = HEAP32[7801]|0;

								 $77 = (($75) - ($76))|0;

								 $78 = (+($77|0));

								 $79 = HEAP32[7800]|0;

								 $80 = HEAP32[7802]|0;

								 $81 = (($79) - ($80))|0;

								 $82 = (+($81|0));

								 _rlOrtho(0.0,$78,$82,0.0,0.0,1.0);

								 _rlMatrixMode(5888);

								 _rlLoadIdentity();

								 HEAP8[$3>>0] = -11;

								 $83 = ((($3)) + 1|0);

								 HEAP8[$83>>0] = -11;

								 $84 = ((($3)) + 2|0);

								 HEAP8[$84>>0] = -11;

								 $85 = ((($3)) + 3|0);

								 HEAP8[$85>>0] = -1;

								 ;HEAP8[$$byval_copy>>0]=HEAP8[$3>>0]|0;HEAP8[$$byval_copy+1>>0]=HEAP8[$3+1>>0]|0;HEAP8[$$byval_copy+2>>0]=HEAP8[$3+2>>0]|0;HEAP8[$$byval_copy+3>>0]=HEAP8[$3+3>>0]|0;

								 _ClearBackground($$byval_copy);

								 STACKTOP = sp;return;

								}

								function _LoadDefaultFont() {

								 var $$ = 0, $$0101 = 0, $$090100 = 0, $$09299 = 0, $$095104 = 0, $$096103 = 0, $$097102 = 0, $$191 = 0, $$193 = 0, $$byval_copy1 = 0, $$lcssa = 0, $$sroa$0$0$$sroa_idx = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0;

								 var $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0;

								 var $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0;

								 var $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $$byval_copy1 = sp + 44|0;

								 $vararg_buffer = sp;

								 $0 = sp + 4|0;

								 $1 = sp + 24|0;

								 HEAP32[(31088)>>2] = 224;

								 $2 = (_malloc(65536)|0);

								 _memset(($2|0),0,65536)|0;

								 $$095104 = 0;$$096103 = 0;

								 while(1) {

								  $3 = (28 + ($$095104<<2)|0);

								  $4 = HEAP32[$3>>2]|0;

								  $$097102 = 31;

								  while(1) {

								   $16 = 1 << $$097102;

								   $17 = $4 & $16;

								   $18 = ($17|0)==(0);

								   if (!($18)) {

								    $19 = (($$097102) + ($$096103))|0;

								    $$sroa$0$0$$sroa_idx = (($2) + ($19<<2)|0);

								    HEAP8[$$sroa$0$0$$sroa_idx>>0]=-1&255;HEAP8[$$sroa$0$0$$sroa_idx+1>>0]=(-1>>8)&255;HEAP8[$$sroa$0$0$$sroa_idx+2>>0]=(-1>>16)&255;HEAP8[$$sroa$0$0$$sroa_idx+3>>0]=-1>>24;

								   }

								   $20 = (($$097102) + -1)|0;

								   $21 = ($$097102|0)>(0);

								   if ($21) {

								    $$097102 = $20;

								   } else {

								    break;

								   }

								  }

								  $12 = (($$095104) + 1)|0;

								  $13 = ($$095104|0)>(511);

								  $$ = $13 ? 0 : $12;

								  $14 = (($$096103) + 32)|0;

								  $15 = ($14|0)<(16384);

								  if ($15) {

								   $$095104 = $$;$$096103 = $14;

								  } else {

								   break;

								  }

								 }

								 _LoadImageEx($0,$2,128,128);

								 _ImageFormat($0,2);

								 _free($2);

								 ;HEAP32[$$byval_copy1>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$0+4>>2]|0;HEAP32[$$byval_copy1+8>>2]=HEAP32[$0+8>>2]|0;HEAP32[$$byval_copy1+12>>2]=HEAP32[$0+12>>2]|0;HEAP32[$$byval_copy1+16>>2]=HEAP32[$0+16>>2]|0;

								 _LoadTextureFromImage($1,$$byval_copy1);

								 ;HEAP32[31064>>2]=HEAP32[$1>>2]|0;HEAP32[31064+4>>2]=HEAP32[$1+4>>2]|0;HEAP32[31064+8>>2]=HEAP32[$1+8>>2]|0;HEAP32[31064+12>>2]=HEAP32[$1+12>>2]|0;HEAP32[31064+16>>2]=HEAP32[$1+16>>2]|0;

								 ;HEAP32[$$byval_copy1>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$0+4>>2]|0;HEAP32[$$byval_copy1+8>>2]=HEAP32[$0+8>>2]|0;HEAP32[$$byval_copy1+12>>2]=HEAP32[$0+12>>2]|0;HEAP32[$$byval_copy1+16>>2]=HEAP32[$0+16>>2]|0;

								 _UnloadImage($$byval_copy1);

								 $5 = HEAP32[(31088)>>2]|0;

								 $6 = $5 << 5;

								 $7 = (_malloc($6)|0);

								 HEAP32[(31092)>>2] = $7;

								 $8 = ($5|0)>(0);

								 if (!($8)) {

								  $$lcssa = $7;

								  $22 = ((($$lcssa)) + 16|0);

								  $23 = HEAP32[$22>>2]|0;

								  HEAP32[(31084)>>2] = $23;

								  $24 = HEAP32[7766]|0;

								  HEAP32[$vararg_buffer>>2] = $24;

								  _TraceLog(0,3624,$vararg_buffer);

								  STACKTOP = sp;return;

								 }

								 $9 = HEAP32[(31068)>>2]|0;

								 $10 = HEAP32[(31088)>>2]|0;

								 $11 = HEAP32[(31092)>>2]|0;

								 $$0101 = 0;$$090100 = 1;$$09299 = 0;$27 = $7;

								 while(1) {

								  $25 = (($$0101) + 32)|0;

								  $26 = (($27) + ($$0101<<5)|0);

								  HEAP32[$26>>2] = $25;

								  $28 = (((($27) + ($$0101<<5)|0)) + 4|0);

								  HEAP32[$28>>2] = $$090100;

								  $29 = ($$09299*11)|0;

								  $30 = (($29) + 1)|0;

								  $31 = (((($27) + ($$0101<<5)|0)) + 8|0);

								  HEAP32[$31>>2] = $30;

								  $32 = (2076 + ($$0101<<2)|0);

								  $33 = HEAP32[$32>>2]|0;

								  $34 = (((($27) + ($$0101<<5)|0)) + 12|0);

								  HEAP32[$34>>2] = $33;

								  $35 = (((($27) + ($$0101<<5)|0)) + 16|0);

								  HEAP32[$35>>2] = 10;

								  $36 = (($$090100) + 1)|0;

								  $37 = (($36) + ($33))|0;

								  $38 = ($37|0)<($9|0);

								  $39 = (($$09299) + 1)|0;

								  if ($38) {

								   $$191 = $37;$$193 = $$09299;

								  } else {

								   $40 = ($39*11)|0;

								   $41 = (($40) + 1)|0;

								   $42 = (($33) + 2)|0;

								   HEAP32[$28>>2] = 1;

								   HEAP32[$31>>2] = $41;

								   $$191 = $42;$$193 = $39;

								  }

								  $43 = (((($27) + ($$0101<<5)|0)) + 20|0);

								  HEAP32[$43>>2] = 0;

								  $44 = (((($27) + ($$0101<<5)|0)) + 24|0);

								  HEAP32[$44>>2] = 0;

								  $45 = (((($27) + ($$0101<<5)|0)) + 28|0);

								  HEAP32[$45>>2] = 0;

								  $46 = (($$0101) + 1)|0;

								  $47 = ($46|0)<($10|0);

								  if ($47) {

								   $$0101 = $46;$$090100 = $$191;$$09299 = $$193;$27 = $11;

								  } else {

								   $$lcssa = $11;

								   break;

								  }

								 }

								 $22 = ((($$lcssa)) + 16|0);

								 $23 = HEAP32[$22>>2]|0;

								 HEAP32[(31084)>>2] = $23;

								 $24 = HEAP32[7766]|0;

								 HEAP32[$vararg_buffer>>2] = $24;

								 _TraceLog(0,3624,$vararg_buffer);

								 STACKTOP = sp;return;

								}

								function _InitTimer_12() {

								 var $0 = 0, $1 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_time((0|0))|0);

								 _srand($0);

								 $1 = (+_GetTime());

								 HEAPF64[1767] = $1;

								 return;

								}

								function _EmscriptenFullscreenChangeCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $vararg_buffer = 0, $vararg_buffer4 = 0, $vararg_ptr1 = 0, $vararg_ptr2 = 0, $vararg_ptr3 = 0, $vararg_ptr7 = 0, $vararg_ptr8 = 0, $vararg_ptr9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $vararg_buffer4 = sp + 16|0;

								 $vararg_buffer = sp;

								 $3 = HEAP32[$1>>2]|0;

								 $4 = ($3|0)==(0);

								 $5 = ((($1)) + 264|0);

								 $6 = HEAP32[$5>>2]|0;

								 $7 = ((($1)) + 268|0);

								 $8 = HEAP32[$7>>2]|0;

								 $9 = ((($1)) + 272|0);

								 $10 = HEAP32[$9>>2]|0;

								 $11 = ((($1)) + 276|0);

								 $12 = HEAP32[$11>>2]|0;

								 if ($4) {

								  HEAP32[$vararg_buffer4>>2] = $6;

								  $vararg_ptr7 = ((($vararg_buffer4)) + 4|0);

								  HEAP32[$vararg_ptr7>>2] = $8;

								  $vararg_ptr8 = ((($vararg_buffer4)) + 8|0);

								  HEAP32[$vararg_ptr8>>2] = $10;

								  $vararg_ptr9 = ((($vararg_buffer4)) + 12|0);

								  HEAP32[$vararg_ptr9>>2] = $12;

								  _TraceLog(0,3557,$vararg_buffer4);

								  STACKTOP = sp;return 0;

								 } else {

								  HEAP32[$vararg_buffer>>2] = $6;

								  $vararg_ptr1 = ((($vararg_buffer)) + 4|0);

								  HEAP32[$vararg_ptr1>>2] = $8;

								  $vararg_ptr2 = ((($vararg_buffer)) + 8|0);

								  HEAP32[$vararg_ptr2>>2] = $10;

								  $vararg_ptr3 = ((($vararg_buffer)) + 12|0);

								  HEAP32[$vararg_ptr3>>2] = $12;

								  _TraceLog(0,3488,$vararg_buffer);

								  STACKTOP = sp;return 0;

								 }

								 return (0)|0;

								}

								function _EmscriptenKeyboardCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $3 = 0, $4 = 0, $5 = 0, $6 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ($0|0)==(1);

								 if (!($3)) {

								  return 0;

								 }

								 $4 = ((($1)) + 32|0);

								 $5 = (_strcmp($4,3481)|0);

								 $6 = ($5|0)==(0);

								 if (!($6)) {

								  return 0;

								 }

								 (_emscripten_exit_pointerlock()|0);

								 return 0;

								}

								function _EmscriptenMouseCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $3 = 0, $4 = 0, $5 = 0, $6 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 272|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(272|0);

								 $3 = sp;

								 $4 = ($0|0)==(4);

								 if (!($4)) {

								  STACKTOP = sp;return 0;

								 }

								 (_emscripten_get_pointerlock_status(($3|0))|0);

								 $5 = HEAP32[$3>>2]|0;

								 $6 = ($5|0)==(0);

								 if ($6) {

								  (_emscripten_request_pointerlock((0|0),1)|0);

								 } else {

								  (_emscripten_exit_pointerlock()|0);

								  (_emscripten_get_pointerlock_status(($3|0))|0);

								 }

								 STACKTOP = sp;return 0;

								}

								function _EmscriptenTouchCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$byval_copy = 0, $$sink = 0, $$sroa$0$0$$sroa_idx = 0, $$sroa$03$0$$sroa_idx = 0, $$sroa$2$0$$sroa_idx2 = 0, $$sroa$24$0$$sroa_idx5 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0.0, $15 = 0, $16 = 0, $17 = 0.0, $18 = 0, $19 = 0, $20 = 0.0, $21 = 0, $22 = 0, $23 = 0.0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0;

								 var $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0.0, $48 = 0.0, $49 = 0.0, $5 = 0, $50 = 0, $51 = 0.0, $52 = 0.0, $53 = 0.0, $54 = 0, $55 = 0.0, $56 = 0.0, $57 = 0.0, $58 = 0, $59 = 0.0, $6 = 0;

								 var $60 = 0.0, $61 = 0.0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 112|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(112|0);

								 $$byval_copy = sp + 56|0;

								 $3 = sp;

								 switch ($0|0) {

								 case 22:  {

								  $$sink = 1;

								  label = 4;

								  break;

								 }

								 case 23:  {

								  $$sink = 0;

								  label = 4;

								  break;

								 }

								 case 24:  {

								  $$sink = 2;

								  label = 4;

								  break;

								 }

								 default: {

								 }

								 }

								 if ((label|0) == 4) {

								  HEAP32[$3>>2] = $$sink;

								 }

								 $4 = HEAP32[$1>>2]|0;

								 $5 = ((($3)) + 4|0);

								 HEAP32[$5>>2] = $4;

								 $6 = ((($1)) + 20|0);

								 $7 = HEAP32[$6>>2]|0;

								 $8 = ((($3)) + 8|0);

								 HEAP32[$8>>2] = $7;

								 $9 = ((($1)) + 72|0);

								 $10 = HEAP32[$9>>2]|0;

								 $11 = ((($3)) + 12|0);

								 HEAP32[$11>>2] = $10;

								 $12 = ((($1)) + 56|0);

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (+($13|0));

								 $15 = ((($1)) + 60|0);

								 $16 = HEAP32[$15>>2]|0;

								 $17 = (+($16|0));

								 $$sroa$03$0$$sroa_idx = ((($3)) + 24|0);

								 HEAPF32[$$sroa$03$0$$sroa_idx>>2] = $14;

								 $$sroa$24$0$$sroa_idx5 = ((($3)) + 28|0);

								 HEAPF32[$$sroa$24$0$$sroa_idx5>>2] = $17;

								 $18 = ((($1)) + 108|0);

								 $19 = HEAP32[$18>>2]|0;

								 $20 = (+($19|0));

								 $21 = ((($1)) + 112|0);

								 $22 = HEAP32[$21>>2]|0;

								 $23 = (+($22|0));

								 $$sroa$0$0$$sroa_idx = ((($3)) + 32|0);

								 HEAPF32[$$sroa$0$0$$sroa_idx>>2] = $20;

								 $$sroa$2$0$$sroa_idx2 = ((($3)) + 36|0);

								 HEAPF32[$$sroa$2$0$$sroa_idx2>>2] = $23;

								 $24 = ((($3)) + 24|0);

								 $25 = $24;

								 $26 = $25;

								 $27 = HEAP32[$26>>2]|0;

								 $28 = (($25) + 4)|0;

								 $29 = $28;

								 $30 = HEAP32[$29>>2]|0;

								 $31 = 14120;

								 $32 = $31;

								 HEAP32[$32>>2] = $27;

								 $33 = (($31) + 4)|0;

								 $34 = $33;

								 HEAP32[$34>>2] = $30;

								 $35 = ((($3)) + 32|0);

								 $36 = $35;

								 $37 = $36;

								 $38 = HEAP32[$37>>2]|0;

								 $39 = (($36) + 4)|0;

								 $40 = $39;

								 $41 = HEAP32[$40>>2]|0;

								 $42 = (14128);

								 $43 = $42;

								 HEAP32[$43>>2] = $38;

								 $44 = (($42) + 4)|0;

								 $45 = $44;

								 HEAP32[$45>>2] = $41;

								 $46 = (_GetScreenWidth()|0);

								 $47 = (+($46|0));

								 $48 = +HEAPF32[$24>>2];

								 $49 = $48 / $47;

								 HEAPF32[$24>>2] = $49;

								 $50 = (_GetScreenHeight()|0);

								 $51 = (+($50|0));

								 $52 = +HEAPF32[$$sroa$24$0$$sroa_idx5>>2];

								 $53 = $52 / $51;

								 HEAPF32[$$sroa$24$0$$sroa_idx5>>2] = $53;

								 $54 = (_GetScreenWidth()|0);

								 $55 = (+($54|0));

								 $56 = +HEAPF32[$35>>2];

								 $57 = $56 / $55;

								 HEAPF32[$35>>2] = $57;

								 $58 = (_GetScreenHeight()|0);

								 $59 = (+($58|0));

								 $60 = +HEAPF32[$$sroa$2$0$$sroa_idx2>>2];

								 $61 = $60 / $59;

								 HEAPF32[$$sroa$2$0$$sroa_idx2>>2] = $61;

								 dest=$$byval_copy; src=$3; stop=dest+56|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _ProcessGestureEvent($$byval_copy);

								 STACKTOP = sp;return 1;

								}

								function _EmscriptenGamepadCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$sink = 0, $10 = 0, $11 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ((($1)) + 1296|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ($4|0)==(0);

								 if ($5) {

								  label = 3;

								 } else {

								  $6 = ((($1)) + 1300|0);

								  $7 = HEAP32[$6>>2]|0;

								  $8 = ($7|0)<(4);

								  if ($8) {

								   $$sink = 1;

								  } else {

								   label = 3;

								  }

								 }

								 if ((label|0) == 3) {

								  $$sink = 0;

								 }

								 $9 = ((($1)) + 1300|0);

								 $10 = HEAP32[$9>>2]|0;

								 $11 = (31048 + ($10<<2)|0);

								 HEAP32[$11>>2] = $$sink;

								 return 0;

								}

								function _SetTargetFPS($0) {

								 $0 = $0|0;

								 var $$ = 0.0, $$op = 0.0, $1 = 0, $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0.0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 $1 = ($0|0)<(1);

								 $2 = (+($0|0));

								 $3 = 1.0 / $2;

								 $$ = $1 ? 0.0 : $3;

								 HEAPF64[1764] = $$;

								 $4 = $3;

								 $$op = $4 * 1000.0;

								 $5 = $$op;

								 $6 = $1 ? 0.0 : $5;

								 HEAPF64[$vararg_buffer>>3] = $6;

								 _TraceLog(0,3437,$vararg_buffer);

								 STACKTOP = sp;return;

								}

								function _LogoAnimation() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAP32[7761] = 0;

								 return;

								}

								function _GetTime() {

								 var $0 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (+_glfwGetTime());

								 return (+$0);

								}

								function _LoadImageEx($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $$03334 = 0, $$035 = 0, $$sroa$12$0$$sroa_idx21 = 0, $$sroa$15$0$$sroa_idx24 = 0, $$sroa$16$0$$sroa_idx26 = 0, $$sroa$9$0$$sroa_idx18 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $exitcond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $4 = $2 << 2;

								 $5 = Math_imul($4, $3)|0;

								 $6 = (_malloc($5)|0);

								 $7 = ($5|0)>(0);

								 if ($7) {

								  $8 = (($5) + -1)|0;

								  $9 = $8 >>> 2;

								  $$03334 = 0;$$035 = 0;

								  while(1) {

								   $10 = (($1) + ($$03334<<2)|0);

								   $11 = HEAP8[$10>>0]|0;

								   $12 = (($6) + ($$035)|0);

								   HEAP8[$12>>0] = $11;

								   $13 = (((($1) + ($$03334<<2)|0)) + 1|0);

								   $14 = HEAP8[$13>>0]|0;

								   $15 = $$035 | 1;

								   $16 = (($6) + ($15)|0);

								   HEAP8[$16>>0] = $14;

								   $17 = (((($1) + ($$03334<<2)|0)) + 2|0);

								   $18 = HEAP8[$17>>0]|0;

								   $19 = $$035 | 2;

								   $20 = (($6) + ($19)|0);

								   HEAP8[$20>>0] = $18;

								   $21 = (((($1) + ($$03334<<2)|0)) + 3|0);

								   $22 = HEAP8[$21>>0]|0;

								   $23 = $$035 | 3;

								   $24 = (($6) + ($23)|0);

								   HEAP8[$24>>0] = $22;

								   $25 = (($$03334) + 1)|0;

								   $26 = (($$035) + 4)|0;

								   $exitcond = ($$03334|0)==($9|0);

								   if ($exitcond) {

								    break;

								   } else {

								    $$03334 = $25;$$035 = $26;

								   }

								  }

								 }

								 HEAP32[$0>>2] = $6;

								 $$sroa$9$0$$sroa_idx18 = ((($0)) + 4|0);

								 HEAP32[$$sroa$9$0$$sroa_idx18>>2] = $2;

								 $$sroa$12$0$$sroa_idx21 = ((($0)) + 8|0);

								 HEAP32[$$sroa$12$0$$sroa_idx21>>2] = $3;

								 $$sroa$15$0$$sroa_idx24 = ((($0)) + 12|0);

								 HEAP32[$$sroa$15$0$$sroa_idx24>>2] = 1;

								 $$sroa$16$0$$sroa_idx26 = ((($0)) + 16|0);

								 HEAP32[$$sroa$16$0$$sroa_idx26>>2] = 7;

								 return;

								}

								function _ImageFormat($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0166199 = 0, $$0167197 = 0, $$0168195 = 0, $$0169192 = 0, $$0170190 = 0, $$0171188 = 0, $$0172189 = 0, $$0202 = 0, $$1194 = 0, $$2201 = 0, $$byval_copy = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0.0, $103 = 0.0, $104 = 0.0, $105 = 0, $106 = 0, $107 = 0;

								 var $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0;

								 var $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0;

								 var $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0;

								 var $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0.0, $17 = 0, $170 = 0.0, $171 = 0.0, $172 = 0, $173 = 0, $174 = 0, $175 = 0.0, $176 = 0.0, $177 = 0.0, $178 = 0, $179 = 0, $18 = 0;

								 var $180 = 0, $181 = 0.0, $182 = 0.0, $183 = 0.0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0, $19 = 0.0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0;

								 var $199 = 0, $2 = 0, $20 = 0.0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0;

								 var $216 = 0, $217 = 0, $218 = 0.0, $219 = 0.0, $22 = 0, $220 = 0.0, $221 = 0, $222 = 0, $223 = 0, $224 = 0.0, $225 = 0.0, $226 = 0.0, $227 = 0, $228 = 0, $229 = 0, $23 = 0.0, $230 = 0.0, $231 = 0.0, $232 = 0.0, $233 = 0;

								 var $234 = 0, $235 = 0, $236 = 0.0, $237 = 0.0, $238 = 0.0, $239 = 0, $24 = 0.0, $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0.0, $250 = 0, $251 = 0;

								 var $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0;

								 var $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0, $28 = 0.0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0;

								 var $289 = 0, $29 = 0.0, $290 = 0, $3 = 0, $30 = 0.0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0;

								 var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0.0, $53 = 0.0, $54 = 0, $55 = 0, $56 = 0.0, $57 = 0.0, $58 = 0.0, $59 = 0, $6 = 0, $60 = 0, $61 = 0.0, $62 = 0.0;

								 var $63 = 0.0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0;

								 var $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0.0, $91 = 0.0, $92 = 0.0, $93 = 0, $94 = 0, $95 = 0, $96 = 0.0, $97 = 0.0, $98 = 0.0, $99 = 0;

								 var $or$cond = 0, $roundf = 0.0, $roundf173 = 0.0, $roundf174 = 0.0, $roundf175 = 0.0, $roundf176 = 0.0, $roundf177 = 0.0, $roundf178 = 0.0, $roundf179 = 0.0, $roundf180 = 0.0, $roundf181 = 0.0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $$byval_copy = sp + 4|0;

								 $vararg_buffer = sp;

								 $2 = ((($0)) + 16|0);

								 $3 = HEAP32[$2>>2]|0;

								 $4 = ($3|0)==($1|0);

								 if ($4) {

								  STACKTOP = sp;return;

								 }

								 $5 = ($3|0)<(8);

								 $6 = ($1|0)<(8);

								 $or$cond = $6 & $5;

								 if (!($or$cond)) {

								  _TraceLog(2,4000,$vararg_buffer);

								  STACKTOP = sp;return;

								 }

								 ;HEAP32[$$byval_copy>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$0+4>>2]|0;HEAP32[$$byval_copy+8>>2]=HEAP32[$0+8>>2]|0;HEAP32[$$byval_copy+12>>2]=HEAP32[$0+12>>2]|0;HEAP32[$$byval_copy+16>>2]=HEAP32[$0+16>>2]|0;

								 $7 = (_GetImageData($$byval_copy)|0);

								 $8 = HEAP32[$0>>2]|0;

								 _free($8);

								 HEAP32[$2>>2] = $1;

								 switch ($1|0) {

								 case 1:  {

								  $9 = ((($0)) + 4|0);

								  $10 = HEAP32[$9>>2]|0;

								  $11 = ((($0)) + 8|0);

								  $12 = HEAP32[$11>>2]|0;

								  $13 = Math_imul($12, $10)|0;

								  $14 = (_malloc($13)|0);

								  HEAP32[$0>>2] = $14;

								  $15 = Math_imul($12, $10)|0;

								  $16 = ($15|0)>(0);

								  if ($16) {

								   $$0171188 = 0;

								   while(1) {

								    $17 = (($7) + ($$0171188<<2)|0);

								    $18 = HEAP8[$17>>0]|0;

								    $19 = (+($18&255));

								    $20 = $19 * 0.29899999499320984;

								    $21 = (((($7) + ($$0171188<<2)|0)) + 1|0);

								    $22 = HEAP8[$21>>0]|0;

								    $23 = (+($22&255));

								    $24 = $23 * 0.58700001239776611;

								    $25 = $20 + $24;

								    $26 = (((($7) + ($$0171188<<2)|0)) + 2|0);

								    $27 = HEAP8[$26>>0]|0;

								    $28 = (+($27&255));

								    $29 = $28 * 0.11400000005960464;

								    $30 = $25 + $29;

								    $31 = (~~(($30))&255);

								    $32 = HEAP32[$0>>2]|0;

								    $33 = (($32) + ($$0171188)|0);

								    HEAP8[$33>>0] = $31;

								    $34 = (($$0171188) + 1)|0;

								    $35 = HEAP32[$9>>2]|0;

								    $36 = HEAP32[$11>>2]|0;

								    $37 = Math_imul($36, $35)|0;

								    $38 = ($34|0)<($37|0);

								    if ($38) {

								     $$0171188 = $34;

								    } else {

								     break;

								    }

								   }

								  }

								  break;

								 }

								 case 2:  {

								  $39 = ((($0)) + 4|0);

								  $40 = HEAP32[$39>>2]|0;

								  $41 = ((($0)) + 8|0);

								  $42 = HEAP32[$41>>2]|0;

								  $43 = $40 << 1;

								  $44 = Math_imul($43, $42)|0;

								  $45 = (_malloc($44)|0);

								  HEAP32[$0>>2] = $45;

								  $46 = HEAP32[$39>>2]|0;

								  $47 = $46 << 1;

								  $48 = Math_imul($47, $42)|0;

								  $49 = ($48|0)>(0);

								  if ($49) {

								   $$0170190 = 0;$$0172189 = 0;

								   while(1) {

								    $50 = (($7) + ($$0172189<<2)|0);

								    $51 = HEAP8[$50>>0]|0;

								    $52 = (+($51&255));

								    $53 = $52 * 0.29899999499320984;

								    $54 = (((($7) + ($$0172189<<2)|0)) + 1|0);

								    $55 = HEAP8[$54>>0]|0;

								    $56 = (+($55&255));

								    $57 = $56 * 0.58700001239776611;

								    $58 = $53 + $57;

								    $59 = (((($7) + ($$0172189<<2)|0)) + 2|0);

								    $60 = HEAP8[$59>>0]|0;

								    $61 = (+($60&255));

								    $62 = $61 * 0.11400000005960464;

								    $63 = $58 + $62;

								    $64 = (~~(($63))&255);

								    $65 = HEAP32[$0>>2]|0;

								    $66 = (($65) + ($$0170190)|0);

								    HEAP8[$66>>0] = $64;

								    $67 = (((($7) + ($$0172189<<2)|0)) + 3|0);

								    $68 = HEAP8[$67>>0]|0;

								    $69 = HEAP32[$0>>2]|0;

								    $70 = $$0170190 | 1;

								    $71 = (($69) + ($70)|0);

								    HEAP8[$71>>0] = $68;

								    $72 = (($$0172189) + 1)|0;

								    $73 = (($$0170190) + 2)|0;

								    $74 = HEAP32[$39>>2]|0;

								    $75 = HEAP32[$41>>2]|0;

								    $76 = $74 << 1;

								    $77 = Math_imul($76, $75)|0;

								    $78 = ($73|0)<($77|0);

								    if ($78) {

								     $$0170190 = $73;$$0172189 = $72;

								    } else {

								     break;

								    }

								   }

								  }

								  break;

								 }

								 case 3:  {

								  $79 = ((($0)) + 4|0);

								  $80 = HEAP32[$79>>2]|0;

								  $81 = ((($0)) + 8|0);

								  $82 = HEAP32[$81>>2]|0;

								  $83 = $80 << 1;

								  $84 = Math_imul($83, $82)|0;

								  $85 = (_malloc($84)|0);

								  HEAP32[$0>>2] = $85;

								  $86 = HEAP32[$79>>2]|0;

								  $87 = Math_imul($82, $86)|0;

								  $88 = ($87|0)>(0);

								  if ($88) {

								   $89 = HEAP8[$7>>0]|0;

								   $90 = (+($89&255));

								   $91 = $90 * 31.0;

								   $92 = $91 / 255.0;

								   $roundf179 = (+_roundf((+$92)));

								   $93 = (~~(($roundf179))&255);

								   $94 = ((($7)) + 1|0);

								   $95 = HEAP8[$94>>0]|0;

								   $96 = (+($95&255));

								   $97 = $96 * 63.0;

								   $98 = $97 / 255.0;

								   $roundf180 = (+_roundf((+$98)));

								   $99 = (~~(($roundf180))&255);

								   $100 = ((($7)) + 2|0);

								   $101 = HEAP8[$100>>0]|0;

								   $102 = (+($101&255));

								   $103 = $102 * 31.0;

								   $104 = $103 / 255.0;

								   $roundf181 = (+_roundf((+$104)));

								   $105 = (~~(($roundf181))&255);

								   $106 = $93&255;

								   $107 = $106 << 11;

								   $108 = $99&255;

								   $109 = $108 << 5;

								   $110 = $109 | $107;

								   $111 = $105&255;

								   $112 = $110 | $111;

								   $113 = $112&65535;

								   $114 = HEAP32[$0>>2]|0;

								   $115 = HEAP32[$79>>2]|0;

								   $116 = HEAP32[$81>>2]|0;

								   $117 = Math_imul($116, $115)|0;

								   $$0169192 = 0;

								   while(1) {

								    $118 = (($114) + ($$0169192<<1)|0);

								    HEAP16[$118>>1] = $113;

								    $119 = (($$0169192) + 1)|0;

								    $120 = ($119|0)<($117|0);

								    if ($120) {

								     $$0169192 = $119;

								    } else {

								     break;

								    }

								   }

								  }

								  break;

								 }

								 case 4:  {

								  $121 = ((($0)) + 4|0);

								  $122 = HEAP32[$121>>2]|0;

								  $123 = ((($0)) + 8|0);

								  $124 = HEAP32[$123>>2]|0;

								  $125 = ($122*3)|0;

								  $126 = Math_imul($125, $124)|0;

								  $127 = (_malloc($126)|0);

								  HEAP32[$0>>2] = $127;

								  $128 = HEAP32[$121>>2]|0;

								  $129 = ($128*3)|0;

								  $130 = Math_imul($129, $124)|0;

								  $131 = ($130|0)>(0);

								  if ($131) {

								   $$0168195 = 0;$$1194 = 0;

								   while(1) {

								    $132 = (($7) + ($$1194<<2)|0);

								    $133 = HEAP8[$132>>0]|0;

								    $134 = HEAP32[$0>>2]|0;

								    $135 = (($134) + ($$0168195)|0);

								    HEAP8[$135>>0] = $133;

								    $136 = (((($7) + ($$1194<<2)|0)) + 1|0);

								    $137 = HEAP8[$136>>0]|0;

								    $138 = HEAP32[$0>>2]|0;

								    $139 = (($$0168195) + 1)|0;

								    $140 = (($138) + ($139)|0);

								    HEAP8[$140>>0] = $137;

								    $141 = (((($7) + ($$1194<<2)|0)) + 2|0);

								    $142 = HEAP8[$141>>0]|0;

								    $143 = HEAP32[$0>>2]|0;

								    $144 = (($$0168195) + 2)|0;

								    $145 = (($143) + ($144)|0);

								    HEAP8[$145>>0] = $142;

								    $146 = (($$1194) + 1)|0;

								    $147 = (($$0168195) + 3)|0;

								    $148 = HEAP32[$121>>2]|0;

								    $149 = HEAP32[$123>>2]|0;

								    $150 = ($148*3)|0;

								    $151 = Math_imul($150, $149)|0;

								    $152 = ($147|0)<($151|0);

								    if ($152) {

								     $$0168195 = $147;$$1194 = $146;

								    } else {

								     break;

								    }

								   }

								  }

								  break;

								 }

								 case 5:  {

								  $153 = ((($0)) + 4|0);

								  $154 = HEAP32[$153>>2]|0;

								  $155 = ((($0)) + 8|0);

								  $156 = HEAP32[$155>>2]|0;

								  $157 = $154 << 1;

								  $158 = Math_imul($157, $156)|0;

								  $159 = (_malloc($158)|0);

								  HEAP32[$0>>2] = $159;

								  $160 = HEAP32[$153>>2]|0;

								  $161 = Math_imul($156, $160)|0;

								  $162 = ($161|0)>(0);

								  if ($162) {

								   $163 = HEAP32[$0>>2]|0;

								   $164 = HEAP32[$153>>2]|0;

								   $165 = HEAP32[$155>>2]|0;

								   $166 = Math_imul($165, $164)|0;

								   $$0167197 = 0;

								   while(1) {

								    $167 = (($7) + ($$0167197<<2)|0);

								    $168 = HEAP8[$167>>0]|0;

								    $169 = (+($168&255));

								    $170 = $169 * 31.0;

								    $171 = $170 / 255.0;

								    $roundf176 = (+_roundf((+$171)));

								    $172 = (~~(($roundf176))&255);

								    $173 = (((($7) + ($$0167197<<2)|0)) + 1|0);

								    $174 = HEAP8[$173>>0]|0;

								    $175 = (+($174&255));

								    $176 = $175 * 31.0;

								    $177 = $176 / 255.0;

								    $roundf177 = (+_roundf((+$177)));

								    $178 = (~~(($roundf177))&255);

								    $179 = (((($7) + ($$0167197<<2)|0)) + 2|0);

								    $180 = HEAP8[$179>>0]|0;

								    $181 = (+($180&255));

								    $182 = $181 * 31.0;

								    $183 = $182 / 255.0;

								    $roundf178 = (+_roundf((+$183)));

								    $184 = (~~(($roundf178))&255);

								    $185 = (((($7) + ($$0167197<<2)|0)) + 3|0);

								    $186 = HEAP8[$185>>0]|0;

								    $187 = ($186&255)>(50);

								    $188 = $172&255;

								    $189 = $188 << 11;

								    $190 = $178&255;

								    $191 = $190 << 6;

								    $192 = $191 | $189;

								    $193 = $184&255;

								    $194 = $193 << 1;

								    $195 = $192 | $194;

								    $196 = $187&1;

								    $197 = $195 | $196;

								    $198 = $197&65535;

								    $199 = (($163) + ($$0167197<<1)|0);

								    HEAP16[$199>>1] = $198;

								    $200 = (($$0167197) + 1)|0;

								    $201 = ($200|0)<($166|0);

								    if ($201) {

								     $$0167197 = $200;

								    } else {

								     break;

								    }

								   }

								  }

								  break;

								 }

								 case 6:  {

								  $202 = ((($0)) + 4|0);

								  $203 = HEAP32[$202>>2]|0;

								  $204 = ((($0)) + 8|0);

								  $205 = HEAP32[$204>>2]|0;

								  $206 = $203 << 1;

								  $207 = Math_imul($206, $205)|0;

								  $208 = (_malloc($207)|0);

								  HEAP32[$0>>2] = $208;

								  $209 = HEAP32[$202>>2]|0;

								  $210 = Math_imul($205, $209)|0;

								  $211 = ($210|0)>(0);

								  if ($211) {

								   $212 = HEAP32[$0>>2]|0;

								   $213 = HEAP32[$202>>2]|0;

								   $214 = HEAP32[$204>>2]|0;

								   $215 = Math_imul($214, $213)|0;

								   $$0166199 = 0;

								   while(1) {

								    $216 = (($7) + ($$0166199<<2)|0);

								    $217 = HEAP8[$216>>0]|0;

								    $218 = (+($217&255));

								    $219 = $218 * 15.0;

								    $220 = $219 / 255.0;

								    $roundf = (+_roundf((+$220)));

								    $221 = (~~(($roundf))&255);

								    $222 = (((($7) + ($$0166199<<2)|0)) + 1|0);

								    $223 = HEAP8[$222>>0]|0;

								    $224 = (+($223&255));

								    $225 = $224 * 15.0;

								    $226 = $225 / 255.0;

								    $roundf173 = (+_roundf((+$226)));

								    $227 = (~~(($roundf173))&255);

								    $228 = (((($7) + ($$0166199<<2)|0)) + 2|0);

								    $229 = HEAP8[$228>>0]|0;

								    $230 = (+($229&255));

								    $231 = $230 * 15.0;

								    $232 = $231 / 255.0;

								    $roundf174 = (+_roundf((+$232)));

								    $233 = (~~(($roundf174))&255);

								    $234 = (((($7) + ($$0166199<<2)|0)) + 3|0);

								    $235 = HEAP8[$234>>0]|0;

								    $236 = (+($235&255));

								    $237 = $236 * 15.0;

								    $238 = $237 / 255.0;

								    $roundf175 = (+_roundf((+$238)));

								    $239 = (~~(($roundf175))&255);

								    $240 = $221&255;

								    $241 = $240 << 12;

								    $242 = $227&255;

								    $243 = $242 << 8;

								    $244 = $243 | $241;

								    $245 = $233&255;

								    $246 = $245 << 4;

								    $247 = $244 | $246;

								    $248 = $239&255;

								    $249 = $247 | $248;

								    $250 = $249&65535;

								    $251 = (($212) + ($$0166199<<1)|0);

								    HEAP16[$251>>1] = $250;

								    $252 = (($$0166199) + 1)|0;

								    $253 = ($252|0)<($215|0);

								    if ($253) {

								     $$0166199 = $252;

								    } else {

								     break;

								    }

								   }

								  }

								  break;

								 }

								 case 7:  {

								  $254 = ((($0)) + 4|0);

								  $255 = HEAP32[$254>>2]|0;

								  $256 = ((($0)) + 8|0);

								  $257 = HEAP32[$256>>2]|0;

								  $258 = $255 << 2;

								  $259 = Math_imul($258, $257)|0;

								  $260 = (_malloc($259)|0);

								  HEAP32[$0>>2] = $260;

								  $261 = HEAP32[$254>>2]|0;

								  $262 = $261 << 2;

								  $263 = Math_imul($262, $257)|0;

								  $264 = ($263|0)>(0);

								  if ($264) {

								   $$0202 = 0;$$2201 = 0;

								   while(1) {

								    $265 = (($7) + ($$2201<<2)|0);

								    $266 = HEAP8[$265>>0]|0;

								    $267 = HEAP32[$0>>2]|0;

								    $268 = (($267) + ($$0202)|0);

								    HEAP8[$268>>0] = $266;

								    $269 = (((($7) + ($$2201<<2)|0)) + 1|0);

								    $270 = HEAP8[$269>>0]|0;

								    $271 = HEAP32[$0>>2]|0;

								    $272 = $$0202 | 1;

								    $273 = (($271) + ($272)|0);

								    HEAP8[$273>>0] = $270;

								    $274 = (((($7) + ($$2201<<2)|0)) + 2|0);

								    $275 = HEAP8[$274>>0]|0;

								    $276 = HEAP32[$0>>2]|0;

								    $277 = $$0202 | 2;

								    $278 = (($276) + ($277)|0);

								    HEAP8[$278>>0] = $275;

								    $279 = (((($7) + ($$2201<<2)|0)) + 3|0);

								    $280 = HEAP8[$279>>0]|0;

								    $281 = HEAP32[$0>>2]|0;

								    $282 = $$0202 | 3;

								    $283 = (($281) + ($282)|0);

								    HEAP8[$283>>0] = $280;

								    $284 = (($$2201) + 1)|0;

								    $285 = (($$0202) + 4)|0;

								    $286 = HEAP32[$254>>2]|0;

								    $287 = HEAP32[$256>>2]|0;

								    $288 = $286 << 2;

								    $289 = Math_imul($288, $287)|0;

								    $290 = ($285|0)<($289|0);

								    if ($290) {

								     $$0202 = $285;$$2201 = $284;

								    } else {

								     break;

								    }

								   }

								  }

								  break;

								 }

								 default: {

								 }

								 }

								 _free($7);

								 STACKTOP = sp;return;

								}

								function _LoadTextureFromImage($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$sroa$11$0$$sroa_idx8 = 0, $$sroa$5$0$$sroa_idx2 = 0, $$sroa$7$0$$sroa_idx4 = 0, $$sroa$9$0$$sroa_idx6 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ((($1)) + 4|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ((($1)) + 8|0);

								 $6 = HEAP32[$5>>2]|0;

								 $7 = ((($1)) + 16|0);

								 $8 = HEAP32[$7>>2]|0;

								 $9 = ((($1)) + 12|0);

								 $10 = HEAP32[$9>>2]|0;

								 $11 = (_rlglLoadTexture($2,$4,$6,$8,$10)|0);

								 $12 = HEAP32[$3>>2]|0;

								 $13 = HEAP32[$5>>2]|0;

								 HEAP32[$0>>2] = $11;

								 $$sroa$5$0$$sroa_idx2 = ((($0)) + 4|0);

								 HEAP32[$$sroa$5$0$$sroa_idx2>>2] = $12;

								 $$sroa$7$0$$sroa_idx4 = ((($0)) + 8|0);

								 HEAP32[$$sroa$7$0$$sroa_idx4>>2] = $13;

								 $$sroa$9$0$$sroa_idx6 = ((($0)) + 12|0);

								 HEAP32[$$sroa$9$0$$sroa_idx6>>2] = $10;

								 $$sroa$11$0$$sroa_idx8 = ((($0)) + 16|0);

								 HEAP32[$$sroa$11$0$$sroa_idx8>>2] = $8;

								 return;

								}

								function _UnloadImage($0) {

								 $0 = $0|0;

								 var $1 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 _free($1);

								 return;

								}

								function _rlglLoadTexture($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $$0 = 0, $$off = 0, $$off92 = 0, $$off93 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $26 = 0, $27 = 0, $28 = 0, $29 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0;

								 var $46 = 0, $47 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond100 = 0, $or$cond7 = 0, $or$cond96 = 0, $or$cond98 = 0, $switch = 0, $vararg_buffer = 0, $vararg_buffer1 = 0, $vararg_buffer11 = 0, $vararg_buffer15 = 0, $vararg_buffer3 = 0, $vararg_buffer5 = 0, $vararg_buffer7 = 0;

								 var $vararg_buffer9 = 0, $vararg_ptr13 = 0, $vararg_ptr14 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 80|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(80|0);

								 $vararg_buffer15 = sp + 64|0;

								 $vararg_buffer11 = sp + 48|0;

								 $vararg_buffer9 = sp + 40|0;

								 $vararg_buffer7 = sp + 32|0;

								 $vararg_buffer5 = sp + 24|0;

								 $vararg_buffer3 = sp + 16|0;

								 $vararg_buffer1 = sp + 8|0;

								 $vararg_buffer = sp;

								 $5 = sp + 68|0;

								 _glBindTexture(3553,0);

								 HEAP32[$5>>2] = 0;

								 $6 = HEAP32[7774]|0;

								 $7 = ($6|0)==(0);

								 $8 = $3 & -4;

								 $switch = ($8|0)==(8);

								 $or$cond100 = $switch & $7;

								 if ($or$cond100) {

								  _TraceLog(2,3669,$vararg_buffer);

								  $$0 = HEAP32[$5>>2]|0;

								  STACKTOP = sp;return ($$0|0);

								 }

								 $9 = HEAP32[7775]|0;

								 $10 = ($9|0)==(0);

								 $11 = ($3|0)==(12);

								 $or$cond7 = $11 & $10;

								 if ($or$cond7) {

								  _TraceLog(2,3713,$vararg_buffer1);

								  $$0 = HEAP32[$5>>2]|0;

								  STACKTOP = sp;return ($$0|0);

								 }

								 $12 = HEAP32[7776]|0;

								 $13 = ($12|0)==(0);

								 $$off = (($3) + -13)|0;

								 $14 = ($$off>>>0)<(2);

								 $or$cond = $14 & $13;

								 if ($or$cond) {

								  _TraceLog(2,3758,$vararg_buffer3);

								  $$0 = HEAP32[$5>>2]|0;

								  STACKTOP = sp;return ($$0|0);

								 }

								 $15 = HEAP32[7777]|0;

								 $16 = ($15|0)==(0);

								 $$off92 = (($3) + -15)|0;

								 $17 = ($$off92>>>0)<(2);

								 $or$cond96 = $17 & $16;

								 if ($or$cond96) {

								  _TraceLog(2,3803,$vararg_buffer5);

								  $$0 = HEAP32[$5>>2]|0;

								  STACKTOP = sp;return ($$0|0);

								 }

								 $18 = HEAP32[7778]|0;

								 $19 = ($18|0)==(0);

								 $$off93 = (($3) + -17)|0;

								 $20 = ($$off93>>>0)<(2);

								 $or$cond98 = $20 & $19;

								 if ($or$cond98) {

								  _TraceLog(2,3848,$vararg_buffer7);

								  $$0 = HEAP32[$5>>2]|0;

								  STACKTOP = sp;return ($$0|0);

								 }

								 _glGenTextures(1,($5|0));

								 $21 = HEAP32[$5>>2]|0;

								 _glBindTexture(3553,($21|0));

								 do {

								  switch ($3|0) {

								  case 1:  {

								   _glTexImage2D(3553,0,6409,($1|0),($2|0),0,6409,5121,($0|0));

								   break;

								  }

								  case 2:  {

								   _glTexImage2D(3553,0,6410,($1|0),($2|0),0,6410,5121,($0|0));

								   break;

								  }

								  case 3:  {

								   _glTexImage2D(3553,0,6407,($1|0),($2|0),0,6407,33635,($0|0));

								   break;

								  }

								  case 4:  {

								   _glTexImage2D(3553,0,6407,($1|0),($2|0),0,6407,5121,($0|0));

								   break;

								  }

								  case 5:  {

								   _glTexImage2D(3553,0,6408,($1|0),($2|0),0,6408,32820,($0|0));

								   break;

								  }

								  case 6:  {

								   _glTexImage2D(3553,0,6408,($1|0),($2|0),0,6408,32819,($0|0));

								   break;

								  }

								  case 7:  {

								   _glTexImage2D(3553,0,6408,($1|0),($2|0),0,6408,5121,($0|0));

								   break;

								  }

								  case 8:  {

								   $22 = HEAP32[7774]|0;

								   $23 = ($22|0)==(0);

								   if (!($23)) {

								    _LoadCompressedTexture($0,$1,$2,$4,33776);

								   }

								   break;

								  }

								  case 9:  {

								   $24 = HEAP32[7774]|0;

								   $25 = ($24|0)==(0);

								   if (!($25)) {

								    _LoadCompressedTexture($0,$1,$2,$4,33777);

								   }

								   break;

								  }

								  case 10:  {

								   $26 = HEAP32[7774]|0;

								   $27 = ($26|0)==(0);

								   if (!($27)) {

								    _LoadCompressedTexture($0,$1,$2,$4,33778);

								   }

								   break;

								  }

								  case 11:  {

								   $28 = HEAP32[7774]|0;

								   $29 = ($28|0)==(0);

								   if (!($29)) {

								    _LoadCompressedTexture($0,$1,$2,$4,33779);

								   }

								   break;

								  }

								  case 12:  {

								   $30 = HEAP32[7775]|0;

								   $31 = ($30|0)==(0);

								   if (!($31)) {

								    _LoadCompressedTexture($0,$1,$2,$4,36196);

								   }

								   break;

								  }

								  case 13:  {

								   $32 = HEAP32[7776]|0;

								   $33 = ($32|0)==(0);

								   if (!($33)) {

								    _LoadCompressedTexture($0,$1,$2,$4,37492);

								   }

								   break;

								  }

								  case 14:  {

								   $34 = HEAP32[7776]|0;

								   $35 = ($34|0)==(0);

								   if (!($35)) {

								    _LoadCompressedTexture($0,$1,$2,$4,37496);

								   }

								   break;

								  }

								  case 15:  {

								   $36 = HEAP32[7777]|0;

								   $37 = ($36|0)==(0);

								   if (!($37)) {

								    _LoadCompressedTexture($0,$1,$2,$4,35840);

								   }

								   break;

								  }

								  case 16:  {

								   $38 = HEAP32[7777]|0;

								   $39 = ($38|0)==(0);

								   if (!($39)) {

								    _LoadCompressedTexture($0,$1,$2,$4,35842);

								   }

								   break;

								  }

								  case 17:  {

								   $40 = HEAP32[7778]|0;

								   $41 = ($40|0)==(0);

								   if (!($41)) {

								    _LoadCompressedTexture($0,$1,$2,$4,37808);

								   }

								   break;

								  }

								  case 18:  {

								   $42 = HEAP32[7778]|0;

								   $43 = ($42|0)==(0);

								   if (!($43)) {

								    _LoadCompressedTexture($0,$1,$2,$4,37815);

								   }

								   break;

								  }

								  default: {

								   _TraceLog(2,3893,$vararg_buffer9);

								  }

								  }

								 } while(0);

								 $44 = HEAP32[7779]|0;

								 $45 = ($44|0)==(0);

								 if ($45) {

								  _glTexParameteri(3553,10242,33071);

								  _glTexParameteri(3553,10243,33071);

								 } else {

								  _glTexParameteri(3553,10242,10497);

								  _glTexParameteri(3553,10243,10497);

								 }

								 _glTexParameteri(3553,10240,9728);

								 _glTexParameteri(3553,10241,9728);

								 _glBindTexture(3553,0);

								 $46 = HEAP32[$5>>2]|0;

								 $47 = ($46|0)==(0);

								 if ($47) {

								  _TraceLog(2,3971,$vararg_buffer15);

								  $$0 = HEAP32[$5>>2]|0;

								  STACKTOP = sp;return ($$0|0);

								 } else {

								  HEAP32[$vararg_buffer11>>2] = $46;

								  $vararg_ptr13 = ((($vararg_buffer11)) + 4|0);

								  HEAP32[$vararg_ptr13>>2] = $1;

								  $vararg_ptr14 = ((($vararg_buffer11)) + 8|0);

								  HEAP32[$vararg_ptr14>>2] = $2;

								  _TraceLog(0,3922,$vararg_buffer11);

								  $$0 = HEAP32[$5>>2]|0;

								  STACKTOP = sp;return ($$0|0);

								 }

								 return (0)|0;

								}

								function _LoadCompressedTexture($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $$ = 0, $$03645 = 0, $$03744 = 0, $$038 = 0, $$03943 = 0, $$046 = 0, $$140 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0;

								 var $23 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond42 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 _glPixelStorei(3317,1);

								 switch ($4|0) {

								 case 33776: case 33777: case 36196: case 37492:  {

								  $$038 = 8;

								  break;

								 }

								 default: {

								  $$038 = 16;

								 }

								 }

								 $5 = ($3|0)<(1);

								 $6 = $1 | $2;

								 $7 = ($6|0)==(0);

								 $or$cond42 = $5 | $7;

								 if ($or$cond42) {

								  return;

								 } else {

								  $$03645 = 0;$$03744 = 0;$$03943 = $2;$$046 = $1;

								 }

								 while(1) {

								  $8 = (($$046) + 3)|0;

								  $9 = (($8|0) / 4)&-1;

								  $10 = (($$03943) + 3)|0;

								  $11 = (($10|0) / 4)&-1;

								  $12 = Math_imul($11, $$038)|0;

								  $13 = Math_imul($12, $9)|0;

								  $14 = (($0) + ($$03744)|0);

								  _glCompressedTexImage2D(3553,($$03645|0),($4|0),($$046|0),($$03943|0),0,($13|0),($14|0));

								  $15 = (($13) + ($$03744))|0;

								  $16 = (($$046|0) / 2)&-1;

								  $17 = (($$03943|0) / 2)&-1;

								  $18 = ($$046|0)<(2);

								  $$ = $18 ? 1 : $16;

								  $19 = ($$03943|0)<(2);

								  $$140 = $19 ? 1 : $17;

								  $20 = (($$03645) + 1)|0;

								  $21 = ($20|0)>=($3|0);

								  $22 = $$ | $$140;

								  $23 = ($22|0)==(0);

								  $or$cond = $21 | $23;

								  if ($or$cond) {

								   break;

								  } else {

								   $$03645 = $20;$$03744 = $15;$$03943 = $$140;$$046 = $$;

								  }

								 }

								 return;

								}

								function _GetImageData($0) {

								 $0 = $0|0;

								 var $$0104105 = 0, $$0106 = 0, $$1 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0.0, $103 = 0.0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0;

								 var $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0;

								 var $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0.0, $4 = 0, $40 = 0.0, $41 = 0;

								 var $42 = 0, $43 = 0, $44 = 0, $45 = 0.0, $46 = 0.0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0.0, $52 = 0.0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0;

								 var $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0.0, $65 = 0.0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0.0, $71 = 0.0, $72 = 0, $73 = 0, $74 = 0, $75 = 0.0, $76 = 0.0, $77 = 0, $78 = 0;

								 var $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0.0, $86 = 0.0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0.0, $92 = 0.0, $93 = 0, $94 = 0, $95 = 0, $96 = 0;

								 var $97 = 0.0, $98 = 0.0, $99 = 0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 $1 = ((($0)) + 4|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ((($0)) + 8|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = $2 << 2;

								 $6 = Math_imul($5, $4)|0;

								 $7 = (_malloc($6)|0);

								 $8 = HEAP32[$1>>2]|0;

								 $9 = Math_imul($4, $8)|0;

								 $10 = ($9|0)>(0);

								 if (!($10)) {

								  STACKTOP = sp;return ($7|0);

								 }

								 $11 = ((($0)) + 16|0);

								 $12 = HEAP32[$11>>2]|0;

								 $13 = HEAP32[$0>>2]|0;

								 $$0104105 = 0;$$0106 = 0;

								 while(1) {

								  switch ($12|0) {

								  case 1:  {

								   $14 = (($13) + ($$0106)|0);

								   $15 = HEAP8[$14>>0]|0;

								   $16 = (($7) + ($$0104105<<2)|0);

								   HEAP8[$16>>0] = $15;

								   $17 = HEAP8[$14>>0]|0;

								   $18 = (((($7) + ($$0104105<<2)|0)) + 1|0);

								   HEAP8[$18>>0] = $17;

								   $19 = HEAP8[$14>>0]|0;

								   $20 = (((($7) + ($$0104105<<2)|0)) + 2|0);

								   HEAP8[$20>>0] = $19;

								   $21 = (((($7) + ($$0104105<<2)|0)) + 3|0);

								   HEAP8[$21>>0] = -1;

								   $22 = (($$0106) + 1)|0;

								   $$1 = $22;

								   break;

								  }

								  case 2:  {

								   $23 = (($13) + ($$0106)|0);

								   $24 = HEAP8[$23>>0]|0;

								   $25 = (($7) + ($$0104105<<2)|0);

								   HEAP8[$25>>0] = $24;

								   $26 = HEAP8[$23>>0]|0;

								   $27 = (((($7) + ($$0104105<<2)|0)) + 1|0);

								   HEAP8[$27>>0] = $26;

								   $28 = HEAP8[$23>>0]|0;

								   $29 = (((($7) + ($$0104105<<2)|0)) + 2|0);

								   HEAP8[$29>>0] = $28;

								   $30 = (($$0106) + 1)|0;

								   $31 = (($13) + ($30)|0);

								   $32 = HEAP8[$31>>0]|0;

								   $33 = (((($7) + ($$0104105<<2)|0)) + 3|0);

								   HEAP8[$33>>0] = $32;

								   $34 = (($$0106) + 2)|0;

								   $$1 = $34;

								   break;

								  }

								  case 5:  {

								   $35 = (($13) + ($$0106<<1)|0);

								   $36 = HEAP16[$35>>1]|0;

								   $37 = $36&65535;

								   $38 = $37 >>> 11;

								   $39 = (+($38|0));

								   $40 = $39 * 8.0;

								   $41 = (~~(($40))&255);

								   $42 = (($7) + ($$0104105<<2)|0);

								   HEAP8[$42>>0] = $41;

								   $43 = $37 >>> 6;

								   $44 = $43 & 31;

								   $45 = (+($44|0));

								   $46 = $45 * 8.0;

								   $47 = (~~(($46))&255);

								   $48 = (((($7) + ($$0104105<<2)|0)) + 1|0);

								   HEAP8[$48>>0] = $47;

								   $49 = $37 >>> 1;

								   $50 = $49 & 31;

								   $51 = (+($50|0));

								   $52 = $51 * 8.0;

								   $53 = (~~(($52))&255);

								   $54 = (((($7) + ($$0104105<<2)|0)) + 2|0);

								   HEAP8[$54>>0] = $53;

								   $55 = $37 & 1;

								   $56 = (0 - ($55))|0;

								   $57 = $56&255;

								   $58 = (((($7) + ($$0104105<<2)|0)) + 3|0);

								   HEAP8[$58>>0] = $57;

								   $59 = (($$0106) + 1)|0;

								   $$1 = $59;

								   break;

								  }

								  case 3:  {

								   $60 = (($13) + ($$0106<<1)|0);

								   $61 = HEAP16[$60>>1]|0;

								   $62 = $61&65535;

								   $63 = $62 >>> 11;

								   $64 = (+($63|0));

								   $65 = $64 * 8.0;

								   $66 = (~~(($65))&255);

								   $67 = (($7) + ($$0104105<<2)|0);

								   HEAP8[$67>>0] = $66;

								   $68 = $62 >>> 5;

								   $69 = $68 & 63;

								   $70 = (+($69|0));

								   $71 = $70 * 4.0;

								   $72 = (~~(($71))&255);

								   $73 = (((($7) + ($$0104105<<2)|0)) + 1|0);

								   HEAP8[$73>>0] = $72;

								   $74 = $62 & 31;

								   $75 = (+($74|0));

								   $76 = $75 * 8.0;

								   $77 = (~~(($76))&255);

								   $78 = (((($7) + ($$0104105<<2)|0)) + 2|0);

								   HEAP8[$78>>0] = $77;

								   $79 = (((($7) + ($$0104105<<2)|0)) + 3|0);

								   HEAP8[$79>>0] = -1;

								   $80 = (($$0106) + 1)|0;

								   $$1 = $80;

								   break;

								  }

								  case 6:  {

								   $81 = (($13) + ($$0106<<1)|0);

								   $82 = HEAP16[$81>>1]|0;

								   $83 = $82&65535;

								   $84 = $83 >>> 12;

								   $85 = (+($84|0));

								   $86 = $85 * 17.0;

								   $87 = (~~(($86))&255);

								   $88 = (($7) + ($$0104105<<2)|0);

								   HEAP8[$88>>0] = $87;

								   $89 = $83 >>> 8;

								   $90 = $89 & 15;

								   $91 = (+($90|0));

								   $92 = $91 * 17.0;

								   $93 = (~~(($92))&255);

								   $94 = (((($7) + ($$0104105<<2)|0)) + 1|0);

								   HEAP8[$94>>0] = $93;

								   $95 = $83 >>> 4;

								   $96 = $95 & 15;

								   $97 = (+($96|0));

								   $98 = $97 * 17.0;

								   $99 = (~~(($98))&255);

								   $100 = (((($7) + ($$0104105<<2)|0)) + 2|0);

								   HEAP8[$100>>0] = $99;

								   $101 = $83 & 15;

								   $102 = (+($101|0));

								   $103 = $102 * 17.0;

								   $104 = (~~(($103))&255);

								   $105 = (((($7) + ($$0104105<<2)|0)) + 3|0);

								   HEAP8[$105>>0] = $104;

								   $106 = (($$0106) + 1)|0;

								   $$1 = $106;

								   break;

								  }

								  case 7:  {

								   $107 = (($13) + ($$0106)|0);

								   $108 = HEAP8[$107>>0]|0;

								   $109 = (($7) + ($$0104105<<2)|0);

								   HEAP8[$109>>0] = $108;

								   $110 = (($$0106) + 1)|0;

								   $111 = (($13) + ($110)|0);

								   $112 = HEAP8[$111>>0]|0;

								   $113 = (((($7) + ($$0104105<<2)|0)) + 1|0);

								   HEAP8[$113>>0] = $112;

								   $114 = (($$0106) + 2)|0;

								   $115 = (($13) + ($114)|0);

								   $116 = HEAP8[$115>>0]|0;

								   $117 = (((($7) + ($$0104105<<2)|0)) + 2|0);

								   HEAP8[$117>>0] = $116;

								   $118 = (($$0106) + 3)|0;

								   $119 = (($13) + ($118)|0);

								   $120 = HEAP8[$119>>0]|0;

								   $121 = (((($7) + ($$0104105<<2)|0)) + 3|0);

								   HEAP8[$121>>0] = $120;

								   $122 = (($$0106) + 4)|0;

								   $$1 = $122;

								   break;

								  }

								  case 4:  {

								   $123 = (($13) + ($$0106)|0);

								   $124 = HEAP8[$123>>0]|0;

								   $125 = (($7) + ($$0104105<<2)|0);

								   HEAP8[$125>>0] = $124;

								   $126 = (($$0106) + 1)|0;

								   $127 = (($13) + ($126)|0);

								   $128 = HEAP8[$127>>0]|0;

								   $129 = (((($7) + ($$0104105<<2)|0)) + 1|0);

								   HEAP8[$129>>0] = $128;

								   $130 = (($$0106) + 2)|0;

								   $131 = (($13) + ($130)|0);

								   $132 = HEAP8[$131>>0]|0;

								   $133 = (((($7) + ($$0104105<<2)|0)) + 2|0);

								   HEAP8[$133>>0] = $132;

								   $134 = (((($7) + ($$0104105<<2)|0)) + 3|0);

								   HEAP8[$134>>0] = -1;

								   $135 = (($$0106) + 3)|0;

								   $$1 = $135;

								   break;

								  }

								  default: {

								   _TraceLog(2,4054,$vararg_buffer);

								   $$1 = $$0106;

								  }

								  }

								  $136 = (($$0104105) + 1)|0;

								  $137 = HEAP32[$1>>2]|0;

								  $138 = HEAP32[$3>>2]|0;

								  $139 = Math_imul($138, $137)|0;

								  $140 = ($136|0)<($139|0);

								  if ($140) {

								   $$0104105 = $136;$$0106 = $$1;

								  } else {

								   break;

								  }

								 }

								 STACKTOP = sp;return ($7|0);

								}

								function _ErrorCallback($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $vararg_buffer = 0, $vararg_ptr1 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 HEAP32[$vararg_buffer>>2] = $0;

								 $vararg_ptr1 = ((($vararg_buffer)) + 4|0);

								 HEAP32[$vararg_ptr1>>2] = $1;

								 _TraceLog(2,7920,$vararg_buffer);

								 STACKTOP = sp;return;

								}

								function _rlGetVersion() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return 4;

								}

								function _SetupFramebufferSize($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$sink = 0, $$sink1 = 0, $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0, $14 = 0.0, $15 = 0.0, $16 = 0, $17 = 0, $18 = 0.0, $19 = 0.0, $2 = 0, $20 = 0, $21 = 0, $22 = 0.0, $23 = 0, $24 = 0, $25 = 0, $26 = 0.0;

								 var $27 = 0, $28 = 0.0, $29 = 0.0, $3 = 0, $30 = 0, $31 = 0, $32 = 0.0, $33 = 0.0, $34 = 0.0, $35 = 0, $36 = 0.0, $37 = 0, $38 = 0.0, $39 = 0.0, $4 = 0, $40 = 0, $41 = 0.0, $42 = 0, $43 = 0, $44 = 0.0;

								 var $45 = 0, $46 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0.0, $9 = 0, $or$cond = 0, $roundf = 0.0, $roundf38 = 0.0, $roundf39 = 0.0, $roundf40 = 0.0, $vararg_buffer = 0, $vararg_buffer4 = 0, $vararg_buffer8 = 0, $vararg_ptr1 = 0, $vararg_ptr11 = 0, $vararg_ptr12 = 0, $vararg_ptr13 = 0, $vararg_ptr2 = 0;

								 var $vararg_ptr3 = 0, $vararg_ptr7 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 112|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(112|0);

								 $vararg_buffer8 = sp + 24|0;

								 $vararg_buffer4 = sp + 16|0;

								 $vararg_buffer = sp;

								 $2 = sp + 40|0;

								 $3 = HEAP32[7758]|0;

								 $4 = ($3|0)>($0|0);

								 if (!($4)) {

								  $5 = HEAP32[7757]|0;

								  $6 = ($5|0)>($1|0);

								  if (!($6)) {

								   $30 = ($3|0)<($0|0);

								   $31 = ($5|0)<($1|0);

								   $or$cond = $30 | $31;

								   if (!($or$cond)) {

								    HEAP32[7799] = $3;

								    HEAP32[7800] = $5;

								    HEAP32[7801] = 0;

								    HEAP32[7802] = 0;

								    STACKTOP = sp;return;

								   }

								   HEAP32[$vararg_buffer8>>2] = $3;

								   $vararg_ptr11 = ((($vararg_buffer8)) + 4|0);

								   HEAP32[$vararg_ptr11>>2] = $5;

								   $vararg_ptr12 = ((($vararg_buffer8)) + 8|0);

								   HEAP32[$vararg_ptr12>>2] = $0;

								   $vararg_ptr13 = ((($vararg_buffer8)) + 12|0);

								   HEAP32[$vararg_ptr13>>2] = $1;

								   _TraceLog(0,7854,$vararg_buffer8);

								   $32 = (+($0|0));

								   $33 = (+($1|0));

								   $34 = $32 / $33;

								   $35 = HEAP32[7758]|0;

								   $36 = (+($35|0));

								   $37 = HEAP32[7757]|0;

								   $38 = (+($37|0));

								   $39 = $36 / $38;

								   $40 = !($34 <= $39);

								   if ($40) {

								    $44 = $34 * $38;

								    $roundf = (+_roundf((+$44)));

								    $45 = (~~(($roundf)));

								    HEAP32[7799] = $45;

								    HEAP32[7800] = $37;

								    $46 = (($45) - ($35))|0;

								    HEAP32[7801] = $46;

								    $$sink1 = 0;

								   } else {

								    HEAP32[7799] = $35;

								    $41 = $36 / $34;

								    $roundf38 = (+_roundf((+$41)));

								    $42 = (~~(($roundf38)));

								    HEAP32[7800] = $42;

								    HEAP32[7801] = 0;

								    $43 = (($42) - ($37))|0;

								    $$sink1 = $43;

								   }

								   HEAP32[7802] = $$sink1;

								   STACKTOP = sp;return;

								  }

								 }

								 $7 = HEAP32[7757]|0;

								 HEAP32[$vararg_buffer>>2] = $3;

								 $vararg_ptr1 = ((($vararg_buffer)) + 4|0);

								 HEAP32[$vararg_ptr1>>2] = $7;

								 $vararg_ptr2 = ((($vararg_buffer)) + 8|0);

								 HEAP32[$vararg_ptr2>>2] = $0;

								 $vararg_ptr3 = ((($vararg_buffer)) + 12|0);

								 HEAP32[$vararg_ptr3>>2] = $1;

								 _TraceLog(2,7711,$vararg_buffer);

								 $8 = (+($0|0));

								 $9 = HEAP32[7758]|0;

								 $10 = (+($9|0));

								 $11 = $8 / $10;

								 $12 = (+($1|0));

								 $13 = HEAP32[7757]|0;

								 $14 = (+($13|0));

								 $15 = $12 / $14;

								 $16 = !($11 <= $15);

								 if ($16) {

								  $22 = $10 * $15;

								  $roundf39 = (+_roundf((+$22)));

								  $23 = (~~(($roundf39)));

								  HEAP32[7799] = $23;

								  HEAP32[7800] = $1;

								  $24 = (($0) - ($23))|0;

								  HEAP32[7801] = $24;

								  $$sink = 0;

								 } else {

								  HEAP32[7799] = $0;

								  $17 = HEAP32[7757]|0;

								  $18 = (+($17|0));

								  $19 = $11 * $18;

								  $roundf40 = (+_roundf((+$19)));

								  $20 = (~~(($roundf40)));

								  HEAP32[7800] = $20;

								  HEAP32[7801] = 0;

								  $21 = (($1) - ($20))|0;

								  $$sink = $21;

								 }

								 HEAP32[7802] = $$sink;

								 $25 = HEAP32[7799]|0;

								 $26 = (+($25|0));

								 $27 = HEAP32[7758]|0;

								 $28 = (+($27|0));

								 $29 = $26 / $28;

								 _MatrixScale($2,$29,$29,$29);

								 dest=31120; src=$2; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[7799] = $0;

								 HEAP32[7800] = $1;

								 HEAP32[$vararg_buffer4>>2] = $0;

								 $vararg_ptr7 = ((($vararg_buffer4)) + 4|0);

								 HEAP32[$vararg_ptr7>>2] = $1;

								 _TraceLog(2,7789,$vararg_buffer4);

								 STACKTOP = sp;return;

								}

								function _WindowSizeCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $3 = 0.0, $4 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 _rlViewport(0,0,$1,$2);

								 _rlMatrixMode(5889);

								 _rlLoadIdentity();

								 $3 = (+($1|0));

								 $4 = (+($2|0));

								 _rlOrtho(0.0,$3,$4,0.0,0.0,1.0);

								 _rlMatrixMode(5888);

								 _rlLoadIdentity();

								 _rlClearScreenBuffers();

								 HEAP32[7758] = $1;

								 HEAP32[7757] = $2;

								 HEAP32[7799] = $1;

								 HEAP32[7800] = $2;

								 return;

								}

								function _CursorEnterCallback($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return;

								}

								function _KeyCallback($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $5 = HEAP32[744]|0;

								 $6 = ($5|0)==($1|0);

								 $7 = ($3|0)==(1);

								 $or$cond = $7 & $6;

								 if ($or$cond) {

								  _glfwSetWindowShouldClose(($0|0),1);

								  return;

								 }

								 $8 = $3&255;

								 $9 = (36003 + ($1)|0);

								 HEAP8[$9>>0] = $8;

								 if (!($7)) {

								  return;

								 }

								 HEAP32[743] = $1;

								 return;

								}

								function _MouseButtonCallback($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $$byval_copy = 0, $$sink = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0.0, $27 = 0.0;

								 var $28 = 0.0, $29 = 0, $30 = 0.0, $31 = 0, $32 = 0.0, $33 = 0.0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 128|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(128|0);

								 $$byval_copy = sp + 64|0;

								 $4 = sp + 8|0;

								 $5 = sp;

								 $6 = $2&255;

								 $7 = (35997 + ($1)|0);

								 HEAP8[$7>>0] = $6;

								 $8 = (_IsMouseButtonPressed(0)|0);

								 $9 = ($8|0)==(0);

								 if ($9) {

								  $10 = (_IsMouseButtonReleased(0)|0);

								  $11 = ($10|0)==(0);

								  if (!($11)) {

								   $$sink = 0;

								   label = 3;

								  }

								 } else {

								  $$sink = 1;

								  label = 3;

								 }

								 if ((label|0) == 3) {

								  HEAP32[$4>>2] = $$sink;

								 }

								 $12 = ((($4)) + 8|0);

								 HEAP32[$12>>2] = 0;

								 $13 = ((($4)) + 4|0);

								 HEAP32[$13>>2] = 1;

								 $14 = ((($4)) + 24|0);

								 _GetMousePosition($5);

								 $15 = $5;

								 $16 = $15;

								 $17 = HEAP32[$16>>2]|0;

								 $18 = (($15) + 4)|0;

								 $19 = $18;

								 $20 = HEAP32[$19>>2]|0;

								 $21 = $14;

								 $22 = $21;

								 HEAP32[$22>>2] = $17;

								 $23 = (($21) + 4)|0;

								 $24 = $23;

								 HEAP32[$24>>2] = $20;

								 $25 = (_GetScreenWidth()|0);

								 $26 = (+($25|0));

								 $27 = +HEAPF32[$14>>2];

								 $28 = $27 / $26;

								 HEAPF32[$14>>2] = $28;

								 $29 = (_GetScreenHeight()|0);

								 $30 = (+($29|0));

								 $31 = ((($4)) + 28|0);

								 $32 = +HEAPF32[$31>>2];

								 $33 = $32 / $30;

								 HEAPF32[$31>>2] = $33;

								 dest=$$byval_copy; src=$4; stop=dest+56|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _ProcessGestureEvent($$byval_copy);

								 STACKTOP = sp;return;

								}

								function _MouseCursorPosCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = +$2;

								 var $$byval_copy = 0, $$sroa$0$0$$sroa_idx = 0, $$sroa$2$0$$sroa_idx1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0.0, $21 = 0.0, $22 = 0.0, $23 = 0, $24 = 0.0, $25 = 0.0, $26 = 0.0;

								 var $3 = 0, $4 = 0, $5 = 0, $6 = 0.0, $7 = 0.0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 112|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(112|0);

								 $$byval_copy = sp + 56|0;

								 $3 = sp;

								 HEAP32[$3>>2] = 2;

								 $4 = ((($3)) + 8|0);

								 HEAP32[$4>>2] = 0;

								 $5 = ((($3)) + 4|0);

								 HEAP32[$5>>2] = 1;

								 $6 = $1;

								 $7 = $2;

								 $$sroa$0$0$$sroa_idx = ((($3)) + 24|0);

								 HEAPF32[$$sroa$0$0$$sroa_idx>>2] = $6;

								 $$sroa$2$0$$sroa_idx1 = ((($3)) + 28|0);

								 HEAPF32[$$sroa$2$0$$sroa_idx1>>2] = $7;

								 $8 = ((($3)) + 24|0);

								 $9 = $8;

								 $10 = $9;

								 $11 = HEAP32[$10>>2]|0;

								 $12 = (($9) + 4)|0;

								 $13 = $12;

								 $14 = HEAP32[$13>>2]|0;

								 $15 = 14120;

								 $16 = $15;

								 HEAP32[$16>>2] = $11;

								 $17 = (($15) + 4)|0;

								 $18 = $17;

								 HEAP32[$18>>2] = $14;

								 $19 = (_GetScreenWidth()|0);

								 $20 = (+($19|0));

								 $21 = +HEAPF32[$8>>2];

								 $22 = $21 / $20;

								 HEAPF32[$8>>2] = $22;

								 $23 = (_GetScreenHeight()|0);

								 $24 = (+($23|0));

								 $25 = +HEAPF32[$$sroa$2$0$$sroa_idx1>>2];

								 $26 = $25 / $24;

								 HEAPF32[$$sroa$2$0$$sroa_idx1>>2] = $26;

								 dest=$$byval_copy; src=$3; stop=dest+56|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _ProcessGestureEvent($$byval_copy);

								 STACKTOP = sp;return;

								}

								function _CharCallback($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAP32[743] = $1;

								 return;

								}

								function _ScrollCallback($0,$1,$2) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = +$2;

								 var $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = (~~(($2)));

								 HEAP32[8172] = $3;

								 return;

								}

								function _WindowIconifyCallback($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$sink = 0, $2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ($1|0)!=(0);

								 $$sink = $2&1;

								 HEAP32[8171] = $$sink;

								 return;

								}

								function _rlglInit($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$05965 = 0, $$06066 = 0, $$06167 = 0, $$062 = 0, $$sink63 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0;

								 var $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0;

								 var $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0.0, $72 = 0.0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0;

								 var $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $9 = 0, $exitcond = 0, $exitcond69 = 0, $exitcond70 = 0, $vararg_buffer = 0, $vararg_buffer1 = 0, $vararg_buffer10 = 0, $vararg_buffer13 = 0, $vararg_buffer15 = 0, $vararg_buffer17 = 0, $vararg_buffer19 = 0;

								 var $vararg_buffer21 = 0, $vararg_buffer23 = 0, $vararg_buffer25 = 0, $vararg_buffer27 = 0, $vararg_buffer29 = 0, $vararg_buffer31 = 0, $vararg_buffer34 = 0, $vararg_buffer36 = 0, $vararg_buffer39 = 0, $vararg_buffer4 = 0, $vararg_buffer41 = 0, $vararg_buffer7 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 2464|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(2464|0);

								 $vararg_buffer41 = sp + 2184|0;

								 $vararg_buffer39 = sp + 2176|0;

								 $vararg_buffer36 = sp + 2168|0;

								 $vararg_buffer34 = sp + 2160|0;

								 $vararg_buffer31 = sp + 2152|0;

								 $vararg_buffer29 = sp + 2144|0;

								 $vararg_buffer27 = sp + 2136|0;

								 $vararg_buffer25 = sp + 2128|0;

								 $vararg_buffer23 = sp + 2120|0;

								 $vararg_buffer21 = sp + 2112|0;

								 $vararg_buffer19 = sp + 2104|0;

								 $vararg_buffer17 = sp + 2096|0;

								 $vararg_buffer15 = sp + 2088|0;

								 $vararg_buffer13 = sp + 2080|0;

								 $vararg_buffer10 = sp + 2072|0;

								 $vararg_buffer7 = sp + 24|0;

								 $vararg_buffer4 = sp + 16|0;

								 $vararg_buffer1 = sp + 8|0;

								 $vararg_buffer = sp;

								 $2 = sp + 2400|0;

								 $3 = sp + 2384|0;

								 $4 = sp + 2320|0;

								 $5 = sp + 2256|0;

								 $6 = sp + 2192|0;

								 $7 = (_glGetString(7936)|0);

								 HEAP32[$vararg_buffer>>2] = $7;

								 _TraceLog(0,4352,$vararg_buffer);

								 $8 = (_glGetString(7937)|0);

								 HEAP32[$vararg_buffer1>>2] = $8;

								 _TraceLog(0,4370,$vararg_buffer1);

								 $9 = (_glGetString(7938)|0);

								 HEAP32[$vararg_buffer4>>2] = $9;

								 _TraceLog(0,4388,$vararg_buffer4);

								 $10 = (_glGetString(35724)|0);

								 HEAP32[$vararg_buffer7>>2] = $10;

								 _TraceLog(0,4406,$vararg_buffer7);

								 $11 = (_glGetString(7939)|0);

								 $12 = (_strlen($11)|0);

								 $13 = (($12) + 1)|0;

								 $14 = (_malloc($13)|0);

								 _memcpy(($14|0),($11|0),($13|0))|0;

								 $$062 = 0;$$sink63 = $14;

								 while(1) {

								  $15 = (_strtok($$sink63,4424)|0);

								  $16 = (($vararg_buffer7) + ($$062<<2)|0);

								  HEAP32[$16>>2] = $15;

								  $17 = ($15|0)==(0|0);

								  $18 = (($$062) + 1)|0;

								  if ($17) {

								   break;

								  } else {

								   $$062 = $18;$$sink63 = 0;

								  }

								 }

								 _free($14);

								 $19 = (($$062) + -1)|0;

								 HEAP32[$vararg_buffer10>>2] = $19;

								 _TraceLog(0,4426,$vararg_buffer10);

								 $20 = ($$062|0)>(1);

								 if ($20) {

								  $$06167 = 0;

								  while(1) {

								   $23 = (($vararg_buffer7) + ($$06167<<2)|0);

								   $24 = HEAP32[$23>>2]|0;

								   $25 = (_strcmp($24,4461)|0);

								   $26 = ($25|0)==(0);

								   if ($26) {

								    HEAP32[7837] = 1;

								    $27 = (_eglGetProcAddress((4488|0))|0);

								    HEAP32[7838] = $27;

								    $28 = (_eglGetProcAddress((4509|0))|0);

								    HEAP32[7839] = $28;

								    $29 = (_eglGetProcAddress((4530|0))|0);

								    HEAP32[7840] = $29;

								   }

								   $30 = (_strcmp($24,4554)|0);

								   $31 = ($30|0)==(0);

								   if ($31) {

								    HEAP32[7779] = 1;

								   }

								   $32 = (_strcmp($24,4574)|0);

								   $33 = ($32|0)==(0);

								   if ($33) {

								    label = 12;

								   } else {

								    $34 = HEAP32[$23>>2]|0;

								    $35 = (_strcmp($34,4606)|0);

								    $36 = ($35|0)==(0);

								    if ($36) {

								     label = 12;

								    } else {

								     $37 = (_strcmp($34,4639)|0);

								     $38 = ($37|0)==(0);

								     if ($38) {

								      label = 12;

								     }

								    }

								   }

								   if ((label|0) == 12) {

								    label = 0;

								    HEAP32[7774] = 1;

								   }

								   $39 = (_strcmp($24,4679)|0);

								   $40 = ($39|0)==(0);

								   if ($40) {

								    label = 15;

								   } else {

								    $41 = HEAP32[$23>>2]|0;

								    $42 = (_strcmp($41,4715)|0);

								    $43 = ($42|0)==(0);

								    if ($43) {

								     label = 15;

								    }

								   }

								   if ((label|0) == 15) {

								    label = 0;

								    HEAP32[7775] = 1;

								   }

								   $44 = HEAP32[$23>>2]|0;

								   $45 = (_strcmp($44,4748)|0);

								   $46 = ($45|0)==(0);

								   if ($46) {

								    HEAP32[7776] = 1;

								   }

								   $47 = (_strcmp($44,4773)|0);

								   $48 = ($47|0)==(0);

								   if ($48) {

								    HEAP32[7777] = 1;

								   }

								   $49 = (_strcmp($44,4806)|0);

								   $50 = ($49|0)==(0);

								   if ($50) {

								    HEAP32[7778] = 1;

								   }

								   $51 = (_strcmp($44,4842)|0);

								   $52 = ($51|0)==(0);

								   if ($52) {

								    HEAP32[7841] = 1;

								    _glGetFloatv(34047,(31368|0));

								   }

								   $53 = HEAP32[$23>>2]|0;

								   $54 = (_strcmp($53,4876)|0);

								   $55 = ($54|0)==(0);

								   if ($55) {

								    HEAP32[7843] = 1;

								   }

								   $56 = (($$06167) + 1)|0;

								   $exitcond70 = ($56|0)==($19|0);

								   if ($exitcond70) {

								    break;

								   } else {

								    $$06167 = $56;

								   }

								  }

								 }

								 $21 = HEAP32[7837]|0;

								 $22 = ($21|0)==(0);

								 if ($22) {

								  _TraceLog(2,4979,$vararg_buffer15);

								 } else {

								  _TraceLog(0,4904,$vararg_buffer13);

								 }

								 $57 = HEAP32[7779]|0;

								 $58 = ($57|0)==(0);

								 if ($58) {

								  _TraceLog(2,5115,$vararg_buffer19);

								 } else {

								  _TraceLog(0,5040,$vararg_buffer17);

								 }

								 $59 = HEAP32[7774]|0;

								 $60 = ($59|0)==(0);

								 if (!($60)) {

								  _TraceLog(0,5207,$vararg_buffer21);

								 }

								 $61 = HEAP32[7775]|0;

								 $62 = ($61|0)==(0);

								 if (!($62)) {

								  _TraceLog(0,5253,$vararg_buffer23);

								 }

								 $63 = HEAP32[7776]|0;

								 $64 = ($63|0)==(0);

								 if (!($64)) {

								  _TraceLog(0,5300,$vararg_buffer25);

								 }

								 $65 = HEAP32[7777]|0;

								 $66 = ($65|0)==(0);

								 if (!($66)) {

								  _TraceLog(0,5351,$vararg_buffer27);

								 }

								 $67 = HEAP32[7778]|0;

								 $68 = ($67|0)==(0);

								 if (!($68)) {

								  _TraceLog(0,5398,$vararg_buffer29);

								 }

								 $69 = HEAP32[7841]|0;

								 $70 = ($69|0)==(0);

								 if (!($70)) {

								  $71 = +HEAPF32[7842];

								  $72 = $71;

								  HEAPF64[$vararg_buffer31>>3] = $72;

								  _TraceLog(0,5445,$vararg_buffer31);

								 }

								 $73 = HEAP32[7843]|0;

								 $74 = ($73|0)==(0);

								 if (!($74)) {

								  _TraceLog(0,5511,$vararg_buffer34);

								 }

								 HEAP32[$vararg_buffer10>>2] = -1;

								 $75 = (_rlglLoadTexture($vararg_buffer10,1,1,7,1)|0);

								 HEAP32[7844] = $75;

								 $76 = ($75|0)==(0);

								 if ($76) {

								  _TraceLog(2,5615,$vararg_buffer39);

								 } else {

								  HEAP32[$vararg_buffer36>>2] = $75;

								  _TraceLog(0,5564,$vararg_buffer36);

								 }

								 _LoadDefaultShader($2);

								 dest=31380; src=$2; stop=dest+56|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=31436; src=$2; stop=dest+56|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _LoadDefaultBuffers();

								 $77 = (_malloc(49152)|0);

								 HEAP32[7873] = $77;

								 $$06066 = 0;

								 while(1) {

								  $79 = HEAP32[7873]|0;

								  $80 = (($79) + (($$06066*12)|0)|0);

								  _VectorZero($3);

								  ;HEAP32[$80>>2]=HEAP32[$3>>2]|0;HEAP32[$80+4>>2]=HEAP32[$3+4>>2]|0;HEAP32[$80+8>>2]=HEAP32[$3+8>>2]|0;

								  $81 = (($$06066) + 1)|0;

								  $exitcond69 = ($81|0)==(4096);

								  if ($exitcond69) {

								   break;

								  } else {

								   $$06066 = $81;

								  }

								 }

								 $78 = (_malloc(36864)|0);

								 HEAP32[7874] = $78;

								 $$05965 = 0;

								 while(1) {

								  $82 = (((($78) + (($$05965*144)|0)|0)) + 8|0);

								  HEAP32[$82>>2] = 0;

								  $83 = (($78) + (($$05965*144)|0)|0);

								  HEAP32[$83>>2] = 0;

								  $84 = (($$05965) + 1)|0;

								  $exitcond = ($84|0)==(256);

								  if ($exitcond) {

								   break;

								  } else {

								   $$05965 = $84;

								  }

								 }

								 HEAP32[7875] = 1;

								 $85 = HEAP32[7844]|0;

								 $86 = ((($78)) + 8|0);

								 HEAP32[$86>>2] = $85;

								 HEAP32[7876] = 4;

								 _MatrixIdentity($4);

								 dest=31508; src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(31572); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(31636); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(31700); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(31764); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(31828); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(31892); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(31956); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32020); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32084); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32148); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32212); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32276); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32340); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32404); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($4);

								 dest=(32468); src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($5);

								 dest=31216; src=$5; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixIdentity($6);

								 dest=31280; src=$6; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[7803] = 31280;

								 _glDepthFunc(515);

								 _glDisable(2929);

								 _glBlendFunc(770,771);

								 _glEnable(3042);

								 _glCullFace(1029);

								 _glFrontFace(2305);

								 _glEnable(2884);

								 _glClearColor(0.0,0.0,0.0,1.0);

								 _glClearDepthf(1.0);

								 _glClear(16640);

								 HEAP32[8133] = $0;

								 HEAP32[8134] = $1;

								 _TraceLog(0,5654,$vararg_buffer41);

								 STACKTOP = sp;return;

								}

								function _SetupViewport() {

								 var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[7801]|0;

								 $1 = (($0|0) / 2)&-1;

								 $2 = HEAP32[7802]|0;

								 $3 = (($2|0) / 2)&-1;

								 $4 = HEAP32[7799]|0;

								 $5 = (($4) - ($0))|0;

								 $6 = HEAP32[7800]|0;

								 $7 = (($6) - ($2))|0;

								 _rlViewport($1,$3,$5,$7);

								 return;

								}

								function _rlMatrixMode($0) {

								 $0 = $0|0;

								 var $modelview$sink = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 switch ($0|0) {

								 case 5889:  {

								  $modelview$sink = 31216;

								  label = 3;

								  break;

								 }

								 case 5888:  {

								  $modelview$sink = 31280;

								  label = 3;

								  break;

								 }

								 default: {

								 }

								 }

								 if ((label|0) == 3) {

								  HEAP32[7803] = $modelview$sink;

								 }

								 HEAP32[7836] = $0;

								 return;

								}

								function _rlLoadIdentity() {

								 var $0 = 0, $1 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $0 = sp;

								 $1 = HEAP32[7803]|0;

								 _MatrixIdentity($0);

								 dest=$1; src=$0; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 STACKTOP = sp;return;

								}

								function _rlOrtho($0,$1,$2,$3,$4,$5) {

								 $0 = +$0;

								 $1 = +$1;

								 $2 = +$2;

								 $3 = +$3;

								 $4 = +$4;

								 $5 = +$5;

								 var $$byval_copy = 0, $$byval_copy1 = 0, $6 = 0, $7 = 0, $8 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 256|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(256|0);

								 $$byval_copy1 = sp + 192|0;

								 $$byval_copy = sp + 128|0;

								 $6 = sp + 64|0;

								 $7 = sp;

								 _MatrixOrtho($6,$0,$1,$2,$3,$4,$5);

								 _MatrixTranspose($6);

								 $8 = HEAP32[7803]|0;

								 dest=$$byval_copy; src=$8; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=$$byval_copy1; src=$6; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixMultiply($7,$$byval_copy,$$byval_copy1);

								 dest=$8; src=$7; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 STACKTOP = sp;return;

								}

								function _ClearBackground($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP8[$0>>0]|0;

								 $2 = ((($0)) + 1|0);

								 $3 = HEAP8[$2>>0]|0;

								 $4 = ((($0)) + 2|0);

								 $5 = HEAP8[$4>>0]|0;

								 $6 = ((($0)) + 3|0);

								 $7 = HEAP8[$6>>0]|0;

								 _rlClearColor($1,$3,$5,$7);

								 return;

								}

								function _rlClearColor($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $10 = 0.0, $11 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0.0, $7 = 0.0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $4 = (+($0&255));

								 $5 = $4 / 255.0;

								 $6 = (+($1&255));

								 $7 = $6 / 255.0;

								 $8 = (+($2&255));

								 $9 = $8 / 255.0;

								 $10 = (+($3&255));

								 $11 = $10 / 255.0;

								 _glClearColor((+$5),(+$7),(+$9),(+$11));

								 return;

								}

								function _rlViewport($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 _glViewport(($0|0),($1|0),($2|0),($3|0));

								 return;

								}

								function _LoadDefaultShader($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $vararg_buffer = 0, $vararg_buffer1 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 1008|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(1008|0);

								 $vararg_buffer1 = sp + 8|0;

								 $vararg_buffer = sp;

								 $1 = sp + 16|0;

								 $2 = sp + 513|0;

								 $3 = sp + 72|0;

								 _memcpy(($2|0),(6230|0),489)|0;

								 _memcpy(($3|0),(6719|0),441)|0;

								 $4 = (_LoadShaderProgram($2,$3)|0);

								 HEAP32[$1>>2] = $4;

								 $5 = ($4|0)==(0);

								 if ($5) {

								  HEAP32[$vararg_buffer1>>2] = $4;

								  _TraceLog(2,7208,$vararg_buffer1);

								 } else {

								  HEAP32[$vararg_buffer>>2] = $4;

								  _TraceLog(0,7160,$vararg_buffer);

								 }

								 $6 = HEAP32[$1>>2]|0;

								 $7 = ($6|0)==(0);

								 if (!($7)) {

								  _LoadDefaultShaderLocations($1);

								 }

								 dest=$0; src=$1; stop=dest+56|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 STACKTOP = sp;return;

								}

								function _LoadDefaultBuffers() {

								 var $$05365 = 0, $$05467 = 0, $$05770 = 0, $$05972 = 0, $$066 = 0, $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0;

								 var $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0;

								 var $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0;

								 var $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0;

								 var $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0;

								 var $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $exitcond = 0, $exitcond75 = 0, $exitcond78 = 0, $exitcond80 = 0, $vararg_buffer = 0, $vararg_buffer1 = 0, $vararg_buffer10 = 0, $vararg_buffer14 = 0, $vararg_buffer17 = 0;

								 var $vararg_buffer3 = 0, $vararg_buffer7 = 0, $vararg_ptr13 = 0, $vararg_ptr20 = 0, $vararg_ptr21 = 0, $vararg_ptr22 = 0, $vararg_ptr6 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $vararg_buffer17 = sp + 48|0;

								 $vararg_buffer14 = sp + 40|0;

								 $vararg_buffer10 = sp + 32|0;

								 $vararg_buffer7 = sp + 24|0;

								 $vararg_buffer3 = sp + 16|0;

								 $vararg_buffer1 = sp + 8|0;

								 $vararg_buffer = sp;

								 $0 = (_malloc(24576)|0);

								 HEAP32[(32552)>>2] = $0;

								 $1 = (_malloc(8192)|0);

								 HEAP32[(32560)>>2] = $1;

								 HEAP32[(32556)>>2] = 0;

								 HEAP32[(32564)>>2] = 0;

								 _memset(($0|0),0,24576)|0;

								 $$05972 = 0;

								 while(1) {

								  $2 = HEAP32[(32560)>>2]|0;

								  $3 = (($2) + ($$05972)|0);

								  HEAP8[$3>>0] = 0;

								  $4 = (($$05972) + 1)|0;

								  $exitcond80 = ($4|0)==(8192);

								  if ($exitcond80) {

								   break;

								  } else {

								   $$05972 = $4;

								  }

								 }

								 HEAP32[8135] = 0;

								 HEAP32[(32548)>>2] = 0;

								 HEAP32[(32544)>>2] = 0;

								 $5 = (_malloc(73728)|0);

								 HEAP32[(32600)>>2] = $5;

								 $6 = (_malloc(24576)|0);

								 HEAP32[(32608)>>2] = $6;

								 HEAP32[(32604)>>2] = 0;

								 HEAP32[(32612)>>2] = 0;

								 _memset(($5|0),0,73728)|0;

								 $$05770 = 0;

								 while(1) {

								  $7 = HEAP32[(32608)>>2]|0;

								  $8 = (($7) + ($$05770)|0);

								  HEAP8[$8>>0] = 0;

								  $9 = (($$05770) + 1)|0;

								  $exitcond78 = ($9|0)==(24576);

								  if ($exitcond78) {

								   break;

								  } else {

								   $$05770 = $9;

								  }

								 }

								 HEAP32[8147] = 0;

								 HEAP32[(32596)>>2] = 0;

								 HEAP32[(32592)>>2] = 0;

								 $10 = (_malloc(49152)|0);

								 HEAP32[(32648)>>2] = $10;

								 $11 = (_malloc(32768)|0);

								 HEAP32[(32652)>>2] = $11;

								 $12 = (_malloc(16384)|0);

								 HEAP32[(32656)>>2] = $12;

								 $13 = (_malloc(12288)|0);

								 HEAP32[(32660)>>2] = $13;

								 $14 = HEAP32[(32648)>>2]|0;

								 _memset(($14|0),0,49152)|0;

								 $15 = HEAP32[(32652)>>2]|0;

								 _memset(($15|0),0,32768)|0;

								 $$05467 = 0;

								 while(1) {

								  $17 = HEAP32[(32656)>>2]|0;

								  $18 = (($17) + ($$05467)|0);

								  HEAP8[$18>>0] = 0;

								  $19 = (($$05467) + 1)|0;

								  $exitcond75 = ($19|0)==(16384);

								  if ($exitcond75) {

								   break;

								  } else {

								   $$05467 = $19;

								  }

								 }

								 $16 = HEAP32[(32660)>>2]|0;

								 $$05365 = 0;$$066 = 0;

								 while(1) {

								  $22 = $$05365 << 2;

								  $23 = $22&65535;

								  $24 = (($16) + ($$066<<1)|0);

								  HEAP16[$24>>1] = $23;

								  $25 = $22 | 1;

								  $26 = $25&65535;

								  $27 = $$066 | 1;

								  $28 = (($16) + ($27<<1)|0);

								  HEAP16[$28>>1] = $26;

								  $29 = $22 | 2;

								  $30 = $29&65535;

								  $31 = (($$066) + 2)|0;

								  $32 = (($16) + ($31<<1)|0);

								  HEAP16[$32>>1] = $30;

								  $33 = (($$066) + 3)|0;

								  $34 = (($16) + ($33<<1)|0);

								  HEAP16[$34>>1] = $23;

								  $35 = (($$066) + 4)|0;

								  $36 = (($16) + ($35<<1)|0);

								  HEAP16[$36>>1] = $30;

								  $37 = $22 | 3;

								  $38 = $37&65535;

								  $39 = (($$066) + 5)|0;

								  $40 = (($16) + ($39<<1)|0);

								  HEAP16[$40>>1] = $38;

								  $41 = (($$05365) + 1)|0;

								  $42 = (($$066) + 6)|0;

								  $exitcond = ($41|0)==(1024);

								  if ($exitcond) {

								   break;

								  } else {

								   $$05365 = $41;$$066 = $42;

								  }

								 }

								 HEAP32[8159] = 0;

								 HEAP32[(32640)>>2] = 0;

								 HEAP32[(32644)>>2] = 0;

								 _TraceLog(0,5701,$vararg_buffer);

								 $20 = HEAP32[7837]|0;

								 $21 = ($20|0)==(0);

								 if (!($21)) {

								  $43 = HEAP32[7838]|0;

								  FUNCTION_TABLE_vii[$43 & 63](1,(32568));

								  $44 = HEAP32[7839]|0;

								  $45 = HEAP32[(32568)>>2]|0;

								  FUNCTION_TABLE_vi[$44 & 31]($45);

								 }

								 _glGenBuffers(2,((32572)|0));

								 $46 = HEAP32[(32572)>>2]|0;

								 _glBindBuffer(34962,($46|0));

								 $47 = HEAP32[(32552)>>2]|0;

								 _glBufferData(34962,24576,($47|0),35048);

								 $48 = HEAP32[(31440)>>2]|0;

								 _glEnableVertexAttribArray(($48|0));

								 $49 = HEAP32[(31440)>>2]|0;

								 _glVertexAttribPointer(($49|0),3,5126,0,0,(0|0));

								 _glGenBuffers(2,((32576)|0));

								 $50 = HEAP32[(32576)>>2]|0;

								 _glBindBuffer(34962,($50|0));

								 $51 = HEAP32[(32560)>>2]|0;

								 _glBufferData(34962,8192,($51|0),35048);

								 $52 = HEAP32[(31460)>>2]|0;

								 _glEnableVertexAttribArray(($52|0));

								 $53 = HEAP32[(31460)>>2]|0;

								 _glVertexAttribPointer(($53|0),4,5121,1,0,(0|0));

								 $54 = HEAP32[7837]|0;

								 $55 = ($54|0)==(0);

								 if ($55) {

								  $57 = HEAP32[(32572)>>2]|0;

								  $58 = HEAP32[(32576)>>2]|0;

								  HEAP32[$vararg_buffer3>>2] = $57;

								  $vararg_ptr6 = ((($vararg_buffer3)) + 4|0);

								  HEAP32[$vararg_ptr6>>2] = $58;

								  _TraceLog(0,5839,$vararg_buffer3);

								 } else {

								  $56 = HEAP32[(32568)>>2]|0;

								  HEAP32[$vararg_buffer1>>2] = $56;

								  _TraceLog(0,5774,$vararg_buffer1);

								 }

								 $59 = HEAP32[7837]|0;

								 $60 = ($59|0)==(0);

								 if (!($60)) {

								  $61 = HEAP32[7838]|0;

								  FUNCTION_TABLE_vii[$61 & 63](1,(32616));

								  $62 = HEAP32[7839]|0;

								  $63 = HEAP32[(32616)>>2]|0;

								  FUNCTION_TABLE_vi[$62 & 31]($63);

								 }

								 _glGenBuffers(1,((32620)|0));

								 $64 = HEAP32[(32620)>>2]|0;

								 _glBindBuffer(34962,($64|0));

								 $65 = HEAP32[(32600)>>2]|0;

								 _glBufferData(34962,73728,($65|0),35048);

								 $66 = HEAP32[(31440)>>2]|0;

								 _glEnableVertexAttribArray(($66|0));

								 $67 = HEAP32[(31440)>>2]|0;

								 _glVertexAttribPointer(($67|0),3,5126,0,0,(0|0));

								 _glGenBuffers(1,((32624)|0));

								 $68 = HEAP32[(32624)>>2]|0;

								 _glBindBuffer(34962,($68|0));

								 $69 = HEAP32[(32608)>>2]|0;

								 _glBufferData(34962,24576,($69|0),35048);

								 $70 = HEAP32[(31460)>>2]|0;

								 _glEnableVertexAttribArray(($70|0));

								 $71 = HEAP32[(31460)>>2]|0;

								 _glVertexAttribPointer(($71|0),4,5121,1,0,(0|0));

								 $72 = HEAP32[7837]|0;

								 $73 = ($72|0)==(0);

								 if ($73) {

								  $75 = HEAP32[(32620)>>2]|0;

								  $76 = HEAP32[(32624)>>2]|0;

								  HEAP32[$vararg_buffer10>>2] = $75;

								  $vararg_ptr13 = ((($vararg_buffer10)) + 4|0);

								  HEAP32[$vararg_ptr13>>2] = $76;

								  _TraceLog(0,5985,$vararg_buffer10);

								 } else {

								  $74 = HEAP32[(32616)>>2]|0;

								  HEAP32[$vararg_buffer7>>2] = $74;

								  _TraceLog(0,5916,$vararg_buffer7);

								 }

								 $77 = HEAP32[7837]|0;

								 $78 = ($77|0)==(0);

								 if (!($78)) {

								  $79 = HEAP32[7838]|0;

								  FUNCTION_TABLE_vii[$79 & 63](1,(32664));

								  $80 = HEAP32[7839]|0;

								  $81 = HEAP32[(32664)>>2]|0;

								  FUNCTION_TABLE_vi[$80 & 31]($81);

								 }

								 _glGenBuffers(1,((32668)|0));

								 $82 = HEAP32[(32668)>>2]|0;

								 _glBindBuffer(34962,($82|0));

								 $83 = HEAP32[(32648)>>2]|0;

								 _glBufferData(34962,49152,($83|0),35048);

								 $84 = HEAP32[(31440)>>2]|0;

								 _glEnableVertexAttribArray(($84|0));

								 $85 = HEAP32[(31440)>>2]|0;

								 _glVertexAttribPointer(($85|0),3,5126,0,0,(0|0));

								 _glGenBuffers(1,((32672)|0));

								 $86 = HEAP32[(32672)>>2]|0;

								 _glBindBuffer(34962,($86|0));

								 $87 = HEAP32[(32652)>>2]|0;

								 _glBufferData(34962,32768,($87|0),35048);

								 $88 = HEAP32[(31444)>>2]|0;

								 _glEnableVertexAttribArray(($88|0));

								 $89 = HEAP32[(31444)>>2]|0;

								 _glVertexAttribPointer(($89|0),2,5126,0,0,(0|0));

								 _glGenBuffers(1,((32676)|0));

								 $90 = HEAP32[(32676)>>2]|0;

								 _glBindBuffer(34962,($90|0));

								 $91 = HEAP32[(32656)>>2]|0;

								 _glBufferData(34962,16384,($91|0),35048);

								 $92 = HEAP32[(31460)>>2]|0;

								 _glEnableVertexAttribArray(($92|0));

								 $93 = HEAP32[(31460)>>2]|0;

								 _glVertexAttribPointer(($93|0),4,5121,1,0,(0|0));

								 _glGenBuffers(1,((32680)|0));

								 $94 = HEAP32[(32680)>>2]|0;

								 _glBindBuffer(34963,($94|0));

								 $95 = HEAP32[(32660)>>2]|0;

								 _glBufferData(34963,12288,($95|0),35044);

								 $96 = HEAP32[7837]|0;

								 $97 = ($96|0)==(0);

								 if ($97) {

								  $99 = HEAP32[(32668)>>2]|0;

								  $100 = HEAP32[(32672)>>2]|0;

								  $101 = HEAP32[(32676)>>2]|0;

								  $102 = HEAP32[(32680)>>2]|0;

								  HEAP32[$vararg_buffer17>>2] = $99;

								  $vararg_ptr20 = ((($vararg_buffer17)) + 4|0);

								  HEAP32[$vararg_ptr20>>2] = $100;

								  $vararg_ptr21 = ((($vararg_buffer17)) + 8|0);

								  HEAP32[$vararg_ptr21>>2] = $101;

								  $vararg_ptr22 = ((($vararg_buffer17)) + 12|0);

								  HEAP32[$vararg_ptr22>>2] = $102;

								  _TraceLog(0,6131,$vararg_buffer17);

								 } else {

								  $98 = HEAP32[(32664)>>2]|0;

								  HEAP32[$vararg_buffer14>>2] = $98;

								  _TraceLog(0,6066,$vararg_buffer14);

								 }

								 $103 = HEAP32[7837]|0;

								 $104 = ($103|0)==(0);

								 if ($104) {

								  STACKTOP = sp;return;

								 }

								 $105 = HEAP32[7839]|0;

								 FUNCTION_TABLE_vi[$105 & 31](0);

								 STACKTOP = sp;return;

								}

								function _LoadShaderProgram($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $$alloca_mul = 0, $$alloca_mul34 = 0, $$alloca_mul36 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0;

								 var $25 = 0, $26 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $vararg_buffer = 0, $vararg_buffer1 = 0, $vararg_buffer10 = 0, $vararg_buffer13 = 0, $vararg_buffer16 = 0, $vararg_buffer19 = 0, $vararg_buffer22 = 0, $vararg_buffer4 = 0, $vararg_buffer7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $vararg_buffer22 = sp + 64|0;

								 $vararg_buffer19 = sp + 56|0;

								 $vararg_buffer16 = sp + 48|0;

								 $vararg_buffer13 = sp + 40|0;

								 $vararg_buffer10 = sp + 32|0;

								 $vararg_buffer7 = sp + 24|0;

								 $vararg_buffer4 = sp + 16|0;

								 $vararg_buffer1 = sp + 8|0;

								 $vararg_buffer = sp;

								 $2 = sp + 80|0;

								 $3 = sp + 76|0;

								 $4 = sp + 72|0;

								 $5 = sp + 68|0;

								 $6 = (_glCreateShader(35633)|0);

								 $7 = (_glCreateShader(35632)|0);

								 HEAP32[$2>>2] = $0;

								 HEAP32[$3>>2] = $1;

								 _glShaderSource(($6|0),1,($2|0),(0|0));

								 _glShaderSource(($7|0),1,($3|0),(0|0));

								 HEAP32[$4>>2] = 0;

								 _glCompileShader(($6|0));

								 _glGetShaderiv(($6|0),35713,($4|0));

								 $8 = HEAP32[$4>>2]|0;

								 $9 = ($8|0)==(1);

								 if ($9) {

								  HEAP32[$vararg_buffer4>>2] = $6;

								  _TraceLog(0,7464,$vararg_buffer4);

								 } else {

								  HEAP32[$vararg_buffer>>2] = $6;

								  _TraceLog(2,7412,$vararg_buffer);

								  HEAP32[$vararg_buffer>>2] = 0;

								  _glGetShaderiv(($6|0),35716,($vararg_buffer|0));

								  $10 = HEAP32[$vararg_buffer>>2]|0;

								  $11 = (_llvm_stacksave()|0);

								  $$alloca_mul = $10;

								  $12 = STACKTOP; STACKTOP = STACKTOP + ((((1*$$alloca_mul)|0)+15)&-16)|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(((((1*$$alloca_mul)|0)+15)&-16)|0);;

								  $13 = HEAP32[$vararg_buffer>>2]|0;

								  _glGetShaderInfoLog(($6|0),($13|0),($5|0),($12|0));

								  HEAP32[$vararg_buffer1>>2] = $12;

								  _TraceLog(0,7461,$vararg_buffer1);

								  _llvm_stackrestore(($11|0));

								 }

								 _glCompileShader(($7|0));

								 _glGetShaderiv(($7|0),35713,($4|0));

								 $14 = HEAP32[$4>>2]|0;

								 $15 = ($14|0)==(1);

								 if ($15) {

								  HEAP32[$vararg_buffer13>>2] = $7;

								  _TraceLog(0,7565,$vararg_buffer13);

								 } else {

								  HEAP32[$vararg_buffer7>>2] = $7;

								  _TraceLog(2,7514,$vararg_buffer7);

								  HEAP32[$vararg_buffer7>>2] = 0;

								  _glGetShaderiv(($7|0),35716,($vararg_buffer7|0));

								  $16 = HEAP32[$vararg_buffer7>>2]|0;

								  $17 = (_llvm_stacksave()|0);

								  $$alloca_mul34 = $16;

								  $18 = STACKTOP; STACKTOP = STACKTOP + ((((1*$$alloca_mul34)|0)+15)&-16)|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(((((1*$$alloca_mul34)|0)+15)&-16)|0);;

								  $19 = HEAP32[$vararg_buffer7>>2]|0;

								  _glGetShaderInfoLog(($7|0),($19|0),($5|0),($18|0));

								  HEAP32[$vararg_buffer10>>2] = $18;

								  _TraceLog(0,7461,$vararg_buffer10);

								  _llvm_stackrestore(($17|0));

								 }

								 $20 = (_glCreateProgram()|0);

								 _glAttachShader(($20|0),($6|0));

								 _glAttachShader(($20|0),($7|0));

								 _glBindAttribLocation(($20|0),0,(7256|0));

								 _glBindAttribLocation(($20|0),1,(7271|0));

								 _glBindAttribLocation(($20|0),2,(7302|0));

								 _glBindAttribLocation(($20|0),3,(7329|0));

								 _glBindAttribLocation(($20|0),4,(7315|0));

								 _glBindAttribLocation(($20|0),5,(7286|0));

								 _glLinkProgram(($20|0));

								 _glGetProgramiv(($20|0),35714,($4|0));

								 $21 = HEAP32[$4>>2]|0;

								 $22 = ($21|0)==(0);

								 if ($22) {

								  HEAP32[$vararg_buffer16>>2] = $20;

								  _TraceLog(2,7617,$vararg_buffer16);

								  HEAP32[$vararg_buffer16>>2] = 0;

								  _glGetProgramiv(($20|0),35716,($vararg_buffer16|0));

								  $23 = HEAP32[$vararg_buffer16>>2]|0;

								  $24 = (_llvm_stacksave()|0);

								  $$alloca_mul36 = $23;

								  $25 = STACKTOP; STACKTOP = STACKTOP + ((((1*$$alloca_mul36)|0)+15)&-16)|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(((((1*$$alloca_mul36)|0)+15)&-16)|0);;

								  $26 = HEAP32[$vararg_buffer16>>2]|0;

								  _glGetProgramInfoLog(($20|0),($26|0),($5|0),($25|0));

								  HEAP32[$vararg_buffer19>>2] = $25;

								  _TraceLog(0,7461,$vararg_buffer19);

								  _glDeleteProgram(($20|0));

								  _llvm_stackrestore(($24|0));

								  $$0 = 0;

								  _glDeleteShader(($6|0));

								  _glDeleteShader(($7|0));

								  STACKTOP = sp;return ($$0|0);

								 } else {

								  HEAP32[$vararg_buffer22>>2] = $20;

								  _TraceLog(0,7663,$vararg_buffer22);

								  $$0 = $20;

								  _glDeleteShader(($6|0));

								  _glDeleteShader(($7|0));

								  STACKTOP = sp;return ($$0|0);

								 }

								 return (0)|0;

								}

								function _LoadDefaultShaderLocations($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0;

								 var $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0;

								 var sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 $2 = (_glGetAttribLocation(($1|0),(7256|0))|0);

								 $3 = ((($0)) + 4|0);

								 HEAP32[$3>>2] = $2;

								 $4 = HEAP32[$0>>2]|0;

								 $5 = (_glGetAttribLocation(($4|0),(7271|0))|0);

								 $6 = ((($0)) + 8|0);

								 HEAP32[$6>>2] = $5;

								 $7 = HEAP32[$0>>2]|0;

								 $8 = (_glGetAttribLocation(($7|0),(7286|0))|0);

								 $9 = ((($0)) + 12|0);

								 HEAP32[$9>>2] = $8;

								 $10 = HEAP32[$0>>2]|0;

								 $11 = (_glGetAttribLocation(($10|0),(7302|0))|0);

								 $12 = ((($0)) + 16|0);

								 HEAP32[$12>>2] = $11;

								 $13 = HEAP32[$0>>2]|0;

								 $14 = (_glGetAttribLocation(($13|0),(7315|0))|0);

								 $15 = ((($0)) + 20|0);

								 HEAP32[$15>>2] = $14;

								 $16 = HEAP32[$0>>2]|0;

								 $17 = (_glGetAttribLocation(($16|0),(7329|0))|0);

								 $18 = ((($0)) + 24|0);

								 HEAP32[$18>>2] = $17;

								 $19 = HEAP32[$0>>2]|0;

								 $20 = (_glGetUniformLocation(($19|0),(7341|0))|0);

								 $21 = ((($0)) + 28|0);

								 HEAP32[$21>>2] = $20;

								 $22 = HEAP32[$0>>2]|0;

								 $23 = (_glGetUniformLocation(($22|0),(7351|0))|0);

								 $24 = ((($0)) + 32|0);

								 HEAP32[$24>>2] = $23;

								 $25 = HEAP32[$0>>2]|0;

								 $26 = (_glGetUniformLocation(($25|0),(7362|0))|0);

								 $27 = ((($0)) + 36|0);

								 HEAP32[$27>>2] = $26;

								 $28 = HEAP32[$0>>2]|0;

								 $29 = (_glGetUniformLocation(($28|0),(7373|0))|0);

								 $30 = ((($0)) + 40|0);

								 HEAP32[$30>>2] = $29;

								 $31 = HEAP32[$0>>2]|0;

								 $32 = (_glGetUniformLocation(($31|0),(7385|0))|0);

								 $33 = ((($0)) + 44|0);

								 HEAP32[$33>>2] = $32;

								 $34 = HEAP32[$0>>2]|0;

								 $35 = (_glGetUniformLocation(($34|0),(7394|0))|0);

								 $36 = ((($0)) + 48|0);

								 HEAP32[$36>>2] = $35;

								 $37 = HEAP32[$0>>2]|0;

								 $38 = (_glGetUniformLocation(($37|0),(7403|0))|0);

								 $39 = ((($0)) + 52|0);

								 HEAP32[$39>>2] = $38;

								 return;

								}

								function _IsMouseButtonPressed($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = (35997 + ($0)|0);

								 $2 = HEAP8[$1>>0]|0;

								 $3 = (36000 + ($0)|0);

								 $4 = HEAP8[$3>>0]|0;

								 $5 = ($2<<24>>24)!=($4<<24>>24);

								 $6 = ($2<<24>>24)==(1);

								 $or$cond = $6 & $5;

								 $$0 = $or$cond&1;

								 return ($$0|0);

								}

								function _IsMouseButtonReleased($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = (35997 + ($0)|0);

								 $2 = HEAP8[$1>>0]|0;

								 $3 = (36000 + ($0)|0);

								 $4 = HEAP8[$3>>0]|0;

								 $5 = ($2<<24>>24)!=($4<<24>>24);

								 $6 = ($2<<24>>24)==(0);

								 $or$cond = $6 & $5;

								 $$0 = $or$cond&1;

								 return ($$0|0);

								}

								function _rlClearScreenBuffers() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 _glClear(16640);

								 return;

								}

								function _CloseWindow() {

								 var $0 = 0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 _UnloadDefaultFont();

								 _rlglClose();

								 $0 = HEAP32[7756]|0;

								 _glfwDestroyWindow(($0|0));

								 _glfwTerminate();

								 _TraceLog(0,7975,$vararg_buffer);

								 STACKTOP = sp;return;

								}

								function _UnloadDefaultFont() {

								 var $$byval_copy = 0, $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $$byval_copy = sp;

								 ;HEAP32[$$byval_copy>>2]=HEAP32[31064>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[31064+4>>2]|0;HEAP32[$$byval_copy+8>>2]=HEAP32[31064+8>>2]|0;HEAP32[$$byval_copy+12>>2]=HEAP32[31064+12>>2]|0;HEAP32[$$byval_copy+16>>2]=HEAP32[31064+16>>2]|0;

								 _UnloadTexture($$byval_copy);

								 $0 = HEAP32[(31092)>>2]|0;

								 _free($0);

								 STACKTOP = sp;return;

								}

								function _rlglClose() {

								 var $0 = 0, $1 = 0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 _UnloadDefaultShader();

								 _UnloadDefaultBuffers();

								 _glDeleteTextures(1,(31376|0));

								 $0 = HEAP32[7844]|0;

								 HEAP32[$vararg_buffer>>2] = $0;

								 _TraceLog(0,8002,$vararg_buffer);

								 $1 = HEAP32[7874]|0;

								 _free($1);

								 STACKTOP = sp;return;

								}

								function _UnloadDefaultShader() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 _glUseProgram(0);

								 $0 = HEAP32[7845]|0;

								 _glDeleteProgram(($0|0));

								 return;

								}

								function _UnloadDefaultBuffers() {

								 var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[7837]|0;

								 $1 = ($0|0)==(0);

								 if (!($1)) {

								  $2 = HEAP32[7839]|0;

								  FUNCTION_TABLE_vi[$2 & 31](0);

								 }

								 _glDisableVertexAttribArray(0);

								 _glDisableVertexAttribArray(1);

								 _glDisableVertexAttribArray(2);

								 _glDisableVertexAttribArray(3);

								 _glBindBuffer(34962,0);

								 _glBindBuffer(34963,0);

								 _glDeleteBuffers(1,((32572)|0));

								 _glDeleteBuffers(1,((32576)|0));

								 _glDeleteBuffers(1,((32620)|0));

								 _glDeleteBuffers(1,((32624)|0));

								 _glDeleteBuffers(1,((32668)|0));

								 _glDeleteBuffers(1,((32672)|0));

								 _glDeleteBuffers(1,((32676)|0));

								 _glDeleteBuffers(1,((32680)|0));

								 $3 = HEAP32[7837]|0;

								 $4 = ($3|0)==(0);

								 if (!($4)) {

								  $5 = HEAP32[7840]|0;

								  FUNCTION_TABLE_vii[$5 & 63](1,(32568));

								  $6 = HEAP32[7840]|0;

								  FUNCTION_TABLE_vii[$6 & 63](1,(32616));

								  $7 = HEAP32[7840]|0;

								  FUNCTION_TABLE_vii[$7 & 63](1,(32664));

								 }

								 $8 = HEAP32[(32552)>>2]|0;

								 _free($8);

								 $9 = HEAP32[(32560)>>2]|0;

								 _free($9);

								 $10 = HEAP32[(32600)>>2]|0;

								 _free($10);

								 $11 = HEAP32[(32608)>>2]|0;

								 _free($11);

								 $12 = HEAP32[(32648)>>2]|0;

								 _free($12);

								 $13 = HEAP32[(32652)>>2]|0;

								 _free($13);

								 $14 = HEAP32[(32656)>>2]|0;

								 _free($14);

								 $15 = HEAP32[(32660)>>2]|0;

								 _free($15);

								 return;

								}

								function _UnloadTexture($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 $1 = HEAP32[$0>>2]|0;

								 $2 = ($1|0)==(0);

								 if ($2) {

								  STACKTOP = sp;return;

								 }

								 _rlDeleteTextures($1);

								 $3 = HEAP32[$0>>2]|0;

								 HEAP32[$vararg_buffer>>2] = $3;

								 _TraceLog(0,8067,$vararg_buffer);

								 STACKTOP = sp;return;

								}

								function _rlDeleteTextures($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $1 = sp;

								 HEAP32[$1>>2] = $0;

								 $2 = ($0|0)==(0);

								 if (!($2)) {

								  _glDeleteTextures(1,($1|0));

								 }

								 STACKTOP = sp;return;

								}

								function _BeginDrawing() {

								 var $0 = 0.0, $1 = 0.0, $2 = 0.0, $downscaleView$byval_copy = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $downscaleView$byval_copy = sp;

								 $0 = (+_GetTime());

								 HEAPF64[1784] = $0;

								 $1 = +HEAPF64[1767];

								 $2 = $0 - $1;

								 HEAPF64[1785] = $2;

								 HEAPF64[1767] = $0;

								 _rlClearScreenBuffers();

								 _rlLoadIdentity();

								 dest=$downscaleView$byval_copy; src=31120; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 (_MatrixToFloat($downscaleView$byval_copy)|0);

								 _rlMultMatrixf(32692);

								 STACKTOP = sp;return;

								}

								function _MatrixToFloat($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0;

								 var $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 HEAP32[8173] = $1;

								 $2 = ((($0)) + 4|0);

								 $3 = HEAP32[$2>>2]|0;

								 HEAP32[(32696)>>2] = $3;

								 $4 = ((($0)) + 8|0);

								 $5 = HEAP32[$4>>2]|0;

								 HEAP32[(32700)>>2] = $5;

								 $6 = ((($0)) + 12|0);

								 $7 = HEAP32[$6>>2]|0;

								 HEAP32[(32704)>>2] = $7;

								 $8 = ((($0)) + 16|0);

								 $9 = HEAP32[$8>>2]|0;

								 HEAP32[(32708)>>2] = $9;

								 $10 = ((($0)) + 20|0);

								 $11 = HEAP32[$10>>2]|0;

								 HEAP32[(32712)>>2] = $11;

								 $12 = ((($0)) + 24|0);

								 $13 = HEAP32[$12>>2]|0;

								 HEAP32[(32716)>>2] = $13;

								 $14 = ((($0)) + 28|0);

								 $15 = HEAP32[$14>>2]|0;

								 HEAP32[(32720)>>2] = $15;

								 $16 = ((($0)) + 32|0);

								 $17 = HEAP32[$16>>2]|0;

								 HEAP32[(32724)>>2] = $17;

								 $18 = ((($0)) + 36|0);

								 $19 = HEAP32[$18>>2]|0;

								 HEAP32[(32728)>>2] = $19;

								 $20 = ((($0)) + 40|0);

								 $21 = HEAP32[$20>>2]|0;

								 HEAP32[(32732)>>2] = $21;

								 $22 = ((($0)) + 44|0);

								 $23 = HEAP32[$22>>2]|0;

								 HEAP32[(32736)>>2] = $23;

								 $24 = ((($0)) + 48|0);

								 $25 = HEAP32[$24>>2]|0;

								 HEAP32[(32740)>>2] = $25;

								 $26 = ((($0)) + 52|0);

								 $27 = HEAP32[$26>>2]|0;

								 HEAP32[(32744)>>2] = $27;

								 $28 = ((($0)) + 56|0);

								 $29 = HEAP32[$28>>2]|0;

								 HEAP32[(32748)>>2] = $29;

								 $30 = ((($0)) + 60|0);

								 $31 = HEAP32[$30>>2]|0;

								 HEAP32[(32752)>>2] = $31;

								 return (32692|0);

								}

								function _rlMultMatrixf($0) {

								 $0 = $0|0;

								 var $$byval_copy = 0, $$byval_copy1 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0;

								 var $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 256|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(256|0);

								 $$byval_copy1 = sp + 192|0;

								 $$byval_copy = sp + 128|0;

								 $1 = sp + 64|0;

								 $2 = sp;

								 $3 = HEAP32[$0>>2]|0;

								 HEAP32[$1>>2] = $3;

								 $4 = ((($1)) + 4|0);

								 $5 = ((($0)) + 4|0);

								 $6 = HEAP32[$5>>2]|0;

								 HEAP32[$4>>2] = $6;

								 $7 = ((($1)) + 8|0);

								 $8 = ((($0)) + 8|0);

								 $9 = HEAP32[$8>>2]|0;

								 HEAP32[$7>>2] = $9;

								 $10 = ((($1)) + 12|0);

								 $11 = ((($0)) + 12|0);

								 $12 = HEAP32[$11>>2]|0;

								 HEAP32[$10>>2] = $12;

								 $13 = ((($1)) + 16|0);

								 $14 = ((($0)) + 16|0);

								 $15 = HEAP32[$14>>2]|0;

								 HEAP32[$13>>2] = $15;

								 $16 = ((($1)) + 20|0);

								 $17 = ((($0)) + 20|0);

								 $18 = HEAP32[$17>>2]|0;

								 HEAP32[$16>>2] = $18;

								 $19 = ((($1)) + 24|0);

								 $20 = ((($0)) + 24|0);

								 $21 = HEAP32[$20>>2]|0;

								 HEAP32[$19>>2] = $21;

								 $22 = ((($1)) + 28|0);

								 $23 = ((($0)) + 28|0);

								 $24 = HEAP32[$23>>2]|0;

								 HEAP32[$22>>2] = $24;

								 $25 = ((($1)) + 32|0);

								 $26 = ((($0)) + 32|0);

								 $27 = HEAP32[$26>>2]|0;

								 HEAP32[$25>>2] = $27;

								 $28 = ((($1)) + 36|0);

								 $29 = ((($0)) + 36|0);

								 $30 = HEAP32[$29>>2]|0;

								 HEAP32[$28>>2] = $30;

								 $31 = ((($1)) + 40|0);

								 $32 = ((($0)) + 40|0);

								 $33 = HEAP32[$32>>2]|0;

								 HEAP32[$31>>2] = $33;

								 $34 = ((($1)) + 44|0);

								 $35 = ((($0)) + 44|0);

								 $36 = HEAP32[$35>>2]|0;

								 HEAP32[$34>>2] = $36;

								 $37 = ((($1)) + 48|0);

								 $38 = ((($0)) + 48|0);

								 $39 = HEAP32[$38>>2]|0;

								 HEAP32[$37>>2] = $39;

								 $40 = ((($1)) + 52|0);

								 $41 = ((($0)) + 52|0);

								 $42 = HEAP32[$41>>2]|0;

								 HEAP32[$40>>2] = $42;

								 $43 = ((($1)) + 56|0);

								 $44 = ((($0)) + 56|0);

								 $45 = HEAP32[$44>>2]|0;

								 HEAP32[$43>>2] = $45;

								 $46 = ((($1)) + 60|0);

								 $47 = ((($0)) + 60|0);

								 $48 = HEAP32[$47>>2]|0;

								 HEAP32[$46>>2] = $48;

								 $49 = HEAP32[7803]|0;

								 dest=$$byval_copy; src=$49; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=$$byval_copy1; src=$1; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixMultiply($2,$$byval_copy,$$byval_copy1);

								 dest=$49; src=$2; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 STACKTOP = sp;return;

								}

								function _EndDrawing() {

								 var $0 = 0.0, $1 = 0.0, $10 = 0.0, $11 = 0.0, $12 = 0.0, $13 = 0.0, $14 = 0.0, $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0.0, $6 = 0, $7 = 0.0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 _rlglDraw();

								 _SwapBuffers();

								 _PollInputEvents();

								 $0 = (+_GetTime());

								 HEAPF64[1784] = $0;

								 $1 = +HEAPF64[1767];

								 $2 = $0 - $1;

								 HEAPF64[1786] = $2;

								 HEAPF64[1767] = $0;

								 $3 = +HEAPF64[1785];

								 $4 = $2 + $3;

								 HEAPF64[1787] = $4;

								 $5 = +HEAPF64[1764];

								 $6 = $4 < $5;

								 if (!($6)) {

								  return;

								 }

								 $7 = $5 - $4;

								 $8 = $7 * 1000.0;

								 $9 = $8;

								 _Wait($9);

								 $10 = (+_GetTime());

								 HEAPF64[1784] = $10;

								 $11 = +HEAPF64[1767];

								 $12 = $10 - $11;

								 HEAPF64[1767] = $10;

								 $13 = +HEAPF64[1787];

								 $14 = $12 + $13;

								 HEAPF64[1787] = $14;

								 return;

								}

								function _rlglDraw() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 _UpdateDefaultBuffers();

								 _DrawDefaultBuffers();

								 return;

								}

								function _SwapBuffers() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[7756]|0;

								 _glfwSwapBuffers(($0|0));

								 return;

								}

								function _PollInputEvents() {

								 var $$04857 = 0, $$05160 = 0, $$058 = 0, $$lcssa = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0;

								 var $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0.0, $31 = 0.0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0.0, $40 = 0;

								 var $5 = 0.0, $6 = 0.0, $7 = 0.0, $8 = 0, $9 = 0, $scevgep = 0, $scevgep67 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 1456|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(1456|0);

								 $0 = sp + 1440|0;

								 $1 = sp + 1432|0;

								 $2 = sp;

								 _UpdateGestures();

								 HEAP32[743] = -1;

								 HEAP32[745] = -1;

								 HEAP32[8189] = 0;

								 $3 = HEAP32[7756]|0;

								 _glfwGetCursorPos(($3|0),($0|0),($1|0));

								 $4 = +HEAPF64[$0>>3];

								 $5 = $4;

								 HEAPF32[3526] = $5;

								 $6 = +HEAPF64[$1>>3];

								 $7 = $6;

								 HEAPF32[(14108)>>2] = $7;

								 _memcpy((36515|0),(36003|0),512)|0;

								 ;HEAP8[36000>>0]=HEAP8[35997>>0]|0;HEAP8[36000+1>>0]=HEAP8[35997+1>>0]|0;HEAP8[36000+2>>0]=HEAP8[35997+2>>0]|0;

								 $8 = HEAP32[8172]|0;

								 HEAP32[7759] = $8;

								 HEAP32[8172] = 0;

								 $9 = (_emscripten_get_num_gamepads()|0);

								 $10 = ($9|0)>(0);

								 if (!($10)) {

								  STACKTOP = sp;return;

								 }

								 $11 = ((($2)) + 12|0);

								 $12 = ((($2)) + 8|0);

								 $$05160 = 0;

								 while(1) {

								  $scevgep = (37027 + ($$05160<<5)|0);

								  $scevgep67 = (37155 + ($$05160<<5)|0);

								  dest=$scevgep; src=$scevgep67; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0));

								  $13 = (_emscripten_get_gamepad_status(($$05160|0),($2|0))|0);

								  $14 = ($13|0)==(0);

								  if ($14) {

								   $15 = HEAP32[$11>>2]|0;

								   $16 = ($15|0)>(0);

								   if ($16) {

								    $17 = HEAP32[$11>>2]|0;

								    $$04857 = 0;

								    while(1) {

								     $21 = (((($2)) + 1040|0) + ($$04857<<2)|0);

								     $22 = HEAP32[$21>>2]|0;

								     $23 = ($22|0)==(1);

								     $24 = ((37155 + ($$05160<<5)|0) + ($$04857)|0);

								     if ($23) {

								      HEAP8[$24>>0] = 1;

								      HEAP32[745] = $$04857;

								     } else {

								      HEAP8[$24>>0] = 0;

								     }

								     $25 = (($$04857) + 1)|0;

								     $26 = ($25|0)<($17|0);

								     $27 = ($25|0)<(32);

								     $28 = $27 & $26;

								     if ($28) {

								      $$04857 = $25;

								     } else {

								      break;

								     }

								    }

								   }

								   $18 = HEAP32[$12>>2]|0;

								   $19 = ($18|0)>(0);

								   if ($19) {

								    $20 = HEAP32[$12>>2]|0;

								    $$058 = 0;

								    while(1) {

								     $29 = (((($2)) + 16|0) + ($$058<<3)|0);

								     $30 = +HEAPF64[$29>>3];

								     $31 = $30;

								     $32 = ((32760 + ($$05160<<5)|0) + ($$058<<2)|0);

								     HEAPF32[$32>>2] = $31;

								     $33 = (($$058) + 1)|0;

								     $34 = ($33|0)<($20|0);

								     $35 = ($33|0)<(8);

								     $36 = $35 & $34;

								     if ($36) {

								      $$058 = $33;

								     } else {

								      $$lcssa = $20;

								      break;

								     }

								    }

								   } else {

								    $$lcssa = $18;

								   }

								   HEAP32[8189] = $$lcssa;

								  }

								  $37 = (($$05160) + 1)|0;

								  $38 = ($37|0)<($9|0);

								  $39 = ($37|0)<(4);

								  $40 = $38 & $39;

								  if ($40) {

								   $$05160 = $37;

								  } else {

								   break;

								  }

								 }

								 STACKTOP = sp;return;

								}

								function _Wait($0) {

								 $0 = +$0;

								 var $1 = 0.0, $2 = 0.0, $3 = 0.0, $4 = 0.0, $5 = 0, $6 = 0.0, $7 = 0.0, $8 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = (+_GetTime());

								 $2 = 0.0 - $1;

								 $3 = $0 / 1000.0;

								 $4 = $3;

								 $5 = $2 < $4;

								 if (!($5)) {

								  return;

								 }

								 while(1) {

								  $6 = (+_GetTime());

								  $7 = $6 - $1;

								  $8 = $7 < $4;

								  if (!($8)) {

								   break;

								  }

								 }

								 return;

								}

								function _UpdateDefaultBuffers() {

								 var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0;

								 var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0;

								 var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[8135]|0;

								 $1 = ($0|0)>(0);

								 if ($1) {

								  $2 = HEAP32[7837]|0;

								  $3 = ($2|0)==(0);

								  if (!($3)) {

								   $4 = HEAP32[7839]|0;

								   $5 = HEAP32[(32568)>>2]|0;

								   FUNCTION_TABLE_vi[$4 & 31]($5);

								  }

								  $6 = HEAP32[(32572)>>2]|0;

								  _glBindBuffer(34962,($6|0));

								  $7 = HEAP32[8135]|0;

								  $8 = ($7*12)|0;

								  $9 = HEAP32[(32552)>>2]|0;

								  _glBufferSubData(34962,0,($8|0),($9|0));

								  $10 = HEAP32[(32576)>>2]|0;

								  _glBindBuffer(34962,($10|0));

								  $11 = HEAP32[(32548)>>2]|0;

								  $12 = $11 << 2;

								  $13 = HEAP32[(32560)>>2]|0;

								  _glBufferSubData(34962,0,($12|0),($13|0));

								 }

								 $14 = HEAP32[8147]|0;

								 $15 = ($14|0)>(0);

								 if ($15) {

								  $16 = HEAP32[7837]|0;

								  $17 = ($16|0)==(0);

								  if (!($17)) {

								   $18 = HEAP32[7839]|0;

								   $19 = HEAP32[(32616)>>2]|0;

								   FUNCTION_TABLE_vi[$18 & 31]($19);

								  }

								  $20 = HEAP32[(32620)>>2]|0;

								  _glBindBuffer(34962,($20|0));

								  $21 = HEAP32[8147]|0;

								  $22 = ($21*12)|0;

								  $23 = HEAP32[(32600)>>2]|0;

								  _glBufferSubData(34962,0,($22|0),($23|0));

								  $24 = HEAP32[(32624)>>2]|0;

								  _glBindBuffer(34962,($24|0));

								  $25 = HEAP32[(32596)>>2]|0;

								  $26 = $25 << 2;

								  $27 = HEAP32[(32608)>>2]|0;

								  _glBufferSubData(34962,0,($26|0),($27|0));

								 }

								 $28 = HEAP32[8159]|0;

								 $29 = ($28|0)>(0);

								 if ($29) {

								  $30 = HEAP32[7837]|0;

								  $31 = ($30|0)==(0);

								  if (!($31)) {

								   $32 = HEAP32[7839]|0;

								   $33 = HEAP32[(32664)>>2]|0;

								   FUNCTION_TABLE_vi[$32 & 31]($33);

								  }

								  $34 = HEAP32[(32668)>>2]|0;

								  _glBindBuffer(34962,($34|0));

								  $35 = HEAP32[8159]|0;

								  $36 = ($35*12)|0;

								  $37 = HEAP32[(32648)>>2]|0;

								  _glBufferSubData(34962,0,($36|0),($37|0));

								  $38 = HEAP32[(32672)>>2]|0;

								  _glBindBuffer(34962,($38|0));

								  $39 = HEAP32[8159]|0;

								  $40 = $39 << 3;

								  $41 = HEAP32[(32652)>>2]|0;

								  _glBufferSubData(34962,0,($40|0),($41|0));

								  $42 = HEAP32[(32676)>>2]|0;

								  _glBindBuffer(34962,($42|0));

								  $43 = HEAP32[8159]|0;

								  $44 = $43 << 2;

								  $45 = HEAP32[(32656)>>2]|0;

								  _glBufferSubData(34962,0,($44|0),($45|0));

								 }

								 $46 = HEAP32[7837]|0;

								 $47 = ($46|0)==(0);

								 if ($47) {

								  return;

								 }

								 $48 = HEAP32[7839]|0;

								 FUNCTION_TABLE_vi[$48 & 31](0);

								 return;

								}

								function _DrawDefaultBuffers() {

								 var $$ = 0, $$02830 = 0, $$02932 = 0, $$031 = 0, $$byval_copy2 = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0;

								 var $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0;

								 var $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0;

								 var $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0;

								 var $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $modelview$byval_copy = 0;

								 var $or$cond = 0, $or$cond3 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 320|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(320|0);

								 $$byval_copy2 = sp + 256|0;

								 $modelview$byval_copy = sp + 192|0;

								 $0 = sp + 128|0;

								 $1 = sp + 64|0;

								 $2 = sp;

								 dest=$0; src=31216; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=$1; src=31280; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 $3 = HEAP32[8222]|0;

								 $4 = ($3|0)!=(0);

								 $$ = $4 ? 2 : 1;

								 $$02932 = 0;

								 while(1) {

								  if ($4) {

								   dest=$modelview$byval_copy; src=$0; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								   dest=$$byval_copy2; src=$1; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								   _SetStereoView($$02932,$modelview$byval_copy,$$byval_copy2);

								  }

								  $8 = HEAP32[8135]|0;

								  $9 = ($8|0)>(0);

								  $10 = HEAP32[8147]|0;

								  $11 = ($10|0)>(0);

								  $or$cond = $9 | $11;

								  $12 = HEAP32[8159]|0;

								  $13 = ($12|0)>(0);

								  $or$cond3 = $or$cond | $13;

								  if ($or$cond3) {

								   $14 = HEAP32[7859]|0;

								   _glUseProgram(($14|0));

								   dest=$modelview$byval_copy; src=31280; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								   dest=$$byval_copy2; src=31216; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								   _MatrixMultiply($2,$modelview$byval_copy,$$byval_copy2);

								   $15 = HEAP32[(31464)>>2]|0;

								   dest=$$byval_copy2; src=$2; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								   $16 = (_MatrixToFloat($$byval_copy2)|0);

								   _glUniformMatrix4fv(($15|0),1,0,($16|0));

								   $17 = HEAP32[(31468)>>2]|0;

								   _glUniform4f(($17|0),1.0,1.0,1.0,1.0);

								   $18 = HEAP32[(31480)>>2]|0;

								   _glUniform1i(($18|0),0);

								  }

								  $19 = HEAP32[8135]|0;

								  $20 = ($19|0)>(0);

								  if ($20) {

								   $21 = HEAP32[7844]|0;

								   _glBindTexture(3553,($21|0));

								   $22 = HEAP32[7837]|0;

								   $23 = ($22|0)==(0);

								   if ($23) {

								    $26 = HEAP32[(32572)>>2]|0;

								    _glBindBuffer(34962,($26|0));

								    $27 = HEAP32[(31440)>>2]|0;

								    _glVertexAttribPointer(($27|0),3,5126,0,0,(0|0));

								    $28 = HEAP32[(31440)>>2]|0;

								    _glEnableVertexAttribArray(($28|0));

								    $29 = HEAP32[(32576)>>2]|0;

								    _glBindBuffer(34962,($29|0));

								    $30 = HEAP32[(31460)>>2]|0;

								    _glVertexAttribPointer(($30|0),4,5121,1,0,(0|0));

								    $31 = HEAP32[(31460)>>2]|0;

								    _glEnableVertexAttribArray(($31|0));

								   } else {

								    $24 = HEAP32[7839]|0;

								    $25 = HEAP32[(32568)>>2]|0;

								    FUNCTION_TABLE_vi[$24 & 31]($25);

								   }

								   $32 = HEAP32[8135]|0;

								   _glDrawArrays(1,0,($32|0));

								   $33 = HEAP32[7837]|0;

								   $34 = ($33|0)==(0);

								   if ($34) {

								    _glBindBuffer(34962,0);

								   }

								   _glBindTexture(3553,0);

								  }

								  $35 = HEAP32[8147]|0;

								  $36 = ($35|0)>(0);

								  if ($36) {

								   $37 = HEAP32[7844]|0;

								   _glBindTexture(3553,($37|0));

								   $38 = HEAP32[7837]|0;

								   $39 = ($38|0)==(0);

								   if ($39) {

								    $42 = HEAP32[(32620)>>2]|0;

								    _glBindBuffer(34962,($42|0));

								    $43 = HEAP32[(31440)>>2]|0;

								    _glVertexAttribPointer(($43|0),3,5126,0,0,(0|0));

								    $44 = HEAP32[(31440)>>2]|0;

								    _glEnableVertexAttribArray(($44|0));

								    $45 = HEAP32[(32624)>>2]|0;

								    _glBindBuffer(34962,($45|0));

								    $46 = HEAP32[(31460)>>2]|0;

								    _glVertexAttribPointer(($46|0),4,5121,1,0,(0|0));

								    $47 = HEAP32[(31460)>>2]|0;

								    _glEnableVertexAttribArray(($47|0));

								   } else {

								    $40 = HEAP32[7839]|0;

								    $41 = HEAP32[(32616)>>2]|0;

								    FUNCTION_TABLE_vi[$40 & 31]($41);

								   }

								   $48 = HEAP32[8147]|0;

								   _glDrawArrays(4,0,($48|0));

								   $49 = HEAP32[7837]|0;

								   $50 = ($49|0)==(0);

								   if ($50) {

								    _glBindBuffer(34962,0);

								   }

								   _glBindTexture(3553,0);

								  }

								  $51 = HEAP32[8159]|0;

								  $52 = ($51|0)>(0);

								  if ($52) {

								   $53 = HEAP32[7837]|0;

								   $54 = ($53|0)==(0);

								   if ($54) {

								    $57 = HEAP32[(32668)>>2]|0;

								    _glBindBuffer(34962,($57|0));

								    $58 = HEAP32[(31440)>>2]|0;

								    _glVertexAttribPointer(($58|0),3,5126,0,0,(0|0));

								    $59 = HEAP32[(31440)>>2]|0;

								    _glEnableVertexAttribArray(($59|0));

								    $60 = HEAP32[(32672)>>2]|0;

								    _glBindBuffer(34962,($60|0));

								    $61 = HEAP32[(31444)>>2]|0;

								    _glVertexAttribPointer(($61|0),2,5126,0,0,(0|0));

								    $62 = HEAP32[(31444)>>2]|0;

								    _glEnableVertexAttribArray(($62|0));

								    $63 = HEAP32[(32676)>>2]|0;

								    _glBindBuffer(34962,($63|0));

								    $64 = HEAP32[(31460)>>2]|0;

								    _glVertexAttribPointer(($64|0),4,5121,1,0,(0|0));

								    $65 = HEAP32[(31460)>>2]|0;

								    _glEnableVertexAttribArray(($65|0));

								    $66 = HEAP32[(32680)>>2]|0;

								    _glBindBuffer(34963,($66|0));

								   } else {

								    $55 = HEAP32[7839]|0;

								    $56 = HEAP32[(32664)>>2]|0;

								    FUNCTION_TABLE_vi[$55 & 31]($56);

								   }

								   $67 = HEAP32[7875]|0;

								   $68 = ($67|0)>(0);

								   if ($68) {

								    $$02830 = 0;$$031 = 0;

								    while(1) {

								     $71 = HEAP32[7874]|0;

								     $72 = (($71) + (($$031*144)|0)|0);

								     $73 = HEAP32[$72>>2]|0;

								     $74 = (($73|0) / 4)&-1;

								     $75 = ($74*6)|0;

								     $76 = (((($71) + (($$031*144)|0)|0)) + 8|0);

								     $77 = HEAP32[$76>>2]|0;

								     _glBindTexture(3553,($77|0));

								     $78 = $$02830 << 1;

								     $79 = $78;

								     _glDrawElements(4,($75|0),5123,($79|0));

								     $80 = HEAP32[7874]|0;

								     $81 = (($80) + (($$031*144)|0)|0);

								     $82 = HEAP32[$81>>2]|0;

								     $83 = (($82|0) / 4)&-1;

								     $84 = ($83*6)|0;

								     $85 = (($84) + ($$02830))|0;

								     $86 = (($$031) + 1)|0;

								     $87 = HEAP32[7875]|0;

								     $88 = ($86|0)<($87|0);

								     if ($88) {

								      $$02830 = $85;$$031 = $86;

								     } else {

								      break;

								     }

								    }

								   }

								   $69 = HEAP32[7837]|0;

								   $70 = ($69|0)==(0);

								   if ($70) {

								    _glBindBuffer(34962,0);

								    _glBindBuffer(34963,0);

								   }

								   _glBindTexture(3553,0);

								  }

								  $89 = HEAP32[7837]|0;

								  $90 = ($89|0)==(0);

								  if (!($90)) {

								   $91 = HEAP32[7839]|0;

								   FUNCTION_TABLE_vi[$91 & 31](0);

								  }

								  _glUseProgram(0);

								  $92 = (($$02932) + 1)|0;

								  $93 = ($92|0)<($$|0);

								  if ($93) {

								   $$02932 = $92;

								  } else {

								   break;

								  }

								 }

								 HEAP32[7875] = 1;

								 $5 = HEAP32[7844]|0;

								 $6 = HEAP32[7874]|0;

								 $7 = ((($6)) + 8|0);

								 HEAP32[$7>>2] = $5;

								 HEAP32[$6>>2] = 0;

								 HEAP32[8135] = 0;

								 HEAP32[(32548)>>2] = 0;

								 HEAP32[8147] = 0;

								 HEAP32[(32596)>>2] = 0;

								 HEAP32[8159] = 0;

								 HEAP32[(32640)>>2] = 0;

								 HEAP32[(32644)>>2] = 0;

								 HEAPF32[746] = -1.0;

								 dest=31216; src=$0; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=31280; src=$1; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 STACKTOP = sp;return;

								}

								function _SetStereoView($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$byval_copy = 0, $$byval_copy3 = 0, $10 = 0, $11 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 256|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(256|0);

								 $$byval_copy3 = sp + 192|0;

								 $$byval_copy = sp + 64|0;

								 $3 = sp;

								 $4 = sp + 128|0;

								 dest=$3; src=$1; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 $5 = HEAP32[8133]|0;

								 $6 = Math_imul($5, $0)|0;

								 $7 = (($6|0) / 2)&-1;

								 $8 = (($5|0) / 2)&-1;

								 $9 = HEAP32[8134]|0;

								 _rlViewport($7,0,$8,$9);

								 $10 = (33120 + ($0<<6)|0);

								 dest=$$byval_copy; src=$2; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=$$byval_copy3; src=$10; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixMultiply($4,$$byval_copy,$$byval_copy3);

								 $11 = (32992 + ($0<<6)|0);

								 dest=$3; src=$11; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=$$byval_copy3; src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _SetMatrixModelview($$byval_copy3);

								 dest=$$byval_copy3; src=$3; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _SetMatrixProjection($$byval_copy3);

								 STACKTOP = sp;return;

								}

								function _SetMatrixModelview($0) {

								 $0 = $0|0;

								 var dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 dest=31280; src=$0; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 return;

								}

								function _SetMatrixProjection($0) {

								 $0 = $0|0;

								 var dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 dest=31216; src=$0; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 return;

								}

								function _rlPushMatrix() {

								 var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $vararg_buffer = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 $0 = HEAP32[8312]|0;

								 $1 = ($0|0)==(15);

								 if ($1) {

								  HEAP32[$vararg_buffer>>2] = 16;

								  _TraceLog(1,8117,$vararg_buffer);

								 }

								 $2 = HEAP32[8312]|0;

								 $3 = (31508 + ($2<<6)|0);

								 $4 = HEAP32[7803]|0;

								 dest=$3; src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _rlLoadIdentity();

								 $5 = HEAP32[8312]|0;

								 $6 = (($5) + 1)|0;

								 HEAP32[8312] = $6;

								 $7 = HEAP32[7836]|0;

								 $8 = ($7|0)==(5888);

								 if (!($8)) {

								  STACKTOP = sp;return;

								 }

								 HEAP32[8313] = 1;

								 STACKTOP = sp;return;

								}

								function _rlPopMatrix() {

								 var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[8312]|0;

								 $1 = ($0|0)>(0);

								 if (!($1)) {

								  return;

								 }

								 $2 = HEAP32[8312]|0;

								 $3 = (($2) + -1)|0;

								 $4 = (31508 + ($3<<6)|0);

								 $5 = HEAP32[7803]|0;

								 _memmove(($5|0),($4|0),64)|0;

								 $6 = (($2) + -1)|0;

								 HEAP32[8312] = $6;

								 return;

								}

								function _GetFPS() {

								 var $0 = 0.0, $1 = 0.0, $2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (+_GetFrameTime());

								 $1 = 1.0 / $0;

								 $2 = (~~(($1)));

								 return ($2|0);

								}

								function _GetFrameTime() {

								 var $0 = 0.0, $1 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = +HEAPF64[1787];

								 $1 = $0;

								 return (+$1);

								}

								function _GetRandomValue($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$ = 0, $$10 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $ispos = 0, $neg = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ($0|0)>($1|0);

								 $$ = $2 ? $0 : $1;

								 $$10 = $2 ? $1 : $0;

								 $3 = (_rand()|0);

								 $4 = (($$) - ($$10))|0;

								 $ispos = ($4|0)>(-1);

								 $neg = (0 - ($4))|0;

								 $5 = $ispos ? $4 : $neg;

								 $6 = (($5) + 1)|0;

								 $7 = (($3|0) % ($6|0))&-1;

								 $8 = (($7) + ($$10))|0;

								 return ($8|0);

								}

								function _SetConfigFlags($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAP8[35996] = $0;

								 $1 = $0 & 1;

								 $2 = ($1<<24>>24)==(0);

								 if (!($2)) {

								  HEAP32[7761] = 1;

								 }

								 $3 = HEAP8[35996]|0;

								 $4 = $3 & 2;

								 $5 = ($4<<24>>24)==(0);

								 if ($5) {

								  return;

								 }

								 HEAP32[7798] = 1;

								 return;

								}

								function _IsKeyPressed($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = (36003 + ($0)|0);

								 $2 = HEAP8[$1>>0]|0;

								 $3 = (36515 + ($0)|0);

								 $4 = HEAP8[$3>>0]|0;

								 $5 = ($2<<24>>24)!=($4<<24>>24);

								 $6 = ($2<<24>>24)==(1);

								 $or$cond = $6 & $5;

								 $$0 = $or$cond&1;

								 return ($$0|0);

								}

								function _rlTranslatef($0,$1,$2) {

								 $0 = +$0;

								 $1 = +$1;

								 $2 = +$2;

								 var $$byval_copy = 0, $$byval_copy1 = 0, $3 = 0, $4 = 0, $5 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 256|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(256|0);

								 $$byval_copy1 = sp + 192|0;

								 $$byval_copy = sp + 128|0;

								 $3 = sp + 64|0;

								 $4 = sp;

								 _MatrixTranslate($3,$0,$1,$2);

								 _MatrixTranspose($3);

								 $5 = HEAP32[7803]|0;

								 dest=$$byval_copy; src=$5; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=$$byval_copy1; src=$3; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixMultiply($4,$$byval_copy,$$byval_copy1);

								 dest=$5; src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 STACKTOP = sp;return;

								}

								function _rlRotatef($0,$1,$2,$3) {

								 $0 = +$0;

								 $1 = +$1;

								 $2 = +$2;

								 $3 = +$3;

								 var $$byval_copy1 = 0, $$byval_copy2 = 0, $10 = 0.0, $11 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 336|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(336|0);

								 $$byval_copy2 = sp + 272|0;

								 $$byval_copy1 = sp + 208|0;

								 $4 = sp + 144|0;

								 $5 = sp + 64|0;

								 $6 = sp + 80|0;

								 $7 = sp;

								 _MatrixIdentity($4);

								 HEAPF32[$5>>2] = $1;

								 $8 = ((($5)) + 4|0);

								 HEAPF32[$8>>2] = $2;

								 $9 = ((($5)) + 8|0);

								 HEAPF32[$9>>2] = $3;

								 _VectorNormalize($5);

								 $10 = $0 * 0.01745329238474369;

								 ;HEAP32[$$byval_copy2>>2]=HEAP32[$5>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$5+4>>2]|0;HEAP32[$$byval_copy2+8>>2]=HEAP32[$5+8>>2]|0;

								 _MatrixRotate($6,$$byval_copy2,$10);

								 dest=$4; src=$6; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixTranspose($4);

								 $11 = HEAP32[7803]|0;

								 dest=$$byval_copy1; src=$11; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 dest=$$byval_copy2; src=$4; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 _MatrixMultiply($7,$$byval_copy1,$$byval_copy2);

								 dest=$11; src=$7; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 STACKTOP = sp;return;

								}

								function _rlBegin($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAP32[7876] = $0;

								 return;

								}

								function _rlEnd() {

								 var $$03956 = 0, $$04052 = 0, $$04154 = 0, $$04248 = 0, $$04347 = 0, $$byval_copy = 0, $$promoted = 0, $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0;

								 var $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0;

								 var $128 = 0, $129 = 0, $13 = 0.0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0;

								 var $146 = 0, $147 = 0, $148 = 0.0, $149 = 0.0, $15 = 0.0, $16 = 0, $17 = 0.0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0;

								 var $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0;

								 var $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0;

								 var $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0;

								 var $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $exitcond = 0, $exitcond60 = 0, $exitcond63 = 0;

								 var $scevgep = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $$byval_copy = sp;

								 $0 = HEAP32[8313]|0;

								 $1 = ($0|0)==(0);

								 if (!($1)) {

								  $2 = HEAP32[8314]|0;

								  $3 = ($2|0)>(0);

								  if ($3) {

								   $$03956 = 0;

								   while(1) {

								    $6 = HEAP32[7873]|0;

								    $7 = (($6) + (($$03956*12)|0)|0);

								    $8 = HEAP32[7803]|0;

								    dest=$$byval_copy; src=$8; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								    _VectorTransform($7,$$byval_copy);

								    $9 = (($$03956) + 1)|0;

								    $5 = HEAP32[8314]|0;

								    $10 = ($9|0)<($5|0);

								    if ($10) {

								     $$03956 = $9;

								    } else {

								     break;

								    }

								   }

								   HEAP32[8313] = 0;

								   $4 = ($5|0)>(0);

								   if ($4) {

								    $$04154 = 0;

								    while(1) {

								     $11 = HEAP32[7873]|0;

								     $12 = (($11) + (($$04154*12)|0)|0);

								     $13 = +HEAPF32[$12>>2];

								     $14 = (((($11) + (($$04154*12)|0)|0)) + 4|0);

								     $15 = +HEAPF32[$14>>2];

								     $16 = (((($11) + (($$04154*12)|0)|0)) + 8|0);

								     $17 = +HEAPF32[$16>>2];

								     _rlVertex3f($13,$15,$17);

								     $18 = (($$04154) + 1)|0;

								     $19 = HEAP32[8314]|0;

								     $20 = ($18|0)<($19|0);

								     if ($20) {

								      $$04154 = $18;

								     } else {

								      break;

								     }

								    }

								   }

								  } else {

								   HEAP32[8313] = 0;

								  }

								  HEAP32[8314] = 0;

								 }

								 $21 = HEAP32[7876]|0;

								 switch ($21|0) {

								 case 1:  {

								  $22 = HEAP32[8135]|0;

								  $23 = HEAP32[(32548)>>2]|0;

								  $24 = ($22|0)==($23|0);

								  if ($24) {

								   $148 = +HEAPF32[746];

								   $149 = $148 + 4.9999998736893758E-5;

								   HEAPF32[746] = $149;

								   STACKTOP = sp;return;

								  }

								  $25 = (($22) - ($23))|0;

								  $26 = ($25|0)>(0);

								  if ($26) {

								   $$04347 = 0;

								  } else {

								   $148 = +HEAPF32[746];

								   $149 = $148 + 4.9999998736893758E-5;

								   HEAPF32[746] = $149;

								   STACKTOP = sp;return;

								  }

								  while(1) {

								   $27 = HEAP32[(32560)>>2]|0;

								   $28 = HEAP32[(32548)>>2]|0;

								   $29 = $28 << 2;

								   $30 = (($29) + -4)|0;

								   $31 = (($27) + ($30)|0);

								   $32 = HEAP8[$31>>0]|0;

								   $33 = (($27) + ($29)|0);

								   HEAP8[$33>>0] = $32;

								   $34 = HEAP32[(32560)>>2]|0;

								   $35 = HEAP32[(32548)>>2]|0;

								   $36 = $35 << 2;

								   $37 = (($36) + -3)|0;

								   $38 = (($34) + ($37)|0);

								   $39 = HEAP8[$38>>0]|0;

								   $40 = $36 | 1;

								   $41 = (($34) + ($40)|0);

								   HEAP8[$41>>0] = $39;

								   $42 = HEAP32[(32560)>>2]|0;

								   $43 = HEAP32[(32548)>>2]|0;

								   $44 = $43 << 2;

								   $45 = (($44) + -2)|0;

								   $46 = (($42) + ($45)|0);

								   $47 = HEAP8[$46>>0]|0;

								   $48 = $44 | 2;

								   $49 = (($42) + ($48)|0);

								   HEAP8[$49>>0] = $47;

								   $50 = HEAP32[(32560)>>2]|0;

								   $51 = HEAP32[(32548)>>2]|0;

								   $52 = $51 << 2;

								   $53 = (($52) + -1)|0;

								   $54 = (($50) + ($53)|0);

								   $55 = HEAP8[$54>>0]|0;

								   $56 = $52 | 3;

								   $57 = (($50) + ($56)|0);

								   HEAP8[$57>>0] = $55;

								   $58 = HEAP32[(32548)>>2]|0;

								   $59 = (($58) + 1)|0;

								   HEAP32[(32548)>>2] = $59;

								   $60 = (($$04347) + 1)|0;

								   $exitcond = ($60|0)==($25|0);

								   if ($exitcond) {

								    break;

								   } else {

								    $$04347 = $60;

								   }

								  }

								  $148 = +HEAPF32[746];

								  $149 = $148 + 4.9999998736893758E-5;

								  HEAPF32[746] = $149;

								  STACKTOP = sp;return;

								  break;

								 }

								 case 4:  {

								  $61 = HEAP32[8147]|0;

								  $62 = HEAP32[(32596)>>2]|0;

								  $63 = ($61|0)==($62|0);

								  if ($63) {

								   $148 = +HEAPF32[746];

								   $149 = $148 + 4.9999998736893758E-5;

								   HEAPF32[746] = $149;

								   STACKTOP = sp;return;

								  }

								  $64 = (($61) - ($62))|0;

								  $65 = ($64|0)>(0);

								  if ($65) {

								   $$04248 = 0;

								  } else {

								   $148 = +HEAPF32[746];

								   $149 = $148 + 4.9999998736893758E-5;

								   HEAPF32[746] = $149;

								   STACKTOP = sp;return;

								  }

								  while(1) {

								   $66 = HEAP32[(32608)>>2]|0;

								   $67 = HEAP32[(32596)>>2]|0;

								   $68 = $67 << 2;

								   $69 = (($68) + -4)|0;

								   $70 = (($66) + ($69)|0);

								   $71 = HEAP8[$70>>0]|0;

								   $72 = (($66) + ($68)|0);

								   HEAP8[$72>>0] = $71;

								   $73 = HEAP32[(32608)>>2]|0;

								   $74 = HEAP32[(32596)>>2]|0;

								   $75 = $74 << 2;

								   $76 = (($75) + -3)|0;

								   $77 = (($73) + ($76)|0);

								   $78 = HEAP8[$77>>0]|0;

								   $79 = $75 | 1;

								   $80 = (($73) + ($79)|0);

								   HEAP8[$80>>0] = $78;

								   $81 = HEAP32[(32608)>>2]|0;

								   $82 = HEAP32[(32596)>>2]|0;

								   $83 = $82 << 2;

								   $84 = (($83) + -2)|0;

								   $85 = (($81) + ($84)|0);

								   $86 = HEAP8[$85>>0]|0;

								   $87 = $83 | 2;

								   $88 = (($81) + ($87)|0);

								   HEAP8[$88>>0] = $86;

								   $89 = HEAP32[(32608)>>2]|0;

								   $90 = HEAP32[(32596)>>2]|0;

								   $91 = $90 << 2;

								   $92 = (($91) + -1)|0;

								   $93 = (($89) + ($92)|0);

								   $94 = HEAP8[$93>>0]|0;

								   $95 = $91 | 3;

								   $96 = (($89) + ($95)|0);

								   HEAP8[$96>>0] = $94;

								   $97 = HEAP32[(32596)>>2]|0;

								   $98 = (($97) + 1)|0;

								   HEAP32[(32596)>>2] = $98;

								   $99 = (($$04248) + 1)|0;

								   $exitcond60 = ($99|0)==($64|0);

								   if ($exitcond60) {

								    break;

								   } else {

								    $$04248 = $99;

								   }

								  }

								  $148 = +HEAPF32[746];

								  $149 = $148 + 4.9999998736893758E-5;

								  HEAPF32[746] = $149;

								  STACKTOP = sp;return;

								  break;

								 }

								 case 7:  {

								  $100 = HEAP32[8159]|0;

								  $101 = HEAP32[(32644)>>2]|0;

								  $102 = ($100|0)==($101|0);

								  if (!($102)) {

								   $103 = (($100) - ($101))|0;

								   $104 = ($103|0)>(0);

								   if ($104) {

								    $$04052 = 0;

								    while(1) {

								     $105 = HEAP32[(32656)>>2]|0;

								     $106 = HEAP32[(32644)>>2]|0;

								     $107 = $106 << 2;

								     $108 = (($107) + -4)|0;

								     $109 = (($105) + ($108)|0);

								     $110 = HEAP8[$109>>0]|0;

								     $111 = (($105) + ($107)|0);

								     HEAP8[$111>>0] = $110;

								     $112 = HEAP32[(32656)>>2]|0;

								     $113 = HEAP32[(32644)>>2]|0;

								     $114 = $113 << 2;

								     $115 = (($114) + -3)|0;

								     $116 = (($112) + ($115)|0);

								     $117 = HEAP8[$116>>0]|0;

								     $118 = $114 | 1;

								     $119 = (($112) + ($118)|0);

								     HEAP8[$119>>0] = $117;

								     $120 = HEAP32[(32656)>>2]|0;

								     $121 = HEAP32[(32644)>>2]|0;

								     $122 = $121 << 2;

								     $123 = (($122) + -2)|0;

								     $124 = (($120) + ($123)|0);

								     $125 = HEAP8[$124>>0]|0;

								     $126 = $122 | 2;

								     $127 = (($120) + ($126)|0);

								     HEAP8[$127>>0] = $125;

								     $128 = HEAP32[(32656)>>2]|0;

								     $129 = HEAP32[(32644)>>2]|0;

								     $130 = $129 << 2;

								     $131 = (($130) + -1)|0;

								     $132 = (($128) + ($131)|0);

								     $133 = HEAP8[$132>>0]|0;

								     $134 = $130 | 3;

								     $135 = (($128) + ($134)|0);

								     HEAP8[$135>>0] = $133;

								     $136 = HEAP32[(32644)>>2]|0;

								     $137 = (($136) + 1)|0;

								     HEAP32[(32644)>>2] = $137;

								     $138 = (($$04052) + 1)|0;

								     $exitcond63 = ($138|0)==($103|0);

								     if ($exitcond63) {

								      break;

								     } else {

								      $$04052 = $138;

								     }

								    }

								   }

								  }

								  $139 = HEAP32[8159]|0;

								  $140 = HEAP32[(32640)>>2]|0;

								  $141 = ($139|0)>($140|0);

								  if (!($141)) {

								   $148 = +HEAPF32[746];

								   $149 = $148 + 4.9999998736893758E-5;

								   HEAPF32[746] = $149;

								   STACKTOP = sp;return;

								  }

								  $142 = HEAP32[(32652)>>2]|0;

								  $$promoted = HEAP32[(32640)>>2]|0;

								  $143 = $$promoted << 1;

								  $scevgep = (($142) + ($143<<2)|0);

								  $144 = (($139) - ($140))|0;

								  $145 = $144 << 3;

								  _memset(($scevgep|0),0,($145|0))|0;

								  $146 = (($139) + ($$promoted))|0;

								  $147 = (($146) - ($140))|0;

								  HEAP32[(32640)>>2] = $147;

								  $148 = +HEAPF32[746];

								  $149 = $148 + 4.9999998736893758E-5;

								  HEAPF32[746] = $149;

								  STACKTOP = sp;return;

								  break;

								 }

								 default: {

								  $148 = +HEAPF32[746];

								  $149 = $148 + 4.9999998736893758E-5;

								  HEAPF32[746] = $149;

								  STACKTOP = sp;return;

								 }

								 }

								}

								function _rlVertex3f($0,$1,$2) {

								 $0 = +$0;

								 $1 = +$1;

								 $2 = +$2;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0;

								 var $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0;

								 var $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $vararg_buffer = 0, $vararg_buffer1 = 0, $vararg_buffer3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $vararg_buffer3 = sp + 16|0;

								 $vararg_buffer1 = sp + 8|0;

								 $vararg_buffer = sp;

								 $3 = HEAP32[8313]|0;

								 $4 = ($3|0)==(0);

								 if (!($4)) {

								  $5 = HEAP32[7873]|0;

								  $6 = HEAP32[8314]|0;

								  $7 = (($5) + (($6*12)|0)|0);

								  HEAPF32[$7>>2] = $0;

								  $8 = (((($5) + (($6*12)|0)|0)) + 4|0);

								  HEAPF32[$8>>2] = $1;

								  $9 = (((($5) + (($6*12)|0)|0)) + 8|0);

								  HEAPF32[$9>>2] = $2;

								  $10 = (($6) + 1)|0;

								  HEAP32[8314] = $10;

								  STACKTOP = sp;return;

								 }

								 $11 = HEAP32[7876]|0;

								 switch ($11|0) {

								 case 1:  {

								  $12 = HEAP32[8135]|0;

								  $13 = ($12|0)<(2048);

								  if ($13) {

								   $14 = HEAP32[(32552)>>2]|0;

								   $15 = ($12*3)|0;

								   $16 = (($14) + ($15<<2)|0);

								   HEAPF32[$16>>2] = $0;

								   $17 = (($15) + 1)|0;

								   $18 = (($14) + ($17<<2)|0);

								   HEAPF32[$18>>2] = $1;

								   $19 = (($15) + 2)|0;

								   $20 = (($14) + ($19<<2)|0);

								   HEAPF32[$20>>2] = $2;

								   $21 = (($12) + 1)|0;

								   HEAP32[8135] = $21;

								   STACKTOP = sp;return;

								  } else {

								   _TraceLog(1,8155,$vararg_buffer);

								   STACKTOP = sp;return;

								  }

								  break;

								 }

								 case 4:  {

								  $22 = HEAP32[8147]|0;

								  $23 = ($22|0)<(6144);

								  if ($23) {

								   $24 = HEAP32[(32600)>>2]|0;

								   $25 = ($22*3)|0;

								   $26 = (($24) + ($25<<2)|0);

								   HEAPF32[$26>>2] = $0;

								   $27 = (($25) + 1)|0;

								   $28 = (($24) + ($27<<2)|0);

								   HEAPF32[$28>>2] = $1;

								   $29 = (($25) + 2)|0;

								   $30 = (($24) + ($29<<2)|0);

								   HEAPF32[$30>>2] = $2;

								   $31 = (($22) + 1)|0;

								   HEAP32[8147] = $31;

								   STACKTOP = sp;return;

								  } else {

								   _TraceLog(1,8180,$vararg_buffer1);

								   STACKTOP = sp;return;

								  }

								  break;

								 }

								 case 7:  {

								  $32 = HEAP32[8159]|0;

								  $33 = ($32|0)<(4096);

								  if ($33) {

								   $34 = HEAP32[(32648)>>2]|0;

								   $35 = ($32*3)|0;

								   $36 = (($34) + ($35<<2)|0);

								   HEAPF32[$36>>2] = $0;

								   $37 = (($35) + 1)|0;

								   $38 = (($34) + ($37<<2)|0);

								   HEAPF32[$38>>2] = $1;

								   $39 = (($35) + 2)|0;

								   $40 = (($34) + ($39<<2)|0);

								   HEAPF32[$40>>2] = $2;

								   $41 = (($32) + 1)|0;

								   HEAP32[8159] = $41;

								   $42 = HEAP32[7874]|0;

								   $43 = HEAP32[7875]|0;

								   $44 = (($43) + -1)|0;

								   $45 = (($42) + (($44*144)|0)|0);

								   $46 = HEAP32[$45>>2]|0;

								   $47 = (($46) + 1)|0;

								   HEAP32[$45>>2] = $47;

								   STACKTOP = sp;return;

								  } else {

								   _TraceLog(1,8209,$vararg_buffer3);

								   STACKTOP = sp;return;

								  }

								  break;

								 }

								 default: {

								  STACKTOP = sp;return;

								 }

								 }

								}

								function _rlVertex2f($0,$1) {

								 $0 = +$0;

								 $1 = +$1;

								 var $2 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = +HEAPF32[746];

								 _rlVertex3f($0,$1,$2);

								 return;

								}

								function _rlTexCoord2f($0,$1) {

								 $0 = +$0;

								 $1 = +$1;

								 var $10 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP32[7876]|0;

								 $3 = ($2|0)==(7);

								 if (!($3)) {

								  return;

								 }

								 $4 = HEAP32[(32652)>>2]|0;

								 $5 = HEAP32[(32640)>>2]|0;

								 $6 = $5 << 1;

								 $7 = (($4) + ($6<<2)|0);

								 HEAPF32[$7>>2] = $0;

								 $8 = $6 | 1;

								 $9 = (($4) + ($8<<2)|0);

								 HEAPF32[$9>>2] = $1;

								 $10 = (($5) + 1)|0;

								 HEAP32[(32640)>>2] = $10;

								 return;

								}

								function _rlNormal3f($0,$1,$2) {

								 $0 = +$0;

								 $1 = +$1;

								 $2 = +$2;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return;

								}

								function _rlColor4ub($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $$sink37 = 0, $$sink38 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $4 = 0, $5 = 0;

								 var $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $4 = HEAP32[7876]|0;

								 switch ($4|0) {

								 case 1:  {

								  $$sink37 = (32548);$$sink38 = (32560);

								  break;

								 }

								 case 4:  {

								  $$sink37 = (32596);$$sink38 = (32608);

								  break;

								 }

								 case 7:  {

								  $$sink37 = (32644);$$sink38 = (32656);

								  break;

								 }

								 default: {

								  return;

								 }

								 }

								 $5 = HEAP32[$$sink38>>2]|0;

								 $6 = HEAP32[$$sink37>>2]|0;

								 $7 = $6 << 2;

								 $8 = (($5) + ($7)|0);

								 HEAP8[$8>>0] = $0;

								 $9 = HEAP32[$$sink38>>2]|0;

								 $10 = HEAP32[$$sink37>>2]|0;

								 $11 = $10 << 2;

								 $12 = $11 | 1;

								 $13 = (($9) + ($12)|0);

								 HEAP8[$13>>0] = $1;

								 $14 = HEAP32[$$sink38>>2]|0;

								 $15 = HEAP32[$$sink37>>2]|0;

								 $16 = $15 << 2;

								 $17 = $16 | 2;

								 $18 = (($14) + ($17)|0);

								 HEAP8[$18>>0] = $2;

								 $19 = HEAP32[$$sink38>>2]|0;

								 $20 = HEAP32[$$sink37>>2]|0;

								 $21 = $20 << 2;

								 $22 = $21 | 3;

								 $23 = (($19) + ($22)|0);

								 HEAP8[$23>>0] = $3;

								 $24 = HEAP32[$$sink37>>2]|0;

								 $25 = (($24) + 1)|0;

								 HEAP32[$$sink37>>2] = $25;

								 return;

								}

								function _rlEnableTexture($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[7874]|0;

								 $2 = HEAP32[7875]|0;

								 $3 = (($2) + -1)|0;

								 $4 = (((($1) + (($3*144)|0)|0)) + 8|0);

								 $5 = HEAP32[$4>>2]|0;

								 $6 = ($5|0)==($0|0);

								 if ($6) {

								  return;

								 }

								 $7 = (($1) + (($3*144)|0)|0);

								 $8 = HEAP32[$7>>2]|0;

								 $9 = ($8|0)>(0);

								 if ($9) {

								  $10 = (($2) + 1)|0;

								  HEAP32[7875] = $10;

								 }

								 $11 = HEAP32[7875]|0;

								 $12 = (($11) + -1)|0;

								 $13 = (((($1) + (($12*144)|0)|0)) + 8|0);

								 HEAP32[$13>>2] = $0;

								 $14 = (($1) + (($12*144)|0)|0);

								 HEAP32[$14>>2] = 0;

								 return;

								}

								function _rlDisableTexture() {

								 var $0 = 0, $1 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = HEAP32[8159]|0;

								 $1 = ($0|0)>(4095);

								 if (!($1)) {

								  return;

								 }

								 _rlglDraw();

								 return;

								}

								function _DrawLineV($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0.0, $11 = 0, $12 = 0.0, $13 = 0.0, $14 = 0, $15 = 0.0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 _rlBegin(1);

								 $3 = HEAP8[$2>>0]|0;

								 $4 = ((($2)) + 1|0);

								 $5 = HEAP8[$4>>0]|0;

								 $6 = ((($2)) + 2|0);

								 $7 = HEAP8[$6>>0]|0;

								 $8 = ((($2)) + 3|0);

								 $9 = HEAP8[$8>>0]|0;

								 _rlColor4ub($3,$5,$7,$9);

								 $10 = +HEAPF32[$0>>2];

								 $11 = ((($0)) + 4|0);

								 $12 = +HEAPF32[$11>>2];

								 _rlVertex2f($10,$12);

								 $13 = +HEAPF32[$1>>2];

								 $14 = ((($1)) + 4|0);

								 $15 = +HEAPF32[$14>>2];

								 _rlVertex2f($13,$15);

								 _rlEnd();

								 return;

								}

								function _GetDefaultFont($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 ;HEAP32[$0>>2]=HEAP32[31064>>2]|0;HEAP32[$0+4>>2]=HEAP32[31064+4>>2]|0;HEAP32[$0+8>>2]=HEAP32[31064+8>>2]|0;HEAP32[$0+12>>2]=HEAP32[31064+12>>2]|0;HEAP32[$0+16>>2]=HEAP32[31064+16>>2]|0;HEAP32[$0+20>>2]=HEAP32[31064+20>>2]|0;HEAP32[$0+24>>2]=HEAP32[31064+24>>2]|0;HEAP32[$0+28>>2]=HEAP32[31064+28>>2]|0;

								 return;

								}

								function _MeasureTextEx($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = +$3;

								 $4 = $4|0;

								 var $$0$lcssa = 0, $$05064 = 0, $$052$lcssa = 0.0, $$05263 = 0.0, $$05462 = 0, $$055$lcssa = 0.0, $$05561 = 0.0, $$058$lcssa = 0.0, $$05860 = 0.0, $$065 = 0, $$151 = 0, $$151$$0 = 0, $$153 = 0.0, $$156 = 0.0, $$159 = 0.0, $$2 = 0.0, $$257 = 0.0, $$3 = 0.0, $$byval_copy = 0, $$pn = 0.0;

								 var $$pn$in = 0, $$sroa$4$0$$sroa_idx2 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0.0, $14 = 0, $15 = 0.0, $16 = 0.0, $17 = 0.0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0;

								 var $28 = 0, $29 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0.0, $36 = 0.0, $37 = 0.0, $38 = 0, $39 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0.0, $9 = 0.0, $exitcond = 0, $phitmp = 0, label = 0;

								 var sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $$byval_copy = sp;

								 $5 = (_strlen($2)|0);

								 $6 = ((($1)) + 20|0);

								 $7 = HEAP32[$6>>2]|0;

								 $8 = (+($7|0));

								 $9 = $3 / $8;

								 $10 = ($5|0)>(0);

								 if (!($10)) {

								  $$0$lcssa = -1;$$052$lcssa = 0.0;$$055$lcssa = 0.0;$$058$lcssa = $8;

								  $12 = $$055$lcssa < $$052$lcssa;

								  $$3 = $12 ? $$052$lcssa : $$055$lcssa;

								  $13 = $9 * $$3;

								  $14 = Math_imul($$0$lcssa, $4)|0;

								  $15 = (+($14|0));

								  $16 = $13 + $15;

								  $17 = $9 * $$058$lcssa;

								  HEAPF32[$0>>2] = $16;

								  $$sroa$4$0$$sroa_idx2 = ((($0)) + 4|0);

								  HEAPF32[$$sroa$4$0$$sroa_idx2>>2] = $17;

								  STACKTOP = sp;return;

								 }

								 $11 = ((($1)) + 28|0);

								 $$05064 = 0;$$05263 = 0.0;$$05462 = 0;$$05561 = 0.0;$$05860 = $8;$$065 = 0;

								 while(1) {

								  $18 = (($$05064) + 1)|0;

								  $19 = (($2) + ($$05462)|0);

								  $20 = HEAP8[$19>>0]|0;

								  $21 = ($20<<24>>24)==(10);

								  if ($21) {

								   $33 = $$05561 < $$05263;

								   $$156 = $33 ? $$05263 : $$05561;

								   $34 = HEAP32[$6>>2]|0;

								   $35 = (+($34|0));

								   $36 = $35 * 1.5;

								   $37 = $$05860 + $36;

								   $$151 = 0;$$159 = $37;$$2 = 0.0;$$257 = $$156;

								  } else {

								   $22 = $20 << 24 >> 24;

								   ;HEAP32[$$byval_copy>>2]=HEAP32[$1>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$1+4>>2]|0;HEAP32[$$byval_copy+8>>2]=HEAP32[$1+8>>2]|0;HEAP32[$$byval_copy+12>>2]=HEAP32[$1+12>>2]|0;HEAP32[$$byval_copy+16>>2]=HEAP32[$1+16>>2]|0;HEAP32[$$byval_copy+20>>2]=HEAP32[$1+20>>2]|0;HEAP32[$$byval_copy+24>>2]=HEAP32[$1+24>>2]|0;HEAP32[$$byval_copy+28>>2]=HEAP32[$1+28>>2]|0;

								   $23 = (_GetCharIndex($$byval_copy,$22)|0);

								   $24 = HEAP32[$11>>2]|0;

								   $25 = (((($24) + ($23<<5)|0)) + 28|0);

								   $26 = HEAP32[$25>>2]|0;

								   $27 = ($26|0)==(0);

								   if ($27) {

								    $28 = (((($24) + ($23<<5)|0)) + 20|0);

								    $29 = (((($24) + ($23<<5)|0)) + 12|0);

								    $30 = HEAP32[$29>>2]|0;

								    $31 = HEAP32[$28>>2]|0;

								    $32 = (($31) + ($30))|0;

								    $$pn$in = $32;

								   } else {

								    $$pn$in = $26;

								   }

								   $$pn = (+($$pn$in|0));

								   $$153 = $$05263 + $$pn;

								   $$151 = $18;$$159 = $$05860;$$2 = $$153;$$257 = $$05561;

								  }

								  $38 = ($$065|0)<($$151|0);

								  $$151$$0 = $38 ? $$151 : $$065;

								  $39 = (($$05462) + 1)|0;

								  $exitcond = ($39|0)==($5|0);

								  if ($exitcond) {

								   break;

								  } else {

								   $$05064 = $$151;$$05263 = $$2;$$05462 = $39;$$05561 = $$257;$$05860 = $$159;$$065 = $$151$$0;

								  }

								 }

								 $phitmp = (($$151$$0) + -1)|0;

								 $$0$lcssa = $phitmp;$$052$lcssa = $$2;$$055$lcssa = $$257;$$058$lcssa = $$159;

								 $12 = $$055$lcssa < $$052$lcssa;

								 $$3 = $12 ? $$052$lcssa : $$055$lcssa;

								 $13 = $9 * $$3;

								 $14 = Math_imul($$0$lcssa, $4)|0;

								 $15 = (+($14|0));

								 $16 = $13 + $15;

								 $17 = $9 * $$058$lcssa;

								 HEAPF32[$0>>2] = $16;

								 $$sroa$4$0$$sroa_idx2 = ((($0)) + 4|0);

								 HEAPF32[$$sroa$4$0$$sroa_idx2>>2] = $17;

								 STACKTOP = sp;return;

								}

								function _GetCharIndex($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$08 = 0, $$09 = 0, $10 = 0, $11 = 0, $12 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ((($0)) + 24|0);

								 $3 = HEAP32[$2>>2]|0;

								 $4 = ($3|0)>(0);

								 if (!($4)) {

								  $$08 = 0;

								  return ($$08|0);

								 }

								 $5 = ((($0)) + 28|0);

								 $6 = HEAP32[$5>>2]|0;

								 $$09 = 0;

								 while(1) {

								  $7 = (($6) + ($$09<<5)|0);

								  $8 = HEAP32[$7>>2]|0;

								  $9 = ($8|0)==($1|0);

								  if ($9) {

								   $$08 = $$09;

								   label = 5;

								   break;

								  }

								  $10 = (($$09) + 1)|0;

								  $11 = HEAP32[$2>>2]|0;

								  $12 = ($10|0)<($11|0);

								  if ($12) {

								   $$09 = $10;

								  } else {

								   $$08 = 0;

								   label = 5;

								   break;

								  }

								 }

								 if ((label|0) == 5) {

								  return ($$08|0);

								 }

								 return (0)|0;

								}

								function _DrawTexturePro($0,$1,$2,$3,$4,$5) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = +$4;

								 $5 = $5|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0.0, $22 = 0, $23 = 0, $24 = 0.0, $25 = 0.0, $26 = 0.0, $27 = 0, $28 = 0.0, $29 = 0.0;

								 var $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0.0, $39 = 0, $40 = 0, $41 = 0.0, $42 = 0.0, $43 = 0, $44 = 0, $45 = 0.0, $46 = 0, $47 = 0, $48 = 0.0, $49 = 0.0;

								 var $50 = 0, $51 = 0.0, $52 = 0, $53 = 0.0, $54 = 0.0, $55 = 0, $56 = 0, $57 = 0, $58 = 0.0, $59 = 0, $6 = 0, $60 = 0.0, $61 = 0.0, $62 = 0, $63 = 0, $64 = 0.0, $65 = 0, $66 = 0, $67 = 0, $68 = 0.0;

								 var $69 = 0, $7 = 0, $70 = 0.0, $71 = 0.0, $72 = 0, $73 = 0, $74 = 0, $75 = 0.0, $76 = 0, $77 = 0.0, $78 = 0.0, $79 = 0, $8 = 0, $80 = 0, $81 = 0.0, $82 = 0, $83 = 0.0, $84 = 0, $85 = 0, $86 = 0;

								 var $87 = 0.0, $88 = 0, $89 = 0.0, $9 = 0, $90 = 0.0, $91 = 0, $92 = 0.0, $93 = 0, $94 = 0.0, $95 = 0.0, $96 = 0, $97 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $6 = HEAP32[$0>>2]|0;

								 $7 = ($6|0)==(0);

								 if ($7) {

								  return;

								 }

								 $8 = ((($1)) + 8|0);

								 $9 = HEAP32[$8>>2]|0;

								 $10 = ($9|0)<(0);

								 if ($10) {

								  $11 = HEAP32[$1>>2]|0;

								  $12 = (($11) - ($9))|0;

								  HEAP32[$1>>2] = $12;

								 }

								 $13 = ((($1)) + 12|0);

								 $14 = HEAP32[$13>>2]|0;

								 $15 = ($14|0)<(0);

								 if ($15) {

								  $16 = ((($1)) + 4|0);

								  $17 = HEAP32[$16>>2]|0;

								  $18 = (($17) - ($14))|0;

								  HEAP32[$16>>2] = $18;

								 }

								 $19 = HEAP32[$0>>2]|0;

								 _rlEnableTexture($19);

								 _rlPushMatrix();

								 $20 = HEAP32[$2>>2]|0;

								 $21 = (+($20|0));

								 $22 = ((($2)) + 4|0);

								 $23 = HEAP32[$22>>2]|0;

								 $24 = (+($23|0));

								 _rlTranslatef($21,$24,0.0);

								 _rlRotatef($4,0.0,0.0,1.0);

								 $25 = +HEAPF32[$3>>2];

								 $26 = -$25;

								 $27 = ((($3)) + 4|0);

								 $28 = +HEAPF32[$27>>2];

								 $29 = -$28;

								 _rlTranslatef($26,$29,0.0);

								 _rlBegin(7);

								 $30 = HEAP8[$5>>0]|0;

								 $31 = ((($5)) + 1|0);

								 $32 = HEAP8[$31>>0]|0;

								 $33 = ((($5)) + 2|0);

								 $34 = HEAP8[$33>>0]|0;

								 $35 = ((($5)) + 3|0);

								 $36 = HEAP8[$35>>0]|0;

								 _rlColor4ub($30,$32,$34,$36);

								 $37 = HEAP32[$1>>2]|0;

								 $38 = (+($37|0));

								 $39 = ((($0)) + 4|0);

								 $40 = HEAP32[$39>>2]|0;

								 $41 = (+($40|0));

								 $42 = $38 / $41;

								 $43 = ((($1)) + 4|0);

								 $44 = HEAP32[$43>>2]|0;

								 $45 = (+($44|0));

								 $46 = ((($0)) + 8|0);

								 $47 = HEAP32[$46>>2]|0;

								 $48 = (+($47|0));

								 $49 = $45 / $48;

								 _rlTexCoord2f($42,$49);

								 _rlVertex2f(0.0,0.0);

								 $50 = HEAP32[$1>>2]|0;

								 $51 = (+($50|0));

								 $52 = HEAP32[$39>>2]|0;

								 $53 = (+($52|0));

								 $54 = $51 / $53;

								 $55 = HEAP32[$43>>2]|0;

								 $56 = HEAP32[$13>>2]|0;

								 $57 = (($56) + ($55))|0;

								 $58 = (+($57|0));

								 $59 = HEAP32[$46>>2]|0;

								 $60 = (+($59|0));

								 $61 = $58 / $60;

								 _rlTexCoord2f($54,$61);

								 $62 = ((($2)) + 12|0);

								 $63 = HEAP32[$62>>2]|0;

								 $64 = (+($63|0));

								 _rlVertex2f(0.0,$64);

								 $65 = HEAP32[$1>>2]|0;

								 $66 = HEAP32[$8>>2]|0;

								 $67 = (($66) + ($65))|0;

								 $68 = (+($67|0));

								 $69 = HEAP32[$39>>2]|0;

								 $70 = (+($69|0));

								 $71 = $68 / $70;

								 $72 = HEAP32[$43>>2]|0;

								 $73 = HEAP32[$13>>2]|0;

								 $74 = (($73) + ($72))|0;

								 $75 = (+($74|0));

								 $76 = HEAP32[$46>>2]|0;

								 $77 = (+($76|0));

								 $78 = $75 / $77;

								 _rlTexCoord2f($71,$78);

								 $79 = ((($2)) + 8|0);

								 $80 = HEAP32[$79>>2]|0;

								 $81 = (+($80|0));

								 $82 = HEAP32[$62>>2]|0;

								 $83 = (+($82|0));

								 _rlVertex2f($81,$83);

								 $84 = HEAP32[$1>>2]|0;

								 $85 = HEAP32[$8>>2]|0;

								 $86 = (($85) + ($84))|0;

								 $87 = (+($86|0));

								 $88 = HEAP32[$39>>2]|0;

								 $89 = (+($88|0));

								 $90 = $87 / $89;

								 $91 = HEAP32[$43>>2]|0;

								 $92 = (+($91|0));

								 $93 = HEAP32[$46>>2]|0;

								 $94 = (+($93|0));

								 $95 = $92 / $94;

								 _rlTexCoord2f($90,$95);

								 $96 = HEAP32[$79>>2]|0;

								 $97 = (+($96|0));

								 _rlVertex2f($97,0.0);

								 _rlEnd();

								 _rlPopMatrix();

								 _rlDisableTexture();

								 return;

								}

								function _DrawText($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $$ = 0, $$byval_copy = 0, $$byval_copy1 = 0, $$byval_copy2 = 0, $10 = 0.0, $11 = 0, $12 = 0.0, $13 = 0, $14 = 0, $15 = 0.0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 128|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(128|0);

								 $$byval_copy2 = sp + 112|0;

								 $$byval_copy1 = sp + 104|0;

								 $$byval_copy = sp + 72|0;

								 $5 = sp + 32|0;

								 $6 = sp + 64|0;

								 $7 = sp;

								 _GetDefaultFont($5);

								 $8 = HEAP32[$5>>2]|0;

								 $9 = ($8|0)==(0);

								 if ($9) {

								  STACKTOP = sp;return;

								 }

								 $10 = (+($1|0));

								 HEAPF32[$6>>2] = $10;

								 $11 = ((($6)) + 4|0);

								 $12 = (+($2|0));

								 HEAPF32[$11>>2] = $12;

								 $13 = ($3|0)>(10);

								 $$ = $13 ? $3 : 10;

								 $14 = (($$>>>0) / 10)&-1;

								 _GetDefaultFont($7);

								 $15 = (+($$|0));

								 ;HEAP32[$$byval_copy>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$7+4>>2]|0;HEAP32[$$byval_copy+8>>2]=HEAP32[$7+8>>2]|0;HEAP32[$$byval_copy+12>>2]=HEAP32[$7+12>>2]|0;HEAP32[$$byval_copy+16>>2]=HEAP32[$7+16>>2]|0;HEAP32[$$byval_copy+20>>2]=HEAP32[$7+20>>2]|0;HEAP32[$$byval_copy+24>>2]=HEAP32[$7+24>>2]|0;HEAP32[$$byval_copy+28>>2]=HEAP32[$7+28>>2]|0;

								 ;HEAP32[$$byval_copy1>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$6+4>>2]|0;

								 ;HEAP8[$$byval_copy2>>0]=HEAP8[$4>>0]|0;HEAP8[$$byval_copy2+1>>0]=HEAP8[$4+1>>0]|0;HEAP8[$$byval_copy2+2>>0]=HEAP8[$4+2>>0]|0;HEAP8[$$byval_copy2+3>>0]=HEAP8[$4+3>>0]|0;

								 _DrawTextEx($$byval_copy,$0,$$byval_copy1,$15,$14,$$byval_copy2);

								 STACKTOP = sp;return;

								}

								function _DrawTextEx($0,$1,$2,$3,$4,$5) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = +$3;

								 $4 = $4|0;

								 $5 = $5|0;

								 var $$04954 = 0, $$05153 = 0, $$055 = 0, $$1 = 0, $$150 = 0, $$152 = 0, $$2 = 0, $$byval_copy1 = 0, $$byval_copy2 = 0, $$byval_copy3 = 0, $$byval_copy4 = 0, $$byval_copy5 = 0, $$sink = 0, $10 = 0, $11 = 0.0, $12 = 0.0, $13 = 0, $14 = 0, $15 = 0.0, $16 = 0;

								 var $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0.0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0.0, $28 = 0.0, $29 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0;

								 var $37 = 0, $38 = 0, $39 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0.0, $45 = 0.0, $46 = 0, $47 = 0, $48 = 0.0, $49 = 0.0, $50 = 0.0, $51 = 0, $52 = 0.0, $53 = 0.0, $54 = 0.0, $55 = 0, $56 = 0;

								 var $57 = 0.0, $58 = 0.0, $59 = 0.0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0.0, $64 = 0.0, $65 = 0, $66 = 0, $67 = 0, $68 = 0.0, $69 = 0.0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0;

								 var $75 = 0, $76 = 0, $77 = 0.0, $78 = 0.0, $79 = 0.0, $8 = 0, $80 = 0, $81 = 0, $82 = 0.0, $83 = 0.0, $84 = 0.0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 128|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(128|0);

								 $$byval_copy5 = sp + 88|0;

								 $$byval_copy4 = sp + 80|0;

								 $$byval_copy3 = sp + 64|0;

								 $$byval_copy2 = sp + 48|0;

								 $$byval_copy1 = sp + 24|0;

								 $6 = sp + 8|0;

								 $7 = sp;

								 $8 = (_strlen($1)|0);

								 $9 = ((($0)) + 20|0);

								 $10 = HEAP32[$9>>2]|0;

								 $11 = (+($10|0));

								 $12 = $3 / $11;

								 $13 = ($8|0)>(0);

								 if (!($13)) {

								  STACKTOP = sp;return;

								 }

								 $14 = ((($0)) + 28|0);

								 $15 = +HEAPF32[$2>>2];

								 $16 = ((($6)) + 4|0);

								 $17 = ((($2)) + 4|0);

								 $18 = ((($6)) + 8|0);

								 $19 = ((($6)) + 12|0);

								 $20 = ((($7)) + 4|0);

								 $21 = (+($4|0));

								 $$04954 = 0;$$05153 = 0;$$055 = 0;

								 while(1) {

								  $22 = (($1) + ($$055)|0);

								  $23 = HEAP8[$22>>0]|0;

								  switch ($23<<24>>24) {

								  case 10:  {

								   $24 = HEAP32[$9>>2]|0;

								   $25 = (($24|0) / 2)&-1;

								   $26 = (($25) + ($24))|0;

								   $27 = (+($26|0));

								   $28 = $12 * $27;

								   $29 = (~~(($28)));

								   $30 = (($29) + ($$05153))|0;

								   $$150 = 0;$$152 = $30;$$2 = $$055;

								   break;

								  }

								  case -62:  {

								   $31 = (($$055) + 1)|0;

								   $32 = (($1) + ($31)|0);

								   $33 = HEAP8[$32>>0]|0;

								   $34 = $33&255;

								   $$1 = $31;$$sink = $34;

								   label = 9;

								   break;

								  }

								  case -61:  {

								   $35 = (($$055) + 1)|0;

								   $36 = (($1) + ($35)|0);

								   $37 = HEAP8[$36>>0]|0;

								   $38 = $37&255;

								   $39 = (($38) + 64)|0;

								   $$1 = $35;$$sink = $39;

								   label = 9;

								   break;

								  }

								  default: {

								   $40 = $23 << 24 >> 24;

								   $$1 = $$055;$$sink = $40;

								   label = 9;

								  }

								  }

								  do {

								   if ((label|0) == 9) {

								    label = 0;

								    ;HEAP32[$$byval_copy5>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy5+4>>2]=HEAP32[$0+4>>2]|0;HEAP32[$$byval_copy5+8>>2]=HEAP32[$0+8>>2]|0;HEAP32[$$byval_copy5+12>>2]=HEAP32[$0+12>>2]|0;HEAP32[$$byval_copy5+16>>2]=HEAP32[$0+16>>2]|0;HEAP32[$$byval_copy5+20>>2]=HEAP32[$0+20>>2]|0;HEAP32[$$byval_copy5+24>>2]=HEAP32[$0+24>>2]|0;HEAP32[$$byval_copy5+28>>2]=HEAP32[$0+28>>2]|0;

								    $41 = (_GetCharIndex($$byval_copy5,$$sink)|0);

								    $42 = HEAP32[$14>>2]|0;

								    $43 = (((($42) + ($41<<5)|0)) + 4|0);

								    $44 = (+($$04954|0));

								    $45 = $44 + $15;

								    $46 = (((($42) + ($41<<5)|0)) + 20|0);

								    $47 = HEAP32[$46>>2]|0;

								    $48 = (+($47|0));

								    $49 = $12 * $48;

								    $50 = $45 + $49;

								    $51 = (~~(($50)));

								    HEAP32[$6>>2] = $51;

								    $52 = +HEAPF32[$17>>2];

								    $53 = (+($$05153|0));

								    $54 = $53 + $52;

								    $55 = (((($42) + ($41<<5)|0)) + 24|0);

								    $56 = HEAP32[$55>>2]|0;

								    $57 = (+($56|0));

								    $58 = $12 * $57;

								    $59 = $54 + $58;

								    $60 = (~~(($59)));

								    HEAP32[$16>>2] = $60;

								    $61 = (((($42) + ($41<<5)|0)) + 12|0);

								    $62 = HEAP32[$61>>2]|0;

								    $63 = (+($62|0));

								    $64 = $12 * $63;

								    $65 = (~~(($64)));

								    HEAP32[$18>>2] = $65;

								    $66 = (((($42) + ($41<<5)|0)) + 16|0);

								    $67 = HEAP32[$66>>2]|0;

								    $68 = (+($67|0));

								    $69 = $12 * $68;

								    $70 = (~~(($69)));

								    HEAP32[$19>>2] = $70;

								    HEAPF32[$7>>2] = 0.0;

								    HEAPF32[$20>>2] = 0.0;

								    ;HEAP32[$$byval_copy1>>2]=HEAP32[$0>>2]|0;HEAP32[$$byval_copy1+4>>2]=HEAP32[$0+4>>2]|0;HEAP32[$$byval_copy1+8>>2]=HEAP32[$0+8>>2]|0;HEAP32[$$byval_copy1+12>>2]=HEAP32[$0+12>>2]|0;HEAP32[$$byval_copy1+16>>2]=HEAP32[$0+16>>2]|0;

								    ;HEAP32[$$byval_copy2>>2]=HEAP32[$43>>2]|0;HEAP32[$$byval_copy2+4>>2]=HEAP32[$43+4>>2]|0;HEAP32[$$byval_copy2+8>>2]=HEAP32[$43+8>>2]|0;HEAP32[$$byval_copy2+12>>2]=HEAP32[$43+12>>2]|0;

								    ;HEAP32[$$byval_copy3>>2]=HEAP32[$6>>2]|0;HEAP32[$$byval_copy3+4>>2]=HEAP32[$6+4>>2]|0;HEAP32[$$byval_copy3+8>>2]=HEAP32[$6+8>>2]|0;HEAP32[$$byval_copy3+12>>2]=HEAP32[$6+12>>2]|0;

								    ;HEAP32[$$byval_copy4>>2]=HEAP32[$7>>2]|0;HEAP32[$$byval_copy4+4>>2]=HEAP32[$7+4>>2]|0;

								    ;HEAP8[$$byval_copy5>>0]=HEAP8[$5>>0]|0;HEAP8[$$byval_copy5+1>>0]=HEAP8[$5+1>>0]|0;HEAP8[$$byval_copy5+2>>0]=HEAP8[$5+2>>0]|0;HEAP8[$$byval_copy5+3>>0]=HEAP8[$5+3>>0]|0;

								    _DrawTexturePro($$byval_copy1,$$byval_copy2,$$byval_copy3,$$byval_copy4,0.0,$$byval_copy5);

								    $71 = HEAP32[$14>>2]|0;

								    $72 = (((($71) + ($41<<5)|0)) + 28|0);

								    $73 = HEAP32[$72>>2]|0;

								    $74 = ($73|0)==(0);

								    if ($74) {

								     $75 = (((($71) + ($41<<5)|0)) + 12|0);

								     $76 = HEAP32[$75>>2]|0;

								     $77 = (+($76|0));

								     $78 = $12 * $77;

								     $79 = $21 + $78;

								     $80 = (~~(($79)));

								     $81 = (($80) + ($$04954))|0;

								     $$150 = $81;$$152 = $$05153;$$2 = $$1;

								     break;

								    } else {

								     $82 = (+($73|0));

								     $83 = $12 * $82;

								     $84 = $21 + $83;

								     $85 = (~~(($84)));

								     $86 = (($85) + ($$04954))|0;

								     $$150 = $86;$$152 = $$05153;$$2 = $$1;

								     break;

								    }

								   }

								  } while(0);

								  $87 = (($$2) + 1)|0;

								  $88 = ($87|0)<($8|0);

								  if ($88) {

								   $$04954 = $$150;$$05153 = $$152;$$055 = $87;

								  } else {

								   break;

								  }

								 }

								 STACKTOP = sp;return;

								}

								function _FormatText($0,$varargs) {

								 $0 = $0|0;

								 $varargs = $varargs|0;

								 var $1 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $1 = sp;

								 HEAP32[$1>>2] = $varargs;

								 (_vsprintf(37283,$0,$1)|0);

								 STACKTOP = sp;return (37283|0);

								}

								function _MeasureText($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$ = 0, $$byval_copy = 0, $$sroa$0$0 = 0, $$sroa$0$0$copyload = 0.0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0.0, $phitmp = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 112|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(112|0);

								 $$byval_copy = sp + 72|0;

								 $2 = sp + 40|0;

								 $3 = sp + 8|0;

								 $4 = sp;

								 _GetDefaultFont($2);

								 $5 = HEAP32[$2>>2]|0;

								 $6 = ($5|0)==(0);

								 if ($6) {

								  $$sroa$0$0 = 0;

								  STACKTOP = sp;return ($$sroa$0$0|0);

								 }

								 $7 = ($1|0)>(10);

								 $$ = $7 ? $1 : 10;

								 $8 = (($$>>>0) / 10)&-1;

								 _GetDefaultFont($3);

								 $9 = (+($$|0));

								 ;HEAP32[$$byval_copy>>2]=HEAP32[$3>>2]|0;HEAP32[$$byval_copy+4>>2]=HEAP32[$3+4>>2]|0;HEAP32[$$byval_copy+8>>2]=HEAP32[$3+8>>2]|0;HEAP32[$$byval_copy+12>>2]=HEAP32[$3+12>>2]|0;HEAP32[$$byval_copy+16>>2]=HEAP32[$3+16>>2]|0;HEAP32[$$byval_copy+20>>2]=HEAP32[$3+20>>2]|0;HEAP32[$$byval_copy+24>>2]=HEAP32[$3+24>>2]|0;HEAP32[$$byval_copy+28>>2]=HEAP32[$3+28>>2]|0;

								 _MeasureTextEx($4,$$byval_copy,$0,$9,$8);

								 $$sroa$0$0$copyload = +HEAPF32[$4>>2];

								 $phitmp = (~~(($$sroa$0$0$copyload)));

								 $$sroa$0$0 = $phitmp;

								 STACKTOP = sp;return ($$sroa$0$0|0);

								}

								function _DrawFPS($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$byval_copy = 0, $$sink = 0, $10 = 0, $11 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $$byval_copy = sp;

								 $2 = sp + 4|0;

								 $3 = HEAP32[8315]|0;

								 $4 = HEAP32[747]|0;

								 $5 = ($3|0)<($4|0);

								 if ($5) {

								  $6 = (($3) + 1)|0;

								  $$sink = $6;

								 } else {

								  $7 = (_GetFPS()|0);

								  HEAP32[8316] = $7;

								  HEAP32[747] = $7;

								  $$sink = 0;

								 }

								 HEAP32[8315] = $$sink;

								 $8 = HEAP32[8316]|0;

								 HEAP32[$$byval_copy>>2] = $8;

								 (_FormatText(8234,$$byval_copy)|0);

								 HEAP8[$2>>0] = 0;

								 $9 = ((($2)) + 1|0);

								 HEAP8[$9>>0] = -98;

								 $10 = ((($2)) + 2|0);

								 HEAP8[$10>>0] = 47;

								 $11 = ((($2)) + 3|0);

								 HEAP8[$11>>0] = -1;

								 ;HEAP8[$$byval_copy>>0]=HEAP8[$2>>0]|0;HEAP8[$$byval_copy+1>>0]=HEAP8[$2+1>>0]|0;HEAP8[$$byval_copy+2>>0]=HEAP8[$2+2>>0]|0;HEAP8[$$byval_copy+3>>0]=HEAP8[$2+3>>0]|0;

								 _DrawText(37283,$0,$1,20,$$byval_copy);

								 STACKTOP = sp;return;

								}

								function _emscripten_GetProcAddress($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0;

								 var $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0;

								 var $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0;

								 var $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0;

								 var $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0;

								 var $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0;

								 var $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0;

								 var $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0;

								 var $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0;

								 var $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0;

								 var $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0;

								 var $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0;

								 var $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $332 = 0;

								 var $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0, $350 = 0;

								 var $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0, $369 = 0;

								 var $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0, $387 = 0;

								 var $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0, $404 = 0;

								 var $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0, $422 = 0;

								 var $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0, $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0, $440 = 0;

								 var $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0, $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0, $459 = 0;

								 var $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0, $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0, $477 = 0;

								 var $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0, $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0, $495 = 0;

								 var $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0, $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0, $512 = 0;

								 var $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0, $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0, $530 = 0;

								 var $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0, $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0, $549 = 0;

								 var $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0;

								 var $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0;

								 var $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $1 = sp + 12|0;

								 $2 = sp + 8|0;

								 $3 = sp + 4|0;

								 $4 = sp;

								 HEAP32[$2>>2] = $0;

								 $5 = HEAP32[$2>>2]|0;

								 $6 = (_strlen($5)|0);

								 $7 = (($6) + 1)|0;

								 $8 = (_malloc($7)|0);

								 HEAP32[$3>>2] = $8;

								 $9 = HEAP32[$3>>2]|0;

								 $10 = HEAP32[$2>>2]|0;

								 (_strcpy($9,$10)|0);

								 $11 = HEAP32[$3>>2]|0;

								 $12 = (_strstr($11,8242)|0);

								 HEAP32[$4>>2] = $12;

								 $13 = HEAP32[$4>>2]|0;

								 $14 = ($13|0)!=(0|0);

								 if ($14) {

								  $15 = HEAP32[$4>>2]|0;

								  HEAP8[$15>>0] = 0;

								 }

								 $16 = HEAP32[$3>>2]|0;

								 $17 = (_strstr($16,8246)|0);

								 HEAP32[$4>>2] = $17;

								 $18 = HEAP32[$4>>2]|0;

								 $19 = ($18|0)!=(0|0);

								 if ($19) {

								  $20 = HEAP32[$4>>2]|0;

								  HEAP8[$20>>0] = 0;

								 }

								 $21 = HEAP32[$3>>2]|0;

								 $22 = (_strstr($21,8250)|0);

								 HEAP32[$4>>2] = $22;

								 $23 = HEAP32[$4>>2]|0;

								 $24 = ($23|0)!=(0|0);

								 if ($24) {

								  $25 = HEAP32[$4>>2]|0;

								  HEAP8[$25>>0] = 0;

								 }

								 $26 = HEAP32[$3>>2]|0;

								 $27 = (_strstr($26,8254)|0);

								 HEAP32[$4>>2] = $27;

								 $28 = HEAP32[$4>>2]|0;

								 $29 = ($28|0)!=(0|0);

								 if ($29) {

								  $30 = HEAP32[$4>>2]|0;

								  HEAP8[$30>>0] = 0;

								 }

								 $31 = HEAP32[$3>>2]|0;

								 $32 = (_strcmp($31,8260)|0);

								 $33 = ($32|0)!=(0);

								 do {

								  if ($33) {

								   $34 = HEAP32[$3>>2]|0;

								   $35 = (_strcmp($34,8298)|0);

								   $36 = ($35|0)!=(0);

								   if (!($36)) {

								    HEAP32[$3>>2] = 8317;

								    break;

								   }

								   $37 = HEAP32[$3>>2]|0;

								   $38 = (_strcmp($37,8330)|0);

								   $39 = ($38|0)!=(0);

								   if (!($39)) {

								    HEAP32[$3>>2] = 8351;

								    break;

								   }

								   $40 = HEAP32[$3>>2]|0;

								   $41 = (_strcmp($40,8366)|0);

								   $42 = ($41|0)!=(0);

								   if (!($42)) {

								    HEAP32[$3>>2] = 8381;

								    break;

								   }

								   $43 = HEAP32[$3>>2]|0;

								   $44 = (_strcmp($43,8396)|0);

								   $45 = ($44|0)!=(0);

								   if (!($45)) {

								    HEAP32[$3>>2] = 8411;

								   }

								  } else {

								   HEAP32[$3>>2] = 8282;

								  }

								 } while(0);

								 $46 = HEAP32[$3>>2]|0;

								 $47 = (_strcmp($46,8426)|0);

								 $48 = ($47|0)!=(0);

								 do {

								  if ($48) {

								   $49 = HEAP32[$3>>2]|0;

								   $50 = (_strcmp($49,8440)|0);

								   $51 = ($50|0)!=(0);

								   if (!($51)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $52 = HEAP32[$3>>2]|0;

								   $53 = (_strcmp($52,8452)|0);

								   $54 = ($53|0)!=(0);

								   if (!($54)) {

								    HEAP32[$1>>2] = 6;

								    break;

								   }

								   $55 = HEAP32[$3>>2]|0;

								   $56 = (_strcmp($55,8466)|0);

								   $57 = ($56|0)!=(0);

								   if (!($57)) {

								    HEAP32[$1>>2] = 7;

								    break;

								   }

								   $58 = HEAP32[$3>>2]|0;

								   $59 = (_strcmp($58,8478)|0);

								   $60 = ($59|0)!=(0);

								   if (!($60)) {

								    HEAP32[$1>>2] = 8;

								    break;

								   }

								   $61 = HEAP32[$3>>2]|0;

								   $62 = (_strcmp($61,8492)|0);

								   $63 = ($62|0)!=(0);

								   if (!($63)) {

								    HEAP32[$1>>2] = 9;

								    break;

								   }

								   $64 = HEAP32[$3>>2]|0;

								   $65 = (_strcmp($64,8506)|0);

								   $66 = ($65|0)!=(0);

								   if (!($66)) {

								    HEAP32[$1>>2] = 10;

								    break;

								   }

								   $67 = HEAP32[$3>>2]|0;

								   $68 = (_strcmp($67,8523)|0);

								   $69 = ($68|0)!=(0);

								   if (!($69)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $70 = HEAP32[$3>>2]|0;

								   $71 = (_strcmp($70,8546)|0);

								   $72 = ($71|0)!=(0);

								   if (!($72)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $73 = HEAP32[$3>>2]|0;

								   $74 = (_strcmp($73,8572)|0);

								   $75 = ($74|0)!=(0);

								   if (!($75)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $76 = HEAP32[$3>>2]|0;

								   $77 = (_strcmp($76,8585)|0);

								   $78 = ($77|0)!=(0);

								   if (!($78)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $79 = HEAP32[$3>>2]|0;

								   $80 = (_strcmp($79,8601)|0);

								   $81 = ($80|0)!=(0);

								   if (!($81)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $82 = HEAP32[$3>>2]|0;

								   $83 = (_strcmp($82,8614)|0);

								   $84 = ($83|0)!=(0);

								   if (!($84)) {

								    HEAP32[$1>>2] = 11;

								    break;

								   }

								   $85 = HEAP32[$3>>2]|0;

								   $86 = (_strcmp($85,8628)|0);

								   $87 = ($86|0)!=(0);

								   if (!($87)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $88 = HEAP32[$3>>2]|0;

								   $89 = (_strcmp($88,8648)|0);

								   $90 = ($89|0)!=(0);

								   if (!($90)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $91 = HEAP32[$3>>2]|0;

								   $92 = (_strcmp($91,8668)|0);

								   $93 = ($92|0)!=(0);

								   if (!($93)) {

								    HEAP32[$1>>2] = 4;

								    break;

								   }

								   $94 = HEAP32[$3>>2]|0;

								   $95 = (_strcmp($94,8685)|0);

								   $96 = ($95|0)!=(0);

								   if (!($96)) {

								    HEAP32[$1>>2] = 5;

								    break;

								   }

								   $97 = HEAP32[$3>>2]|0;

								   $98 = (_strcmp($97,8702)|0);

								   $99 = ($98|0)!=(0);

								   if (!($99)) {

								    HEAP32[$1>>2] = 4;

								    break;

								   }

								   $100 = HEAP32[$3>>2]|0;

								   $101 = (_strcmp($100,8714)|0);

								   $102 = ($101|0)!=(0);

								   if (!($102)) {

								    HEAP32[$1>>2] = 12;

								    break;

								   }

								   $103 = HEAP32[$3>>2]|0;

								   $104 = (_strcmp($103,8727)|0);

								   $105 = ($104|0)!=(0);

								   if (!($105)) {

								    HEAP32[$1>>2] = 13;

								    break;

								   }

								   $106 = HEAP32[$3>>2]|0;

								   $107 = (_strcmp($106,8743)|0);

								   $108 = ($107|0)!=(0);

								   if (!($108)) {

								    HEAP32[$1>>2] = 6;

								    break;

								   }

								   $109 = HEAP32[$3>>2]|0;

								   $110 = (_strcmp($109,8766)|0);

								   $111 = ($110|0)!=(0);

								   if (!($111)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $112 = HEAP32[$3>>2]|0;

								   $113 = (_strcmp($112,8779)|0);

								   $114 = ($113|0)!=(0);

								   if (!($114)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $115 = HEAP32[$3>>2]|0;

								   $116 = (_strcmp($115,8795)|0);

								   $117 = ($116|0)!=(0);

								   if (!($117)) {

								    HEAP32[$1>>2] = 5;

								    break;

								   }

								   $118 = HEAP32[$3>>2]|0;

								   $119 = (_strcmp($118,8806)|0);

								   $120 = ($119|0)!=(0);

								   if (!($120)) {

								    HEAP32[$1>>2] = 14;

								    break;

								   }

								   $121 = HEAP32[$3>>2]|0;

								   $122 = (_strcmp($121,8825)|0);

								   $123 = ($122|0)!=(0);

								   if (!($123)) {

								    HEAP32[$1>>2] = 15;

								    break;

								   }

								   $124 = HEAP32[$3>>2]|0;

								   $125 = (_strcmp($124,8847)|0);

								   $126 = ($125|0)!=(0);

								   if (!($126)) {

								    HEAP32[$1>>2] = 16;

								    break;

								   }

								   $127 = HEAP32[$3>>2]|0;

								   $128 = (_strcmp($127,8866)|0);

								   $129 = ($128|0)!=(0);

								   if (!($129)) {

								    HEAP32[$1>>2] = 7;

								    break;

								   }

								   $130 = HEAP32[$3>>2]|0;

								   $131 = (_strcmp($130,8895)|0);

								   $132 = ($131|0)!=(0);

								   if (!($132)) {

								    HEAP32[$1>>2] = 6;

								    break;

								   }

								   $133 = HEAP32[$3>>2]|0;

								   $134 = (_strcmp($133,8912)|0);

								   $135 = ($134|0)!=(0);

								   if (!($135)) {

								    HEAP32[$1>>2] = 8;

								    break;

								   }

								   $136 = HEAP32[$3>>2]|0;

								   $137 = (_strcmp($136,8927)|0);

								   $138 = ($137|0)!=(0);

								   if (!($138)) {

								    HEAP32[$1>>2] = 9;

								    break;

								   }

								   $139 = HEAP32[$3>>2]|0;

								   $140 = (_strcmp($139,8942)|0);

								   $141 = ($140|0)!=(0);

								   if (!($141)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $142 = HEAP32[$3>>2]|0;

								   $143 = (_strcmp($142,8963)|0);

								   $144 = ($143|0)!=(0);

								   if (!($144)) {

								    HEAP32[$1>>2] = 10;

								    break;

								   }

								   $145 = HEAP32[$3>>2]|0;

								   $146 = (_strcmp($145,8983)|0);

								   $147 = ($146|0)!=(0);

								   if (!($147)) {

								    HEAP32[$1>>2] = 11;

								    break;

								   }

								   $148 = HEAP32[$3>>2]|0;

								   $149 = (_strcmp($148,9003)|0);

								   $150 = ($149|0)!=(0);

								   if (!($150)) {

								    HEAP32[$1>>2] = 12;

								    break;

								   }

								   $151 = HEAP32[$3>>2]|0;

								   $152 = (_strcmp($151,9029)|0);

								   $153 = ($152|0)!=(0);

								   if (!($153)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $154 = HEAP32[$3>>2]|0;

								   $155 = (_strcmp($154,9048)|0);

								   $156 = ($155|0)!=(0);

								   if (!($156)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $157 = HEAP32[$3>>2]|0;

								   $158 = (_strcmp($157,9060)|0);

								   $159 = ($158|0)!=(0);

								   if (!($159)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $160 = HEAP32[$3>>2]|0;

								   $161 = (_strcmp($160,9072)|0);

								   $162 = ($161|0)!=(0);

								   if (!($162)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $163 = HEAP32[$3>>2]|0;

								   $164 = (_strcmp($163,9084)|0);

								   $165 = ($164|0)!=(0);

								   if (!($165)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $166 = HEAP32[$3>>2]|0;

								   $167 = (_strcmp($166,9096)|0);

								   $168 = ($167|0)!=(0);

								   if (!($168)) {

								    HEAP32[$1>>2] = 17;

								    break;

								   }

								   $169 = HEAP32[$3>>2]|0;

								   $170 = (_strcmp($169,9108)|0);

								   $171 = ($170|0)!=(0);

								   if (!($171)) {

								    HEAP32[$1>>2] = 13;

								    break;

								   }

								   $172 = HEAP32[$3>>2]|0;

								   $173 = (_strcmp($172,9120)|0);

								   $174 = ($173|0)!=(0);

								   if (!($174)) {

								    HEAP32[$1>>2] = 4;

								    break;

								   }

								   $175 = HEAP32[$3>>2]|0;

								   $176 = (_strcmp($175,9132)|0);

								   $177 = ($176|0)!=(0);

								   if (!($177)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $178 = HEAP32[$3>>2]|0;

								   $179 = (_strcmp($178,9144)|0);

								   $180 = ($179|0)!=(0);

								   if (!($180)) {

								    HEAP32[$1>>2] = 14;

								    break;

								   }

								   $181 = HEAP32[$3>>2]|0;

								   $182 = (_strcmp($181,9157)|0);

								   $183 = ($182|0)!=(0);

								   if (!($183)) {

								    HEAP32[$1>>2] = 15;

								    break;

								   }

								   $184 = HEAP32[$3>>2]|0;

								   $185 = (_strcmp($184,9170)|0);

								   $186 = ($185|0)!=(0);

								   if (!($186)) {

								    HEAP32[$1>>2] = 16;

								    break;

								   }

								   $187 = HEAP32[$3>>2]|0;

								   $188 = (_strcmp($187,9183)|0);

								   $189 = ($188|0)!=(0);

								   if (!($189)) {

								    HEAP32[$1>>2] = 17;

								    break;

								   }

								   $190 = HEAP32[$3>>2]|0;

								   $191 = (_strcmp($190,9196)|0);

								   $192 = ($191|0)!=(0);

								   if (!($192)) {

								    HEAP32[$1>>2] = 18;

								    break;

								   }

								   $193 = HEAP32[$3>>2]|0;

								   $194 = (_strcmp($193,9209)|0);

								   $195 = ($194|0)!=(0);

								   if (!($195)) {

								    HEAP32[$1>>2] = 19;

								    break;

								   }

								   $196 = HEAP32[$3>>2]|0;

								   $197 = (_strcmp($196,9222)|0);

								   $198 = ($197|0)!=(0);

								   if (!($198)) {

								    HEAP32[$1>>2] = 20;

								    break;

								   }

								   $199 = HEAP32[$3>>2]|0;

								   $200 = (_strcmp($199,9235)|0);

								   $201 = ($200|0)!=(0);

								   if (!($201)) {

								    HEAP32[$1>>2] = 21;

								    break;

								   }

								   $202 = HEAP32[$3>>2]|0;

								   $203 = (_strcmp($202,9248)|0);

								   $204 = ($203|0)!=(0);

								   if (!($204)) {

								    HEAP32[$1>>2] = 5;

								    break;

								   }

								   $205 = HEAP32[$3>>2]|0;

								   $206 = (_strcmp($205,9267)|0);

								   $207 = ($206|0)!=(0);

								   if (!($207)) {

								    HEAP32[$1>>2] = 6;

								    break;

								   }

								   $208 = HEAP32[$3>>2]|0;

								   $209 = (_strcmp($208,9286)|0);

								   $210 = ($209|0)!=(0);

								   if (!($210)) {

								    HEAP32[$1>>2] = 7;

								    break;

								   }

								   $211 = HEAP32[$3>>2]|0;

								   $212 = (_strcmp($211,9305)|0);

								   $213 = ($212|0)!=(0);

								   if (!($213)) {

								    HEAP32[$1>>2] = 18;

								    break;

								   }

								   $214 = HEAP32[$3>>2]|0;

								   $215 = (_strcmp($214,9318)|0);

								   $216 = ($215|0)!=(0);

								   if (!($216)) {

								    HEAP32[$1>>2] = 19;

								    break;

								   }

								   $217 = HEAP32[$3>>2]|0;

								   $218 = (_strcmp($217,9336)|0);

								   $219 = ($218|0)!=(0);

								   if (!($219)) {

								    HEAP32[$1>>2] = 20;

								    break;

								   }

								   $220 = HEAP32[$3>>2]|0;

								   $221 = (_strcmp($220,9354)|0);

								   $222 = ($221|0)!=(0);

								   if (!($222)) {

								    HEAP32[$1>>2] = 21;

								    break;

								   }

								   $223 = HEAP32[$3>>2]|0;

								   $224 = (_strcmp($223,9372)|0);

								   $225 = ($224|0)!=(0);

								   if (!($225)) {

								    HEAP32[$1>>2] = 22;

								    break;

								   }

								   $226 = HEAP32[$3>>2]|0;

								   $227 = (_strcmp($226,9390)|0);

								   $228 = ($227|0)!=(0);

								   if (!($228)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $229 = HEAP32[$3>>2]|0;

								   $230 = (_strcmp($229,9410)|0);

								   $231 = ($230|0)!=(0);

								   if (!($231)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $232 = HEAP32[$3>>2]|0;

								   $233 = (_strcmp($232,8351)|0);

								   $234 = ($233|0)!=(0);

								   if (!($234)) {

								    HEAP32[$1>>2] = 7;

								    break;

								   }

								   $235 = HEAP32[$3>>2]|0;

								   $236 = (_strcmp($235,9428)|0);

								   $237 = ($236|0)!=(0);

								   if (!($237)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $238 = HEAP32[$3>>2]|0;

								   $239 = (_strcmp($238,9443)|0);

								   $240 = ($239|0)!=(0);

								   if (!($240)) {

								    HEAP32[$1>>2] = 8;

								    break;

								   }

								   $241 = HEAP32[$3>>2]|0;

								   $242 = (_strcmp($241,9464)|0);

								   $243 = ($242|0)!=(0);

								   if (!($243)) {

								    HEAP32[$1>>2] = 9;

								    break;

								   }

								   $244 = HEAP32[$3>>2]|0;

								   $245 = (_strcmp($244,9479)|0);

								   $246 = ($245|0)!=(0);

								   if (!($246)) {

								    HEAP32[$1>>2] = 10;

								    break;

								   }

								   $247 = HEAP32[$3>>2]|0;

								   $248 = (_strcmp($247,9497)|0);

								   $249 = ($248|0)!=(0);

								   if (!($249)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $250 = HEAP32[$3>>2]|0;

								   $251 = (_strcmp($250,9513)|0);

								   $252 = ($251|0)!=(0);

								   if (!($252)) {

								    HEAP32[$1>>2] = 11;

								    break;

								   }

								   $253 = HEAP32[$3>>2]|0;

								   $254 = (_strcmp($253,9532)|0);

								   $255 = ($254|0)!=(0);

								   if (!($255)) {

								    HEAP32[$1>>2] = 22;

								    break;

								   }

								   $256 = HEAP32[$3>>2]|0;

								   $257 = (_strcmp($256,9546)|0);

								   $258 = ($257|0)!=(0);

								   if (!($258)) {

								    HEAP32[$1>>2] = 23;

								    break;

								   }

								   $259 = HEAP32[$3>>2]|0;

								   $260 = (_strcmp($259,9561)|0);

								   $261 = ($260|0)!=(0);

								   if (!($261)) {

								    HEAP32[$1>>2] = 8;

								    break;

								   }

								   $262 = HEAP32[$3>>2]|0;

								   $263 = (_strcmp($262,8282)|0);

								   $264 = ($263|0)!=(0);

								   if (!($264)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $265 = HEAP32[$3>>2]|0;

								   $266 = (_strcmp($265,9572)|0);

								   $267 = ($266|0)!=(0);

								   if (!($267)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $268 = HEAP32[$3>>2]|0;

								   $269 = (_strcmp($268,8381)|0);

								   $270 = ($269|0)!=(0);

								   if (!($270)) {

								    HEAP32[$1>>2] = 23;

								    break;

								   }

								   $271 = HEAP32[$3>>2]|0;

								   $272 = (_strcmp($271,8411)|0);

								   $273 = ($272|0)!=(0);

								   if (!($273)) {

								    HEAP32[$1>>2] = 24;

								    break;

								   }

								   $274 = HEAP32[$3>>2]|0;

								   $275 = (_strcmp($274,9588)|0);

								   $276 = ($275|0)!=(0);

								   if (!($276)) {

								    HEAP32[$1>>2] = 12;

								    break;

								   }

								   $277 = HEAP32[$3>>2]|0;

								   $278 = (_strcmp($277,9615)|0);

								   $279 = ($278|0)!=(0);

								   if (!($279)) {

								    HEAP32[$1>>2] = 4;

								    break;

								   }

								   $280 = HEAP32[$3>>2]|0;

								   $281 = (_strcmp($280,9629)|0);

								   $282 = ($281|0)!=(0);

								   if (!($282)) {

								    HEAP32[$1>>2] = 13;

								    break;

								   }

								   $283 = HEAP32[$3>>2]|0;

								   $284 = (_strcmp($283,8317)|0);

								   $285 = ($284|0)!=(0);

								   if (!($285)) {

								    HEAP32[$1>>2] = 5;

								    break;

								   }

								   $286 = HEAP32[$3>>2]|0;

								   $287 = (_strcmp($286,9649)|0);

								   $288 = ($287|0)!=(0);

								   if (!($288)) {

								    HEAP32[$1>>2] = 6;

								    break;

								   }

								   $289 = HEAP32[$3>>2]|0;

								   $290 = (_strcmp($289,9667)|0);

								   $291 = ($290|0)!=(0);

								   if (!($291)) {

								    HEAP32[$1>>2] = 9;

								    break;

								   }

								   $292 = HEAP32[$3>>2]|0;

								   $293 = (_strcmp($292,9679)|0);

								   $294 = ($293|0)!=(0);

								   if (!($294)) {

								    HEAP32[$1>>2] = 24;

								    break;

								   }

								   $295 = HEAP32[$3>>2]|0;

								   $296 = (_strcmp($295,9700)|0);

								   $297 = ($296|0)!=(0);

								   if (!($297)) {

								    HEAP32[$1>>2] = 25;

								    break;

								   }

								   $298 = HEAP32[$3>>2]|0;

								   $299 = (_strcmp($298,9718)|0);

								   $300 = ($299|0)!=(0);

								   if (!($300)) {

								    HEAP32[$1>>2] = 26;

								    break;

								   }

								   $301 = HEAP32[$3>>2]|0;

								   $302 = (_strcmp($301,9736)|0);

								   $303 = ($302|0)!=(0);

								   if (!($303)) {

								    HEAP32[$1>>2] = 27;

								    break;

								   }

								   $304 = HEAP32[$3>>2]|0;

								   $305 = (_strcmp($304,9757)|0);

								   $306 = ($305|0)!=(0);

								   if (!($306)) {

								    HEAP32[$1>>2] = 14;

								    break;

								   }

								   $307 = HEAP32[$3>>2]|0;

								   $308 = (_strcmp($307,9783)|0);

								   $309 = ($308|0)!=(0);

								   if (!($309)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $310 = HEAP32[$3>>2]|0;

								   $311 = (_strcmp($310,9806)|0);

								   $312 = ($311|0)!=(0);

								   if (!($312)) {

								    HEAP32[$1>>2] = 15;

								    break;

								   }

								   $313 = HEAP32[$3>>2]|0;

								   $314 = (_strcmp($313,9844)|0);

								   $315 = ($314|0)!=(0);

								   if (!($315)) {

								    HEAP32[$1>>2] = 10;

								    break;

								   }

								   $316 = HEAP32[$3>>2]|0;

								   $317 = (_strcmp($316,9860)|0);

								   $318 = ($317|0)!=(0);

								   if (!($318)) {

								    HEAP32[$1>>2] = 7;

								    break;

								   }

								   $319 = HEAP32[$3>>2]|0;

								   $320 = (_strcmp($319,9875)|0);

								   $321 = ($320|0)!=(0);

								   if (!($321)) {

								    HEAP32[$1>>2] = 25;

								    break;

								   }

								   $322 = HEAP32[$3>>2]|0;

								   $323 = (_strcmp($322,9898)|0);

								   $324 = ($323|0)!=(0);

								   if (!($324)) {

								    HEAP32[$1>>2] = 16;

								    break;

								   }

								   $325 = HEAP32[$3>>2]|0;

								   $326 = (_strcmp($325,9911)|0);

								   $327 = ($326|0)!=(0);

								   if (!($327)) {

								    HEAP32[$1>>2] = 28;

								    break;

								   }

								   $328 = HEAP32[$3>>2]|0;

								   $329 = (_strcmp($328,9925)|0);

								   $330 = ($329|0)!=(0);

								   if (!($330)) {

								    HEAP32[$1>>2] = 29;

								    break;

								   }

								   $331 = HEAP32[$3>>2]|0;

								   $332 = (_strcmp($331,9939)|0);

								   $333 = ($332|0)!=(0);

								   if (!($333)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $334 = HEAP32[$3>>2]|0;

								   $335 = (_strcmp($334,9959)|0);

								   $336 = ($335|0)!=(0);

								   if (!($336)) {

								    HEAP32[$1>>2] = 8;

								    break;

								   }

								   $337 = HEAP32[$3>>2]|0;

								   $338 = (_strcmp($337,9979)|0);

								   $339 = ($338|0)!=(0);

								   if (!($339)) {

								    HEAP32[$1>>2] = 17;

								    break;

								   }

								   $340 = HEAP32[$3>>2]|0;

								   $341 = (_strcmp($340,9995)|0);

								   $342 = ($341|0)!=(0);

								   if (!($342)) {

								    HEAP32[$1>>2] = 18;

								    break;

								   }

								   $343 = HEAP32[$3>>2]|0;

								   $344 = (_strcmp($343,10013)|0);

								   $345 = ($344|0)!=(0);

								   if (!($345)) {

								    HEAP32[$1>>2] = 26;

								    break;

								   }

								   $346 = HEAP32[$3>>2]|0;

								   $347 = (_strcmp($346,10029)|0);

								   $348 = ($347|0)!=(0);

								   if (!($348)) {

								    HEAP32[$1>>2] = 19;

								    break;

								   }

								   $349 = HEAP32[$3>>2]|0;

								   $350 = (_strcmp($349,10044)|0);

								   $351 = ($350|0)!=(0);

								   if (!($351)) {

								    HEAP32[$1>>2] = 9;

								    break;

								   }

								   $352 = HEAP32[$3>>2]|0;

								   $353 = (_strcmp($352,10066)|0);

								   $354 = ($353|0)!=(0);

								   if (!($354)) {

								    HEAP32[$1>>2] = 30;

								    break;

								   }

								   $355 = HEAP32[$3>>2]|0;

								   $356 = (_strcmp($355,10084)|0);

								   $357 = ($356|0)!=(0);

								   if (!($357)) {

								    HEAP32[$1>>2] = 31;

								    break;

								   }

								   $358 = HEAP32[$3>>2]|0;

								   $359 = (_strcmp($358,10105)|0);

								   $360 = ($359|0)!=(0);

								   if (!($360)) {

								    HEAP32[$1>>2] = 10;

								    break;

								   }

								   $361 = HEAP32[$3>>2]|0;

								   $362 = (_strcmp($361,10123)|0);

								   $363 = ($362|0)!=(0);

								   if (!($363)) {

								    HEAP32[$1>>2] = 11;

								    break;

								   }

								   $364 = HEAP32[$3>>2]|0;

								   $365 = (_strcmp($364,10136)|0);

								   $366 = ($365|0)!=(0);

								   if (!($366)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $367 = HEAP32[$3>>2]|0;

								   $368 = (_strcmp($367,10151)|0);

								   $369 = ($368|0)!=(0);

								   if (!($369)) {

								    HEAP32[$1>>2] = 12;

								    break;

								   }

								   $370 = HEAP32[$3>>2]|0;

								   $371 = (_strcmp($370,10165)|0);

								   $372 = ($371|0)!=(0);

								   if (!($372)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $373 = HEAP32[$3>>2]|0;

								   $374 = (_strcmp($373,10175)|0);

								   $375 = ($374|0)!=(0);

								   if (!($375)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $376 = HEAP32[$3>>2]|0;

								   $377 = (_strcmp($376,10185)|0);

								   $378 = ($377|0)!=(0);

								   if (!($378)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $379 = HEAP32[$3>>2]|0;

								   $380 = (_strcmp($379,10207)|0);

								   $381 = ($380|0)!=(0);

								   if (!($381)) {

								    HEAP32[$1>>2] = 13;

								    break;

								   }

								   $382 = HEAP32[$3>>2]|0;

								   $383 = (_strcmp($382,10233)|0);

								   $384 = ($383|0)!=(0);

								   if (!($384)) {

								    HEAP32[$1>>2] = 14;

								    break;

								   }

								   $385 = HEAP32[$3>>2]|0;

								   $386 = (_strcmp($385,10260)|0);

								   $387 = ($386|0)!=(0);

								   if (!($387)) {

								    HEAP32[$1>>2] = 27;

								    break;

								   }

								   $388 = HEAP32[$3>>2]|0;

								   $389 = (_strcmp($388,10273)|0);

								   $390 = ($389|0)!=(0);

								   if (!($390)) {

								    HEAP32[$1>>2] = 20;

								    break;

								   }

								   $391 = HEAP32[$3>>2]|0;

								   $392 = (_strcmp($391,10288)|0);

								   $393 = ($392|0)!=(0);

								   if (!($393)) {

								    HEAP32[$1>>2] = 4;

								    break;

								   }

								   $394 = HEAP32[$3>>2]|0;

								   $395 = (_strcmp($394,10303)|0);

								   $396 = ($395|0)!=(0);

								   if (!($396)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $397 = HEAP32[$3>>2]|0;

								   $398 = (_strcmp($397,10327)|0);

								   $399 = ($398|0)!=(0);

								   if (!($399)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $400 = HEAP32[$3>>2]|0;

								   $401 = (_strcmp($400,10338)|0);

								   $402 = ($401|0)!=(0);

								   if (!($402)) {

								    HEAP32[$1>>2] = 32;

								    break;

								   }

								   $403 = HEAP32[$3>>2]|0;

								   $404 = (_strcmp($403,10360)|0);

								   $405 = ($404|0)!=(0);

								   if (!($405)) {

								    HEAP32[$1>>2] = 21;

								    break;

								   }

								   $406 = HEAP32[$3>>2]|0;

								   $407 = (_strcmp($406,10382)|0);

								   $408 = ($407|0)!=(0);

								   if (!($408)) {

								    HEAP32[$1>>2] = 5;

								    break;

								   }

								   $409 = HEAP32[$3>>2]|0;

								   $410 = (_strcmp($409,10406)|0);

								   $411 = ($410|0)!=(0);

								   if (!($411)) {

								    HEAP32[$1>>2] = 4;

								    break;

								   }

								   $412 = HEAP32[$3>>2]|0;

								   $413 = (_strcmp($412,10415)|0);

								   $414 = ($413|0)!=(0);

								   if (!($414)) {

								    HEAP32[$1>>2] = 5;

								    break;

								   }

								   $415 = HEAP32[$3>>2]|0;

								   $416 = (_strcmp($415,10423)|0);

								   $417 = ($416|0)!=(0);

								   if (!($417)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $418 = HEAP32[$3>>2]|0;

								   $419 = (_strcmp($418,10436)|0);

								   $420 = ($419|0)!=(0);

								   if (!($420)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $421 = HEAP32[$3>>2]|0;

								   $422 = (_strcmp($421,10450)|0);

								   $423 = ($422|0)!=(0);

								   if (!($423)) {

								    HEAP32[$1>>2] = 15;

								    break;

								   }

								   $424 = HEAP32[$3>>2]|0;

								   $425 = (_strcmp($424,10462)|0);

								   $426 = ($425|0)!=(0);

								   if (!($426)) {

								    HEAP32[$1>>2] = 16;

								    break;

								   }

								   $427 = HEAP32[$3>>2]|0;

								   $428 = (_strcmp($427,10471)|0);

								   $429 = ($428|0)!=(0);

								   if (!($429)) {

								    HEAP32[$1>>2] = 17;

								    break;

								   }

								   $430 = HEAP32[$3>>2]|0;

								   $431 = (_strcmp($430,10481)|0);

								   $432 = ($431|0)!=(0);

								   if (!($432)) {

								    HEAP32[$1>>2] = 18;

								    break;

								   }

								   $433 = HEAP32[$3>>2]|0;

								   $434 = (_strcmp($433,10493)|0);

								   $435 = ($434|0)!=(0);

								   if (!($435)) {

								    HEAP32[$1>>2] = 19;

								    break;

								   }

								   $436 = HEAP32[$3>>2]|0;

								   $437 = (_strcmp($436,10504)|0);

								   $438 = ($437|0)!=(0);

								   if (!($438)) {

								    HEAP32[$1>>2] = 20;

								    break;

								   }

								   $439 = HEAP32[$3>>2]|0;

								   $440 = (_strcmp($439,10512)|0);

								   $441 = ($440|0)!=(0);

								   if (!($441)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $442 = HEAP32[$3>>2]|0;

								   $443 = (_strcmp($442,10524)|0);

								   $444 = ($443|0)!=(0);

								   if (!($444)) {

								    HEAP32[$1>>2] = 21;

								    break;

								   }

								   $445 = HEAP32[$3>>2]|0;

								   $446 = (_strcmp($445,10539)|0);

								   $447 = ($446|0)!=(0);

								   if (!($447)) {

								    HEAP32[$1>>2] = 22;

								    break;

								   }

								   $448 = HEAP32[$3>>2]|0;

								   $449 = (_strcmp($448,10551)|0);

								   $450 = ($449|0)!=(0);

								   if (!($450)) {

								    HEAP32[$1>>2] = 23;

								    break;

								   }

								   $451 = HEAP32[$3>>2]|0;

								   $452 = (_strcmp($451,10565)|0);

								   $453 = ($452|0)!=(0);

								   if (!($453)) {

								    HEAP32[$1>>2] = 11;

								    break;

								   }

								   $454 = HEAP32[$3>>2]|0;

								   $455 = (_strcmp($454,10590)|0);

								   $456 = ($455|0)!=(0);

								   if (!($456)) {

								    HEAP32[$1>>2] = 24;

								    break;

								   }

								   $457 = HEAP32[$3>>2]|0;

								   $458 = (_strcmp($457,10607)|0);

								   $459 = ($458|0)!=(0);

								   if (!($459)) {

								    HEAP32[$1>>2] = 25;

								    break;

								   }

								   $460 = HEAP32[$3>>2]|0;

								   $461 = (_strcmp($460,10623)|0);

								   $462 = ($461|0)!=(0);

								   if (!($462)) {

								    HEAP32[$1>>2] = 26;

								    break;

								   }

								   $463 = HEAP32[$3>>2]|0;

								   $464 = (_strcmp($463,10639)|0);

								   $465 = ($464|0)!=(0);

								   if (!($465)) {

								    HEAP32[$1>>2] = 12;

								    break;

								   }

								   $466 = HEAP32[$3>>2]|0;

								   $467 = (_strcmp($466,10651)|0);

								   $468 = ($467|0)!=(0);

								   if (!($468)) {

								    HEAP32[$1>>2] = 33;

								    break;

								   }

								   $469 = HEAP32[$3>>2]|0;

								   $470 = (_strcmp($469,10663)|0);

								   $471 = ($470|0)!=(0);

								   if (!($471)) {

								    HEAP32[$1>>2] = 34;

								    break;

								   }

								   $472 = HEAP32[$3>>2]|0;

								   $473 = (_strcmp($472,10687)|0);

								   $474 = ($473|0)!=(0);

								   if (!($474)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $475 = HEAP32[$3>>2]|0;

								   $476 = (_strcmp($475,10700)|0);

								   $477 = ($476|0)!=(0);

								   if (!($477)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $478 = HEAP32[$3>>2]|0;

								   $479 = (_strcmp($478,10714)|0);

								   $480 = ($479|0)!=(0);

								   if (!($480)) {

								    HEAP32[$1>>2] = 35;

								    break;

								   }

								   $481 = HEAP32[$3>>2]|0;

								   $482 = (_strcmp($481,10736)|0);

								   $483 = ($482|0)!=(0);

								   if (!($483)) {

								    HEAP32[$1>>2] = 36;

								    break;

								   }

								   $484 = HEAP32[$3>>2]|0;

								   $485 = (_strcmp($484,10743)|0);

								   $486 = ($485|0)!=(0);

								   if (!($486)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $487 = HEAP32[$3>>2]|0;

								   $488 = (_strcmp($487,10759)|0);

								   $489 = ($488|0)!=(0);

								   if (!($489)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $490 = HEAP32[$3>>2]|0;

								   $491 = (_strcmp($490,10776)|0);

								   $492 = ($491|0)!=(0);

								   if (!($492)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $493 = HEAP32[$3>>2]|0;

								   $494 = (_strcmp($493,10793)|0);

								   $495 = ($494|0)!=(0);

								   if (!($495)) {

								    HEAP32[$1>>2] = 28;

								    break;

								   }

								   $496 = HEAP32[$3>>2]|0;

								   $497 = (_strcmp($496,10809)|0);

								   $498 = ($497|0)!=(0);

								   if (!($498)) {

								    HEAP32[$1>>2] = 1;

								    break;

								   }

								   $499 = HEAP32[$3>>2]|0;

								   $500 = (_strcmp($499,10825)|0);

								   $501 = ($500|0)!=(0);

								   if (!($501)) {

								    HEAP32[$1>>2] = 4;

								    break;

								   }

								   $502 = HEAP32[$3>>2]|0;

								   $503 = (_strcmp($502,10842)|0);

								   $504 = ($503|0)!=(0);

								   if (!($504)) {

								    HEAP32[$1>>2] = 29;

								    break;

								   }

								   $505 = HEAP32[$3>>2]|0;

								   $506 = (_strcmp($505,10856)|0);

								   $507 = ($506|0)!=(0);

								   if (!($507)) {

								    HEAP32[$1>>2] = 30;

								    break;

								   }

								   $508 = HEAP32[$3>>2]|0;

								   $509 = (_strcmp($508,10868)|0);

								   $510 = ($509|0)!=(0);

								   if (!($510)) {

								    HEAP32[$1>>2] = 22;

								    break;

								   }

								   $511 = HEAP32[$3>>2]|0;

								   $512 = (_strcmp($511,10879)|0);

								   $513 = ($512|0)!=(0);

								   if (!($513)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $514 = HEAP32[$3>>2]|0;

								   $515 = (_strcmp($514,10892)|0);

								   $516 = ($515|0)!=(0);

								   if (!($516)) {

								    HEAP32[$1>>2] = 23;

								    break;

								   }

								   $517 = HEAP32[$3>>2]|0;

								   $518 = (_strcmp($517,10902)|0);

								   $519 = ($518|0)!=(0);

								   if (!($519)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $520 = HEAP32[$3>>2]|0;

								   $521 = (_strcmp($520,10919)|0);

								   $522 = ($521|0)!=(0);

								   if (!($522)) {

								    HEAP32[$1>>2] = 24;

								    break;

								   }

								   $523 = HEAP32[$3>>2]|0;

								   $524 = (_strcmp($523,10931)|0);

								   $525 = ($524|0)!=(0);

								   if (!($525)) {

								    HEAP32[$1>>2] = 25;

								    break;

								   }

								   $526 = HEAP32[$3>>2]|0;

								   $527 = (_strcmp($526,10953)|0);

								   $528 = ($527|0)!=(0);

								   if (!($528)) {

								    HEAP32[$1>>2] = 26;

								    break;

								   }

								   $529 = HEAP32[$3>>2]|0;

								   $530 = (_strcmp($529,10973)|0);

								   $531 = ($530|0)!=(0);

								   if (!($531)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $532 = HEAP32[$3>>2]|0;

								   $533 = (_strcmp($532,10986)|0);

								   $534 = ($533|0)!=(0);

								   if (!($534)) {

								    HEAP32[$1>>2] = 27;

								    break;

								   }

								   $535 = HEAP32[$3>>2]|0;

								   $536 = (_strcmp($535,11008)|0);

								   $537 = ($536|0)!=(0);

								   if (!($537)) {

								    HEAP32[$1>>2] = 28;

								    break;

								   }

								   $538 = HEAP32[$3>>2]|0;

								   $539 = (_strcmp($538,11028)|0);

								   $540 = ($539|0)!=(0);

								   if (!($540)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $541 = HEAP32[$3>>2]|0;

								   $542 = (_strcmp($541,11045)|0);

								   $543 = ($542|0)!=(0);

								   if (!($543)) {

								    HEAP32[$1>>2] = 2;

								    break;

								   }

								   $544 = HEAP32[$3>>2]|0;

								   $545 = (_strcmp($544,11062)|0);

								   $546 = ($545|0)!=(0);

								   if (!($546)) {

								    HEAP32[$1>>2] = 3;

								    break;

								   }

								   $547 = HEAP32[$3>>2]|0;

								   $548 = (_strcmp($547,11082)|0);

								   $549 = ($548|0)!=(0);

								   if ($549) {

								    $550 = HEAP32[$2>>2]|0;

								    $551 = HEAP32[$3>>2]|0;

								    $552 = _emscripten_asm_const_iii(0, ($550|0), ($551|0))|0;

								    HEAP32[$1>>2] = 0;

								    break;

								   } else {

								    HEAP32[$1>>2] = 37;

								    break;

								   }

								  } else {

								   HEAP32[$1>>2] = 5;

								  }

								 } while(0);

								 $553 = HEAP32[$1>>2]|0;

								 STACKTOP = sp;return ($553|0);

								}

								function _emscripten_get_global_libc() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return (33268|0);

								}

								function ___emscripten_pthread_data_constructor() {

								 var $0 = 0, $1 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_pthread_self()|0);

								 $1 = ((($0)) + 188|0);

								 HEAP32[$1>>2] = (33308);

								 return;

								}

								function ___stdio_close($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $vararg_buffer = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $vararg_buffer = sp;

								 $1 = ((($0)) + 60|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = (_dummy_736($2)|0);

								 HEAP32[$vararg_buffer>>2] = $3;

								 $4 = (___syscall6(6,($vararg_buffer|0))|0);

								 $5 = (___syscall_ret($4)|0);

								 STACKTOP = sp;return ($5|0);

								}

								function ___stdio_write($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$0 = 0, $$04756 = 0, $$04855 = 0, $$04954 = 0, $$051 = 0, $$1 = 0, $$150 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0;

								 var $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0;

								 var $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $vararg_buffer = 0, $vararg_buffer3 = 0, $vararg_ptr1 = 0, $vararg_ptr2 = 0, $vararg_ptr6 = 0;

								 var $vararg_ptr7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 48|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(48|0);

								 $vararg_buffer3 = sp + 16|0;

								 $vararg_buffer = sp;

								 $3 = sp + 32|0;

								 $4 = ((($0)) + 28|0);

								 $5 = HEAP32[$4>>2]|0;

								 HEAP32[$3>>2] = $5;

								 $6 = ((($3)) + 4|0);

								 $7 = ((($0)) + 20|0);

								 $8 = HEAP32[$7>>2]|0;

								 $9 = (($8) - ($5))|0;

								 HEAP32[$6>>2] = $9;

								 $10 = ((($3)) + 8|0);

								 HEAP32[$10>>2] = $1;

								 $11 = ((($3)) + 12|0);

								 HEAP32[$11>>2] = $2;

								 $12 = (($9) + ($2))|0;

								 $13 = ((($0)) + 60|0);

								 $14 = HEAP32[$13>>2]|0;

								 $15 = $3;

								 HEAP32[$vararg_buffer>>2] = $14;

								 $vararg_ptr1 = ((($vararg_buffer)) + 4|0);

								 HEAP32[$vararg_ptr1>>2] = $15;

								 $vararg_ptr2 = ((($vararg_buffer)) + 8|0);

								 HEAP32[$vararg_ptr2>>2] = 2;

								 $16 = (___syscall146(146,($vararg_buffer|0))|0);

								 $17 = (___syscall_ret($16)|0);

								 $18 = ($12|0)==($17|0);

								 L1: do {

								  if ($18) {

								   label = 3;

								  } else {

								   $$04756 = 2;$$04855 = $12;$$04954 = $3;$26 = $17;

								   while(1) {

								    $25 = ($26|0)<(0);

								    if ($25) {

								     break;

								    }

								    $34 = (($$04855) - ($26))|0;

								    $35 = ((($$04954)) + 4|0);

								    $36 = HEAP32[$35>>2]|0;

								    $37 = ($26>>>0)>($36>>>0);

								    $38 = ((($$04954)) + 8|0);

								    $$150 = $37 ? $38 : $$04954;

								    $39 = $37 << 31 >> 31;

								    $$1 = (($39) + ($$04756))|0;

								    $40 = $37 ? $36 : 0;

								    $$0 = (($26) - ($40))|0;

								    $41 = HEAP32[$$150>>2]|0;

								    $42 = (($41) + ($$0)|0);

								    HEAP32[$$150>>2] = $42;

								    $43 = ((($$150)) + 4|0);

								    $44 = HEAP32[$43>>2]|0;

								    $45 = (($44) - ($$0))|0;

								    HEAP32[$43>>2] = $45;

								    $46 = HEAP32[$13>>2]|0;

								    $47 = $$150;

								    HEAP32[$vararg_buffer3>>2] = $46;

								    $vararg_ptr6 = ((($vararg_buffer3)) + 4|0);

								    HEAP32[$vararg_ptr6>>2] = $47;

								    $vararg_ptr7 = ((($vararg_buffer3)) + 8|0);

								    HEAP32[$vararg_ptr7>>2] = $$1;

								    $48 = (___syscall146(146,($vararg_buffer3|0))|0);

								    $49 = (___syscall_ret($48)|0);

								    $50 = ($34|0)==($49|0);

								    if ($50) {

								     label = 3;

								     break L1;

								    } else {

								     $$04756 = $$1;$$04855 = $34;$$04954 = $$150;$26 = $49;

								    }

								   }

								   $27 = ((($0)) + 16|0);

								   HEAP32[$27>>2] = 0;

								   HEAP32[$4>>2] = 0;

								   HEAP32[$7>>2] = 0;

								   $28 = HEAP32[$0>>2]|0;

								   $29 = $28 | 32;

								   HEAP32[$0>>2] = $29;

								   $30 = ($$04756|0)==(2);

								   if ($30) {

								    $$051 = 0;

								   } else {

								    $31 = ((($$04954)) + 4|0);

								    $32 = HEAP32[$31>>2]|0;

								    $33 = (($2) - ($32))|0;

								    $$051 = $33;

								   }

								  }

								 } while(0);

								 if ((label|0) == 3) {

								  $19 = ((($0)) + 44|0);

								  $20 = HEAP32[$19>>2]|0;

								  $21 = ((($0)) + 48|0);

								  $22 = HEAP32[$21>>2]|0;

								  $23 = (($20) + ($22)|0);

								  $24 = ((($0)) + 16|0);

								  HEAP32[$24>>2] = $23;

								  HEAP32[$4>>2] = $20;

								  HEAP32[$7>>2] = $20;

								  $$051 = $2;

								 }

								 STACKTOP = sp;return ($$051|0);

								}

								function ___stdio_seek($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$pre = 0, $10 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $vararg_buffer = 0, $vararg_ptr1 = 0, $vararg_ptr2 = 0, $vararg_ptr3 = 0, $vararg_ptr4 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $vararg_buffer = sp;

								 $3 = sp + 20|0;

								 $4 = ((($0)) + 60|0);

								 $5 = HEAP32[$4>>2]|0;

								 $6 = $3;

								 HEAP32[$vararg_buffer>>2] = $5;

								 $vararg_ptr1 = ((($vararg_buffer)) + 4|0);

								 HEAP32[$vararg_ptr1>>2] = 0;

								 $vararg_ptr2 = ((($vararg_buffer)) + 8|0);

								 HEAP32[$vararg_ptr2>>2] = $1;

								 $vararg_ptr3 = ((($vararg_buffer)) + 12|0);

								 HEAP32[$vararg_ptr3>>2] = $6;

								 $vararg_ptr4 = ((($vararg_buffer)) + 16|0);

								 HEAP32[$vararg_ptr4>>2] = $2;

								 $7 = (___syscall140(140,($vararg_buffer|0))|0);

								 $8 = (___syscall_ret($7)|0);

								 $9 = ($8|0)<(0);

								 if ($9) {

								  HEAP32[$3>>2] = -1;

								  $10 = -1;

								 } else {

								  $$pre = HEAP32[$3>>2]|0;

								  $10 = $$pre;

								 }

								 STACKTOP = sp;return ($10|0);

								}

								function ___syscall_ret($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ($0>>>0)>(4294963200);

								 if ($1) {

								  $2 = (0 - ($0))|0;

								  $3 = (___errno_location()|0);

								  HEAP32[$3>>2] = $2;

								  $$0 = -1;

								 } else {

								  $$0 = $0;

								 }

								 return ($$0|0);

								}

								function ___errno_location() {

								 var $0 = 0, $1 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (___pthread_self_108()|0);

								 $1 = ((($0)) + 64|0);

								 return ($1|0);

								}

								function ___pthread_self_108() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_pthread_self()|0);

								 return ($0|0);

								}

								function _dummy_736($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return ($0|0);

								}

								function ___stdout_write($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $vararg_buffer = 0, $vararg_ptr1 = 0, $vararg_ptr2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $vararg_buffer = sp;

								 $3 = sp + 16|0;

								 $4 = ((($0)) + 36|0);

								 HEAP32[$4>>2] = 9;

								 $5 = HEAP32[$0>>2]|0;

								 $6 = $5 & 64;

								 $7 = ($6|0)==(0);

								 if ($7) {

								  $8 = ((($0)) + 60|0);

								  $9 = HEAP32[$8>>2]|0;

								  $10 = $3;

								  HEAP32[$vararg_buffer>>2] = $9;

								  $vararg_ptr1 = ((($vararg_buffer)) + 4|0);

								  HEAP32[$vararg_ptr1>>2] = 21523;

								  $vararg_ptr2 = ((($vararg_buffer)) + 8|0);

								  HEAP32[$vararg_ptr2>>2] = $10;

								  $11 = (___syscall54(54,($vararg_buffer|0))|0);

								  $12 = ($11|0)==(0);

								  if (!($12)) {

								   $13 = ((($0)) + 75|0);

								   HEAP8[$13>>0] = -1;

								  }

								 }

								 $14 = (___stdio_write($0,$1,$2)|0);

								 STACKTOP = sp;return ($14|0);

								}

								function _strcmp($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$011 = 0, $$0710 = 0, $$lcssa = 0, $$lcssa8 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond9 = 0, label = 0;

								 var sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP8[$0>>0]|0;

								 $3 = HEAP8[$1>>0]|0;

								 $4 = ($2<<24>>24)!=($3<<24>>24);

								 $5 = ($2<<24>>24)==(0);

								 $or$cond9 = $5 | $4;

								 if ($or$cond9) {

								  $$lcssa = $3;$$lcssa8 = $2;

								 } else {

								  $$011 = $1;$$0710 = $0;

								  while(1) {

								   $6 = ((($$0710)) + 1|0);

								   $7 = ((($$011)) + 1|0);

								   $8 = HEAP8[$6>>0]|0;

								   $9 = HEAP8[$7>>0]|0;

								   $10 = ($8<<24>>24)!=($9<<24>>24);

								   $11 = ($8<<24>>24)==(0);

								   $or$cond = $11 | $10;

								   if ($or$cond) {

								    $$lcssa = $9;$$lcssa8 = $8;

								    break;

								   } else {

								    $$011 = $7;$$0710 = $6;

								   }

								  }

								 }

								 $12 = $$lcssa8&255;

								 $13 = $$lcssa&255;

								 $14 = (($12) - ($13))|0;

								 return ($14|0);

								}

								function _memcmp($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$01318 = 0, $$01417 = 0, $$019 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ($2|0)==(0);

								 L1: do {

								  if ($3) {

								   $14 = 0;

								  } else {

								   $$01318 = $0;$$01417 = $2;$$019 = $1;

								   while(1) {

								    $4 = HEAP8[$$01318>>0]|0;

								    $5 = HEAP8[$$019>>0]|0;

								    $6 = ($4<<24>>24)==($5<<24>>24);

								    if (!($6)) {

								     break;

								    }

								    $7 = (($$01417) + -1)|0;

								    $8 = ((($$01318)) + 1|0);

								    $9 = ((($$019)) + 1|0);

								    $10 = ($7|0)==(0);

								    if ($10) {

								     $14 = 0;

								     break L1;

								    } else {

								     $$01318 = $8;$$01417 = $7;$$019 = $9;

								    }

								   }

								   $11 = $4&255;

								   $12 = $5&255;

								   $13 = (($11) - ($12))|0;

								   $14 = $13;

								  }

								 } while(0);

								 return ($14|0);

								}

								function _vsprintf($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = (_vsnprintf($0,2147483647,$1,$2)|0);

								 return ($3|0);

								}

								function _vsnprintf($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $$$015 = 0, $$0 = 0, $$014 = 0, $$015 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 128|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(128|0);

								 $4 = sp + 124|0;

								 $5 = sp;

								 dest=$5; src=3124; stop=dest+124|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0));

								 $6 = (($1) + -1)|0;

								 $7 = ($6>>>0)>(2147483646);

								 if ($7) {

								  $8 = ($1|0)==(0);

								  if ($8) {

								   $$014 = $4;$$015 = 1;

								   label = 4;

								  } else {

								   $9 = (___errno_location()|0);

								   HEAP32[$9>>2] = 75;

								   $$0 = -1;

								  }

								 } else {

								  $$014 = $0;$$015 = $1;

								  label = 4;

								 }

								 if ((label|0) == 4) {

								  $10 = $$014;

								  $11 = (-2 - ($10))|0;

								  $12 = ($$015>>>0)>($11>>>0);

								  $$$015 = $12 ? $11 : $$015;

								  $13 = ((($5)) + 48|0);

								  HEAP32[$13>>2] = $$$015;

								  $14 = ((($5)) + 20|0);

								  HEAP32[$14>>2] = $$014;

								  $15 = ((($5)) + 44|0);

								  HEAP32[$15>>2] = $$014;

								  $16 = (($$014) + ($$$015)|0);

								  $17 = ((($5)) + 16|0);

								  HEAP32[$17>>2] = $16;

								  $18 = ((($5)) + 28|0);

								  HEAP32[$18>>2] = $16;

								  $19 = (_vfprintf($5,$2,$3)|0);

								  $20 = ($$$015|0)==(0);

								  if ($20) {

								   $$0 = $19;

								  } else {

								   $21 = HEAP32[$14>>2]|0;

								   $22 = HEAP32[$17>>2]|0;

								   $23 = ($21|0)==($22|0);

								   $24 = $23 << 31 >> 31;

								   $25 = (($21) + ($24)|0);

								   HEAP8[$25>>0] = 0;

								   $$0 = $19;

								  }

								 }

								 STACKTOP = sp;return ($$0|0);

								}

								function _vfprintf($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$ = 0, $$0 = 0, $$1 = 0, $$1$ = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $5 = 0, $6 = 0, $7 = 0;

								 var $8 = 0, $9 = 0, $vacopy_currentptr = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 224|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(224|0);

								 $3 = sp + 120|0;

								 $4 = sp + 80|0;

								 $5 = sp;

								 $6 = sp + 136|0;

								 dest=$4; stop=dest+40|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 $vacopy_currentptr = HEAP32[$2>>2]|0;

								 HEAP32[$3>>2] = $vacopy_currentptr;

								 $7 = (_printf_core(0,$1,$3,$5,$4)|0);

								 $8 = ($7|0)<(0);

								 if ($8) {

								  $$0 = -1;

								 } else {

								  $9 = ((($0)) + 76|0);

								  $10 = (Atomics_load(HEAP32,$9>>2)|0);

								  $11 = ($10|0)>(-1);

								  if ($11) {

								   $12 = (___lockfile($0)|0);

								   $40 = $12;

								  } else {

								   $40 = 0;

								  }

								  $13 = HEAP32[$0>>2]|0;

								  $14 = $13 & 32;

								  $15 = ((($0)) + 74|0);

								  $16 = HEAP8[$15>>0]|0;

								  $17 = ($16<<24>>24)<(1);

								  if ($17) {

								   $18 = $13 & -33;

								   HEAP32[$0>>2] = $18;

								  }

								  $19 = ((($0)) + 48|0);

								  $20 = HEAP32[$19>>2]|0;

								  $21 = ($20|0)==(0);

								  if ($21) {

								   $23 = ((($0)) + 44|0);

								   $24 = HEAP32[$23>>2]|0;

								   HEAP32[$23>>2] = $6;

								   $25 = ((($0)) + 28|0);

								   HEAP32[$25>>2] = $6;

								   $26 = ((($0)) + 20|0);

								   HEAP32[$26>>2] = $6;

								   HEAP32[$19>>2] = 80;

								   $27 = ((($6)) + 80|0);

								   $28 = ((($0)) + 16|0);

								   HEAP32[$28>>2] = $27;

								   $29 = (_printf_core($0,$1,$3,$5,$4)|0);

								   $30 = ($24|0)==(0|0);

								   if ($30) {

								    $$1 = $29;

								   } else {

								    $31 = ((($0)) + 36|0);

								    $32 = HEAP32[$31>>2]|0;

								    (FUNCTION_TABLE_iiii[$32 & 15]($0,0,0)|0);

								    $33 = HEAP32[$26>>2]|0;

								    $34 = ($33|0)==(0|0);

								    $$ = $34 ? -1 : $29;

								    HEAP32[$23>>2] = $24;

								    HEAP32[$19>>2] = 0;

								    HEAP32[$28>>2] = 0;

								    HEAP32[$25>>2] = 0;

								    HEAP32[$26>>2] = 0;

								    $$1 = $$;

								   }

								  } else {

								   $22 = (_printf_core($0,$1,$3,$5,$4)|0);

								   $$1 = $22;

								  }

								  $35 = HEAP32[$0>>2]|0;

								  $36 = $35 & 32;

								  $37 = ($36|0)==(0);

								  $$1$ = $37 ? $$1 : -1;

								  $38 = $35 | $14;

								  HEAP32[$0>>2] = $38;

								  $39 = ($40|0)==(0);

								  if (!($39)) {

								   ___unlockfile($0);

								  }

								  $$0 = $$1$;

								 }

								 STACKTOP = sp;return ($$0|0);

								}

								function _printf_core($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $$ = 0, $$$ = 0, $$$0259 = 0, $$$0262 = 0, $$$0269 = 0, $$$4266 = 0, $$$5 = 0, $$0 = 0, $$0228 = 0, $$0228$ = 0, $$0229322 = 0, $$0232 = 0, $$0235 = 0, $$0237 = 0, $$0240$lcssa = 0, $$0240$lcssa357 = 0, $$0240321 = 0, $$0243 = 0, $$0247 = 0, $$0249$lcssa = 0;

								 var $$0249306 = 0, $$0252 = 0, $$0253 = 0, $$0254 = 0, $$0254$$0254$ = 0, $$0259 = 0, $$0262$lcssa = 0, $$0262311 = 0, $$0269 = 0, $$0269$phi = 0, $$1 = 0, $$1230333 = 0, $$1233 = 0, $$1236 = 0, $$1238 = 0, $$1241332 = 0, $$1244320 = 0, $$1248 = 0, $$1250 = 0, $$1255 = 0;

								 var $$1260 = 0, $$1263 = 0, $$1263$ = 0, $$1270 = 0, $$2 = 0, $$2234 = 0, $$2239 = 0, $$2242305 = 0, $$2245 = 0, $$2251 = 0, $$2256 = 0, $$2256$ = 0, $$2256$$$2256 = 0, $$2261 = 0, $$2271 = 0, $$284$ = 0, $$289 = 0, $$290 = 0, $$3257 = 0, $$3265 = 0;

								 var $$3272 = 0, $$3303 = 0, $$377 = 0, $$4258355 = 0, $$4266 = 0, $$5 = 0, $$6268 = 0, $$lcssa295 = 0, $$pre = 0, $$pre346 = 0, $$pre347 = 0, $$pre347$pre = 0, $$pre349 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0;

								 var $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0;

								 var $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0;

								 var $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0;

								 var $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0;

								 var $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0;

								 var $197 = 0, $198 = 0, $199 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0;

								 var $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0;

								 var $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0;

								 var $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0;

								 var $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0;

								 var $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0, $298 = 0, $299 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0;

								 var $306 = 0.0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0;

								 var $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0;

								 var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0;

								 var $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0;

								 var $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0;

								 var $arglist_current = 0, $arglist_current2 = 0, $arglist_next = 0, $arglist_next3 = 0, $expanded = 0, $expanded10 = 0, $expanded11 = 0, $expanded13 = 0, $expanded14 = 0, $expanded15 = 0, $expanded4 = 0, $expanded6 = 0, $expanded7 = 0, $expanded8 = 0, $isdigit = 0, $isdigit275 = 0, $isdigit277 = 0, $isdigittmp = 0, $isdigittmp$ = 0, $isdigittmp274 = 0;

								 var $isdigittmp276 = 0, $narrow = 0, $or$cond = 0, $or$cond281 = 0, $or$cond283 = 0, $or$cond286 = 0, $storemerge = 0, $storemerge273310 = 0, $storemerge278 = 0, $trunc = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 64|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(64|0);

								 $5 = sp + 16|0;

								 $6 = sp;

								 $7 = sp + 24|0;

								 $8 = sp + 8|0;

								 $9 = sp + 20|0;

								 HEAP32[$5>>2] = $1;

								 $10 = ($0|0)!=(0|0);

								 $11 = ((($7)) + 40|0);

								 $12 = $11;

								 $13 = ((($7)) + 39|0);

								 $14 = ((($8)) + 4|0);

								 $$0243 = 0;$$0247 = 0;$$0269 = 0;$21 = $1;

								 L1: while(1) {

								  $15 = ($$0247|0)>(-1);

								  do {

								   if ($15) {

								    $16 = (2147483647 - ($$0247))|0;

								    $17 = ($$0243|0)>($16|0);

								    if ($17) {

								     $18 = (___errno_location()|0);

								     HEAP32[$18>>2] = 75;

								     $$1248 = -1;

								     break;

								    } else {

								     $19 = (($$0243) + ($$0247))|0;

								     $$1248 = $19;

								     break;

								    }

								   } else {

								    $$1248 = $$0247;

								   }

								  } while(0);

								  $20 = HEAP8[$21>>0]|0;

								  $22 = ($20<<24>>24)==(0);

								  if ($22) {

								   label = 87;

								   break;

								  } else {

								   $23 = $20;$25 = $21;

								  }

								  L9: while(1) {

								   switch ($23<<24>>24) {

								   case 37:  {

								    $$0249306 = $25;$27 = $25;

								    label = 9;

								    break L9;

								    break;

								   }

								   case 0:  {

								    $$0249$lcssa = $25;$39 = $25;

								    break L9;

								    break;

								   }

								   default: {

								   }

								   }

								   $24 = ((($25)) + 1|0);

								   HEAP32[$5>>2] = $24;

								   $$pre = HEAP8[$24>>0]|0;

								   $23 = $$pre;$25 = $24;

								  }

								  L12: do {

								   if ((label|0) == 9) {

								    while(1) {

								     label = 0;

								     $26 = ((($27)) + 1|0);

								     $28 = HEAP8[$26>>0]|0;

								     $29 = ($28<<24>>24)==(37);

								     if (!($29)) {

								      $$0249$lcssa = $$0249306;$39 = $27;

								      break L12;

								     }

								     $30 = ((($$0249306)) + 1|0);

								     $31 = ((($27)) + 2|0);

								     HEAP32[$5>>2] = $31;

								     $32 = HEAP8[$31>>0]|0;

								     $33 = ($32<<24>>24)==(37);

								     if ($33) {

								      $$0249306 = $30;$27 = $31;

								      label = 9;

								     } else {

								      $$0249$lcssa = $30;$39 = $31;

								      break;

								     }

								    }

								   }

								  } while(0);

								  $34 = $$0249$lcssa;

								  $35 = $21;

								  $36 = (($34) - ($35))|0;

								  if ($10) {

								   _out($0,$21,$36);

								  }

								  $37 = ($36|0)==(0);

								  if (!($37)) {

								   $$0269$phi = $$0269;$$0243 = $36;$$0247 = $$1248;$21 = $39;$$0269 = $$0269$phi;

								   continue;

								  }

								  $38 = ((($39)) + 1|0);

								  $40 = HEAP8[$38>>0]|0;

								  $41 = $40 << 24 >> 24;

								  $isdigittmp = (($41) + -48)|0;

								  $isdigit = ($isdigittmp>>>0)<(10);

								  if ($isdigit) {

								   $42 = ((($39)) + 2|0);

								   $43 = HEAP8[$42>>0]|0;

								   $44 = ($43<<24>>24)==(36);

								   $45 = ((($39)) + 3|0);

								   $$377 = $44 ? $45 : $38;

								   $$$0269 = $44 ? 1 : $$0269;

								   $isdigittmp$ = $44 ? $isdigittmp : -1;

								   $$0253 = $isdigittmp$;$$1270 = $$$0269;$storemerge = $$377;

								  } else {

								   $$0253 = -1;$$1270 = $$0269;$storemerge = $38;

								  }

								  HEAP32[$5>>2] = $storemerge;

								  $46 = HEAP8[$storemerge>>0]|0;

								  $47 = $46 << 24 >> 24;

								  $48 = (($47) + -32)|0;

								  $49 = ($48>>>0)<(32);

								  L24: do {

								   if ($49) {

								    $$0262311 = 0;$329 = $46;$51 = $48;$storemerge273310 = $storemerge;

								    while(1) {

								     $50 = 1 << $51;

								     $52 = $50 & 75913;

								     $53 = ($52|0)==(0);

								     if ($53) {

								      $$0262$lcssa = $$0262311;$$lcssa295 = $329;$62 = $storemerge273310;

								      break L24;

								     }

								     $54 = $50 | $$0262311;

								     $55 = ((($storemerge273310)) + 1|0);

								     HEAP32[$5>>2] = $55;

								     $56 = HEAP8[$55>>0]|0;

								     $57 = $56 << 24 >> 24;

								     $58 = (($57) + -32)|0;

								     $59 = ($58>>>0)<(32);

								     if ($59) {

								      $$0262311 = $54;$329 = $56;$51 = $58;$storemerge273310 = $55;

								     } else {

								      $$0262$lcssa = $54;$$lcssa295 = $56;$62 = $55;

								      break;

								     }

								    }

								   } else {

								    $$0262$lcssa = 0;$$lcssa295 = $46;$62 = $storemerge;

								   }

								  } while(0);

								  $60 = ($$lcssa295<<24>>24)==(42);

								  if ($60) {

								   $61 = ((($62)) + 1|0);

								   $63 = HEAP8[$61>>0]|0;

								   $64 = $63 << 24 >> 24;

								   $isdigittmp276 = (($64) + -48)|0;

								   $isdigit277 = ($isdigittmp276>>>0)<(10);

								   if ($isdigit277) {

								    $65 = ((($62)) + 2|0);

								    $66 = HEAP8[$65>>0]|0;

								    $67 = ($66<<24>>24)==(36);

								    if ($67) {

								     $68 = (($4) + ($isdigittmp276<<2)|0);

								     HEAP32[$68>>2] = 10;

								     $69 = HEAP8[$61>>0]|0;

								     $70 = $69 << 24 >> 24;

								     $71 = (($70) + -48)|0;

								     $72 = (($3) + ($71<<3)|0);

								     $73 = $72;

								     $74 = $73;

								     $75 = HEAP32[$74>>2]|0;

								     $76 = (($73) + 4)|0;

								     $77 = $76;

								     $78 = HEAP32[$77>>2]|0;

								     $79 = ((($62)) + 3|0);

								     $$0259 = $75;$$2271 = 1;$storemerge278 = $79;

								    } else {

								     label = 23;

								    }

								   } else {

								    label = 23;

								   }

								   if ((label|0) == 23) {

								    label = 0;

								    $80 = ($$1270|0)==(0);

								    if (!($80)) {

								     $$0 = -1;

								     break;

								    }

								    if ($10) {

								     $arglist_current = HEAP32[$2>>2]|0;

								     $81 = $arglist_current;

								     $82 = ((0) + 4|0);

								     $expanded4 = $82;

								     $expanded = (($expanded4) - 1)|0;

								     $83 = (($81) + ($expanded))|0;

								     $84 = ((0) + 4|0);

								     $expanded8 = $84;

								     $expanded7 = (($expanded8) - 1)|0;

								     $expanded6 = $expanded7 ^ -1;

								     $85 = $83 & $expanded6;

								     $86 = $85;

								     $87 = HEAP32[$86>>2]|0;

								     $arglist_next = ((($86)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next;

								     $$0259 = $87;$$2271 = 0;$storemerge278 = $61;

								    } else {

								     $$0259 = 0;$$2271 = 0;$storemerge278 = $61;

								    }

								   }

								   HEAP32[$5>>2] = $storemerge278;

								   $88 = ($$0259|0)<(0);

								   $89 = $$0262$lcssa | 8192;

								   $90 = (0 - ($$0259))|0;

								   $$$0262 = $88 ? $89 : $$0262$lcssa;

								   $$$0259 = $88 ? $90 : $$0259;

								   $$1260 = $$$0259;$$1263 = $$$0262;$$3272 = $$2271;$94 = $storemerge278;

								  } else {

								   $91 = (_getint($5)|0);

								   $92 = ($91|0)<(0);

								   if ($92) {

								    $$0 = -1;

								    break;

								   }

								   $$pre346 = HEAP32[$5>>2]|0;

								   $$1260 = $91;$$1263 = $$0262$lcssa;$$3272 = $$1270;$94 = $$pre346;

								  }

								  $93 = HEAP8[$94>>0]|0;

								  $95 = ($93<<24>>24)==(46);

								  do {

								   if ($95) {

								    $96 = ((($94)) + 1|0);

								    $97 = HEAP8[$96>>0]|0;

								    $98 = ($97<<24>>24)==(42);

								    if (!($98)) {

								     $125 = ((($94)) + 1|0);

								     HEAP32[$5>>2] = $125;

								     $126 = (_getint($5)|0);

								     $$pre347$pre = HEAP32[$5>>2]|0;

								     $$0254 = $126;$$pre347 = $$pre347$pre;

								     break;

								    }

								    $99 = ((($94)) + 2|0);

								    $100 = HEAP8[$99>>0]|0;

								    $101 = $100 << 24 >> 24;

								    $isdigittmp274 = (($101) + -48)|0;

								    $isdigit275 = ($isdigittmp274>>>0)<(10);

								    if ($isdigit275) {

								     $102 = ((($94)) + 3|0);

								     $103 = HEAP8[$102>>0]|0;

								     $104 = ($103<<24>>24)==(36);

								     if ($104) {

								      $105 = (($4) + ($isdigittmp274<<2)|0);

								      HEAP32[$105>>2] = 10;

								      $106 = HEAP8[$99>>0]|0;

								      $107 = $106 << 24 >> 24;

								      $108 = (($107) + -48)|0;

								      $109 = (($3) + ($108<<3)|0);

								      $110 = $109;

								      $111 = $110;

								      $112 = HEAP32[$111>>2]|0;

								      $113 = (($110) + 4)|0;

								      $114 = $113;

								      $115 = HEAP32[$114>>2]|0;

								      $116 = ((($94)) + 4|0);

								      HEAP32[$5>>2] = $116;

								      $$0254 = $112;$$pre347 = $116;

								      break;

								     }

								    }

								    $117 = ($$3272|0)==(0);

								    if (!($117)) {

								     $$0 = -1;

								     break L1;

								    }

								    if ($10) {

								     $arglist_current2 = HEAP32[$2>>2]|0;

								     $118 = $arglist_current2;

								     $119 = ((0) + 4|0);

								     $expanded11 = $119;

								     $expanded10 = (($expanded11) - 1)|0;

								     $120 = (($118) + ($expanded10))|0;

								     $121 = ((0) + 4|0);

								     $expanded15 = $121;

								     $expanded14 = (($expanded15) - 1)|0;

								     $expanded13 = $expanded14 ^ -1;

								     $122 = $120 & $expanded13;

								     $123 = $122;

								     $124 = HEAP32[$123>>2]|0;

								     $arglist_next3 = ((($123)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next3;

								     $330 = $124;

								    } else {

								     $330 = 0;

								    }

								    HEAP32[$5>>2] = $99;

								    $$0254 = $330;$$pre347 = $99;

								   } else {

								    $$0254 = -1;$$pre347 = $94;

								   }

								  } while(0);

								  $$0252 = 0;$128 = $$pre347;

								  while(1) {

								   $127 = HEAP8[$128>>0]|0;

								   $129 = $127 << 24 >> 24;

								   $130 = (($129) + -65)|0;

								   $131 = ($130>>>0)>(57);

								   if ($131) {

								    $$0 = -1;

								    break L1;

								   }

								   $132 = ((($128)) + 1|0);

								   HEAP32[$5>>2] = $132;

								   $133 = HEAP8[$128>>0]|0;

								   $134 = $133 << 24 >> 24;

								   $135 = (($134) + -65)|0;

								   $136 = ((11198 + (($$0252*58)|0)|0) + ($135)|0);

								   $137 = HEAP8[$136>>0]|0;

								   $138 = $137&255;

								   $139 = (($138) + -1)|0;

								   $140 = ($139>>>0)<(8);

								   if ($140) {

								    $$0252 = $138;$128 = $132;

								   } else {

								    break;

								   }

								  }

								  $141 = ($137<<24>>24)==(0);

								  if ($141) {

								   $$0 = -1;

								   break;

								  }

								  $142 = ($137<<24>>24)==(19);

								  $143 = ($$0253|0)>(-1);

								  do {

								   if ($142) {

								    if ($143) {

								     $$0 = -1;

								     break L1;

								    } else {

								     label = 49;

								    }

								   } else {

								    if ($143) {

								     $144 = (($4) + ($$0253<<2)|0);

								     HEAP32[$144>>2] = $138;

								     $145 = (($3) + ($$0253<<3)|0);

								     $146 = $145;

								     $147 = $146;

								     $148 = HEAP32[$147>>2]|0;

								     $149 = (($146) + 4)|0;

								     $150 = $149;

								     $151 = HEAP32[$150>>2]|0;

								     $152 = $6;

								     $153 = $152;

								     HEAP32[$153>>2] = $148;

								     $154 = (($152) + 4)|0;

								     $155 = $154;

								     HEAP32[$155>>2] = $151;

								     label = 49;

								     break;

								    }

								    if (!($10)) {

								     $$0 = 0;

								     break L1;

								    }

								    _pop_arg($6,$138,$2);

								   }

								  } while(0);

								  if ((label|0) == 49) {

								   label = 0;

								   if (!($10)) {

								    $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								    continue;

								   }

								  }

								  $156 = HEAP8[$128>>0]|0;

								  $157 = $156 << 24 >> 24;

								  $158 = ($$0252|0)!=(0);

								  $159 = $157 & 15;

								  $160 = ($159|0)==(3);

								  $or$cond281 = $158 & $160;

								  $161 = $157 & -33;

								  $$0235 = $or$cond281 ? $161 : $157;

								  $162 = $$1263 & 8192;

								  $163 = ($162|0)==(0);

								  $164 = $$1263 & -65537;

								  $$1263$ = $163 ? $$1263 : $164;

								  L71: do {

								   switch ($$0235|0) {

								   case 110:  {

								    $trunc = $$0252&255;

								    switch ($trunc<<24>>24) {

								    case 0:  {

								     $171 = HEAP32[$6>>2]|0;

								     HEAP32[$171>>2] = $$1248;

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								     break;

								    }

								    case 1:  {

								     $172 = HEAP32[$6>>2]|0;

								     HEAP32[$172>>2] = $$1248;

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								     break;

								    }

								    case 2:  {

								     $173 = ($$1248|0)<(0);

								     $174 = $173 << 31 >> 31;

								     $175 = HEAP32[$6>>2]|0;

								     $176 = $175;

								     $177 = $176;

								     HEAP32[$177>>2] = $$1248;

								     $178 = (($176) + 4)|0;

								     $179 = $178;

								     HEAP32[$179>>2] = $174;

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								     break;

								    }

								    case 3:  {

								     $180 = $$1248&65535;

								     $181 = HEAP32[$6>>2]|0;

								     HEAP16[$181>>1] = $180;

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								     break;

								    }

								    case 4:  {

								     $182 = $$1248&255;

								     $183 = HEAP32[$6>>2]|0;

								     HEAP8[$183>>0] = $182;

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								     break;

								    }

								    case 6:  {

								     $184 = HEAP32[$6>>2]|0;

								     HEAP32[$184>>2] = $$1248;

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								     break;

								    }

								    case 7:  {

								     $185 = ($$1248|0)<(0);

								     $186 = $185 << 31 >> 31;

								     $187 = HEAP32[$6>>2]|0;

								     $188 = $187;

								     $189 = $188;

								     HEAP32[$189>>2] = $$1248;

								     $190 = (($188) + 4)|0;

								     $191 = $190;

								     HEAP32[$191>>2] = $186;

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								     break;

								    }

								    default: {

								     $$0243 = 0;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								     continue L1;

								    }

								    }

								    break;

								   }

								   case 112:  {

								    $192 = ($$0254>>>0)>(8);

								    $193 = $192 ? $$0254 : 8;

								    $194 = $$1263$ | 8;

								    $$1236 = 120;$$1255 = $193;$$3265 = $194;

								    label = 61;

								    break;

								   }

								   case 88: case 120:  {

								    $$1236 = $$0235;$$1255 = $$0254;$$3265 = $$1263$;

								    label = 61;

								    break;

								   }

								   case 111:  {

								    $210 = $6;

								    $211 = $210;

								    $212 = HEAP32[$211>>2]|0;

								    $213 = (($210) + 4)|0;

								    $214 = $213;

								    $215 = HEAP32[$214>>2]|0;

								    $216 = (_fmt_o($212,$215,$11)|0);

								    $217 = $$1263$ & 8;

								    $218 = ($217|0)==(0);

								    $219 = $216;

								    $220 = (($12) - ($219))|0;

								    $221 = ($$0254|0)>($220|0);

								    $222 = (($220) + 1)|0;

								    $223 = $218 | $221;

								    $$0254$$0254$ = $223 ? $$0254 : $222;

								    $$0228 = $216;$$1233 = 0;$$1238 = 11662;$$2256 = $$0254$$0254$;$$4266 = $$1263$;$248 = $212;$250 = $215;

								    label = 67;

								    break;

								   }

								   case 105: case 100:  {

								    $224 = $6;

								    $225 = $224;

								    $226 = HEAP32[$225>>2]|0;

								    $227 = (($224) + 4)|0;

								    $228 = $227;

								    $229 = HEAP32[$228>>2]|0;

								    $230 = ($229|0)<(0);

								    if ($230) {

								     $231 = (_i64Subtract(0,0,($226|0),($229|0))|0);

								     $232 = tempRet0;

								     $233 = $6;

								     $234 = $233;

								     HEAP32[$234>>2] = $231;

								     $235 = (($233) + 4)|0;

								     $236 = $235;

								     HEAP32[$236>>2] = $232;

								     $$0232 = 1;$$0237 = 11662;$242 = $231;$243 = $232;

								     label = 66;

								     break L71;

								    } else {

								     $237 = $$1263$ & 2048;

								     $238 = ($237|0)==(0);

								     $239 = $$1263$ & 1;

								     $240 = ($239|0)==(0);

								     $$ = $240 ? 11662 : (11664);

								     $$$ = $238 ? $$ : (11663);

								     $241 = $$1263$ & 2049;

								     $narrow = ($241|0)!=(0);

								     $$284$ = $narrow&1;

								     $$0232 = $$284$;$$0237 = $$$;$242 = $226;$243 = $229;

								     label = 66;

								     break L71;

								    }

								    break;

								   }

								   case 117:  {

								    $165 = $6;

								    $166 = $165;

								    $167 = HEAP32[$166>>2]|0;

								    $168 = (($165) + 4)|0;

								    $169 = $168;

								    $170 = HEAP32[$169>>2]|0;

								    $$0232 = 0;$$0237 = 11662;$242 = $167;$243 = $170;

								    label = 66;

								    break;

								   }

								   case 99:  {

								    $259 = $6;

								    $260 = $259;

								    $261 = HEAP32[$260>>2]|0;

								    $262 = (($259) + 4)|0;

								    $263 = $262;

								    $264 = HEAP32[$263>>2]|0;

								    $265 = $261&255;

								    HEAP8[$13>>0] = $265;

								    $$2 = $13;$$2234 = 0;$$2239 = 11662;$$2251 = $11;$$5 = 1;$$6268 = $164;

								    break;

								   }

								   case 109:  {

								    $266 = (___errno_location()|0);

								    $267 = HEAP32[$266>>2]|0;

								    $268 = (_strerror($267)|0);

								    $$1 = $268;

								    label = 71;

								    break;

								   }

								   case 115:  {

								    $269 = HEAP32[$6>>2]|0;

								    $270 = ($269|0)!=(0|0);

								    $271 = $270 ? $269 : 11672;

								    $$1 = $271;

								    label = 71;

								    break;

								   }

								   case 67:  {

								    $278 = $6;

								    $279 = $278;

								    $280 = HEAP32[$279>>2]|0;

								    $281 = (($278) + 4)|0;

								    $282 = $281;

								    $283 = HEAP32[$282>>2]|0;

								    HEAP32[$8>>2] = $280;

								    HEAP32[$14>>2] = 0;

								    HEAP32[$6>>2] = $8;

								    $$4258355 = -1;$331 = $8;

								    label = 75;

								    break;

								   }

								   case 83:  {

								    $$pre349 = HEAP32[$6>>2]|0;

								    $284 = ($$0254|0)==(0);

								    if ($284) {

								     _pad_672($0,32,$$1260,0,$$1263$);

								     $$0240$lcssa357 = 0;

								     label = 84;

								    } else {

								     $$4258355 = $$0254;$331 = $$pre349;

								     label = 75;

								    }

								    break;

								   }

								   case 65: case 71: case 70: case 69: case 97: case 103: case 102: case 101:  {

								    $306 = +HEAPF64[$6>>3];

								    $307 = (_fmt_fp($0,$306,$$1260,$$0254,$$1263$,$$0235)|0);

								    $$0243 = $307;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								    continue L1;

								    break;

								   }

								   default: {

								    $$2 = $21;$$2234 = 0;$$2239 = 11662;$$2251 = $11;$$5 = $$0254;$$6268 = $$1263$;

								   }

								   }

								  } while(0);

								  L95: do {

								   if ((label|0) == 61) {

								    label = 0;

								    $195 = $6;

								    $196 = $195;

								    $197 = HEAP32[$196>>2]|0;

								    $198 = (($195) + 4)|0;

								    $199 = $198;

								    $200 = HEAP32[$199>>2]|0;

								    $201 = $$1236 & 32;

								    $202 = (_fmt_x($197,$200,$11,$201)|0);

								    $203 = ($197|0)==(0);

								    $204 = ($200|0)==(0);

								    $205 = $203 & $204;

								    $206 = $$3265 & 8;

								    $207 = ($206|0)==(0);

								    $or$cond283 = $207 | $205;

								    $208 = $$1236 >> 4;

								    $209 = (11662 + ($208)|0);

								    $$289 = $or$cond283 ? 11662 : $209;

								    $$290 = $or$cond283 ? 0 : 2;

								    $$0228 = $202;$$1233 = $$290;$$1238 = $$289;$$2256 = $$1255;$$4266 = $$3265;$248 = $197;$250 = $200;

								    label = 67;

								   }

								   else if ((label|0) == 66) {

								    label = 0;

								    $244 = (_fmt_u($242,$243,$11)|0);

								    $$0228 = $244;$$1233 = $$0232;$$1238 = $$0237;$$2256 = $$0254;$$4266 = $$1263$;$248 = $242;$250 = $243;

								    label = 67;

								   }

								   else if ((label|0) == 71) {

								    label = 0;

								    $272 = (_memchr($$1,0,$$0254)|0);

								    $273 = ($272|0)==(0|0);

								    $274 = $272;

								    $275 = $$1;

								    $276 = (($274) - ($275))|0;

								    $277 = (($$1) + ($$0254)|0);

								    $$3257 = $273 ? $$0254 : $276;

								    $$1250 = $273 ? $277 : $272;

								    $$2 = $$1;$$2234 = 0;$$2239 = 11662;$$2251 = $$1250;$$5 = $$3257;$$6268 = $164;

								   }

								   else if ((label|0) == 75) {

								    label = 0;

								    $$0229322 = $331;$$0240321 = 0;$$1244320 = 0;

								    while(1) {

								     $285 = HEAP32[$$0229322>>2]|0;

								     $286 = ($285|0)==(0);

								     if ($286) {

								      $$0240$lcssa = $$0240321;$$2245 = $$1244320;

								      break;

								     }

								     $287 = (_wctomb($9,$285)|0);

								     $288 = ($287|0)<(0);

								     $289 = (($$4258355) - ($$0240321))|0;

								     $290 = ($287>>>0)>($289>>>0);

								     $or$cond286 = $288 | $290;

								     if ($or$cond286) {

								      $$0240$lcssa = $$0240321;$$2245 = $287;

								      break;

								     }

								     $291 = ((($$0229322)) + 4|0);

								     $292 = (($287) + ($$0240321))|0;

								     $293 = ($$4258355>>>0)>($292>>>0);

								     if ($293) {

								      $$0229322 = $291;$$0240321 = $292;$$1244320 = $287;

								     } else {

								      $$0240$lcssa = $292;$$2245 = $287;

								      break;

								     }

								    }

								    $294 = ($$2245|0)<(0);

								    if ($294) {

								     $$0 = -1;

								     break L1;

								    }

								    _pad_672($0,32,$$1260,$$0240$lcssa,$$1263$);

								    $295 = ($$0240$lcssa|0)==(0);

								    if ($295) {

								     $$0240$lcssa357 = 0;

								     label = 84;

								    } else {

								     $$1230333 = $331;$$1241332 = 0;

								     while(1) {

								      $296 = HEAP32[$$1230333>>2]|0;

								      $297 = ($296|0)==(0);

								      if ($297) {

								       $$0240$lcssa357 = $$0240$lcssa;

								       label = 84;

								       break L95;

								      }

								      $298 = (_wctomb($9,$296)|0);

								      $299 = (($298) + ($$1241332))|0;

								      $300 = ($299|0)>($$0240$lcssa|0);

								      if ($300) {

								       $$0240$lcssa357 = $$0240$lcssa;

								       label = 84;

								       break L95;

								      }

								      $301 = ((($$1230333)) + 4|0);

								      _out($0,$9,$298);

								      $302 = ($299>>>0)<($$0240$lcssa>>>0);

								      if ($302) {

								       $$1230333 = $301;$$1241332 = $299;

								      } else {

								       $$0240$lcssa357 = $$0240$lcssa;

								       label = 84;

								       break;

								      }

								     }

								    }

								   }

								  } while(0);

								  if ((label|0) == 67) {

								   label = 0;

								   $245 = ($$2256|0)>(-1);

								   $246 = $$4266 & -65537;

								   $$$4266 = $245 ? $246 : $$4266;

								   $247 = ($248|0)!=(0);

								   $249 = ($250|0)!=(0);

								   $251 = $247 | $249;

								   $252 = ($$2256|0)!=(0);

								   $or$cond = $252 | $251;

								   $253 = $$0228;

								   $254 = (($12) - ($253))|0;

								   $255 = $251 ^ 1;

								   $256 = $255&1;

								   $257 = (($256) + ($254))|0;

								   $258 = ($$2256|0)>($257|0);

								   $$2256$ = $258 ? $$2256 : $257;

								   $$2256$$$2256 = $or$cond ? $$2256$ : $$2256;

								   $$0228$ = $or$cond ? $$0228 : $11;

								   $$2 = $$0228$;$$2234 = $$1233;$$2239 = $$1238;$$2251 = $11;$$5 = $$2256$$$2256;$$6268 = $$$4266;

								  }

								  else if ((label|0) == 84) {

								   label = 0;

								   $303 = $$1263$ ^ 8192;

								   _pad_672($0,32,$$1260,$$0240$lcssa357,$303);

								   $304 = ($$1260|0)>($$0240$lcssa357|0);

								   $305 = $304 ? $$1260 : $$0240$lcssa357;

								   $$0243 = $305;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								   continue;

								  }

								  $308 = $$2251;

								  $309 = $$2;

								  $310 = (($308) - ($309))|0;

								  $311 = ($$5|0)<($310|0);

								  $$$5 = $311 ? $310 : $$5;

								  $312 = (($$$5) + ($$2234))|0;

								  $313 = ($$1260|0)<($312|0);

								  $$2261 = $313 ? $312 : $$1260;

								  _pad_672($0,32,$$2261,$312,$$6268);

								  _out($0,$$2239,$$2234);

								  $314 = $$6268 ^ 65536;

								  _pad_672($0,48,$$2261,$312,$314);

								  _pad_672($0,48,$$$5,$310,0);

								  _out($0,$$2,$310);

								  $315 = $$6268 ^ 8192;

								  _pad_672($0,32,$$2261,$312,$315);

								  $$0243 = $$2261;$$0247 = $$1248;$$0269 = $$3272;$21 = $132;

								 }

								 L114: do {

								  if ((label|0) == 87) {

								   $316 = ($0|0)==(0|0);

								   if ($316) {

								    $317 = ($$0269|0)==(0);

								    if ($317) {

								     $$0 = 0;

								    } else {

								     $$2242305 = 1;

								     while(1) {

								      $318 = (($4) + ($$2242305<<2)|0);

								      $319 = HEAP32[$318>>2]|0;

								      $320 = ($319|0)==(0);

								      if ($320) {

								       $$3303 = $$2242305;

								       break;

								      }

								      $321 = (($3) + ($$2242305<<3)|0);

								      _pop_arg($321,$319,$2);

								      $322 = (($$2242305) + 1)|0;

								      $323 = ($322|0)<(10);

								      if ($323) {

								       $$2242305 = $322;

								      } else {

								       $$0 = 1;

								       break L114;

								      }

								     }

								     while(1) {

								      $326 = (($4) + ($$3303<<2)|0);

								      $327 = HEAP32[$326>>2]|0;

								      $328 = ($327|0)==(0);

								      $325 = (($$3303) + 1)|0;

								      if (!($328)) {

								       $$0 = -1;

								       break L114;

								      }

								      $324 = ($325|0)<(10);

								      if ($324) {

								       $$3303 = $325;

								      } else {

								       $$0 = 1;

								       break;

								      }

								     }

								    }

								   } else {

								    $$0 = $$1248;

								   }

								  }

								 } while(0);

								 STACKTOP = sp;return ($$0|0);

								}

								function ___lockfile($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return 0;

								}

								function ___unlockfile($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return;

								}

								function _out($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $3 = 0, $4 = 0, $5 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = HEAP32[$0>>2]|0;

								 $4 = $3 & 32;

								 $5 = ($4|0)==(0);

								 if ($5) {

								  (___fwritex($1,$2,$0)|0);

								 }

								 return;

								}

								function _getint($0) {

								 $0 = $0|0;

								 var $$0$lcssa = 0, $$06 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $isdigit = 0, $isdigit5 = 0, $isdigittmp = 0, $isdigittmp4 = 0, $isdigittmp7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 $2 = HEAP8[$1>>0]|0;

								 $3 = $2 << 24 >> 24;

								 $isdigittmp4 = (($3) + -48)|0;

								 $isdigit5 = ($isdigittmp4>>>0)<(10);

								 if ($isdigit5) {

								  $$06 = 0;$7 = $1;$isdigittmp7 = $isdigittmp4;

								  while(1) {

								   $4 = ($$06*10)|0;

								   $5 = (($isdigittmp7) + ($4))|0;

								   $6 = ((($7)) + 1|0);

								   HEAP32[$0>>2] = $6;

								   $8 = HEAP8[$6>>0]|0;

								   $9 = $8 << 24 >> 24;

								   $isdigittmp = (($9) + -48)|0;

								   $isdigit = ($isdigittmp>>>0)<(10);

								   if ($isdigit) {

								    $$06 = $5;$7 = $6;$isdigittmp7 = $isdigittmp;

								   } else {

								    $$0$lcssa = $5;

								    break;

								   }

								  }

								 } else {

								  $$0$lcssa = 0;

								 }

								 return ($$0$lcssa|0);

								}

								function _pop_arg($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$mask = 0, $$mask31 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0.0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0;

								 var $116 = 0.0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0;

								 var $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0;

								 var $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0;

								 var $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0;

								 var $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $arglist_current = 0, $arglist_current11 = 0, $arglist_current14 = 0, $arglist_current17 = 0;

								 var $arglist_current2 = 0, $arglist_current20 = 0, $arglist_current23 = 0, $arglist_current26 = 0, $arglist_current5 = 0, $arglist_current8 = 0, $arglist_next = 0, $arglist_next12 = 0, $arglist_next15 = 0, $arglist_next18 = 0, $arglist_next21 = 0, $arglist_next24 = 0, $arglist_next27 = 0, $arglist_next3 = 0, $arglist_next6 = 0, $arglist_next9 = 0, $expanded = 0, $expanded28 = 0, $expanded30 = 0, $expanded31 = 0;

								 var $expanded32 = 0, $expanded34 = 0, $expanded35 = 0, $expanded37 = 0, $expanded38 = 0, $expanded39 = 0, $expanded41 = 0, $expanded42 = 0, $expanded44 = 0, $expanded45 = 0, $expanded46 = 0, $expanded48 = 0, $expanded49 = 0, $expanded51 = 0, $expanded52 = 0, $expanded53 = 0, $expanded55 = 0, $expanded56 = 0, $expanded58 = 0, $expanded59 = 0;

								 var $expanded60 = 0, $expanded62 = 0, $expanded63 = 0, $expanded65 = 0, $expanded66 = 0, $expanded67 = 0, $expanded69 = 0, $expanded70 = 0, $expanded72 = 0, $expanded73 = 0, $expanded74 = 0, $expanded76 = 0, $expanded77 = 0, $expanded79 = 0, $expanded80 = 0, $expanded81 = 0, $expanded83 = 0, $expanded84 = 0, $expanded86 = 0, $expanded87 = 0;

								 var $expanded88 = 0, $expanded90 = 0, $expanded91 = 0, $expanded93 = 0, $expanded94 = 0, $expanded95 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ($1>>>0)>(20);

								 L1: do {

								  if (!($3)) {

								   do {

								    switch ($1|0) {

								    case 9:  {

								     $arglist_current = HEAP32[$2>>2]|0;

								     $4 = $arglist_current;

								     $5 = ((0) + 4|0);

								     $expanded28 = $5;

								     $expanded = (($expanded28) - 1)|0;

								     $6 = (($4) + ($expanded))|0;

								     $7 = ((0) + 4|0);

								     $expanded32 = $7;

								     $expanded31 = (($expanded32) - 1)|0;

								     $expanded30 = $expanded31 ^ -1;

								     $8 = $6 & $expanded30;

								     $9 = $8;

								     $10 = HEAP32[$9>>2]|0;

								     $arglist_next = ((($9)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next;

								     HEAP32[$0>>2] = $10;

								     break L1;

								     break;

								    }

								    case 10:  {

								     $arglist_current2 = HEAP32[$2>>2]|0;

								     $11 = $arglist_current2;

								     $12 = ((0) + 4|0);

								     $expanded35 = $12;

								     $expanded34 = (($expanded35) - 1)|0;

								     $13 = (($11) + ($expanded34))|0;

								     $14 = ((0) + 4|0);

								     $expanded39 = $14;

								     $expanded38 = (($expanded39) - 1)|0;

								     $expanded37 = $expanded38 ^ -1;

								     $15 = $13 & $expanded37;

								     $16 = $15;

								     $17 = HEAP32[$16>>2]|0;

								     $arglist_next3 = ((($16)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next3;

								     $18 = ($17|0)<(0);

								     $19 = $18 << 31 >> 31;

								     $20 = $0;

								     $21 = $20;

								     HEAP32[$21>>2] = $17;

								     $22 = (($20) + 4)|0;

								     $23 = $22;

								     HEAP32[$23>>2] = $19;

								     break L1;

								     break;

								    }

								    case 11:  {

								     $arglist_current5 = HEAP32[$2>>2]|0;

								     $24 = $arglist_current5;

								     $25 = ((0) + 4|0);

								     $expanded42 = $25;

								     $expanded41 = (($expanded42) - 1)|0;

								     $26 = (($24) + ($expanded41))|0;

								     $27 = ((0) + 4|0);

								     $expanded46 = $27;

								     $expanded45 = (($expanded46) - 1)|0;

								     $expanded44 = $expanded45 ^ -1;

								     $28 = $26 & $expanded44;

								     $29 = $28;

								     $30 = HEAP32[$29>>2]|0;

								     $arglist_next6 = ((($29)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next6;

								     $31 = $0;

								     $32 = $31;

								     HEAP32[$32>>2] = $30;

								     $33 = (($31) + 4)|0;

								     $34 = $33;

								     HEAP32[$34>>2] = 0;

								     break L1;

								     break;

								    }

								    case 12:  {

								     $arglist_current8 = HEAP32[$2>>2]|0;

								     $35 = $arglist_current8;

								     $36 = ((0) + 8|0);

								     $expanded49 = $36;

								     $expanded48 = (($expanded49) - 1)|0;

								     $37 = (($35) + ($expanded48))|0;

								     $38 = ((0) + 8|0);

								     $expanded53 = $38;

								     $expanded52 = (($expanded53) - 1)|0;

								     $expanded51 = $expanded52 ^ -1;

								     $39 = $37 & $expanded51;

								     $40 = $39;

								     $41 = $40;

								     $42 = $41;

								     $43 = HEAP32[$42>>2]|0;

								     $44 = (($41) + 4)|0;

								     $45 = $44;

								     $46 = HEAP32[$45>>2]|0;

								     $arglist_next9 = ((($40)) + 8|0);

								     HEAP32[$2>>2] = $arglist_next9;

								     $47 = $0;

								     $48 = $47;

								     HEAP32[$48>>2] = $43;

								     $49 = (($47) + 4)|0;

								     $50 = $49;

								     HEAP32[$50>>2] = $46;

								     break L1;

								     break;

								    }

								    case 13:  {

								     $arglist_current11 = HEAP32[$2>>2]|0;

								     $51 = $arglist_current11;

								     $52 = ((0) + 4|0);

								     $expanded56 = $52;

								     $expanded55 = (($expanded56) - 1)|0;

								     $53 = (($51) + ($expanded55))|0;

								     $54 = ((0) + 4|0);

								     $expanded60 = $54;

								     $expanded59 = (($expanded60) - 1)|0;

								     $expanded58 = $expanded59 ^ -1;

								     $55 = $53 & $expanded58;

								     $56 = $55;

								     $57 = HEAP32[$56>>2]|0;

								     $arglist_next12 = ((($56)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next12;

								     $58 = $57&65535;

								     $59 = $58 << 16 >> 16;

								     $60 = ($59|0)<(0);

								     $61 = $60 << 31 >> 31;

								     $62 = $0;

								     $63 = $62;

								     HEAP32[$63>>2] = $59;

								     $64 = (($62) + 4)|0;

								     $65 = $64;

								     HEAP32[$65>>2] = $61;

								     break L1;

								     break;

								    }

								    case 14:  {

								     $arglist_current14 = HEAP32[$2>>2]|0;

								     $66 = $arglist_current14;

								     $67 = ((0) + 4|0);

								     $expanded63 = $67;

								     $expanded62 = (($expanded63) - 1)|0;

								     $68 = (($66) + ($expanded62))|0;

								     $69 = ((0) + 4|0);

								     $expanded67 = $69;

								     $expanded66 = (($expanded67) - 1)|0;

								     $expanded65 = $expanded66 ^ -1;

								     $70 = $68 & $expanded65;

								     $71 = $70;

								     $72 = HEAP32[$71>>2]|0;

								     $arglist_next15 = ((($71)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next15;

								     $$mask31 = $72 & 65535;

								     $73 = $0;

								     $74 = $73;

								     HEAP32[$74>>2] = $$mask31;

								     $75 = (($73) + 4)|0;

								     $76 = $75;

								     HEAP32[$76>>2] = 0;

								     break L1;

								     break;

								    }

								    case 15:  {

								     $arglist_current17 = HEAP32[$2>>2]|0;

								     $77 = $arglist_current17;

								     $78 = ((0) + 4|0);

								     $expanded70 = $78;

								     $expanded69 = (($expanded70) - 1)|0;

								     $79 = (($77) + ($expanded69))|0;

								     $80 = ((0) + 4|0);

								     $expanded74 = $80;

								     $expanded73 = (($expanded74) - 1)|0;

								     $expanded72 = $expanded73 ^ -1;

								     $81 = $79 & $expanded72;

								     $82 = $81;

								     $83 = HEAP32[$82>>2]|0;

								     $arglist_next18 = ((($82)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next18;

								     $84 = $83&255;

								     $85 = $84 << 24 >> 24;

								     $86 = ($85|0)<(0);

								     $87 = $86 << 31 >> 31;

								     $88 = $0;

								     $89 = $88;

								     HEAP32[$89>>2] = $85;

								     $90 = (($88) + 4)|0;

								     $91 = $90;

								     HEAP32[$91>>2] = $87;

								     break L1;

								     break;

								    }

								    case 16:  {

								     $arglist_current20 = HEAP32[$2>>2]|0;

								     $92 = $arglist_current20;

								     $93 = ((0) + 4|0);

								     $expanded77 = $93;

								     $expanded76 = (($expanded77) - 1)|0;

								     $94 = (($92) + ($expanded76))|0;

								     $95 = ((0) + 4|0);

								     $expanded81 = $95;

								     $expanded80 = (($expanded81) - 1)|0;

								     $expanded79 = $expanded80 ^ -1;

								     $96 = $94 & $expanded79;

								     $97 = $96;

								     $98 = HEAP32[$97>>2]|0;

								     $arglist_next21 = ((($97)) + 4|0);

								     HEAP32[$2>>2] = $arglist_next21;

								     $$mask = $98 & 255;

								     $99 = $0;

								     $100 = $99;

								     HEAP32[$100>>2] = $$mask;

								     $101 = (($99) + 4)|0;

								     $102 = $101;

								     HEAP32[$102>>2] = 0;

								     break L1;

								     break;

								    }

								    case 17:  {

								     $arglist_current23 = HEAP32[$2>>2]|0;

								     $103 = $arglist_current23;

								     $104 = ((0) + 8|0);

								     $expanded84 = $104;

								     $expanded83 = (($expanded84) - 1)|0;

								     $105 = (($103) + ($expanded83))|0;

								     $106 = ((0) + 8|0);

								     $expanded88 = $106;

								     $expanded87 = (($expanded88) - 1)|0;

								     $expanded86 = $expanded87 ^ -1;

								     $107 = $105 & $expanded86;

								     $108 = $107;

								     $109 = +HEAPF64[$108>>3];

								     $arglist_next24 = ((($108)) + 8|0);

								     HEAP32[$2>>2] = $arglist_next24;

								     HEAPF64[$0>>3] = $109;

								     break L1;

								     break;

								    }

								    case 18:  {

								     $arglist_current26 = HEAP32[$2>>2]|0;

								     $110 = $arglist_current26;

								     $111 = ((0) + 8|0);

								     $expanded91 = $111;

								     $expanded90 = (($expanded91) - 1)|0;

								     $112 = (($110) + ($expanded90))|0;

								     $113 = ((0) + 8|0);

								     $expanded95 = $113;

								     $expanded94 = (($expanded95) - 1)|0;

								     $expanded93 = $expanded94 ^ -1;

								     $114 = $112 & $expanded93;

								     $115 = $114;

								     $116 = +HEAPF64[$115>>3];

								     $arglist_next27 = ((($115)) + 8|0);

								     HEAP32[$2>>2] = $arglist_next27;

								     HEAPF64[$0>>3] = $116;

								     break L1;

								     break;

								    }

								    default: {

								     break L1;

								    }

								    }

								   } while(0);

								  }

								 } while(0);

								 return;

								}

								function _fmt_x($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $$05$lcssa = 0, $$056 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0;

								 var sp = 0;

								 sp = STACKTOP;

								 $4 = ($0|0)==(0);

								 $5 = ($1|0)==(0);

								 $6 = $4 & $5;

								 if ($6) {

								  $$05$lcssa = $2;

								 } else {

								  $$056 = $2;$15 = $1;$8 = $0;

								  while(1) {

								   $7 = $8 & 15;

								   $9 = (11714 + ($7)|0);

								   $10 = HEAP8[$9>>0]|0;

								   $11 = $10&255;

								   $12 = $11 | $3;

								   $13 = $12&255;

								   $14 = ((($$056)) + -1|0);

								   HEAP8[$14>>0] = $13;

								   $16 = (_bitshift64Lshr(($8|0),($15|0),4)|0);

								   $17 = tempRet0;

								   $18 = ($16|0)==(0);

								   $19 = ($17|0)==(0);

								   $20 = $18 & $19;

								   if ($20) {

								    $$05$lcssa = $14;

								    break;

								   } else {

								    $$056 = $14;$15 = $17;$8 = $16;

								   }

								  }

								 }

								 return ($$05$lcssa|0);

								}

								function _fmt_o($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$0$lcssa = 0, $$06 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ($0|0)==(0);

								 $4 = ($1|0)==(0);

								 $5 = $3 & $4;

								 if ($5) {

								  $$0$lcssa = $2;

								 } else {

								  $$06 = $2;$11 = $1;$7 = $0;

								  while(1) {

								   $6 = $7&255;

								   $8 = $6 & 7;

								   $9 = $8 | 48;

								   $10 = ((($$06)) + -1|0);

								   HEAP8[$10>>0] = $9;

								   $12 = (_bitshift64Lshr(($7|0),($11|0),3)|0);

								   $13 = tempRet0;

								   $14 = ($12|0)==(0);

								   $15 = ($13|0)==(0);

								   $16 = $14 & $15;

								   if ($16) {

								    $$0$lcssa = $10;

								    break;

								   } else {

								    $$06 = $10;$11 = $13;$7 = $12;

								   }

								  }

								 }

								 return ($$0$lcssa|0);

								}

								function _fmt_u($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$010$lcssa$off0 = 0, $$012 = 0, $$09$lcssa = 0, $$0914 = 0, $$1$lcssa = 0, $$111 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ($1>>>0)>(0);

								 $4 = ($0>>>0)>(4294967295);

								 $5 = ($1|0)==(0);

								 $6 = $5 & $4;

								 $7 = $3 | $6;

								 if ($7) {

								  $$0914 = $2;$8 = $0;$9 = $1;

								  while(1) {

								   $10 = (___uremdi3(($8|0),($9|0),10,0)|0);

								   $11 = tempRet0;

								   $12 = $10&255;

								   $13 = $12 | 48;

								   $14 = ((($$0914)) + -1|0);

								   HEAP8[$14>>0] = $13;

								   $15 = (___udivdi3(($8|0),($9|0),10,0)|0);

								   $16 = tempRet0;

								   $17 = ($9>>>0)>(9);

								   $18 = ($8>>>0)>(4294967295);

								   $19 = ($9|0)==(9);

								   $20 = $19 & $18;

								   $21 = $17 | $20;

								   if ($21) {

								    $$0914 = $14;$8 = $15;$9 = $16;

								   } else {

								    break;

								   }

								  }

								  $$010$lcssa$off0 = $15;$$09$lcssa = $14;

								 } else {

								  $$010$lcssa$off0 = $0;$$09$lcssa = $2;

								 }

								 $22 = ($$010$lcssa$off0|0)==(0);

								 if ($22) {

								  $$1$lcssa = $$09$lcssa;

								 } else {

								  $$012 = $$010$lcssa$off0;$$111 = $$09$lcssa;

								  while(1) {

								   $23 = (($$012>>>0) % 10)&-1;

								   $24 = $23 | 48;

								   $25 = $24&255;

								   $26 = ((($$111)) + -1|0);

								   HEAP8[$26>>0] = $25;

								   $27 = (($$012>>>0) / 10)&-1;

								   $28 = ($$012>>>0)<(10);

								   if ($28) {

								    $$1$lcssa = $26;

								    break;

								   } else {

								    $$012 = $27;$$111 = $26;

								   }

								  }

								 }

								 return ($$1$lcssa|0);

								}

								function _strerror($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, $4 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = (___pthread_self_105()|0);

								 $2 = ((($1)) + 188|0);

								 $3 = HEAP32[$2>>2]|0;

								 $4 = (___strerror_l($0,$3)|0);

								 return ($4|0);

								}

								function _memchr($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$0$lcssa = 0, $$035$lcssa = 0, $$035$lcssa65 = 0, $$03555 = 0, $$036$lcssa = 0, $$036$lcssa64 = 0, $$03654 = 0, $$046 = 0, $$137$lcssa = 0, $$13745 = 0, $$140 = 0, $$2 = 0, $$23839 = 0, $$3 = 0, $$lcssa = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0;

								 var $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0;

								 var $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond53 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $1 & 255;

								 $4 = $0;

								 $5 = $4 & 3;

								 $6 = ($5|0)!=(0);

								 $7 = ($2|0)!=(0);

								 $or$cond53 = $7 & $6;

								 L1: do {

								  if ($or$cond53) {

								   $8 = $1&255;

								   $$03555 = $0;$$03654 = $2;

								   while(1) {

								    $9 = HEAP8[$$03555>>0]|0;

								    $10 = ($9<<24>>24)==($8<<24>>24);

								    if ($10) {

								     $$035$lcssa65 = $$03555;$$036$lcssa64 = $$03654;

								     label = 6;

								     break L1;

								    }

								    $11 = ((($$03555)) + 1|0);

								    $12 = (($$03654) + -1)|0;

								    $13 = $11;

								    $14 = $13 & 3;

								    $15 = ($14|0)!=(0);

								    $16 = ($12|0)!=(0);

								    $or$cond = $16 & $15;

								    if ($or$cond) {

								     $$03555 = $11;$$03654 = $12;

								    } else {

								     $$035$lcssa = $11;$$036$lcssa = $12;$$lcssa = $16;

								     label = 5;

								     break;

								    }

								   }

								  } else {

								   $$035$lcssa = $0;$$036$lcssa = $2;$$lcssa = $7;

								   label = 5;

								  }

								 } while(0);

								 if ((label|0) == 5) {

								  if ($$lcssa) {

								   $$035$lcssa65 = $$035$lcssa;$$036$lcssa64 = $$036$lcssa;

								   label = 6;

								  } else {

								   $$2 = $$035$lcssa;$$3 = 0;

								  }

								 }

								 L8: do {

								  if ((label|0) == 6) {

								   $17 = HEAP8[$$035$lcssa65>>0]|0;

								   $18 = $1&255;

								   $19 = ($17<<24>>24)==($18<<24>>24);

								   if ($19) {

								    $$2 = $$035$lcssa65;$$3 = $$036$lcssa64;

								   } else {

								    $20 = Math_imul($3, 16843009)|0;

								    $21 = ($$036$lcssa64>>>0)>(3);

								    L11: do {

								     if ($21) {

								      $$046 = $$035$lcssa65;$$13745 = $$036$lcssa64;

								      while(1) {

								       $22 = HEAP32[$$046>>2]|0;

								       $23 = $22 ^ $20;

								       $24 = (($23) + -16843009)|0;

								       $25 = $23 & -2139062144;

								       $26 = $25 ^ -2139062144;

								       $27 = $26 & $24;

								       $28 = ($27|0)==(0);

								       if (!($28)) {

								        break;

								       }

								       $29 = ((($$046)) + 4|0);

								       $30 = (($$13745) + -4)|0;

								       $31 = ($30>>>0)>(3);

								       if ($31) {

								        $$046 = $29;$$13745 = $30;

								       } else {

								        $$0$lcssa = $29;$$137$lcssa = $30;

								        label = 11;

								        break L11;

								       }

								      }

								      $$140 = $$046;$$23839 = $$13745;

								     } else {

								      $$0$lcssa = $$035$lcssa65;$$137$lcssa = $$036$lcssa64;

								      label = 11;

								     }

								    } while(0);

								    if ((label|0) == 11) {

								     $32 = ($$137$lcssa|0)==(0);

								     if ($32) {

								      $$2 = $$0$lcssa;$$3 = 0;

								      break;

								     } else {

								      $$140 = $$0$lcssa;$$23839 = $$137$lcssa;

								     }

								    }

								    while(1) {

								     $33 = HEAP8[$$140>>0]|0;

								     $34 = ($33<<24>>24)==($18<<24>>24);

								     if ($34) {

								      $$2 = $$140;$$3 = $$23839;

								      break L8;

								     }

								     $35 = ((($$140)) + 1|0);

								     $36 = (($$23839) + -1)|0;

								     $37 = ($36|0)==(0);

								     if ($37) {

								      $$2 = $35;$$3 = 0;

								      break;

								     } else {

								      $$140 = $35;$$23839 = $36;

								     }

								    }

								   }

								  }

								 } while(0);

								 $38 = ($$3|0)!=(0);

								 $39 = $38 ? $$2 : 0;

								 return ($39|0);

								}

								function _pad_672($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $$0$lcssa = 0, $$011 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 256|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(256|0);

								 $5 = sp;

								 $6 = $4 & 73728;

								 $7 = ($6|0)==(0);

								 $8 = ($2|0)>($3|0);

								 $or$cond = $8 & $7;

								 if ($or$cond) {

								  $9 = (($2) - ($3))|0;

								  $10 = ($9>>>0)<(256);

								  $11 = $10 ? $9 : 256;

								  _memset(($5|0),($1|0),($11|0))|0;

								  $12 = ($9>>>0)>(255);

								  if ($12) {

								   $13 = (($2) - ($3))|0;

								   $$011 = $9;

								   while(1) {

								    _out($0,$5,256);

								    $14 = (($$011) + -256)|0;

								    $15 = ($14>>>0)>(255);

								    if ($15) {

								     $$011 = $14;

								    } else {

								     break;

								    }

								   }

								   $16 = $13 & 255;

								   $$0$lcssa = $16;

								  } else {

								   $$0$lcssa = $9;

								  }

								  _out($0,$5,$$0$lcssa);

								 }

								 STACKTOP = sp;return;

								}

								function _wctomb($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ($0|0)==(0|0);

								 if ($2) {

								  $$0 = 0;

								 } else {

								  $3 = (_wcrtomb($0,$1,0)|0);

								  $$0 = $3;

								 }

								 return ($$0|0);

								}

								function _fmt_fp($0,$1,$2,$3,$4,$5) {

								 $0 = $0|0;

								 $1 = +$1;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 $5 = $5|0;

								 var $$ = 0, $$$ = 0, $$$$559 = 0.0, $$$3484 = 0, $$$3484691 = 0, $$$3484692 = 0, $$$3501 = 0, $$$4502 = 0, $$$542 = 0.0, $$$559 = 0.0, $$0 = 0, $$0463$lcssa = 0, $$0463584 = 0, $$0464594 = 0, $$0471 = 0.0, $$0479 = 0, $$0487642 = 0, $$0488 = 0, $$0488653 = 0, $$0488655 = 0;

								 var $$0496$$9 = 0, $$0497654 = 0, $$0498 = 0, $$0509582 = 0.0, $$0510 = 0, $$0511 = 0, $$0514637 = 0, $$0520 = 0, $$0521 = 0, $$0521$ = 0, $$0523 = 0, $$0525 = 0, $$0527 = 0, $$0527629 = 0, $$0527631 = 0, $$0530636 = 0, $$1465 = 0, $$1467 = 0.0, $$1469 = 0.0, $$1472 = 0.0;

								 var $$1480 = 0, $$1482$lcssa = 0, $$1482661 = 0, $$1489641 = 0, $$1499$lcssa = 0, $$1499660 = 0, $$1508583 = 0, $$1512$lcssa = 0, $$1512607 = 0, $$1515 = 0, $$1524 = 0, $$1526 = 0, $$1528614 = 0, $$1531$lcssa = 0, $$1531630 = 0, $$1598 = 0, $$2 = 0, $$2473 = 0.0, $$2476 = 0, $$2476$$547 = 0;

								 var $$2476$$549 = 0, $$2483$ph = 0, $$2500 = 0, $$2513 = 0, $$2516618 = 0, $$2529 = 0, $$2532617 = 0, $$3 = 0.0, $$3477 = 0, $$3484$lcssa = 0, $$3484648 = 0, $$3501$lcssa = 0, $$3501647 = 0, $$3533613 = 0, $$4 = 0.0, $$4478$lcssa = 0, $$4478590 = 0, $$4492 = 0, $$4502 = 0, $$4518 = 0;

								 var $$5$lcssa = 0, $$534$ = 0, $$539 = 0, $$539$ = 0, $$542 = 0.0, $$546 = 0, $$548 = 0, $$5486$lcssa = 0, $$5486623 = 0, $$5493597 = 0, $$5519$ph = 0, $$555 = 0, $$556 = 0, $$559 = 0.0, $$5602 = 0, $$6 = 0, $$6494589 = 0, $$7495601 = 0, $$7505 = 0, $$7505$ = 0;

								 var $$7505$ph = 0, $$8 = 0, $$9$ph = 0, $$lcssa673 = 0, $$neg = 0, $$neg567 = 0, $$pn = 0, $$pn566 = 0, $$pr = 0, $$pr564 = 0, $$pre = 0, $$pre$phi690Z2D = 0, $$pre689 = 0, $$sink545$lcssa = 0, $$sink545622 = 0, $$sink562 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0;

								 var $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0.0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0.0, $117 = 0.0, $118 = 0.0, $119 = 0, $12 = 0, $120 = 0;

								 var $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0;

								 var $14 = 0.0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0;

								 var $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0;

								 var $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0;

								 var $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0;

								 var $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0.0, $229 = 0.0, $23 = 0;

								 var $230 = 0, $231 = 0.0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0;

								 var $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0;

								 var $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0;

								 var $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0, $298 = 0, $299 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0;

								 var $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0;

								 var $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0;

								 var $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0.0, $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0;

								 var $358 = 0, $359 = 0, $36 = 0.0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0, $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0;

								 var $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0, $387 = 0, $388 = 0, $39 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0;

								 var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $50 = 0, $51 = 0.0, $52 = 0, $53 = 0, $54 = 0, $55 = 0.0, $56 = 0.0, $57 = 0.0, $58 = 0.0, $59 = 0.0, $6 = 0, $60 = 0.0, $61 = 0, $62 = 0, $63 = 0;

								 var $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0;

								 var $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0.0, $88 = 0.0, $89 = 0.0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $exitcond = 0;

								 var $narrow = 0, $not$ = 0, $notlhs = 0, $notrhs = 0, $or$cond = 0, $or$cond3$not = 0, $or$cond537 = 0, $or$cond541 = 0, $or$cond544 = 0, $or$cond554 = 0, $or$cond6 = 0, $scevgep684 = 0, $scevgep684685 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 560|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(560|0);

								 $6 = sp + 8|0;

								 $7 = sp;

								 $8 = sp + 524|0;

								 $9 = $8;

								 $10 = sp + 512|0;

								 HEAP32[$7>>2] = 0;

								 $11 = ((($10)) + 12|0);

								 (___DOUBLE_BITS_673($1)|0);

								 $12 = tempRet0;

								 $13 = ($12|0)<(0);

								 if ($13) {

								  $14 = -$1;

								  $$0471 = $14;$$0520 = 1;$$0521 = 11679;

								 } else {

								  $15 = $4 & 2048;

								  $16 = ($15|0)==(0);

								  $17 = $4 & 1;

								  $18 = ($17|0)==(0);

								  $$ = $18 ? (11680) : (11685);

								  $$$ = $16 ? $$ : (11682);

								  $19 = $4 & 2049;

								  $narrow = ($19|0)!=(0);

								  $$534$ = $narrow&1;

								  $$0471 = $1;$$0520 = $$534$;$$0521 = $$$;

								 }

								 (___DOUBLE_BITS_673($$0471)|0);

								 $20 = tempRet0;

								 $21 = $20 & 2146435072;

								 $22 = ($21>>>0)<(2146435072);

								 $23 = (0)<(0);

								 $24 = ($21|0)==(2146435072);

								 $25 = $24 & $23;

								 $26 = $22 | $25;

								 do {

								  if ($26) {

								   $35 = (+_frexpl($$0471,$7));

								   $36 = $35 * 2.0;

								   $37 = $36 != 0.0;

								   if ($37) {

								    $38 = HEAP32[$7>>2]|0;

								    $39 = (($38) + -1)|0;

								    HEAP32[$7>>2] = $39;

								   }

								   $40 = $5 | 32;

								   $41 = ($40|0)==(97);

								   if ($41) {

								    $42 = $5 & 32;

								    $43 = ($42|0)==(0);

								    $44 = ((($$0521)) + 9|0);

								    $$0521$ = $43 ? $$0521 : $44;

								    $45 = $$0520 | 2;

								    $46 = ($3>>>0)>(11);

								    $47 = (12 - ($3))|0;

								    $48 = ($47|0)==(0);

								    $49 = $46 | $48;

								    do {

								     if ($49) {

								      $$1472 = $36;

								     } else {

								      $$0509582 = 8.0;$$1508583 = $47;

								      while(1) {

								       $50 = (($$1508583) + -1)|0;

								       $51 = $$0509582 * 16.0;

								       $52 = ($50|0)==(0);

								       if ($52) {

								        break;

								       } else {

								        $$0509582 = $51;$$1508583 = $50;

								       }

								      }

								      $53 = HEAP8[$$0521$>>0]|0;

								      $54 = ($53<<24>>24)==(45);

								      if ($54) {

								       $55 = -$36;

								       $56 = $55 - $51;

								       $57 = $51 + $56;

								       $58 = -$57;

								       $$1472 = $58;

								       break;

								      } else {

								       $59 = $36 + $51;

								       $60 = $59 - $51;

								       $$1472 = $60;

								       break;

								      }

								     }

								    } while(0);

								    $61 = HEAP32[$7>>2]|0;

								    $62 = ($61|0)<(0);

								    $63 = (0 - ($61))|0;

								    $64 = $62 ? $63 : $61;

								    $65 = ($64|0)<(0);

								    $66 = $65 << 31 >> 31;

								    $67 = (_fmt_u($64,$66,$11)|0);

								    $68 = ($67|0)==($11|0);

								    if ($68) {

								     $69 = ((($10)) + 11|0);

								     HEAP8[$69>>0] = 48;

								     $$0511 = $69;

								    } else {

								     $$0511 = $67;

								    }

								    $70 = $61 >> 31;

								    $71 = $70 & 2;

								    $72 = (($71) + 43)|0;

								    $73 = $72&255;

								    $74 = ((($$0511)) + -1|0);

								    HEAP8[$74>>0] = $73;

								    $75 = (($5) + 15)|0;

								    $76 = $75&255;

								    $77 = ((($$0511)) + -2|0);

								    HEAP8[$77>>0] = $76;

								    $notrhs = ($3|0)<(1);

								    $78 = $4 & 8;

								    $79 = ($78|0)==(0);

								    $$0523 = $8;$$2473 = $$1472;

								    while(1) {

								     $80 = (~~(($$2473)));

								     $81 = (11714 + ($80)|0);

								     $82 = HEAP8[$81>>0]|0;

								     $83 = $82&255;

								     $84 = $83 | $42;

								     $85 = $84&255;

								     $86 = ((($$0523)) + 1|0);

								     HEAP8[$$0523>>0] = $85;

								     $87 = (+($80|0));

								     $88 = $$2473 - $87;

								     $89 = $88 * 16.0;

								     $90 = $86;

								     $91 = (($90) - ($9))|0;

								     $92 = ($91|0)==(1);

								     if ($92) {

								      $notlhs = $89 == 0.0;

								      $or$cond3$not = $notrhs & $notlhs;

								      $or$cond = $79 & $or$cond3$not;

								      if ($or$cond) {

								       $$1524 = $86;

								      } else {

								       $93 = ((($$0523)) + 2|0);

								       HEAP8[$86>>0] = 46;

								       $$1524 = $93;

								      }

								     } else {

								      $$1524 = $86;

								     }

								     $94 = $89 != 0.0;

								     if ($94) {

								      $$0523 = $$1524;$$2473 = $89;

								     } else {

								      break;

								     }

								    }

								    $95 = ($3|0)!=(0);

								    $96 = $77;

								    $97 = $11;

								    $98 = $$1524;

								    $99 = (($98) - ($9))|0;

								    $100 = (($97) - ($96))|0;

								    $101 = (($99) + -2)|0;

								    $102 = ($101|0)<($3|0);

								    $or$cond537 = $95 & $102;

								    $103 = (($3) + 2)|0;

								    $$pn = $or$cond537 ? $103 : $99;

								    $$0525 = (($100) + ($45))|0;

								    $104 = (($$0525) + ($$pn))|0;

								    _pad_672($0,32,$2,$104,$4);

								    _out($0,$$0521$,$45);

								    $105 = $4 ^ 65536;

								    _pad_672($0,48,$2,$104,$105);

								    _out($0,$8,$99);

								    $106 = (($$pn) - ($99))|0;

								    _pad_672($0,48,$106,0,0);

								    _out($0,$77,$100);

								    $107 = $4 ^ 8192;

								    _pad_672($0,32,$2,$104,$107);

								    $$sink562 = $104;

								    break;

								   }

								   $108 = ($3|0)<(0);

								   $$539 = $108 ? 6 : $3;

								   if ($37) {

								    $109 = $36 * 268435456.0;

								    $110 = HEAP32[$7>>2]|0;

								    $111 = (($110) + -28)|0;

								    HEAP32[$7>>2] = $111;

								    $$3 = $109;$$pr = $111;

								   } else {

								    $$pre = HEAP32[$7>>2]|0;

								    $$3 = $36;$$pr = $$pre;

								   }

								   $112 = ($$pr|0)<(0);

								   $113 = ((($6)) + 288|0);

								   $$556 = $112 ? $6 : $113;

								   $$0498 = $$556;$$4 = $$3;

								   while(1) {

								    $114 = (~~(($$4))>>>0);

								    HEAP32[$$0498>>2] = $114;

								    $115 = ((($$0498)) + 4|0);

								    $116 = (+($114>>>0));

								    $117 = $$4 - $116;

								    $118 = $117 * 1.0E+9;

								    $119 = $118 != 0.0;

								    if ($119) {

								     $$0498 = $115;$$4 = $118;

								    } else {

								     break;

								    }

								   }

								   $120 = ($$pr|0)>(0);

								   if ($120) {

								    $$1482661 = $$556;$$1499660 = $115;$122 = $$pr;

								    while(1) {

								     $121 = ($122|0)<(29);

								     $123 = $121 ? $122 : 29;

								     $$0488653 = ((($$1499660)) + -4|0);

								     $124 = ($$0488653>>>0)<($$1482661>>>0);

								     if ($124) {

								      $$2483$ph = $$1482661;

								     } else {

								      $$0488655 = $$0488653;$$0497654 = 0;

								      while(1) {

								       $125 = HEAP32[$$0488655>>2]|0;

								       $126 = (_bitshift64Shl(($125|0),0,($123|0))|0);

								       $127 = tempRet0;

								       $128 = (_i64Add(($126|0),($127|0),($$0497654|0),0)|0);

								       $129 = tempRet0;

								       $130 = (___uremdi3(($128|0),($129|0),1000000000,0)|0);

								       $131 = tempRet0;

								       HEAP32[$$0488655>>2] = $130;

								       $132 = (___udivdi3(($128|0),($129|0),1000000000,0)|0);

								       $133 = tempRet0;

								       $$0488 = ((($$0488655)) + -4|0);

								       $134 = ($$0488>>>0)<($$1482661>>>0);

								       if ($134) {

								        break;

								       } else {

								        $$0488655 = $$0488;$$0497654 = $132;

								       }

								      }

								      $135 = ($132|0)==(0);

								      if ($135) {

								       $$2483$ph = $$1482661;

								      } else {

								       $136 = ((($$1482661)) + -4|0);

								       HEAP32[$136>>2] = $132;

								       $$2483$ph = $136;

								      }

								     }

								     $$2500 = $$1499660;

								     while(1) {

								      $137 = ($$2500>>>0)>($$2483$ph>>>0);

								      if (!($137)) {

								       break;

								      }

								      $138 = ((($$2500)) + -4|0);

								      $139 = HEAP32[$138>>2]|0;

								      $140 = ($139|0)==(0);

								      if ($140) {

								       $$2500 = $138;

								      } else {

								       break;

								      }

								     }

								     $141 = HEAP32[$7>>2]|0;

								     $142 = (($141) - ($123))|0;

								     HEAP32[$7>>2] = $142;

								     $143 = ($142|0)>(0);

								     if ($143) {

								      $$1482661 = $$2483$ph;$$1499660 = $$2500;$122 = $142;

								     } else {

								      $$1482$lcssa = $$2483$ph;$$1499$lcssa = $$2500;$$pr564 = $142;

								      break;

								     }

								    }

								   } else {

								    $$1482$lcssa = $$556;$$1499$lcssa = $115;$$pr564 = $$pr;

								   }

								   $144 = ($$pr564|0)<(0);

								   if ($144) {

								    $145 = (($$539) + 25)|0;

								    $146 = (($145|0) / 9)&-1;

								    $147 = (($146) + 1)|0;

								    $148 = ($40|0)==(102);

								    $$3484648 = $$1482$lcssa;$$3501647 = $$1499$lcssa;$150 = $$pr564;

								    while(1) {

								     $149 = (0 - ($150))|0;

								     $151 = ($149|0)<(9);

								     $152 = $151 ? $149 : 9;

								     $153 = ($$3484648>>>0)<($$3501647>>>0);

								     if ($153) {

								      $157 = 1 << $152;

								      $158 = (($157) + -1)|0;

								      $159 = 1000000000 >>> $152;

								      $$0487642 = 0;$$1489641 = $$3484648;

								      while(1) {

								       $160 = HEAP32[$$1489641>>2]|0;

								       $161 = $160 & $158;

								       $162 = $160 >>> $152;

								       $163 = (($162) + ($$0487642))|0;

								       HEAP32[$$1489641>>2] = $163;

								       $164 = Math_imul($161, $159)|0;

								       $165 = ((($$1489641)) + 4|0);

								       $166 = ($165>>>0)<($$3501647>>>0);

								       if ($166) {

								        $$0487642 = $164;$$1489641 = $165;

								       } else {

								        break;

								       }

								      }

								      $167 = HEAP32[$$3484648>>2]|0;

								      $168 = ($167|0)==(0);

								      $169 = ((($$3484648)) + 4|0);

								      $$$3484 = $168 ? $169 : $$3484648;

								      $170 = ($164|0)==(0);

								      if ($170) {

								       $$$3484692 = $$$3484;$$4502 = $$3501647;

								      } else {

								       $171 = ((($$3501647)) + 4|0);

								       HEAP32[$$3501647>>2] = $164;

								       $$$3484692 = $$$3484;$$4502 = $171;

								      }

								     } else {

								      $154 = HEAP32[$$3484648>>2]|0;

								      $155 = ($154|0)==(0);

								      $156 = ((($$3484648)) + 4|0);

								      $$$3484691 = $155 ? $156 : $$3484648;

								      $$$3484692 = $$$3484691;$$4502 = $$3501647;

								     }

								     $172 = $148 ? $$556 : $$$3484692;

								     $173 = $$4502;

								     $174 = $172;

								     $175 = (($173) - ($174))|0;

								     $176 = $175 >> 2;

								     $177 = ($176|0)>($147|0);

								     $178 = (($172) + ($147<<2)|0);

								     $$$4502 = $177 ? $178 : $$4502;

								     $179 = HEAP32[$7>>2]|0;

								     $180 = (($179) + ($152))|0;

								     HEAP32[$7>>2] = $180;

								     $181 = ($180|0)<(0);

								     if ($181) {

								      $$3484648 = $$$3484692;$$3501647 = $$$4502;$150 = $180;

								     } else {

								      $$3484$lcssa = $$$3484692;$$3501$lcssa = $$$4502;

								      break;

								     }

								    }

								   } else {

								    $$3484$lcssa = $$1482$lcssa;$$3501$lcssa = $$1499$lcssa;

								   }

								   $182 = ($$3484$lcssa>>>0)<($$3501$lcssa>>>0);

								   $183 = $$556;

								   if ($182) {

								    $184 = $$3484$lcssa;

								    $185 = (($183) - ($184))|0;

								    $186 = $185 >> 2;

								    $187 = ($186*9)|0;

								    $188 = HEAP32[$$3484$lcssa>>2]|0;

								    $189 = ($188>>>0)<(10);

								    if ($189) {

								     $$1515 = $187;

								    } else {

								     $$0514637 = $187;$$0530636 = 10;

								     while(1) {

								      $190 = ($$0530636*10)|0;

								      $191 = (($$0514637) + 1)|0;

								      $192 = ($188>>>0)<($190>>>0);

								      if ($192) {

								       $$1515 = $191;

								       break;

								      } else {

								       $$0514637 = $191;$$0530636 = $190;

								      }

								     }

								    }

								   } else {

								    $$1515 = 0;

								   }

								   $193 = ($40|0)!=(102);

								   $194 = $193 ? $$1515 : 0;

								   $195 = (($$539) - ($194))|0;

								   $196 = ($40|0)==(103);

								   $197 = ($$539|0)!=(0);

								   $198 = $197 & $196;

								   $$neg = $198 << 31 >> 31;

								   $199 = (($195) + ($$neg))|0;

								   $200 = $$3501$lcssa;

								   $201 = (($200) - ($183))|0;

								   $202 = $201 >> 2;

								   $203 = ($202*9)|0;

								   $204 = (($203) + -9)|0;

								   $205 = ($199|0)<($204|0);

								   if ($205) {

								    $206 = ((($$556)) + 4|0);

								    $207 = (($199) + 9216)|0;

								    $208 = (($207|0) / 9)&-1;

								    $209 = (($208) + -1024)|0;

								    $210 = (($206) + ($209<<2)|0);

								    $211 = (($207|0) % 9)&-1;

								    $$0527629 = (($211) + 1)|0;

								    $212 = ($$0527629|0)<(9);

								    if ($212) {

								     $$0527631 = $$0527629;$$1531630 = 10;

								     while(1) {

								      $213 = ($$1531630*10)|0;

								      $$0527 = (($$0527631) + 1)|0;

								      $exitcond = ($$0527|0)==(9);

								      if ($exitcond) {

								       $$1531$lcssa = $213;

								       break;

								      } else {

								       $$0527631 = $$0527;$$1531630 = $213;

								      }

								     }

								    } else {

								     $$1531$lcssa = 10;

								    }

								    $214 = HEAP32[$210>>2]|0;

								    $215 = (($214>>>0) % ($$1531$lcssa>>>0))&-1;

								    $216 = ($215|0)==(0);

								    $217 = ((($210)) + 4|0);

								    $218 = ($217|0)==($$3501$lcssa|0);

								    $or$cond541 = $218 & $216;

								    if ($or$cond541) {

								     $$4492 = $210;$$4518 = $$1515;$$8 = $$3484$lcssa;

								    } else {

								     $219 = (($214>>>0) / ($$1531$lcssa>>>0))&-1;

								     $220 = $219 & 1;

								     $221 = ($220|0)==(0);

								     $$542 = $221 ? 9007199254740992.0 : 9007199254740994.0;

								     $222 = (($$1531$lcssa|0) / 2)&-1;

								     $223 = ($215>>>0)<($222>>>0);

								     $224 = ($215|0)==($222|0);

								     $or$cond544 = $218 & $224;

								     $$559 = $or$cond544 ? 1.0 : 1.5;

								     $$$559 = $223 ? 0.5 : $$559;

								     $225 = ($$0520|0)==(0);

								     if ($225) {

								      $$1467 = $$$559;$$1469 = $$542;

								     } else {

								      $226 = HEAP8[$$0521>>0]|0;

								      $227 = ($226<<24>>24)==(45);

								      $228 = -$$542;

								      $229 = -$$$559;

								      $$$542 = $227 ? $228 : $$542;

								      $$$$559 = $227 ? $229 : $$$559;

								      $$1467 = $$$$559;$$1469 = $$$542;

								     }

								     $230 = (($214) - ($215))|0;

								     HEAP32[$210>>2] = $230;

								     $231 = $$1469 + $$1467;

								     $232 = $231 != $$1469;

								     if ($232) {

								      $233 = (($230) + ($$1531$lcssa))|0;

								      HEAP32[$210>>2] = $233;

								      $234 = ($233>>>0)>(999999999);

								      if ($234) {

								       $$5486623 = $$3484$lcssa;$$sink545622 = $210;

								       while(1) {

								        $235 = ((($$sink545622)) + -4|0);

								        HEAP32[$$sink545622>>2] = 0;

								        $236 = ($235>>>0)<($$5486623>>>0);

								        if ($236) {

								         $237 = ((($$5486623)) + -4|0);

								         HEAP32[$237>>2] = 0;

								         $$6 = $237;

								        } else {

								         $$6 = $$5486623;

								        }

								        $238 = HEAP32[$235>>2]|0;

								        $239 = (($238) + 1)|0;

								        HEAP32[$235>>2] = $239;

								        $240 = ($239>>>0)>(999999999);

								        if ($240) {

								         $$5486623 = $$6;$$sink545622 = $235;

								        } else {

								         $$5486$lcssa = $$6;$$sink545$lcssa = $235;

								         break;

								        }

								       }

								      } else {

								       $$5486$lcssa = $$3484$lcssa;$$sink545$lcssa = $210;

								      }

								      $241 = $$5486$lcssa;

								      $242 = (($183) - ($241))|0;

								      $243 = $242 >> 2;

								      $244 = ($243*9)|0;

								      $245 = HEAP32[$$5486$lcssa>>2]|0;

								      $246 = ($245>>>0)<(10);

								      if ($246) {

								       $$4492 = $$sink545$lcssa;$$4518 = $244;$$8 = $$5486$lcssa;

								      } else {

								       $$2516618 = $244;$$2532617 = 10;

								       while(1) {

								        $247 = ($$2532617*10)|0;

								        $248 = (($$2516618) + 1)|0;

								        $249 = ($245>>>0)<($247>>>0);

								        if ($249) {

								         $$4492 = $$sink545$lcssa;$$4518 = $248;$$8 = $$5486$lcssa;

								         break;

								        } else {

								         $$2516618 = $248;$$2532617 = $247;

								        }

								       }

								      }

								     } else {

								      $$4492 = $210;$$4518 = $$1515;$$8 = $$3484$lcssa;

								     }

								    }

								    $250 = ((($$4492)) + 4|0);

								    $251 = ($$3501$lcssa>>>0)>($250>>>0);

								    $$$3501 = $251 ? $250 : $$3501$lcssa;

								    $$5519$ph = $$4518;$$7505$ph = $$$3501;$$9$ph = $$8;

								   } else {

								    $$5519$ph = $$1515;$$7505$ph = $$3501$lcssa;$$9$ph = $$3484$lcssa;

								   }

								   $$7505 = $$7505$ph;

								   while(1) {

								    $252 = ($$7505>>>0)>($$9$ph>>>0);

								    if (!($252)) {

								     $$lcssa673 = 0;

								     break;

								    }

								    $253 = ((($$7505)) + -4|0);

								    $254 = HEAP32[$253>>2]|0;

								    $255 = ($254|0)==(0);

								    if ($255) {

								     $$7505 = $253;

								    } else {

								     $$lcssa673 = 1;

								     break;

								    }

								   }

								   $256 = (0 - ($$5519$ph))|0;

								   do {

								    if ($196) {

								     $not$ = $197 ^ 1;

								     $257 = $not$&1;

								     $$539$ = (($257) + ($$539))|0;

								     $258 = ($$539$|0)>($$5519$ph|0);

								     $259 = ($$5519$ph|0)>(-5);

								     $or$cond6 = $258 & $259;

								     if ($or$cond6) {

								      $260 = (($5) + -1)|0;

								      $$neg567 = (($$539$) + -1)|0;

								      $261 = (($$neg567) - ($$5519$ph))|0;

								      $$0479 = $260;$$2476 = $261;

								     } else {

								      $262 = (($5) + -2)|0;

								      $263 = (($$539$) + -1)|0;

								      $$0479 = $262;$$2476 = $263;

								     }

								     $264 = $4 & 8;

								     $265 = ($264|0)==(0);

								     if ($265) {

								      if ($$lcssa673) {

								       $266 = ((($$7505)) + -4|0);

								       $267 = HEAP32[$266>>2]|0;

								       $268 = ($267|0)==(0);

								       if ($268) {

								        $$2529 = 9;

								       } else {

								        $269 = (($267>>>0) % 10)&-1;

								        $270 = ($269|0)==(0);

								        if ($270) {

								         $$1528614 = 0;$$3533613 = 10;

								         while(1) {

								          $271 = ($$3533613*10)|0;

								          $272 = (($$1528614) + 1)|0;

								          $273 = (($267>>>0) % ($271>>>0))&-1;

								          $274 = ($273|0)==(0);

								          if ($274) {

								           $$1528614 = $272;$$3533613 = $271;

								          } else {

								           $$2529 = $272;

								           break;

								          }

								         }

								        } else {

								         $$2529 = 0;

								        }

								       }

								      } else {

								       $$2529 = 9;

								      }

								      $275 = $$0479 | 32;

								      $276 = ($275|0)==(102);

								      $277 = $$7505;

								      $278 = (($277) - ($183))|0;

								      $279 = $278 >> 2;

								      $280 = ($279*9)|0;

								      $281 = (($280) + -9)|0;

								      if ($276) {

								       $282 = (($281) - ($$2529))|0;

								       $283 = ($282|0)>(0);

								       $$546 = $283 ? $282 : 0;

								       $284 = ($$2476|0)<($$546|0);

								       $$2476$$547 = $284 ? $$2476 : $$546;

								       $$1480 = $$0479;$$3477 = $$2476$$547;$$pre$phi690Z2D = 0;

								       break;

								      } else {

								       $285 = (($281) + ($$5519$ph))|0;

								       $286 = (($285) - ($$2529))|0;

								       $287 = ($286|0)>(0);

								       $$548 = $287 ? $286 : 0;

								       $288 = ($$2476|0)<($$548|0);

								       $$2476$$549 = $288 ? $$2476 : $$548;

								       $$1480 = $$0479;$$3477 = $$2476$$549;$$pre$phi690Z2D = 0;

								       break;

								      }

								     } else {

								      $$1480 = $$0479;$$3477 = $$2476;$$pre$phi690Z2D = $264;

								     }

								    } else {

								     $$pre689 = $4 & 8;

								     $$1480 = $5;$$3477 = $$539;$$pre$phi690Z2D = $$pre689;

								    }

								   } while(0);

								   $289 = $$3477 | $$pre$phi690Z2D;

								   $290 = ($289|0)!=(0);

								   $291 = $290&1;

								   $292 = $$1480 | 32;

								   $293 = ($292|0)==(102);

								   if ($293) {

								    $294 = ($$5519$ph|0)>(0);

								    $295 = $294 ? $$5519$ph : 0;

								    $$2513 = 0;$$pn566 = $295;

								   } else {

								    $296 = ($$5519$ph|0)<(0);

								    $297 = $296 ? $256 : $$5519$ph;

								    $298 = ($297|0)<(0);

								    $299 = $298 << 31 >> 31;

								    $300 = (_fmt_u($297,$299,$11)|0);

								    $301 = $11;

								    $302 = $300;

								    $303 = (($301) - ($302))|0;

								    $304 = ($303|0)<(2);

								    if ($304) {

								     $$1512607 = $300;

								     while(1) {

								      $305 = ((($$1512607)) + -1|0);

								      HEAP8[$305>>0] = 48;

								      $306 = $305;

								      $307 = (($301) - ($306))|0;

								      $308 = ($307|0)<(2);

								      if ($308) {

								       $$1512607 = $305;

								      } else {

								       $$1512$lcssa = $305;

								       break;

								      }

								     }

								    } else {

								     $$1512$lcssa = $300;

								    }

								    $309 = $$5519$ph >> 31;

								    $310 = $309 & 2;

								    $311 = (($310) + 43)|0;

								    $312 = $311&255;

								    $313 = ((($$1512$lcssa)) + -1|0);

								    HEAP8[$313>>0] = $312;

								    $314 = $$1480&255;

								    $315 = ((($$1512$lcssa)) + -2|0);

								    HEAP8[$315>>0] = $314;

								    $316 = $315;

								    $317 = (($301) - ($316))|0;

								    $$2513 = $315;$$pn566 = $317;

								   }

								   $318 = (($$0520) + 1)|0;

								   $319 = (($318) + ($$3477))|0;

								   $$1526 = (($319) + ($291))|0;

								   $320 = (($$1526) + ($$pn566))|0;

								   _pad_672($0,32,$2,$320,$4);

								   _out($0,$$0521,$$0520);

								   $321 = $4 ^ 65536;

								   _pad_672($0,48,$2,$320,$321);

								   if ($293) {

								    $322 = ($$9$ph>>>0)>($$556>>>0);

								    $$0496$$9 = $322 ? $$556 : $$9$ph;

								    $323 = ((($8)) + 9|0);

								    $324 = $323;

								    $325 = ((($8)) + 8|0);

								    $$5493597 = $$0496$$9;

								    while(1) {

								     $326 = HEAP32[$$5493597>>2]|0;

								     $327 = (_fmt_u($326,0,$323)|0);

								     $328 = ($$5493597|0)==($$0496$$9|0);

								     if ($328) {

								      $334 = ($327|0)==($323|0);

								      if ($334) {

								       HEAP8[$325>>0] = 48;

								       $$1465 = $325;

								      } else {

								       $$1465 = $327;

								      }

								     } else {

								      $329 = ($327>>>0)>($8>>>0);

								      if ($329) {

								       $330 = $327;

								       $331 = (($330) - ($9))|0;

								       _memset(($8|0),48,($331|0))|0;

								       $$0464594 = $327;

								       while(1) {

								        $332 = ((($$0464594)) + -1|0);

								        $333 = ($332>>>0)>($8>>>0);

								        if ($333) {

								         $$0464594 = $332;

								        } else {

								         $$1465 = $332;

								         break;

								        }

								       }

								      } else {

								       $$1465 = $327;

								      }

								     }

								     $335 = $$1465;

								     $336 = (($324) - ($335))|0;

								     _out($0,$$1465,$336);

								     $337 = ((($$5493597)) + 4|0);

								     $338 = ($337>>>0)>($$556>>>0);

								     if ($338) {

								      break;

								     } else {

								      $$5493597 = $337;

								     }

								    }

								    $339 = ($289|0)==(0);

								    if (!($339)) {

								     _out($0,11730,1);

								    }

								    $340 = ($337>>>0)<($$7505>>>0);

								    $341 = ($$3477|0)>(0);

								    $342 = $340 & $341;

								    if ($342) {

								     $$4478590 = $$3477;$$6494589 = $337;

								     while(1) {

								      $343 = HEAP32[$$6494589>>2]|0;

								      $344 = (_fmt_u($343,0,$323)|0);

								      $345 = ($344>>>0)>($8>>>0);

								      if ($345) {

								       $346 = $344;

								       $347 = (($346) - ($9))|0;

								       _memset(($8|0),48,($347|0))|0;

								       $$0463584 = $344;

								       while(1) {

								        $348 = ((($$0463584)) + -1|0);

								        $349 = ($348>>>0)>($8>>>0);

								        if ($349) {

								         $$0463584 = $348;

								        } else {

								         $$0463$lcssa = $348;

								         break;

								        }

								       }

								      } else {

								       $$0463$lcssa = $344;

								      }

								      $350 = ($$4478590|0)<(9);

								      $351 = $350 ? $$4478590 : 9;

								      _out($0,$$0463$lcssa,$351);

								      $352 = ((($$6494589)) + 4|0);

								      $353 = (($$4478590) + -9)|0;

								      $354 = ($352>>>0)<($$7505>>>0);

								      $355 = ($$4478590|0)>(9);

								      $356 = $354 & $355;

								      if ($356) {

								       $$4478590 = $353;$$6494589 = $352;

								      } else {

								       $$4478$lcssa = $353;

								       break;

								      }

								     }

								    } else {

								     $$4478$lcssa = $$3477;

								    }

								    $357 = (($$4478$lcssa) + 9)|0;

								    _pad_672($0,48,$357,9,0);

								   } else {

								    $358 = ((($$9$ph)) + 4|0);

								    $$7505$ = $$lcssa673 ? $$7505 : $358;

								    $359 = ($$3477|0)>(-1);

								    if ($359) {

								     $360 = ((($8)) + 9|0);

								     $361 = ($$pre$phi690Z2D|0)==(0);

								     $362 = $360;

								     $363 = (0 - ($9))|0;

								     $364 = ((($8)) + 8|0);

								     $$5602 = $$3477;$$7495601 = $$9$ph;

								     while(1) {

								      $365 = HEAP32[$$7495601>>2]|0;

								      $366 = (_fmt_u($365,0,$360)|0);

								      $367 = ($366|0)==($360|0);

								      if ($367) {

								       HEAP8[$364>>0] = 48;

								       $$0 = $364;

								      } else {

								       $$0 = $366;

								      }

								      $368 = ($$7495601|0)==($$9$ph|0);

								      do {

								       if ($368) {

								        $372 = ((($$0)) + 1|0);

								        _out($0,$$0,1);

								        $373 = ($$5602|0)<(1);

								        $or$cond554 = $361 & $373;

								        if ($or$cond554) {

								         $$2 = $372;

								         break;

								        }

								        _out($0,11730,1);

								        $$2 = $372;

								       } else {

								        $369 = ($$0>>>0)>($8>>>0);

								        if (!($369)) {

								         $$2 = $$0;

								         break;

								        }

								        $scevgep684 = (($$0) + ($363)|0);

								        $scevgep684685 = $scevgep684;

								        _memset(($8|0),48,($scevgep684685|0))|0;

								        $$1598 = $$0;

								        while(1) {

								         $370 = ((($$1598)) + -1|0);

								         $371 = ($370>>>0)>($8>>>0);

								         if ($371) {

								          $$1598 = $370;

								         } else {

								          $$2 = $370;

								          break;

								         }

								        }

								       }

								      } while(0);

								      $374 = $$2;

								      $375 = (($362) - ($374))|0;

								      $376 = ($$5602|0)>($375|0);

								      $377 = $376 ? $375 : $$5602;

								      _out($0,$$2,$377);

								      $378 = (($$5602) - ($375))|0;

								      $379 = ((($$7495601)) + 4|0);

								      $380 = ($379>>>0)<($$7505$>>>0);

								      $381 = ($378|0)>(-1);

								      $382 = $380 & $381;

								      if ($382) {

								       $$5602 = $378;$$7495601 = $379;

								      } else {

								       $$5$lcssa = $378;

								       break;

								      }

								     }

								    } else {

								     $$5$lcssa = $$3477;

								    }

								    $383 = (($$5$lcssa) + 18)|0;

								    _pad_672($0,48,$383,18,0);

								    $384 = $11;

								    $385 = $$2513;

								    $386 = (($384) - ($385))|0;

								    _out($0,$$2513,$386);

								   }

								   $387 = $4 ^ 8192;

								   _pad_672($0,32,$2,$320,$387);

								   $$sink562 = $320;

								  } else {

								   $27 = $5 & 32;

								   $28 = ($27|0)!=(0);

								   $29 = $28 ? 11698 : 11702;

								   $30 = ($$0471 != $$0471) | (0.0 != 0.0);

								   $31 = $28 ? 11706 : 11710;

								   $$0510 = $30 ? $31 : $29;

								   $32 = (($$0520) + 3)|0;

								   $33 = $4 & -65537;

								   _pad_672($0,32,$2,$32,$33);

								   _out($0,$$0521,$$0520);

								   _out($0,$$0510,3);

								   $34 = $4 ^ 8192;

								   _pad_672($0,32,$2,$32,$34);

								   $$sink562 = $32;

								  }

								 } while(0);

								 $388 = ($$sink562|0)<($2|0);

								 $$555 = $388 ? $2 : $$sink562;

								 STACKTOP = sp;return ($$555|0);

								}

								function ___DOUBLE_BITS_673($0) {

								 $0 = +$0;

								 var $1 = 0, $2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAPF64[tempDoublePtr>>3] = $0;$1 = HEAP32[tempDoublePtr>>2]|0;

								 $2 = HEAP32[tempDoublePtr+4>>2]|0;

								 tempRet0 = ($2);

								 return ($1|0);

								}

								function _frexpl($0,$1) {

								 $0 = +$0;

								 $1 = $1|0;

								 var $2 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = (+_frexp($0,$1));

								 return (+$2);

								}

								function _frexp($0,$1) {

								 $0 = +$0;

								 $1 = $1|0;

								 var $$0 = 0.0, $$016 = 0.0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0.0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0.0, $9 = 0.0, $storemerge = 0, $trunc$clear = 0, label = 0;

								 var sp = 0;

								 sp = STACKTOP;

								 HEAPF64[tempDoublePtr>>3] = $0;$2 = HEAP32[tempDoublePtr>>2]|0;

								 $3 = HEAP32[tempDoublePtr+4>>2]|0;

								 $4 = (_bitshift64Lshr(($2|0),($3|0),52)|0);

								 $5 = tempRet0;

								 $6 = $4&65535;

								 $trunc$clear = $6 & 2047;

								 switch ($trunc$clear<<16>>16) {

								 case 0:  {

								  $7 = $0 != 0.0;

								  if ($7) {

								   $8 = $0 * 1.8446744073709552E+19;

								   $9 = (+_frexp($8,$1));

								   $10 = HEAP32[$1>>2]|0;

								   $11 = (($10) + -64)|0;

								   $$016 = $9;$storemerge = $11;

								  } else {

								   $$016 = $0;$storemerge = 0;

								  }

								  HEAP32[$1>>2] = $storemerge;

								  $$0 = $$016;

								  break;

								 }

								 case 2047:  {

								  $$0 = $0;

								  break;

								 }

								 default: {

								  $12 = $4 & 2047;

								  $13 = (($12) + -1022)|0;

								  HEAP32[$1>>2] = $13;

								  $14 = $3 & -2146435073;

								  $15 = $14 | 1071644672;

								  HEAP32[tempDoublePtr>>2] = $2;HEAP32[tempDoublePtr+4>>2] = $15;$16 = +HEAPF64[tempDoublePtr>>3];

								  $$0 = $16;

								 }

								 }

								 return (+$$0);

								}

								function _wcrtomb($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$0 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0;

								 var $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0;

								 var $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $not$ = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ($0|0)==(0|0);

								 do {

								  if ($3) {

								   $$0 = 1;

								  } else {

								   $4 = ($1>>>0)<(128);

								   if ($4) {

								    $5 = $1&255;

								    HEAP8[$0>>0] = $5;

								    $$0 = 1;

								    break;

								   }

								   $6 = (___pthread_self_446()|0);

								   $7 = ((($6)) + 188|0);

								   $8 = HEAP32[$7>>2]|0;

								   $9 = (Atomics_load(HEAP32,$8>>2)|0);

								   $not$ = ($9|0)==(0|0);

								   if ($not$) {

								    $10 = $1 & -128;

								    $11 = ($10|0)==(57216);

								    if ($11) {

								     $13 = $1&255;

								     HEAP8[$0>>0] = $13;

								     $$0 = 1;

								     break;

								    } else {

								     $12 = (___errno_location()|0);

								     HEAP32[$12>>2] = 84;

								     $$0 = -1;

								     break;

								    }

								   }

								   $14 = ($1>>>0)<(2048);

								   if ($14) {

								    $15 = $1 >>> 6;

								    $16 = $15 | 192;

								    $17 = $16&255;

								    $18 = ((($0)) + 1|0);

								    HEAP8[$0>>0] = $17;

								    $19 = $1 & 63;

								    $20 = $19 | 128;

								    $21 = $20&255;

								    HEAP8[$18>>0] = $21;

								    $$0 = 2;

								    break;

								   }

								   $22 = ($1>>>0)<(55296);

								   $23 = $1 & -8192;

								   $24 = ($23|0)==(57344);

								   $or$cond = $22 | $24;

								   if ($or$cond) {

								    $25 = $1 >>> 12;

								    $26 = $25 | 224;

								    $27 = $26&255;

								    $28 = ((($0)) + 1|0);

								    HEAP8[$0>>0] = $27;

								    $29 = $1 >>> 6;

								    $30 = $29 & 63;

								    $31 = $30 | 128;

								    $32 = $31&255;

								    $33 = ((($0)) + 2|0);

								    HEAP8[$28>>0] = $32;

								    $34 = $1 & 63;

								    $35 = $34 | 128;

								    $36 = $35&255;

								    HEAP8[$33>>0] = $36;

								    $$0 = 3;

								    break;

								   }

								   $37 = (($1) + -65536)|0;

								   $38 = ($37>>>0)<(1048576);

								   if ($38) {

								    $39 = $1 >>> 18;

								    $40 = $39 | 240;

								    $41 = $40&255;

								    $42 = ((($0)) + 1|0);

								    HEAP8[$0>>0] = $41;

								    $43 = $1 >>> 12;

								    $44 = $43 & 63;

								    $45 = $44 | 128;

								    $46 = $45&255;

								    $47 = ((($0)) + 2|0);

								    HEAP8[$42>>0] = $46;

								    $48 = $1 >>> 6;

								    $49 = $48 & 63;

								    $50 = $49 | 128;

								    $51 = $50&255;

								    $52 = ((($0)) + 3|0);

								    HEAP8[$47>>0] = $51;

								    $53 = $1 & 63;

								    $54 = $53 | 128;

								    $55 = $54&255;

								    HEAP8[$52>>0] = $55;

								    $$0 = 4;

								    break;

								   } else {

								    $56 = (___errno_location()|0);

								    HEAP32[$56>>2] = 84;

								    $$0 = -1;

								    break;

								   }

								  }

								 } while(0);

								 return ($$0|0);

								}

								function ___pthread_self_446() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_pthread_self()|0);

								 return ($0|0);

								}

								function ___pthread_self_105() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_pthread_self()|0);

								 return ($0|0);

								}

								function ___strerror_l($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$012$lcssa = 0, $$01214 = 0, $$016 = 0, $$113 = 0, $$115 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 $$016 = 0;

								 while(1) {

								  $3 = (11732 + ($$016)|0);

								  $4 = HEAP8[$3>>0]|0;

								  $5 = $4&255;

								  $6 = ($5|0)==($0|0);

								  if ($6) {

								   label = 2;

								   break;

								  }

								  $7 = (($$016) + 1)|0;

								  $8 = ($7|0)==(87);

								  if ($8) {

								   $$01214 = 11820;$$115 = 87;

								   label = 5;

								   break;

								  } else {

								   $$016 = $7;

								  }

								 }

								 if ((label|0) == 2) {

								  $2 = ($$016|0)==(0);

								  if ($2) {

								   $$012$lcssa = 11820;

								  } else {

								   $$01214 = 11820;$$115 = $$016;

								   label = 5;

								  }

								 }

								 if ((label|0) == 5) {

								  while(1) {

								   label = 0;

								   $$113 = $$01214;

								   while(1) {

								    $9 = HEAP8[$$113>>0]|0;

								    $10 = ($9<<24>>24)==(0);

								    $11 = ((($$113)) + 1|0);

								    if ($10) {

								     break;

								    } else {

								     $$113 = $11;

								    }

								   }

								   $12 = (($$115) + -1)|0;

								   $13 = ($12|0)==(0);

								   if ($13) {

								    $$012$lcssa = $11;

								    break;

								   } else {

								    $$01214 = $11;$$115 = $12;

								    label = 5;

								   }

								  }

								 }

								 $14 = ((($1)) + 20|0);

								 $15 = (Atomics_load(HEAP32,$14>>2)|0);

								 $16 = (___lctrans($$012$lcssa,$15)|0);

								 return ($16|0);

								}

								function ___lctrans($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $2 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = (___lctrans_impl($0,$1)|0);

								 return ($2|0);

								}

								function ___lctrans_impl($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ($1|0)==(0|0);

								 if ($2) {

								  $$0 = 0;

								 } else {

								  $3 = HEAP32[$1>>2]|0;

								  $4 = ((($1)) + 4|0);

								  $5 = HEAP32[$4>>2]|0;

								  $6 = (___mo_lookup($3,$5,$0)|0);

								  $$0 = $6;

								 }

								 $7 = ($$0|0)!=(0|0);

								 $8 = $7 ? $$0 : $0;

								 return ($8|0);

								}

								function ___mo_lookup($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$ = 0, $$090 = 0, $$094 = 0, $$191 = 0, $$195 = 0, $$4 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0;

								 var $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0;

								 var $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond102 = 0, $or$cond104 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = HEAP32[$0>>2]|0;

								 $4 = (($3) + 1794895138)|0;

								 $5 = ((($0)) + 8|0);

								 $6 = HEAP32[$5>>2]|0;

								 $7 = (_swapc($6,$4)|0);

								 $8 = ((($0)) + 12|0);

								 $9 = HEAP32[$8>>2]|0;

								 $10 = (_swapc($9,$4)|0);

								 $11 = ((($0)) + 16|0);

								 $12 = HEAP32[$11>>2]|0;

								 $13 = (_swapc($12,$4)|0);

								 $14 = $1 >>> 2;

								 $15 = ($7>>>0)<($14>>>0);

								 L1: do {

								  if ($15) {

								   $16 = $7 << 2;

								   $17 = (($1) - ($16))|0;

								   $18 = ($10>>>0)<($17>>>0);

								   $19 = ($13>>>0)<($17>>>0);

								   $or$cond = $18 & $19;

								   if ($or$cond) {

								    $20 = $13 | $10;

								    $21 = $20 & 3;

								    $22 = ($21|0)==(0);

								    if ($22) {

								     $23 = $10 >>> 2;

								     $24 = $13 >>> 2;

								     $$090 = 0;$$094 = $7;

								     while(1) {

								      $25 = $$094 >>> 1;

								      $26 = (($$090) + ($25))|0;

								      $27 = $26 << 1;

								      $28 = (($27) + ($23))|0;

								      $29 = (($0) + ($28<<2)|0);

								      $30 = HEAP32[$29>>2]|0;

								      $31 = (_swapc($30,$4)|0);

								      $32 = (($28) + 1)|0;

								      $33 = (($0) + ($32<<2)|0);

								      $34 = HEAP32[$33>>2]|0;

								      $35 = (_swapc($34,$4)|0);

								      $36 = ($35>>>0)<($1>>>0);

								      $37 = (($1) - ($35))|0;

								      $38 = ($31>>>0)<($37>>>0);

								      $or$cond102 = $36 & $38;

								      if (!($or$cond102)) {

								       $$4 = 0;

								       break L1;

								      }

								      $39 = (($35) + ($31))|0;

								      $40 = (($0) + ($39)|0);

								      $41 = HEAP8[$40>>0]|0;

								      $42 = ($41<<24>>24)==(0);

								      if (!($42)) {

								       $$4 = 0;

								       break L1;

								      }

								      $43 = (($0) + ($35)|0);

								      $44 = (_strcmp($2,$43)|0);

								      $45 = ($44|0)==(0);

								      if ($45) {

								       break;

								      }

								      $62 = ($$094|0)==(1);

								      $63 = ($44|0)<(0);

								      $64 = (($$094) - ($25))|0;

								      $$195 = $63 ? $25 : $64;

								      $$191 = $63 ? $$090 : $26;

								      if ($62) {

								       $$4 = 0;

								       break L1;

								      } else {

								       $$090 = $$191;$$094 = $$195;

								      }

								     }

								     $46 = (($27) + ($24))|0;

								     $47 = (($0) + ($46<<2)|0);

								     $48 = HEAP32[$47>>2]|0;

								     $49 = (_swapc($48,$4)|0);

								     $50 = (($46) + 1)|0;

								     $51 = (($0) + ($50<<2)|0);

								     $52 = HEAP32[$51>>2]|0;

								     $53 = (_swapc($52,$4)|0);

								     $54 = ($53>>>0)<($1>>>0);

								     $55 = (($1) - ($53))|0;

								     $56 = ($49>>>0)<($55>>>0);

								     $or$cond104 = $54 & $56;

								     if ($or$cond104) {

								      $57 = (($0) + ($53)|0);

								      $58 = (($53) + ($49))|0;

								      $59 = (($0) + ($58)|0);

								      $60 = HEAP8[$59>>0]|0;

								      $61 = ($60<<24>>24)==(0);

								      $$ = $61 ? $57 : 0;

								      $$4 = $$;

								     } else {

								      $$4 = 0;

								     }

								    } else {

								     $$4 = 0;

								    }

								   } else {

								    $$4 = 0;

								   }

								  } else {

								   $$4 = 0;

								  }

								 } while(0);

								 return ($$4|0);

								}

								function _swapc($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$ = 0, $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ($1|0)==(0);

								 $3 = (_llvm_bswap_i32(($0|0))|0);

								 $$ = $2 ? $0 : $3;

								 return ($$|0);

								}

								function ___fwritex($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$038 = 0, $$042 = 0, $$1 = 0, $$139 = 0, $$141 = 0, $$143 = 0, $$pre = 0, $$pre47 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0;

								 var $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ((($2)) + 16|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ($4|0)==(0|0);

								 if ($5) {

								  $7 = (___towrite($2)|0);

								  $8 = ($7|0)==(0);

								  if ($8) {

								   $$pre = HEAP32[$3>>2]|0;

								   $12 = $$pre;

								   label = 5;

								  } else {

								   $$1 = 0;

								  }

								 } else {

								  $6 = $4;

								  $12 = $6;

								  label = 5;

								 }

								 L5: do {

								  if ((label|0) == 5) {

								   $9 = ((($2)) + 20|0);

								   $10 = HEAP32[$9>>2]|0;

								   $11 = (($12) - ($10))|0;

								   $13 = ($11>>>0)<($1>>>0);

								   $14 = $10;

								   if ($13) {

								    $15 = ((($2)) + 36|0);

								    $16 = HEAP32[$15>>2]|0;

								    $17 = (FUNCTION_TABLE_iiii[$16 & 15]($2,$0,$1)|0);

								    $$1 = $17;

								    break;

								   }

								   $18 = ((($2)) + 75|0);

								   $19 = HEAP8[$18>>0]|0;

								   $20 = ($19<<24>>24)>(-1);

								   L10: do {

								    if ($20) {

								     $$038 = $1;

								     while(1) {

								      $21 = ($$038|0)==(0);

								      if ($21) {

								       $$139 = 0;$$141 = $0;$$143 = $1;$31 = $14;

								       break L10;

								      }

								      $22 = (($$038) + -1)|0;

								      $23 = (($0) + ($22)|0);

								      $24 = HEAP8[$23>>0]|0;

								      $25 = ($24<<24>>24)==(10);

								      if ($25) {

								       break;

								      } else {

								       $$038 = $22;

								      }

								     }

								     $26 = ((($2)) + 36|0);

								     $27 = HEAP32[$26>>2]|0;

								     $28 = (FUNCTION_TABLE_iiii[$27 & 15]($2,$0,$$038)|0);

								     $29 = ($28>>>0)<($$038>>>0);

								     if ($29) {

								      $$1 = $28;

								      break L5;

								     }

								     $30 = (($0) + ($$038)|0);

								     $$042 = (($1) - ($$038))|0;

								     $$pre47 = HEAP32[$9>>2]|0;

								     $$139 = $$038;$$141 = $30;$$143 = $$042;$31 = $$pre47;

								    } else {

								     $$139 = 0;$$141 = $0;$$143 = $1;$31 = $14;

								    }

								   } while(0);

								   _memcpy(($31|0),($$141|0),($$143|0))|0;

								   $32 = HEAP32[$9>>2]|0;

								   $33 = (($32) + ($$143)|0);

								   HEAP32[$9>>2] = $33;

								   $34 = (($$139) + ($$143))|0;

								   $$1 = $34;

								  }

								 } while(0);

								 return ($$1|0);

								}

								function ___towrite($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 74|0);

								 $2 = HEAP8[$1>>0]|0;

								 $3 = $2 << 24 >> 24;

								 $4 = (($3) + 255)|0;

								 $5 = $4 | $3;

								 $6 = $5&255;

								 HEAP8[$1>>0] = $6;

								 $7 = HEAP32[$0>>2]|0;

								 $8 = $7 & 8;

								 $9 = ($8|0)==(0);

								 if ($9) {

								  $11 = ((($0)) + 8|0);

								  HEAP32[$11>>2] = 0;

								  $12 = ((($0)) + 4|0);

								  HEAP32[$12>>2] = 0;

								  $13 = ((($0)) + 44|0);

								  $14 = HEAP32[$13>>2]|0;

								  $15 = ((($0)) + 28|0);

								  HEAP32[$15>>2] = $14;

								  $16 = ((($0)) + 20|0);

								  HEAP32[$16>>2] = $14;

								  $17 = ((($0)) + 48|0);

								  $18 = HEAP32[$17>>2]|0;

								  $19 = (($14) + ($18)|0);

								  $20 = ((($0)) + 16|0);

								  HEAP32[$20>>2] = $19;

								  $$0 = 0;

								 } else {

								  $10 = $7 | 32;

								  HEAP32[$0>>2] = $10;

								  $$0 = -1;

								 }

								 return ($$0|0);

								}

								function _sn_write($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $$ = 0, $10 = 0, $11 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = ((($0)) + 16|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ((($0)) + 20|0);

								 $6 = HEAP32[$5>>2]|0;

								 $7 = $6;

								 $8 = (($4) - ($7))|0;

								 $9 = ($8>>>0)>($2>>>0);

								 $$ = $9 ? $2 : $8;

								 _memcpy(($6|0),($1|0),($$|0))|0;

								 $10 = HEAP32[$5>>2]|0;

								 $11 = (($10) + ($$)|0);

								 HEAP32[$5>>2] = $11;

								 return ($2|0);

								}

								function _strlen($0) {

								 $0 = $0|0;

								 var $$0 = 0, $$015$lcssa = 0, $$01519 = 0, $$1$lcssa = 0, $$pn = 0, $$pre = 0, $$sink = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0;

								 var $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = $0;

								 $2 = $1 & 3;

								 $3 = ($2|0)==(0);

								 L1: do {

								  if ($3) {

								   $$015$lcssa = $0;

								   label = 4;

								  } else {

								   $$01519 = $0;$23 = $1;

								   while(1) {

								    $4 = HEAP8[$$01519>>0]|0;

								    $5 = ($4<<24>>24)==(0);

								    if ($5) {

								     $$sink = $23;

								     break L1;

								    }

								    $6 = ((($$01519)) + 1|0);

								    $7 = $6;

								    $8 = $7 & 3;

								    $9 = ($8|0)==(0);

								    if ($9) {

								     $$015$lcssa = $6;

								     label = 4;

								     break;

								    } else {

								     $$01519 = $6;$23 = $7;

								    }

								   }

								  }

								 } while(0);

								 if ((label|0) == 4) {

								  $$0 = $$015$lcssa;

								  while(1) {

								   $10 = HEAP32[$$0>>2]|0;

								   $11 = (($10) + -16843009)|0;

								   $12 = $10 & -2139062144;

								   $13 = $12 ^ -2139062144;

								   $14 = $13 & $11;

								   $15 = ($14|0)==(0);

								   $16 = ((($$0)) + 4|0);

								   if ($15) {

								    $$0 = $16;

								   } else {

								    break;

								   }

								  }

								  $17 = $10&255;

								  $18 = ($17<<24>>24)==(0);

								  if ($18) {

								   $$1$lcssa = $$0;

								  } else {

								   $$pn = $$0;

								   while(1) {

								    $19 = ((($$pn)) + 1|0);

								    $$pre = HEAP8[$19>>0]|0;

								    $20 = ($$pre<<24>>24)==(0);

								    if ($20) {

								     $$1$lcssa = $19;

								     break;

								    } else {

								     $$pn = $19;

								    }

								   }

								  }

								  $21 = $$1$lcssa;

								  $$sink = $21;

								 }

								 $22 = (($$sink) - ($1))|0;

								 return ($22|0);

								}

								function _strchr($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = (___strchrnul($0,$1)|0);

								 $3 = HEAP8[$2>>0]|0;

								 $4 = $1&255;

								 $5 = ($3<<24>>24)==($4<<24>>24);

								 $6 = $5 ? $2 : 0;

								 return ($6|0);

								}

								function ___strchrnul($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $$029$lcssa = 0, $$02936 = 0, $$030$lcssa = 0, $$03039 = 0, $$1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0;

								 var $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0;

								 var $41 = 0, $42 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond33 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = $1 & 255;

								 $3 = ($2|0)==(0);

								 L1: do {

								  if ($3) {

								   $8 = (_strlen($0)|0);

								   $9 = (($0) + ($8)|0);

								   $$0 = $9;

								  } else {

								   $4 = $0;

								   $5 = $4 & 3;

								   $6 = ($5|0)==(0);

								   if ($6) {

								    $$030$lcssa = $0;

								   } else {

								    $7 = $1&255;

								    $$03039 = $0;

								    while(1) {

								     $10 = HEAP8[$$03039>>0]|0;

								     $11 = ($10<<24>>24)==(0);

								     $12 = ($10<<24>>24)==($7<<24>>24);

								     $or$cond = $11 | $12;

								     if ($or$cond) {

								      $$0 = $$03039;

								      break L1;

								     }

								     $13 = ((($$03039)) + 1|0);

								     $14 = $13;

								     $15 = $14 & 3;

								     $16 = ($15|0)==(0);

								     if ($16) {

								      $$030$lcssa = $13;

								      break;

								     } else {

								      $$03039 = $13;

								     }

								    }

								   }

								   $17 = Math_imul($2, 16843009)|0;

								   $18 = HEAP32[$$030$lcssa>>2]|0;

								   $19 = (($18) + -16843009)|0;

								   $20 = $18 & -2139062144;

								   $21 = $20 ^ -2139062144;

								   $22 = $21 & $19;

								   $23 = ($22|0)==(0);

								   L10: do {

								    if ($23) {

								     $$02936 = $$030$lcssa;$25 = $18;

								     while(1) {

								      $24 = $25 ^ $17;

								      $26 = (($24) + -16843009)|0;

								      $27 = $24 & -2139062144;

								      $28 = $27 ^ -2139062144;

								      $29 = $28 & $26;

								      $30 = ($29|0)==(0);

								      if (!($30)) {

								       $$029$lcssa = $$02936;

								       break L10;

								      }

								      $31 = ((($$02936)) + 4|0);

								      $32 = HEAP32[$31>>2]|0;

								      $33 = (($32) + -16843009)|0;

								      $34 = $32 & -2139062144;

								      $35 = $34 ^ -2139062144;

								      $36 = $35 & $33;

								      $37 = ($36|0)==(0);

								      if ($37) {

								       $$02936 = $31;$25 = $32;

								      } else {

								       $$029$lcssa = $31;

								       break;

								      }

								     }

								    } else {

								     $$029$lcssa = $$030$lcssa;

								    }

								   } while(0);

								   $38 = $1&255;

								   $$1 = $$029$lcssa;

								   while(1) {

								    $39 = HEAP8[$$1>>0]|0;

								    $40 = ($39<<24>>24)==(0);

								    $41 = ($39<<24>>24)==($38<<24>>24);

								    $or$cond33 = $40 | $41;

								    $42 = ((($$1)) + 1|0);

								    if ($or$cond33) {

								     $$0 = $$1;

								     break;

								    } else {

								     $$1 = $42;

								    }

								   }

								  }

								 } while(0);

								 return ($$0|0);

								}

								function _strcpy($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 (___stpcpy($0,$1)|0);

								 return ($0|0);

								}

								function ___stpcpy($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0$lcssa = 0, $$025$lcssa = 0, $$02536 = 0, $$026$lcssa = 0, $$02642 = 0, $$027$lcssa = 0, $$02741 = 0, $$029 = 0, $$037 = 0, $$1$ph = 0, $$128$ph = 0, $$12834 = 0, $$135 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0;

								 var $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0;

								 var $35 = 0, $36 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = $1;

								 $3 = $0;

								 $4 = $2 ^ $3;

								 $5 = $4 & 3;

								 $6 = ($5|0)==(0);

								 L1: do {

								  if ($6) {

								   $7 = $2 & 3;

								   $8 = ($7|0)==(0);

								   if ($8) {

								    $$026$lcssa = $1;$$027$lcssa = $0;

								   } else {

								    $$02642 = $1;$$02741 = $0;

								    while(1) {

								     $9 = HEAP8[$$02642>>0]|0;

								     HEAP8[$$02741>>0] = $9;

								     $10 = ($9<<24>>24)==(0);

								     if ($10) {

								      $$029 = $$02741;

								      break L1;

								     }

								     $11 = ((($$02642)) + 1|0);

								     $12 = ((($$02741)) + 1|0);

								     $13 = $11;

								     $14 = $13 & 3;

								     $15 = ($14|0)==(0);

								     if ($15) {

								      $$026$lcssa = $11;$$027$lcssa = $12;

								      break;

								     } else {

								      $$02642 = $11;$$02741 = $12;

								     }

								    }

								   }

								   $16 = HEAP32[$$026$lcssa>>2]|0;

								   $17 = (($16) + -16843009)|0;

								   $18 = $16 & -2139062144;

								   $19 = $18 ^ -2139062144;

								   $20 = $19 & $17;

								   $21 = ($20|0)==(0);

								   if ($21) {

								    $$02536 = $$027$lcssa;$$037 = $$026$lcssa;$24 = $16;

								    while(1) {

								     $22 = ((($$037)) + 4|0);

								     $23 = ((($$02536)) + 4|0);

								     HEAP32[$$02536>>2] = $24;

								     $25 = HEAP32[$22>>2]|0;

								     $26 = (($25) + -16843009)|0;

								     $27 = $25 & -2139062144;

								     $28 = $27 ^ -2139062144;

								     $29 = $28 & $26;

								     $30 = ($29|0)==(0);

								     if ($30) {

								      $$02536 = $23;$$037 = $22;$24 = $25;

								     } else {

								      $$0$lcssa = $22;$$025$lcssa = $23;

								      break;

								     }

								    }

								   } else {

								    $$0$lcssa = $$026$lcssa;$$025$lcssa = $$027$lcssa;

								   }

								   $$1$ph = $$0$lcssa;$$128$ph = $$025$lcssa;

								   label = 8;

								  } else {

								   $$1$ph = $1;$$128$ph = $0;

								   label = 8;

								  }

								 } while(0);

								 if ((label|0) == 8) {

								  $31 = HEAP8[$$1$ph>>0]|0;

								  HEAP8[$$128$ph>>0] = $31;

								  $32 = ($31<<24>>24)==(0);

								  if ($32) {

								   $$029 = $$128$ph;

								  } else {

								   $$12834 = $$128$ph;$$135 = $$1$ph;

								   while(1) {

								    $33 = ((($$135)) + 1|0);

								    $34 = ((($$12834)) + 1|0);

								    $35 = HEAP8[$33>>0]|0;

								    HEAP8[$34>>0] = $35;

								    $36 = ($35<<24>>24)==(0);

								    if ($36) {

								     $$029 = $34;

								     break;

								    } else {

								     $$12834 = $34;$$135 = $33;

								    }

								   }

								  }

								 }

								 return ($$029|0);

								}

								function ___ofl_lock() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 ___lock((33332|0));

								 return (33340|0);

								}

								function ___ofl_unlock() {

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 ___unlock((33332|0));

								 return;

								}

								function _fflush($0) {

								 $0 = $0|0;

								 var $$0 = 0, $$023 = 0, $$02325 = 0, $$02327 = 0, $$024$lcssa = 0, $$02426 = 0, $$1 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0;

								 var $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $phitmp = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ($0|0)==(0|0);

								 do {

								  if ($1) {

								   $8 = (Atomics_load(HEAP32,780)|0);

								   $9 = ($8|0)==(0|0);

								   if ($9) {

								    $29 = 0;

								   } else {

								    $10 = (Atomics_load(HEAP32,780)|0);

								    $11 = (_fflush($10)|0);

								    $29 = $11;

								   }

								   $12 = (___ofl_lock()|0);

								   $$02325 = HEAP32[$12>>2]|0;

								   $13 = ($$02325|0)==(0|0);

								   if ($13) {

								    $$024$lcssa = $29;

								   } else {

								    $$02327 = $$02325;$$02426 = $29;

								    while(1) {

								     $14 = ((($$02327)) + 76|0);

								     $15 = (Atomics_load(HEAP32,$14>>2)|0);

								     $16 = ($15|0)>(-1);

								     if ($16) {

								      $17 = (___lockfile($$02327)|0);

								      $26 = $17;

								     } else {

								      $26 = 0;

								     }

								     $18 = ((($$02327)) + 20|0);

								     $19 = HEAP32[$18>>2]|0;

								     $20 = ((($$02327)) + 28|0);

								     $21 = HEAP32[$20>>2]|0;

								     $22 = ($19>>>0)>($21>>>0);

								     if ($22) {

								      $23 = (___fflush_unlocked($$02327)|0);

								      $24 = $23 | $$02426;

								      $$1 = $24;

								     } else {

								      $$1 = $$02426;

								     }

								     $25 = ($26|0)==(0);

								     if (!($25)) {

								      ___unlockfile($$02327);

								     }

								     $27 = ((($$02327)) + 56|0);

								     $$023 = HEAP32[$27>>2]|0;

								     $28 = ($$023|0)==(0|0);

								     if ($28) {

								      $$024$lcssa = $$1;

								      break;

								     } else {

								      $$02327 = $$023;$$02426 = $$1;

								     }

								    }

								   }

								   ___ofl_unlock();

								   $$0 = $$024$lcssa;

								  } else {

								   $2 = ((($0)) + 76|0);

								   $3 = (Atomics_load(HEAP32,$2>>2)|0);

								   $4 = ($3|0)>(-1);

								   if (!($4)) {

								    $5 = (___fflush_unlocked($0)|0);

								    $$0 = $5;

								    break;

								   }

								   $6 = (___lockfile($0)|0);

								   $phitmp = ($6|0)==(0);

								   $7 = (___fflush_unlocked($0)|0);

								   if ($phitmp) {

								    $$0 = $7;

								   } else {

								    ___unlockfile($0);

								    $$0 = $7;

								   }

								  }

								 } while(0);

								 return ($$0|0);

								}

								function ___fflush_unlocked($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 20|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ((($0)) + 28|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ($2>>>0)>($4>>>0);

								 if ($5) {

								  $6 = ((($0)) + 36|0);

								  $7 = HEAP32[$6>>2]|0;

								  (FUNCTION_TABLE_iiii[$7 & 15]($0,0,0)|0);

								  $8 = HEAP32[$1>>2]|0;

								  $9 = ($8|0)==(0|0);

								  if ($9) {

								   $$0 = -1;

								  } else {

								   label = 3;

								  }

								 } else {

								  label = 3;

								 }

								 if ((label|0) == 3) {

								  $10 = ((($0)) + 4|0);

								  $11 = HEAP32[$10>>2]|0;

								  $12 = ((($0)) + 8|0);

								  $13 = HEAP32[$12>>2]|0;

								  $14 = ($11>>>0)<($13>>>0);

								  if ($14) {

								   $15 = $11;

								   $16 = $13;

								   $17 = (($15) - ($16))|0;

								   $18 = ((($0)) + 40|0);

								   $19 = HEAP32[$18>>2]|0;

								   (FUNCTION_TABLE_iiii[$19 & 15]($0,$17,1)|0);

								  }

								  $20 = ((($0)) + 16|0);

								  HEAP32[$20>>2] = 0;

								  HEAP32[$3>>2] = 0;

								  HEAP32[$1>>2] = 0;

								  HEAP32[$12>>2] = 0;

								  HEAP32[$10>>2] = 0;

								  $$0 = 0;

								 }

								 return ($$0|0);

								}

								function _strstr($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0;

								 var $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP8[$1>>0]|0;

								 $3 = ($2<<24>>24)==(0);

								 do {

								  if ($3) {

								   $$0 = $0;

								  } else {

								   $4 = $2 << 24 >> 24;

								   $5 = (_strchr($0,$4)|0);

								   $6 = ($5|0)==(0|0);

								   if ($6) {

								    $$0 = 0;

								   } else {

								    $7 = ((($1)) + 1|0);

								    $8 = HEAP8[$7>>0]|0;

								    $9 = ($8<<24>>24)==(0);

								    if ($9) {

								     $$0 = $5;

								    } else {

								     $10 = ((($5)) + 1|0);

								     $11 = HEAP8[$10>>0]|0;

								     $12 = ($11<<24>>24)==(0);

								     if ($12) {

								      $$0 = 0;

								     } else {

								      $13 = ((($1)) + 2|0);

								      $14 = HEAP8[$13>>0]|0;

								      $15 = ($14<<24>>24)==(0);

								      if ($15) {

								       $16 = (_twobyte_strstr($5,$1)|0);

								       $$0 = $16;

								       break;

								      }

								      $17 = ((($5)) + 2|0);

								      $18 = HEAP8[$17>>0]|0;

								      $19 = ($18<<24>>24)==(0);

								      if ($19) {

								       $$0 = 0;

								      } else {

								       $20 = ((($1)) + 3|0);

								       $21 = HEAP8[$20>>0]|0;

								       $22 = ($21<<24>>24)==(0);

								       if ($22) {

								        $23 = (_threebyte_strstr($5,$1)|0);

								        $$0 = $23;

								        break;

								       }

								       $24 = ((($5)) + 3|0);

								       $25 = HEAP8[$24>>0]|0;

								       $26 = ($25<<24>>24)==(0);

								       if ($26) {

								        $$0 = 0;

								       } else {

								        $27 = ((($1)) + 4|0);

								        $28 = HEAP8[$27>>0]|0;

								        $29 = ($28<<24>>24)==(0);

								        if ($29) {

								         $30 = (_fourbyte_strstr($5,$1)|0);

								         $$0 = $30;

								         break;

								        } else {

								         $31 = (_twoway_strstr($5,$1)|0);

								         $$0 = $31;

								         break;

								        }

								       }

								      }

								     }

								    }

								   }

								  }

								 } while(0);

								 return ($$0|0);

								}

								function _twobyte_strstr($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$lcssa = 0, $$sink = 0, $$sink$in = 0, $$sink$masked = 0, $$sink17$sink = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP8[$1>>0]|0;

								 $3 = $2&255;

								 $4 = $3 << 8;

								 $5 = ((($1)) + 1|0);

								 $6 = HEAP8[$5>>0]|0;

								 $7 = $6&255;

								 $8 = $4 | $7;

								 $9 = HEAP8[$0>>0]|0;

								 $10 = $9&255;

								 $$sink$in = $10;$$sink17$sink = $0;

								 while(1) {

								  $11 = ((($$sink17$sink)) + 1|0);

								  $12 = HEAP8[$11>>0]|0;

								  $13 = ($12<<24>>24)==(0);

								  if ($13) {

								   $$lcssa = 0;

								   break;

								  }

								  $$sink = $$sink$in << 8;

								  $14 = $12&255;

								  $$sink$masked = $$sink & 65280;

								  $15 = $14 | $$sink$masked;

								  $16 = ($15|0)==($8|0);

								  if ($16) {

								   $$lcssa = $$sink17$sink;

								   break;

								  } else {

								   $$sink$in = $15;$$sink17$sink = $11;

								  }

								 }

								 return ($$lcssa|0);

								}

								function _threebyte_strstr($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$016$lcssa = 0, $$01619 = 0, $$020 = 0, $$lcssa = 0, $$not = 0, $$not17 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0;

								 var $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $4 = 0, $5 = 0, $6 = 0;

								 var $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond18 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP8[$1>>0]|0;

								 $3 = $2&255;

								 $4 = $3 << 24;

								 $5 = ((($1)) + 1|0);

								 $6 = HEAP8[$5>>0]|0;

								 $7 = $6&255;

								 $8 = $7 << 16;

								 $9 = $8 | $4;

								 $10 = ((($1)) + 2|0);

								 $11 = HEAP8[$10>>0]|0;

								 $12 = $11&255;

								 $13 = $12 << 8;

								 $14 = $9 | $13;

								 $15 = HEAP8[$0>>0]|0;

								 $16 = $15&255;

								 $17 = $16 << 24;

								 $18 = ((($0)) + 1|0);

								 $19 = HEAP8[$18>>0]|0;

								 $20 = $19&255;

								 $21 = $20 << 16;

								 $22 = $21 | $17;

								 $23 = ((($0)) + 2|0);

								 $24 = HEAP8[$23>>0]|0;

								 $25 = $24&255;

								 $26 = $25 << 8;

								 $27 = $22 | $26;

								 $28 = ($24<<24>>24)!=(0);

								 $$not17 = $28 ^ 1;

								 $29 = ($27|0)==($14|0);

								 $or$cond18 = $29 | $$not17;

								 if ($or$cond18) {

								  $$016$lcssa = $23;$$lcssa = $28;

								 } else {

								  $$01619 = $23;$$020 = $27;

								  while(1) {

								   $30 = ((($$01619)) + 1|0);

								   $31 = HEAP8[$30>>0]|0;

								   $32 = $31&255;

								   $33 = $32 | $$020;

								   $34 = $33 << 8;

								   $35 = ($31<<24>>24)!=(0);

								   $$not = $35 ^ 1;

								   $36 = ($34|0)==($14|0);

								   $or$cond = $36 | $$not;

								   if ($or$cond) {

								    $$016$lcssa = $30;$$lcssa = $35;

								    break;

								   } else {

								    $$01619 = $30;$$020 = $34;

								   }

								  }

								 }

								 $37 = ((($$016$lcssa)) + -2|0);

								 $38 = $$lcssa ? $37 : 0;

								 return ($38|0);

								}

								function _fourbyte_strstr($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$lcssa = 0, $$not = 0, $$not22 = 0, $$sink21$lcssa = 0, $$sink2124 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0;

								 var $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond23 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP8[$1>>0]|0;

								 $3 = $2&255;

								 $4 = $3 << 24;

								 $5 = ((($1)) + 1|0);

								 $6 = HEAP8[$5>>0]|0;

								 $7 = $6&255;

								 $8 = $7 << 16;

								 $9 = $8 | $4;

								 $10 = ((($1)) + 2|0);

								 $11 = HEAP8[$10>>0]|0;

								 $12 = $11&255;

								 $13 = $12 << 8;

								 $14 = $9 | $13;

								 $15 = ((($1)) + 3|0);

								 $16 = HEAP8[$15>>0]|0;

								 $17 = $16&255;

								 $18 = $14 | $17;

								 $19 = HEAP8[$0>>0]|0;

								 $20 = $19&255;

								 $21 = $20 << 24;

								 $22 = ((($0)) + 1|0);

								 $23 = HEAP8[$22>>0]|0;

								 $24 = $23&255;

								 $25 = $24 << 16;

								 $26 = $25 | $21;

								 $27 = ((($0)) + 2|0);

								 $28 = HEAP8[$27>>0]|0;

								 $29 = $28&255;

								 $30 = $29 << 8;

								 $31 = $26 | $30;

								 $32 = ((($0)) + 3|0);

								 $33 = HEAP8[$32>>0]|0;

								 $34 = $33&255;

								 $35 = $34 | $31;

								 $36 = ($33<<24>>24)!=(0);

								 $$not22 = $36 ^ 1;

								 $37 = ($35|0)==($18|0);

								 $or$cond23 = $37 | $$not22;

								 if ($or$cond23) {

								  $$lcssa = $36;$$sink21$lcssa = $32;

								 } else {

								  $$sink2124 = $32;$39 = $35;

								  while(1) {

								   $38 = $39 << 8;

								   $40 = ((($$sink2124)) + 1|0);

								   $41 = HEAP8[$40>>0]|0;

								   $42 = $41&255;

								   $43 = $42 | $38;

								   $44 = ($41<<24>>24)!=(0);

								   $$not = $44 ^ 1;

								   $45 = ($43|0)==($18|0);

								   $or$cond = $45 | $$not;

								   if ($or$cond) {

								    $$lcssa = $44;$$sink21$lcssa = $40;

								    break;

								   } else {

								    $$sink2124 = $40;$39 = $43;

								   }

								  }

								 }

								 $46 = ((($$sink21$lcssa)) + -3|0);

								 $47 = $$lcssa ? $46 : 0;

								 return ($47|0);

								}

								function _twoway_strstr($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0166 = 0, $$0168 = 0, $$0169 = 0, $$0169$be = 0, $$0170 = 0, $$0175$ph$ph$lcssa220 = 0, $$0175$ph$ph$lcssa220323 = 0, $$0175$ph$ph256 = 0, $$0179244 = 0, $$0183$ph200$ph255 = 0, $$0183$ph200250 = 0, $$0183$ph262 = 0, $$0185$ph$lcssa = 0, $$0185$ph$lcssa322 = 0, $$0185$ph261 = 0, $$0187$lcssa320321 = 0, $$0187266 = 0, $$1176$$0175 = 0, $$1176$ph$ph$lcssa211 = 0, $$1176$ph$ph235 = 0;

								 var $$1180224 = 0, $$1184$ph196$ph234 = 0, $$1184$ph196229 = 0, $$1184$ph241 = 0, $$1186$$0185 = 0, $$1186$$0185$ = 0, $$1186$ph$lcssa = 0, $$1186$ph240 = 0, $$2181 = 0, $$2181$sink = 0, $$3 = 0, $$3173 = 0, $$3178 = 0, $$3182223 = 0, $$4 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0;

								 var $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0;

								 var $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0;

								 var $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0;

								 var $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0;

								 var $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0;

								 var $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0;

								 var $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $cond = 0, $cond191 = 0, $cond191222 = 0, $cond265 = 0, $div = 0, $div188 = 0, $or$cond = 0, $or$cond190 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 1056|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(1056|0);

								 $2 = sp + 1024|0;

								 $3 = sp;

								 ;HEAP32[$2>>2]=0|0;HEAP32[$2+4>>2]=0|0;HEAP32[$2+8>>2]=0|0;HEAP32[$2+12>>2]=0|0;HEAP32[$2+16>>2]=0|0;HEAP32[$2+20>>2]=0|0;HEAP32[$2+24>>2]=0|0;HEAP32[$2+28>>2]=0|0;

								 $4 = HEAP8[$1>>0]|0;

								 $cond265 = ($4<<24>>24)==(0);

								 L1: do {

								  if ($cond265) {

								   $$0175$ph$ph$lcssa220323 = 1;$$0185$ph$lcssa322 = -1;$$0187$lcssa320321 = 0;$$1176$ph$ph$lcssa211 = 1;$$1186$ph$lcssa = -1;

								   label = 27;

								  } else {

								   $5 = $4&255;

								   $$0187266 = 0;$12 = $4;$20 = $5;

								   while(1) {

								    $8 = (($0) + ($$0187266)|0);

								    $9 = HEAP8[$8>>0]|0;

								    $10 = ($9<<24>>24)==(0);

								    if ($10) {

								     $$3 = 0;

								     break L1;

								    }

								    $11 = $12 & 31;

								    $13 = $11&255;

								    $14 = 1 << $13;

								    $div188 = ($12&255) >>> 5;

								    $15 = $div188&255;

								    $16 = (($2) + ($15<<2)|0);

								    $17 = HEAP32[$16>>2]|0;

								    $18 = $17 | $14;

								    HEAP32[$16>>2] = $18;

								    $7 = (($$0187266) + 1)|0;

								    $19 = (($3) + ($20<<2)|0);

								    HEAP32[$19>>2] = $7;

								    $21 = (($1) + ($7)|0);

								    $22 = HEAP8[$21>>0]|0;

								    $23 = $22&255;

								    $cond = ($22<<24>>24)==(0);

								    if ($cond) {

								     break;

								    } else {

								     $$0187266 = $7;$12 = $22;$20 = $23;

								    }

								   }

								   $6 = ($7>>>0)>(1);

								   if ($6) {

								    $$0183$ph262 = 0;$$0185$ph261 = -1;$129 = 1;

								    L7: while(1) {

								     $$0175$ph$ph256 = 1;$$0183$ph200$ph255 = $$0183$ph262;$132 = $129;

								     while(1) {

								      $$0183$ph200250 = $$0183$ph200$ph255;$131 = $132;

								      L11: while(1) {

								       $$0179244 = 1;$31 = $131;

								       while(1) {

								        $27 = (($$0179244) + ($$0185$ph261))|0;

								        $28 = (($1) + ($27)|0);

								        $29 = HEAP8[$28>>0]|0;

								        $30 = (($1) + ($31)|0);

								        $32 = HEAP8[$30>>0]|0;

								        $33 = ($29<<24>>24)==($32<<24>>24);

								        if (!($33)) {

								         break L11;

								        }

								        $34 = ($$0179244|0)==($$0175$ph$ph256|0);

								        $25 = (($$0179244) + 1)|0;

								        if ($34) {

								         break;

								        }

								        $24 = (($25) + ($$0183$ph200250))|0;

								        $26 = ($24>>>0)<($7>>>0);

								        if ($26) {

								         $$0179244 = $25;$31 = $24;

								        } else {

								         $$0175$ph$ph$lcssa220 = $$0175$ph$ph256;$$0185$ph$lcssa = $$0185$ph261;

								         break L7;

								        }

								       }

								       $35 = (($$0175$ph$ph256) + ($$0183$ph200250))|0;

								       $36 = (($35) + 1)|0;

								       $37 = ($36>>>0)<($7>>>0);

								       if ($37) {

								        $$0183$ph200250 = $35;$131 = $36;

								       } else {

								        $$0175$ph$ph$lcssa220 = $$0175$ph$ph256;$$0185$ph$lcssa = $$0185$ph261;

								        break L7;

								       }

								      }

								      $38 = ($29&255)>($32&255);

								      $39 = (($31) - ($$0185$ph261))|0;

								      if (!($38)) {

								       break;

								      }

								      $43 = (($31) + 1)|0;

								      $44 = ($43>>>0)<($7>>>0);

								      if ($44) {

								       $$0175$ph$ph256 = $39;$$0183$ph200$ph255 = $31;$132 = $43;

								      } else {

								       $$0175$ph$ph$lcssa220 = $39;$$0185$ph$lcssa = $$0185$ph261;

								       break L7;

								      }

								     }

								     $40 = (($$0183$ph200250) + 1)|0;

								     $41 = (($$0183$ph200250) + 2)|0;

								     $42 = ($41>>>0)<($7>>>0);

								     if ($42) {

								      $$0183$ph262 = $40;$$0185$ph261 = $$0183$ph200250;$129 = $41;

								     } else {

								      $$0175$ph$ph$lcssa220 = 1;$$0185$ph$lcssa = $$0183$ph200250;

								      break;

								     }

								    }

								    if ($6) {

								     $$1184$ph241 = 0;$$1186$ph240 = -1;$130 = 1;

								     while(1) {

								      $$1176$ph$ph235 = 1;$$1184$ph196$ph234 = $$1184$ph241;$134 = $130;

								      while(1) {

								       $$1184$ph196229 = $$1184$ph196$ph234;$133 = $134;

								       L26: while(1) {

								        $$1180224 = 1;$52 = $133;

								        while(1) {

								         $48 = (($$1180224) + ($$1186$ph240))|0;

								         $49 = (($1) + ($48)|0);

								         $50 = HEAP8[$49>>0]|0;

								         $51 = (($1) + ($52)|0);

								         $53 = HEAP8[$51>>0]|0;

								         $54 = ($50<<24>>24)==($53<<24>>24);

								         if (!($54)) {

								          break L26;

								         }

								         $55 = ($$1180224|0)==($$1176$ph$ph235|0);

								         $46 = (($$1180224) + 1)|0;

								         if ($55) {

								          break;

								         }

								         $45 = (($46) + ($$1184$ph196229))|0;

								         $47 = ($45>>>0)<($7>>>0);

								         if ($47) {

								          $$1180224 = $46;$52 = $45;

								         } else {

								          $$0175$ph$ph$lcssa220323 = $$0175$ph$ph$lcssa220;$$0185$ph$lcssa322 = $$0185$ph$lcssa;$$0187$lcssa320321 = $7;$$1176$ph$ph$lcssa211 = $$1176$ph$ph235;$$1186$ph$lcssa = $$1186$ph240;

								          label = 27;

								          break L1;

								         }

								        }

								        $56 = (($$1176$ph$ph235) + ($$1184$ph196229))|0;

								        $57 = (($56) + 1)|0;

								        $58 = ($57>>>0)<($7>>>0);

								        if ($58) {

								         $$1184$ph196229 = $56;$133 = $57;

								        } else {

								         $$0175$ph$ph$lcssa220323 = $$0175$ph$ph$lcssa220;$$0185$ph$lcssa322 = $$0185$ph$lcssa;$$0187$lcssa320321 = $7;$$1176$ph$ph$lcssa211 = $$1176$ph$ph235;$$1186$ph$lcssa = $$1186$ph240;

								         label = 27;

								         break L1;

								        }

								       }

								       $59 = ($50&255)<($53&255);

								       $60 = (($52) - ($$1186$ph240))|0;

								       if (!($59)) {

								        break;

								       }

								       $64 = (($52) + 1)|0;

								       $65 = ($64>>>0)<($7>>>0);

								       if ($65) {

								        $$1176$ph$ph235 = $60;$$1184$ph196$ph234 = $52;$134 = $64;

								       } else {

								        $$0175$ph$ph$lcssa220323 = $$0175$ph$ph$lcssa220;$$0185$ph$lcssa322 = $$0185$ph$lcssa;$$0187$lcssa320321 = $7;$$1176$ph$ph$lcssa211 = $60;$$1186$ph$lcssa = $$1186$ph240;

								        label = 27;

								        break L1;

								       }

								      }

								      $61 = (($$1184$ph196229) + 1)|0;

								      $62 = (($$1184$ph196229) + 2)|0;

								      $63 = ($62>>>0)<($7>>>0);

								      if ($63) {

								       $$1184$ph241 = $61;$$1186$ph240 = $$1184$ph196229;$130 = $62;

								      } else {

								       $$0175$ph$ph$lcssa220323 = $$0175$ph$ph$lcssa220;$$0185$ph$lcssa322 = $$0185$ph$lcssa;$$0187$lcssa320321 = $7;$$1176$ph$ph$lcssa211 = 1;$$1186$ph$lcssa = $$1184$ph196229;

								       label = 27;

								       break;

								      }

								     }

								    } else {

								     $$0175$ph$ph$lcssa220323 = $$0175$ph$ph$lcssa220;$$0185$ph$lcssa322 = $$0185$ph$lcssa;$$0187$lcssa320321 = $7;$$1176$ph$ph$lcssa211 = 1;$$1186$ph$lcssa = -1;

								     label = 27;

								    }

								   } else {

								    $$0175$ph$ph$lcssa220323 = 1;$$0185$ph$lcssa322 = -1;$$0187$lcssa320321 = $7;$$1176$ph$ph$lcssa211 = 1;$$1186$ph$lcssa = -1;

								    label = 27;

								   }

								  }

								 } while(0);

								 L36: do {

								  if ((label|0) == 27) {

								   $66 = (($$1186$ph$lcssa) + 1)|0;

								   $67 = (($$0185$ph$lcssa322) + 1)|0;

								   $68 = ($66>>>0)>($67>>>0);

								   $$1176$$0175 = $68 ? $$1176$ph$ph$lcssa211 : $$0175$ph$ph$lcssa220323;

								   $$1186$$0185 = $68 ? $$1186$ph$lcssa : $$0185$ph$lcssa322;

								   $69 = (($1) + ($$1176$$0175)|0);

								   $70 = (($$1186$$0185) + 1)|0;

								   $71 = (_memcmp($1,$69,$70)|0);

								   $72 = ($71|0)==(0);

								   if ($72) {

								    $77 = (($$0187$lcssa320321) - ($$1176$$0175))|0;

								    $$0168 = $77;$$3178 = $$1176$$0175;

								   } else {

								    $73 = (($$0187$lcssa320321) - ($$1186$$0185))|0;

								    $74 = (($73) + -1)|0;

								    $75 = ($$1186$$0185>>>0)>($74>>>0);

								    $$1186$$0185$ = $75 ? $$1186$$0185 : $74;

								    $76 = (($$1186$$0185$) + 1)|0;

								    $$0168 = 0;$$3178 = $76;

								   }

								   $78 = $$0187$lcssa320321 | 63;

								   $79 = (($$0187$lcssa320321) + -1)|0;

								   $80 = ($$0168|0)!=(0);

								   $81 = (($$0187$lcssa320321) - ($$3178))|0;

								   $$0166 = $0;$$0169 = 0;$$0170 = $0;

								   while(1) {

								    $82 = $$0170;

								    $83 = $$0166;

								    $84 = (($82) - ($83))|0;

								    $85 = ($84>>>0)<($$0187$lcssa320321>>>0);

								    do {

								     if ($85) {

								      $86 = (_memchr($$0170,0,$78)|0);

								      $87 = ($86|0)==(0|0);

								      if ($87) {

								       $91 = (($$0170) + ($78)|0);

								       $$3173 = $91;

								       break;

								      } else {

								       $88 = $86;

								       $89 = (($88) - ($83))|0;

								       $90 = ($89>>>0)<($$0187$lcssa320321>>>0);

								       if ($90) {

								        $$3 = 0;

								        break L36;

								       } else {

								        $$3173 = $86;

								        break;

								       }

								      }

								     } else {

								      $$3173 = $$0170;

								     }

								    } while(0);

								    $92 = (($$0166) + ($79)|0);

								    $93 = HEAP8[$92>>0]|0;

								    $div = ($93&255) >>> 5;

								    $94 = $div&255;

								    $95 = (($2) + ($94<<2)|0);

								    $96 = HEAP32[$95>>2]|0;

								    $97 = $93 & 31;

								    $98 = $97&255;

								    $99 = 1 << $98;

								    $100 = $99 & $96;

								    $101 = ($100|0)==(0);

								    L50: do {

								     if ($101) {

								      $$0169$be = 0;$$2181$sink = $$0187$lcssa320321;

								     } else {

								      $102 = $93&255;

								      $103 = (($3) + ($102<<2)|0);

								      $104 = HEAP32[$103>>2]|0;

								      $105 = (($$0187$lcssa320321) - ($104))|0;

								      $106 = ($105|0)==(0);

								      if (!($106)) {

								       $107 = ($$0169|0)!=(0);

								       $or$cond = $80 & $107;

								       $108 = ($105>>>0)<($$3178>>>0);

								       $or$cond190 = $or$cond & $108;

								       $$2181 = $or$cond190 ? $81 : $105;

								       $$0169$be = 0;$$2181$sink = $$2181;

								       break;

								      }

								      $110 = ($70>>>0)>($$0169>>>0);

								      $111 = $110 ? $70 : $$0169;

								      $112 = (($1) + ($111)|0);

								      $113 = HEAP8[$112>>0]|0;

								      $cond191222 = ($113<<24>>24)==(0);

								      L55: do {

								       if ($cond191222) {

								        $$4 = $70;

								       } else {

								        $$3182223 = $111;$117 = $113;

								        while(1) {

								         $114 = (($$0166) + ($$3182223)|0);

								         $115 = HEAP8[$114>>0]|0;

								         $116 = ($117<<24>>24)==($115<<24>>24);

								         if (!($116)) {

								          break;

								         }

								         $118 = (($$3182223) + 1)|0;

								         $119 = (($1) + ($118)|0);

								         $120 = HEAP8[$119>>0]|0;

								         $cond191 = ($120<<24>>24)==(0);

								         if ($cond191) {

								          $$4 = $70;

								          break L55;

								         } else {

								          $$3182223 = $118;$117 = $120;

								         }

								        }

								        $121 = (($$3182223) - ($$1186$$0185))|0;

								        $$0169$be = 0;$$2181$sink = $121;

								        break L50;

								       }

								      } while(0);

								      while(1) {

								       $122 = ($$4>>>0)>($$0169>>>0);

								       if (!($122)) {

								        $$3 = $$0166;

								        break L36;

								       }

								       $123 = (($$4) + -1)|0;

								       $124 = (($1) + ($123)|0);

								       $125 = HEAP8[$124>>0]|0;

								       $126 = (($$0166) + ($123)|0);

								       $127 = HEAP8[$126>>0]|0;

								       $128 = ($125<<24>>24)==($127<<24>>24);

								       if ($128) {

								        $$4 = $123;

								       } else {

								        $$0169$be = $$0168;$$2181$sink = $$3178;

								        break;

								       }

								      }

								     }

								    } while(0);

								    $109 = (($$0166) + ($$2181$sink)|0);

								    $$0166 = $109;$$0169 = $$0169$be;$$0170 = $$3173;

								   }

								  }

								 } while(0);

								 STACKTOP = sp;return ($$3|0);

								}

								function _strspn($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $$01925 = 0, $$020 = 0, $$1$lcssa = 0, $$123 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0;

								 var $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $div = 0, $div21 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $2 = sp;

								 ;HEAP32[$2>>2]=0|0;HEAP32[$2+4>>2]=0|0;HEAP32[$2+8>>2]=0|0;HEAP32[$2+12>>2]=0|0;HEAP32[$2+16>>2]=0|0;HEAP32[$2+20>>2]=0|0;HEAP32[$2+24>>2]=0|0;HEAP32[$2+28>>2]=0|0;

								 $3 = HEAP8[$1>>0]|0;

								 $4 = ($3<<24>>24)==(0);

								 do {

								  if ($4) {

								   $$0 = 0;

								  } else {

								   $5 = ((($1)) + 1|0);

								   $6 = HEAP8[$5>>0]|0;

								   $7 = ($6<<24>>24)==(0);

								   if ($7) {

								    $$020 = $0;

								    while(1) {

								     $8 = HEAP8[$$020>>0]|0;

								     $9 = ($8<<24>>24)==($3<<24>>24);

								     $10 = ((($$020)) + 1|0);

								     if ($9) {

								      $$020 = $10;

								     } else {

								      break;

								     }

								    }

								    $11 = $$020;

								    $12 = $0;

								    $13 = (($11) - ($12))|0;

								    $$0 = $13;

								    break;

								   } else {

								    $$01925 = $1;$17 = $3;

								   }

								   while(1) {

								    $16 = $17 & 31;

								    $18 = $16&255;

								    $19 = 1 << $18;

								    $div21 = ($17&255) >>> 5;

								    $20 = $div21&255;

								    $21 = (($2) + ($20<<2)|0);

								    $22 = HEAP32[$21>>2]|0;

								    $23 = $22 | $19;

								    HEAP32[$21>>2] = $23;

								    $24 = ((($$01925)) + 1|0);

								    $25 = HEAP8[$24>>0]|0;

								    $26 = ($25<<24>>24)==(0);

								    if ($26) {

								     break;

								    } else {

								     $$01925 = $24;$17 = $25;

								    }

								   }

								   $14 = HEAP8[$0>>0]|0;

								   $15 = ($14<<24>>24)==(0);

								   L10: do {

								    if ($15) {

								     $$1$lcssa = $0;

								    } else {

								     $$123 = $0;$27 = $14;

								     while(1) {

								      $div = ($27&255) >>> 5;

								      $28 = $div&255;

								      $29 = (($2) + ($28<<2)|0);

								      $30 = HEAP32[$29>>2]|0;

								      $31 = $27 & 31;

								      $32 = $31&255;

								      $33 = 1 << $32;

								      $34 = $30 & $33;

								      $35 = ($34|0)==(0);

								      if ($35) {

								       $$1$lcssa = $$123;

								       break L10;

								      }

								      $36 = ((($$123)) + 1|0);

								      $37 = HEAP8[$36>>0]|0;

								      $38 = ($37<<24>>24)==(0);

								      if ($38) {

								       $$1$lcssa = $36;

								       break;

								      } else {

								       $$123 = $36;$27 = $37;

								      }

								     }

								    }

								   } while(0);

								   $39 = $$1$lcssa;

								   $40 = $0;

								   $41 = (($39) - ($40))|0;

								   $$0 = $41;

								  }

								 } while(0);

								 STACKTOP = sp;return ($$0|0);

								}

								function _srand($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = (($0) + -1)|0;

								 $2 = 14304;

								 $3 = $2;

								 HEAP32[$3>>2] = $1;

								 $4 = (($2) + 4)|0;

								 $5 = $4;

								 HEAP32[$5>>2] = 0;

								 return;

								}

								function _rand() {

								 var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = 14304;

								 $1 = $0;

								 $2 = HEAP32[$1>>2]|0;

								 $3 = (($0) + 4)|0;

								 $4 = $3;

								 $5 = HEAP32[$4>>2]|0;

								 $6 = (___muldi3(($2|0),($5|0),1284865837,1481765933)|0);

								 $7 = tempRet0;

								 $8 = (_i64Add(($6|0),($7|0),1,0)|0);

								 $9 = tempRet0;

								 $10 = 14304;

								 $11 = $10;

								 HEAP32[$11>>2] = $8;

								 $12 = (($10) + 4)|0;

								 $13 = $12;

								 HEAP32[$13>>2] = $9;

								 $14 = (_bitshift64Lshr(($8|0),($9|0),33)|0);

								 $15 = tempRet0;

								 return ($14|0);

								}

								function _vprintf($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP32[748]|0;

								 $3 = (_vfprintf($2,$0,$1)|0);

								 return ($3|0);

								}

								function _strcspn($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$01824 = 0, $$019$sink = 0, $$01922 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $div = 0;

								 var $div20 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $2 = sp;

								 $3 = HEAP8[$1>>0]|0;

								 $4 = ($3<<24>>24)==(0);

								 L1: do {

								  if ($4) {

								   label = 3;

								  } else {

								   $5 = ((($1)) + 1|0);

								   $6 = HEAP8[$5>>0]|0;

								   $7 = ($6<<24>>24)==(0);

								   if ($7) {

								    label = 3;

								   } else {

								    ;HEAP32[$2>>2]=0|0;HEAP32[$2+4>>2]=0|0;HEAP32[$2+8>>2]=0|0;HEAP32[$2+12>>2]=0|0;HEAP32[$2+16>>2]=0|0;HEAP32[$2+20>>2]=0|0;HEAP32[$2+24>>2]=0|0;HEAP32[$2+28>>2]=0|0;

								    $$01824 = $1;$13 = $3;

								    while(1) {

								     $12 = $13 & 31;

								     $14 = $12&255;

								     $15 = 1 << $14;

								     $div20 = ($13&255) >>> 5;

								     $16 = $div20&255;

								     $17 = (($2) + ($16<<2)|0);

								     $18 = HEAP32[$17>>2]|0;

								     $19 = $18 | $15;

								     HEAP32[$17>>2] = $19;

								     $20 = ((($$01824)) + 1|0);

								     $21 = HEAP8[$20>>0]|0;

								     $22 = ($21<<24>>24)==(0);

								     if ($22) {

								      break;

								     } else {

								      $$01824 = $20;$13 = $21;

								     }

								    }

								    $10 = HEAP8[$0>>0]|0;

								    $11 = ($10<<24>>24)==(0);

								    if ($11) {

								     $$019$sink = $0;

								    } else {

								     $$01922 = $0;$23 = $10;

								     while(1) {

								      $div = ($23&255) >>> 5;

								      $24 = $div&255;

								      $25 = (($2) + ($24<<2)|0);

								      $26 = HEAP32[$25>>2]|0;

								      $27 = $23 & 31;

								      $28 = $27&255;

								      $29 = 1 << $28;

								      $30 = $26 & $29;

								      $31 = ($30|0)==(0);

								      if (!($31)) {

								       $$019$sink = $$01922;

								       break L1;

								      }

								      $32 = ((($$01922)) + 1|0);

								      $33 = HEAP8[$32>>0]|0;

								      $34 = ($33<<24>>24)==(0);

								      if ($34) {

								       $$019$sink = $32;

								       break;

								      } else {

								       $$01922 = $32;$23 = $33;

								      }

								     }

								    }

								   }

								  }

								 } while(0);

								 if ((label|0) == 3) {

								  $8 = $3 << 24 >> 24;

								  $9 = (___strchrnul($0,$8)|0);

								  $$019$sink = $9;

								 }

								 $35 = $$019$sink;

								 $36 = $0;

								 $37 = (($35) - ($36))|0;

								 STACKTOP = sp;return ($37|0);

								}

								function _strcat($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = (_strlen($0)|0);

								 $3 = (($0) + ($2)|0);

								 (_strcpy($3,$1)|0);

								 return ($0|0);

								}

								function _strtok($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $$010 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ($0|0)==(0|0);

								 if ($2) {

								  $3 = HEAP32[8336]|0;

								  $4 = ($3|0)==(0|0);

								  if ($4) {

								   $$0 = 0;

								  } else {

								   $$010 = $3;

								   label = 3;

								  }

								 } else {

								  $$010 = $0;

								  label = 3;

								 }

								 do {

								  if ((label|0) == 3) {

								   $5 = (_strspn($$010,$1)|0);

								   $6 = (($$010) + ($5)|0);

								   $7 = HEAP8[$6>>0]|0;

								   $8 = ($7<<24>>24)==(0);

								   if ($8) {

								    HEAP32[8336] = 0;

								    $$0 = 0;

								    break;

								   }

								   $9 = (_strcspn($6,$1)|0);

								   $10 = (($6) + ($9)|0);

								   HEAP32[8336] = $10;

								   $11 = HEAP8[$10>>0]|0;

								   $12 = ($11<<24>>24)==(0);

								   if ($12) {

								    HEAP32[8336] = 0;

								    $$0 = $6;

								    break;

								   } else {

								    $13 = ((($10)) + 1|0);

								    HEAP32[8336] = $13;

								    HEAP8[$10>>0] = 0;

								    $$0 = $6;

								    break;

								   }

								  }

								 } while(0);

								 return ($$0|0);

								}

								function __emscripten_atomic_fetch_and_add_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = (_i64Add(($13|0),($16|0),($1|0),($2|0))|0);

								 $18 = tempRet0;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($16);

								 return ($13|0);

								}

								function __emscripten_atomic_fetch_and_and_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = $13 & $1;

								 $18 = $16 & $2;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($16);

								 return ($13|0);

								}

								function __emscripten_atomic_fetch_and_or_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = $13 | $1;

								 $18 = $16 | $2;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($16);

								 return ($13|0);

								}

								function __emscripten_atomic_fetch_and_sub_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = (_i64Subtract(($13|0),($16|0),($1|0),($2|0))|0);

								 $18 = tempRet0;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($16);

								 return ($13|0);

								}

								function __emscripten_atomic_fetch_and_xor_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = $13 ^ $1;

								 $18 = $16 ^ $2;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($16);

								 return ($13|0);

								}

								function _emscripten_async_run_in_main_thread($0) {

								 $0 = $0|0;

								 var $$0 = 0, $$0$in = 0, $$0$in19 = 0, $$0$lcssa = 0, $$020 = 0, $$expand_i1_val = 0, $$lcssa = 0, $$lcssa18 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, $call_queue$init$val = 0, $call_queue$init$val$pre_trunc = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ($0|0)==(0|0);

								 if ($1) {

								  ___assert_fail((13914|0),(13746|0),260,(13919|0));

								  // unreachable;

								 }

								 $2 = (_emscripten_is_main_runtime_thread()|0);

								 $3 = ($2|0)==(0);

								 if (!($3)) {

								  __do_call($0);

								  return;

								 }

								 (___pthread_mutex_lock(33864)|0);

								 $call_queue$init$val$pre_trunc = HEAP8[38379]|0;

								 $call_queue$init$val = $call_queue$init$val$pre_trunc&1;

								 if (!($call_queue$init$val)) {

								  $$expand_i1_val = 1;

								  HEAP8[38379] = $$expand_i1_val;

								 }

								 $4 = (Atomics_load(HEAP32, 8473)|0);

								 $5 = (Atomics_load(HEAP32, 8474)|0);

								 $$0$in19 = (($5) + 1)|0;

								 $$020 = (($$0$in19|0) % 128)&-1;

								 $6 = ($$020|0)==($4|0);

								 if ($6) {

								  $7 = $4;

								  while(1) {

								   (___pthread_mutex_unlock(33864)|0);

								   (_emscripten_futex_wait((33892|0),($7|0),inf)|0);

								   (___pthread_mutex_lock(33864)|0);

								   $8 = (Atomics_load(HEAP32, 8473)|0);

								   $9 = (Atomics_load(HEAP32, 8474)|0);

								   $$0$in = (($9) + 1)|0;

								   $$0 = (($$0$in|0) % 128)&-1;

								   $10 = ($$0|0)==($8|0);

								   if ($10) {

								    $7 = $8;

								   } else {

								    $$0$lcssa = $$0;$$lcssa = $9;$$lcssa18 = $8;

								    break;

								   }

								  }

								 } else {

								  $$0$lcssa = $$020;$$lcssa = $5;$$lcssa18 = $4;

								 }

								 $11 = (33900 + ($$lcssa<<2)|0);

								 HEAP32[$11>>2] = $0;

								 $12 = ($$lcssa18|0)==($$lcssa|0);

								 if ($12) {

								  _emscripten_asm_const_v(1);

								 }

								 $13 = (Atomics_store(HEAP32, 8474, $$0$lcssa)|0);

								 (___pthread_mutex_unlock(33864)|0);

								 return;

								}

								function _emscripten_atomic_add_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = (_i64Add(($13|0),($16|0),($1|0),($2|0))|0);

								 $18 = tempRet0;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($18);

								 return ($17|0);

								}

								function _emscripten_atomic_and_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = $13 & $1;

								 $18 = $16 & $2;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($18);

								 return ($17|0);

								}

								function _emscripten_atomic_cas_u64($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $5 = 0, $6 = 0, $7 = 0;

								 var $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $5 = $0;

								 $6 = $5 >>> 3;

								 $7 = $6 & 255;

								 $8 = (34420 + ($7<<2)|0);

								 while(1) {

								  while(1) {

								   $9 = (Atomics_load(HEAP32, $8>>2)|0);

								   $10 = (Atomics_compareExchange(HEAP32, $8>>2, $9, 1)|0);

								   $11 = ($9|0)==($10|0);

								   if ($11) {

								    break;

								   }

								  }

								  $12 = ($9|0)==(0);

								  if ($12) {

								   break;

								  }

								 }

								 $13 = $0;

								 $14 = $13;

								 $15 = HEAP32[$14>>2]|0;

								 $16 = (($13) + 4)|0;

								 $17 = $16;

								 $18 = HEAP32[$17>>2]|0;

								 $19 = ($15|0)==($1|0);

								 $20 = ($18|0)==($2|0);

								 $21 = $19 & $20;

								 if (!($21)) {

								  $26 = (Atomics_store(HEAP32, $8>>2, 0)|0);

								  tempRet0 = ($18);

								  return ($15|0);

								 }

								 $22 = $0;

								 $23 = $22;

								 HEAP32[$23>>2] = $3;

								 $24 = (($22) + 4)|0;

								 $25 = $24;

								 HEAP32[$25>>2] = $4;

								 $26 = (Atomics_store(HEAP32, $8>>2, 0)|0);

								 tempRet0 = ($18);

								 return ($15|0);

								}

								function _emscripten_atomic_exchange_u32($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $2 = 0, $3 = 0, $4 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 while(1) {

								  $2 = (Atomics_load(HEAP32, $0>>2)|0);

								  $3 = (Atomics_compareExchange(HEAP32, $0>>2, $2, $1)|0);

								  $4 = ($2|0)==($3|0);

								  if ($4) {

								   break;

								  }

								 }

								 return ($2|0);

								}

								function _emscripten_atomic_exchange_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0;

								 var sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = $0;

								 $18 = $17;

								 HEAP32[$18>>2] = $1;

								 $19 = (($17) + 4)|0;

								 $20 = $19;

								 HEAP32[$20>>2] = $2;

								 $21 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($16);

								 return ($13|0);

								}

								function _emscripten_atomic_load_f32($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = (Atomics_load(HEAP32, $0>>2)|0);

								 $2 = (HEAP32[tempDoublePtr>>2]=$1,+HEAPF32[tempDoublePtr>>2]);

								 return (+$2);

								}

								function _emscripten_atomic_load_f64($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = $0;

								 $2 = $1 >>> 3;

								 $3 = $2 & 255;

								 $4 = (34420 + ($3<<2)|0);

								 while(1) {

								  while(1) {

								   $5 = (Atomics_load(HEAP32, $4>>2)|0);

								   $6 = (Atomics_compareExchange(HEAP32, $4>>2, $5, 1)|0);

								   $7 = ($5|0)==($6|0);

								   if ($7) {

								    break;

								   }

								  }

								  $8 = ($5|0)==(0);

								  if ($8) {

								   break;

								  }

								 }

								 $9 = +HEAPF64[$0>>3];

								 $10 = (Atomics_store(HEAP32, $4>>2, 0)|0);

								 return (+$9);

								}

								function _emscripten_atomic_load_u64($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = $0;

								 $2 = $1 >>> 3;

								 $3 = $2 & 255;

								 $4 = (34420 + ($3<<2)|0);

								 while(1) {

								  while(1) {

								   $5 = (Atomics_load(HEAP32, $4>>2)|0);

								   $6 = (Atomics_compareExchange(HEAP32, $4>>2, $5, 1)|0);

								   $7 = ($5|0)==($6|0);

								   if ($7) {

								    break;

								   }

								  }

								  $8 = ($5|0)==(0);

								  if ($8) {

								   break;

								  }

								 }

								 $9 = $0;

								 $10 = $9;

								 $11 = HEAP32[$10>>2]|0;

								 $12 = (($9) + 4)|0;

								 $13 = $12;

								 $14 = HEAP32[$13>>2]|0;

								 $15 = (Atomics_store(HEAP32, $4>>2, 0)|0);

								 tempRet0 = ($14);

								 return ($11|0);

								}

								function _emscripten_atomic_or_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = $13 | $1;

								 $18 = $16 | $2;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($18);

								 return ($17|0);

								}

								function _emscripten_atomic_store_f32($0,$1) {

								 $0 = $0|0;

								 $1 = +$1;

								 var $2 = 0, $3 = 0, $4 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = (HEAPF32[tempDoublePtr>>2]=$1,HEAP32[tempDoublePtr>>2]|0);

								 $3 = (Atomics_store(HEAP32, $0>>2, $2)|0);

								 $4 = (+($3>>>0));

								 return (+$4);

								}

								function _emscripten_atomic_store_f64($0,$1) {

								 $0 = $0|0;

								 $1 = +$1;

								 var $10 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = $0;

								 $3 = $2 >>> 3;

								 $4 = $3 & 255;

								 $5 = (34420 + ($4<<2)|0);

								 while(1) {

								  while(1) {

								   $6 = (Atomics_load(HEAP32, $5>>2)|0);

								   $7 = (Atomics_compareExchange(HEAP32, $5>>2, $6, 1)|0);

								   $8 = ($6|0)==($7|0);

								   if ($8) {

								    break;

								   }

								  }

								  $9 = ($6|0)==(0);

								  if ($9) {

								   break;

								  }

								 }

								 HEAPF64[$0>>3] = $1;

								 $10 = (Atomics_store(HEAP32, $5>>2, 0)|0);

								 return (+$1);

								}

								function _emscripten_atomic_store_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 HEAP32[$12>>2] = $1;

								 $13 = (($11) + 4)|0;

								 $14 = $13;

								 HEAP32[$14>>2] = $2;

								 $15 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($2);

								 return ($1|0);

								}

								function _emscripten_atomic_sub_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = (_i64Subtract(($13|0),($16|0),($1|0),($2|0))|0);

								 $18 = tempRet0;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($18);

								 return ($17|0);

								}

								function _emscripten_atomic_xor_u64($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0;

								 var $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $3 = $0;

								 $4 = $3 >>> 3;

								 $5 = $4 & 255;

								 $6 = (34420 + ($5<<2)|0);

								 while(1) {

								  while(1) {

								   $7 = (Atomics_load(HEAP32, $6>>2)|0);

								   $8 = (Atomics_compareExchange(HEAP32, $6>>2, $7, 1)|0);

								   $9 = ($7|0)==($8|0);

								   if ($9) {

								    break;

								   }

								  }

								  $10 = ($7|0)==(0);

								  if ($10) {

								   break;

								  }

								 }

								 $11 = $0;

								 $12 = $11;

								 $13 = HEAP32[$12>>2]|0;

								 $14 = (($11) + 4)|0;

								 $15 = $14;

								 $16 = HEAP32[$15>>2]|0;

								 $17 = $13 ^ $1;

								 $18 = $16 ^ $2;

								 $19 = $0;

								 $20 = $19;

								 HEAP32[$20>>2] = $17;

								 $21 = (($19) + 4)|0;

								 $22 = $21;

								 HEAP32[$22>>2] = $18;

								 $23 = (Atomics_store(HEAP32, $6>>2, 0)|0);

								 tempRet0 = ($18);

								 return ($17|0);

								}

								function _emscripten_main_thread_process_queued_calls() {

								 var $$0910 = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_emscripten_is_main_runtime_thread()|0);

								 $1 = ($0|0)==(0);

								 if ($1) {

								  ___assert_fail((13624|0),(13746|0),424,(13810|0));

								  // unreachable;

								 }

								 $2 = (_emscripten_is_main_runtime_thread()|0);

								 $3 = ($2|0)==(0);

								 $4 = HEAP32[8465]|0;

								 $5 = ($4|0)!=(0);

								 $or$cond = $3 | $5;

								 if ($or$cond) {

								  return;

								 }

								 HEAP32[8465] = 1;

								 (___pthread_mutex_lock(33864)|0);

								 $6 = (Atomics_load(HEAP32, 8473)|0);

								 $7 = (Atomics_load(HEAP32, 8474)|0);

								 $8 = ($6|0)==($7|0);

								 (___pthread_mutex_unlock(33864)|0);

								 if (!($8)) {

								  $$0910 = $6;

								  while(1) {

								   $9 = (33900 + ($$0910<<2)|0);

								   $10 = HEAP32[$9>>2]|0;

								   __do_call($10);

								   (___pthread_mutex_lock(33864)|0);

								   $11 = (($$0910) + 1)|0;

								   $12 = (($11|0) % 128)&-1;

								   $13 = (Atomics_store(HEAP32, 8473, $12)|0);

								   $14 = (Atomics_load(HEAP32, 8474)|0);

								   $15 = ($12|0)==($14|0);

								   (___pthread_mutex_unlock(33864)|0);

								   if ($15) {

								    break;

								   } else {

								    $$0910 = $12;

								   }

								  }

								 }

								 (_emscripten_futex_wake((33892|0),2147483647)|0);

								 HEAP32[8465] = 0;

								 return;

								}

								function _emscripten_sync_run_in_main_thread($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 _emscripten_async_run_in_main_thread($0);

								 (_emscripten_wait_for_call_v($0,inf)|0);

								 return;

								}

								function _emscripten_sync_run_in_main_thread_0($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $1 = sp;

								 dest=$1; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$1>>2] = $0;

								 $2 = ((($1)) + 80|0);

								 HEAP32[$2>>2] = 0;

								 _emscripten_async_run_in_main_thread($1);

								 (_emscripten_wait_for_call_v($1,inf)|0);

								 $3 = HEAP32[$2>>2]|0;

								 STACKTOP = sp;return ($3|0);

								}

								function _emscripten_sync_run_in_main_thread_1($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $2 = 0, $3 = 0, $4 = 0, $5 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $2 = sp;

								 dest=$2; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$2>>2] = $0;

								 $3 = ((($2)) + 16|0);

								 HEAP32[$3>>2] = $1;

								 $4 = ((($2)) + 80|0);

								 HEAP32[$4>>2] = 0;

								 _emscripten_async_run_in_main_thread($2);

								 (_emscripten_wait_for_call_v($2,inf)|0);

								 $5 = HEAP32[$4>>2]|0;

								 STACKTOP = sp;return ($5|0);

								}

								function _emscripten_sync_run_in_main_thread_2($0,$1,$2) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 var $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $3 = sp;

								 dest=$3; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$3>>2] = $0;

								 $4 = ((($3)) + 16|0);

								 HEAP32[$4>>2] = $1;

								 $5 = ((($3)) + 24|0);

								 HEAP32[$5>>2] = $2;

								 $6 = ((($3)) + 80|0);

								 HEAP32[$6>>2] = 0;

								 _emscripten_async_run_in_main_thread($3);

								 (_emscripten_wait_for_call_v($3,inf)|0);

								 $7 = HEAP32[$6>>2]|0;

								 STACKTOP = sp;return ($7|0);

								}

								function _emscripten_sync_run_in_main_thread_3($0,$1,$2,$3) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 var $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $4 = sp;

								 dest=$4; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$4>>2] = $0;

								 $5 = ((($4)) + 16|0);

								 HEAP32[$5>>2] = $1;

								 $6 = ((($4)) + 24|0);

								 HEAP32[$6>>2] = $2;

								 $7 = ((($4)) + 32|0);

								 HEAP32[$7>>2] = $3;

								 $8 = ((($4)) + 80|0);

								 HEAP32[$8>>2] = 0;

								 _emscripten_async_run_in_main_thread($4);

								 (_emscripten_wait_for_call_v($4,inf)|0);

								 $9 = HEAP32[$8>>2]|0;

								 STACKTOP = sp;return ($9|0);

								}

								function _emscripten_sync_run_in_main_thread_4($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $10 = 0, $11 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $5 = sp;

								 dest=$5; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$5>>2] = $0;

								 $6 = ((($5)) + 16|0);

								 HEAP32[$6>>2] = $1;

								 $7 = ((($5)) + 24|0);

								 HEAP32[$7>>2] = $2;

								 $8 = ((($5)) + 32|0);

								 HEAP32[$8>>2] = $3;

								 $9 = ((($5)) + 40|0);

								 HEAP32[$9>>2] = $4;

								 $10 = ((($5)) + 80|0);

								 HEAP32[$10>>2] = 0;

								 _emscripten_async_run_in_main_thread($5);

								 (_emscripten_wait_for_call_v($5,inf)|0);

								 $11 = HEAP32[$10>>2]|0;

								 STACKTOP = sp;return ($11|0);

								}

								function _emscripten_sync_run_in_main_thread_5($0,$1,$2,$3,$4,$5) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 $5 = $5|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $6 = sp;

								 dest=$6; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$6>>2] = $0;

								 $7 = ((($6)) + 16|0);

								 HEAP32[$7>>2] = $1;

								 $8 = ((($6)) + 24|0);

								 HEAP32[$8>>2] = $2;

								 $9 = ((($6)) + 32|0);

								 HEAP32[$9>>2] = $3;

								 $10 = ((($6)) + 40|0);

								 HEAP32[$10>>2] = $4;

								 $11 = ((($6)) + 48|0);

								 HEAP32[$11>>2] = $5;

								 $12 = ((($6)) + 80|0);

								 HEAP32[$12>>2] = 0;

								 _emscripten_async_run_in_main_thread($6);

								 (_emscripten_wait_for_call_v($6,inf)|0);

								 $13 = HEAP32[$12>>2]|0;

								 STACKTOP = sp;return ($13|0);

								}

								function _emscripten_sync_run_in_main_thread_6($0,$1,$2,$3,$4,$5,$6) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 $5 = $5|0;

								 $6 = $6|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $7 = sp;

								 dest=$7; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$7>>2] = $0;

								 $8 = ((($7)) + 16|0);

								 HEAP32[$8>>2] = $1;

								 $9 = ((($7)) + 24|0);

								 HEAP32[$9>>2] = $2;

								 $10 = ((($7)) + 32|0);

								 HEAP32[$10>>2] = $3;

								 $11 = ((($7)) + 40|0);

								 HEAP32[$11>>2] = $4;

								 $12 = ((($7)) + 48|0);

								 HEAP32[$12>>2] = $5;

								 $13 = ((($7)) + 56|0);

								 HEAP32[$13>>2] = $6;

								 $14 = ((($7)) + 80|0);

								 HEAP32[$14>>2] = 0;

								 _emscripten_async_run_in_main_thread($7);

								 (_emscripten_wait_for_call_v($7,inf)|0);

								 $15 = HEAP32[$14>>2]|0;

								 STACKTOP = sp;return ($15|0);

								}

								function _emscripten_sync_run_in_main_thread_7($0,$1,$2,$3,$4,$5,$6,$7) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 $5 = $5|0;

								 $6 = $6|0;

								 $7 = $7|0;

								 var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 96|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(96|0);

								 $8 = sp;

								 dest=$8; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$8>>2] = $0;

								 $9 = ((($8)) + 16|0);

								 HEAP32[$9>>2] = $1;

								 $10 = ((($8)) + 24|0);

								 HEAP32[$10>>2] = $2;

								 $11 = ((($8)) + 32|0);

								 HEAP32[$11>>2] = $3;

								 $12 = ((($8)) + 40|0);

								 HEAP32[$12>>2] = $4;

								 $13 = ((($8)) + 48|0);

								 HEAP32[$13>>2] = $5;

								 $14 = ((($8)) + 56|0);

								 HEAP32[$14>>2] = $6;

								 $15 = ((($8)) + 64|0);

								 HEAP32[$15>>2] = $7;

								 $16 = ((($8)) + 80|0);

								 HEAP32[$16>>2] = 0;

								 _emscripten_async_run_in_main_thread($8);

								 (_emscripten_wait_for_call_v($8,inf)|0);

								 $17 = HEAP32[$16>>2]|0;

								 STACKTOP = sp;return ($17|0);

								}

								function _emscripten_sync_run_in_main_thread_xprintf_varargs($0,$1,$2,$varargs) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $varargs = $varargs|0;

								 var $$0 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, dest = 0, label = 0, sp = 0, stop = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 240|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(240|0);

								 $3 = sp + 96|0;

								 $4 = sp + 112|0;

								 $5 = sp;

								 HEAP32[$3>>2] = $varargs;

								 $6 = (_vsnprintf($4,128,$2,$3)|0);

								 $7 = ($6|0)>(127);

								 $8 = (($6) + 1)|0;

								 if ($7) {

								  $9 = (_malloc($8)|0);

								  HEAP32[$3>>2] = $varargs;

								  (_vsnprintf($9,$8,$2,$3)|0);

								  $$0 = $9;

								 } else {

								  $$0 = $4;

								 }

								 dest=$5; stop=dest+96|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0));

								 HEAP32[$5>>2] = $0;

								 $10 = $1;

								 $11 = ((($5)) + 16|0);

								 HEAP32[$11>>2] = $10;

								 $12 = ((($5)) + 24|0);

								 HEAP32[$12>>2] = $$0;

								 $13 = ((($5)) + 80|0);

								 HEAP32[$13>>2] = 0;

								 _emscripten_async_run_in_main_thread($5);

								 (_emscripten_wait_for_call_v($5,inf)|0);

								 $14 = ($$0|0)==($4|0);

								 if ($14) {

								  $15 = HEAP32[$13>>2]|0;

								  STACKTOP = sp;return ($15|0);

								 }

								 _free($$0);

								 $15 = HEAP32[$13>>2]|0;

								 STACKTOP = sp;return ($15|0);

								}

								function ___pthread_tsd_run_dtors() {

								 var $$02427 = 0, $$026 = 0, $$125 = 0, $$2 = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0;

								 var $8 = 0, $9 = 0, $exitcond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (_pthread_self()|0);

								 $1 = ((($0)) + 60|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = ($2|0)==(0);

								 if ($3) {

								  return;

								 }

								 $4 = ((($0)) + 116|0);

								 $$02427 = 0;

								 while(1) {

								  $$026 = 0;$$125 = 0;

								  while(1) {

								   $5 = HEAP32[$4>>2]|0;

								   $6 = (($5) + ($$026<<2)|0);

								   $7 = HEAP32[$6>>2]|0;

								   $8 = ($7|0)==(0|0);

								   if ($8) {

								    $$2 = $$125;

								   } else {

								    $9 = (33348 + ($$026<<2)|0);

								    $10 = (Atomics_load(HEAP32,$9>>2)|0);

								    $11 = ($10|0)==(0|0);

								    if ($11) {

								     $$2 = $$125;

								    } else {

								     HEAP32[$6>>2] = 0;

								     $12 = (Atomics_load(HEAP32,$9>>2)|0);

								     FUNCTION_TABLE_vi[$12 & 31]($7);

								     $$2 = 1;

								    }

								   }

								   $13 = (($$026) + 1)|0;

								   $exitcond = ($13|0)==(128);

								   if ($exitcond) {

								    break;

								   } else {

								    $$026 = $13;$$125 = $$2;

								   }

								  }

								  $14 = (($$02427) + 1)|0;

								  $15 = ($$2|0)!=(0);

								  $16 = ($14|0)<(4);

								  $17 = $16 & $15;

								  if ($17) {

								   $$02427 = $14;

								  } else {

								   break;

								  }

								 }

								 return;

								}

								function _emscripten_wait_for_call_v($0,$1) {

								 $0 = $0|0;

								 $1 = +$1;

								 var $$ = 0, $$01921 = 0.0, $$020$lcssa = 0, $$1 = 0, $10 = 0.0, $11 = 0, $12 = 0, $13 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0.0, $6 = 0.0, $7 = 0, $8 = 0.0, $9 = 0, $or$cond = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = ((($0)) + 8|0);

								 $3 = (Atomics_load(HEAP32, $2>>2)|0);

								 $4 = ($3|0)==(0);

								 if (!($4)) {

								  $$1 = $3;

								  $13 = ($$1|0)==(0);

								  $$ = $13 ? -8 : 0;

								  return ($$|0);

								 }

								 $5 = (+_emscripten_get_now());

								 $6 = $5 + $1;

								 _emscripten_set_current_thread_status(5);

								 $7 = $5 < $6;

								 if ($7) {

								  $$01921 = $5;

								  while(1) {

								   $8 = $6 - $$01921;

								   (_emscripten_futex_wait(($2|0),0,(+$8))|0);

								   $9 = (Atomics_load(HEAP32, $2>>2)|0);

								   $10 = (+_emscripten_get_now());

								   $11 = ($9|0)==(0);

								   $12 = $10 < $6;

								   $or$cond = $11 & $12;

								   if ($or$cond) {

								    $$01921 = $10;

								   } else {

								    $$020$lcssa = $9;

								    break;

								   }

								  }

								 } else {

								  $$020$lcssa = 0;

								 }

								 _emscripten_set_current_thread_status(1);

								 $$1 = $$020$lcssa;

								 $13 = ($$1|0)==(0);

								 $$ = $13 ? -8 : 0;

								 return ($$|0);

								}

								function __do_call($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0;

								 var $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0;

								 var $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0;

								 var $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0;

								 var $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0;

								 var $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0;

								 var $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 do {

								  switch ($1|0) {

								  case 12:  {

								   $2 = ((($0)) + 16|0);

								   $3 = HEAP32[$2>>2]|0;

								   $4 = ((($0)) + 24|0);

								   $5 = HEAP32[$4>>2]|0;

								   $6 = (_utime(($3|0),($5|0))|0);

								   $7 = ((($0)) + 80|0);

								   HEAP32[$7>>2] = $6;

								   break;

								  }

								  case 13:  {

								   $8 = ((($0)) + 16|0);

								   $9 = HEAP32[$8>>2]|0;

								   $10 = ((($0)) + 24|0);

								   $11 = HEAP32[$10>>2]|0;

								   $12 = (_utimes(($9|0),($11|0))|0);

								   $13 = ((($0)) + 80|0);

								   HEAP32[$13>>2] = $12;

								   break;

								  }

								  case 37:  {

								   $14 = ((($0)) + 16|0);

								   $15 = HEAP32[$14>>2]|0;

								   $16 = (_chroot(($15|0))|0);

								   $17 = ((($0)) + 80|0);

								   HEAP32[$17>>2] = $16;

								   break;

								  }

								  case 46:  {

								   $18 = ((($0)) + 16|0);

								   $19 = HEAP32[$18>>2]|0;

								   $20 = ((($0)) + 24|0);

								   $21 = HEAP32[$20>>2]|0;

								   $22 = (_fpathconf(($19|0),($21|0))|0);

								   $23 = ((($0)) + 80|0);

								   HEAP32[$23>>2] = $22;

								   break;

								  }

								  case 68:  {

								   $24 = ((($0)) + 16|0);

								   $25 = HEAP32[$24>>2]|0;

								   $26 = ((($0)) + 24|0);

								   $27 = HEAP32[$26>>2]|0;

								   $28 = ((($0)) + 32|0);

								   $29 = HEAP32[$28>>2]|0;

								   $30 = (_confstr(($25|0),($27|0),($29|0))|0);

								   $31 = ((($0)) + 80|0);

								   HEAP32[$31>>2] = $30;

								   break;

								  }

								  case 72:  {

								   $32 = ((($0)) + 16|0);

								   $33 = HEAP32[$32>>2]|0;

								   $34 = (_sysconf(($33|0))|0);

								   $35 = ((($0)) + 80|0);

								   HEAP32[$35>>2] = $34;

								   break;

								  }

								  case 110:  {

								   $36 = ((($0)) + 16|0);

								   $37 = HEAP32[$36>>2]|0;

								   $38 = (_atexit(($37|0))|0);

								   $39 = ((($0)) + 80|0);

								   HEAP32[$39>>2] = $38;

								   break;

								  }

								  case 111:  {

								   $40 = ((($0)) + 16|0);

								   $41 = HEAP32[$40>>2]|0;

								   $42 = (_getenv(($41|0))|0);

								   $43 = ((($0)) + 80|0);

								   HEAP32[$43>>2] = $42;

								   break;

								  }

								  case 112:  {

								   $44 = (_clearenv()|0);

								   $45 = ((($0)) + 80|0);

								   HEAP32[$45>>2] = $44;

								   break;

								  }

								  case 113:  {

								   $46 = ((($0)) + 16|0);

								   $47 = HEAP32[$46>>2]|0;

								   $48 = ((($0)) + 24|0);

								   $49 = HEAP32[$48>>2]|0;

								   $50 = ((($0)) + 32|0);

								   $51 = HEAP32[$50>>2]|0;

								   $52 = (_setenv(($47|0),($49|0),($51|0))|0);

								   $53 = ((($0)) + 80|0);

								   HEAP32[$53>>2] = $52;

								   break;

								  }

								  case 114:  {

								   $54 = ((($0)) + 16|0);

								   $55 = HEAP32[$54>>2]|0;

								   $56 = (_unsetenv(($55|0))|0);

								   $57 = ((($0)) + 80|0);

								   HEAP32[$57>>2] = $56;

								   break;

								  }

								  case 115:  {

								   $58 = ((($0)) + 16|0);

								   $59 = HEAP32[$58>>2]|0;

								   $60 = (_putenv(($59|0))|0);

								   $61 = ((($0)) + 80|0);

								   HEAP32[$61>>2] = $60;

								   break;

								  }

								  case 119:  {

								   _tzset();

								   break;

								  }

								  case 137:  {

								   $62 = ((($0)) + 16|0);

								   $63 = HEAP32[$62>>2]|0;

								   $64 = ((($0)) + 24|0);

								   $65 = HEAP32[$64>>2]|0;

								   $66 = ((($0)) + 32|0);

								   $67 = HEAP32[$66>>2]|0;

								   $68 = ((($0)) + 40|0);

								   $69 = HEAP32[$68>>2]|0;

								   $70 = (_pthread_create(($63|0),($65|0),($67|0),($69|0))|0);

								   $71 = ((($0)) + 80|0);

								   HEAP32[$71>>2] = $70;

								   break;

								  }

								  case 138:  {

								   $72 = ((($0)) + 16|0);

								   $73 = HEAP32[$72>>2]|0;

								   $74 = ((($0)) + 24|0);

								   $75 = HEAP32[$74>>2]|0;

								   $76 = (_emscripten_syscall(($73|0),($75|0))|0);

								   $77 = ((($0)) + 80|0);

								   HEAP32[$77>>2] = $76;

								   break;

								  }

								  case 1024:  {

								   $78 = ((($0)) + 4|0);

								   $79 = HEAP32[$78>>2]|0;

								   FUNCTION_TABLE_v[$79 & 7]();

								   break;

								  }

								  case 1025:  {

								   $80 = ((($0)) + 4|0);

								   $81 = HEAP32[$80>>2]|0;

								   $82 = ((($0)) + 16|0);

								   $83 = HEAP32[$82>>2]|0;

								   FUNCTION_TABLE_vi[$81 & 31]($83);

								   break;

								  }

								  case 1026:  {

								   $84 = ((($0)) + 4|0);

								   $85 = HEAP32[$84>>2]|0;

								   $86 = ((($0)) + 16|0);

								   $87 = HEAP32[$86>>2]|0;

								   $88 = ((($0)) + 24|0);

								   $89 = HEAP32[$88>>2]|0;

								   FUNCTION_TABLE_vii[$85 & 63]($87,$89);

								   break;

								  }

								  case 1027:  {

								   $90 = ((($0)) + 4|0);

								   $91 = HEAP32[$90>>2]|0;

								   $92 = ((($0)) + 16|0);

								   $93 = HEAP32[$92>>2]|0;

								   $94 = ((($0)) + 24|0);

								   $95 = HEAP32[$94>>2]|0;

								   $96 = ((($0)) + 32|0);

								   $97 = HEAP32[$96>>2]|0;

								   FUNCTION_TABLE_viii[$91 & 31]($93,$95,$97);

								   break;

								  }

								  case 2048:  {

								   $98 = ((($0)) + 4|0);

								   $99 = HEAP32[$98>>2]|0;

								   $100 = (FUNCTION_TABLE_i[$99 & 3]()|0);

								   $101 = ((($0)) + 80|0);

								   HEAP32[$101>>2] = $100;

								   break;

								  }

								  case 2049:  {

								   $102 = ((($0)) + 4|0);

								   $103 = HEAP32[$102>>2]|0;

								   $104 = ((($0)) + 16|0);

								   $105 = HEAP32[$104>>2]|0;

								   $106 = (FUNCTION_TABLE_ii[$103 & 15]($105)|0);

								   $107 = ((($0)) + 80|0);

								   HEAP32[$107>>2] = $106;

								   break;

								  }

								  case 2050:  {

								   $108 = ((($0)) + 4|0);

								   $109 = HEAP32[$108>>2]|0;

								   $110 = ((($0)) + 16|0);

								   $111 = HEAP32[$110>>2]|0;

								   $112 = ((($0)) + 24|0);

								   $113 = HEAP32[$112>>2]|0;

								   $114 = (FUNCTION_TABLE_iii[$109 & 3]($111,$113)|0);

								   $115 = ((($0)) + 80|0);

								   HEAP32[$115>>2] = $114;

								   break;

								  }

								  case 2051:  {

								   $116 = ((($0)) + 4|0);

								   $117 = HEAP32[$116>>2]|0;

								   $118 = ((($0)) + 16|0);

								   $119 = HEAP32[$118>>2]|0;

								   $120 = ((($0)) + 24|0);

								   $121 = HEAP32[$120>>2]|0;

								   $122 = ((($0)) + 32|0);

								   $123 = HEAP32[$122>>2]|0;

								   $124 = (FUNCTION_TABLE_iiii[$117 & 15]($119,$121,$123)|0);

								   $125 = ((($0)) + 80|0);

								   HEAP32[$125>>2] = $124;

								   break;

								  }

								  default: {

								   ___assert_fail((13854|0),(13746|0),211,(13905|0));

								   // unreachable;

								  }

								  }

								 } while(0);

								 $126 = ((($0)) + 88|0);

								 $127 = HEAP32[$126>>2]|0;

								 $128 = ($127|0)==(0);

								 if ($128) {

								  $129 = ((($0)) + 8|0);

								  HEAP32[$129>>2] = 1;

								  (_emscripten_futex_wake(($129|0),2147483647)|0);

								  return;

								 } else {

								  _free($0);

								  return;

								 }

								}

								function ___pthread_mutex_unlock($0) {

								 $0 = $0|0;

								 var $$0 = 0, $$045 = 0, $$pre = 0, $$pre$phiZ2D = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0;

								 var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $5 = 0, $6 = 0;

								 var $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ((($0)) + 8|0);

								 $2 = (Atomics_load(HEAP32,$1>>2)|0);

								 $3 = HEAP32[$0>>2]|0;

								 $4 = $3 & 15;

								 $5 = $3 & 128;

								 $6 = $5 ^ 128;

								 $7 = ($4|0)==(0);

								 if ($7) {

								  $$pre = ((($0)) + 4|0);

								  $$045 = 0;$$pre$phiZ2D = $$pre;

								 } else {

								  $8 = (_pthread_self()|0);

								  $9 = ((($0)) + 4|0);

								  $10 = (Atomics_load(HEAP32,$9>>2)|0);

								  $11 = $10 & 2147483647;

								  $12 = ((($8)) + 52|0);

								  $13 = HEAP32[$12>>2]|0;

								  $14 = ($11|0)==($13|0);

								  if (!($14)) {

								   $$0 = 1;

								   return ($$0|0);

								  }

								  $15 = $3 & 3;

								  $16 = ($15|0)==(1);

								  if ($16) {

								   $17 = ((($0)) + 20|0);

								   $18 = HEAP32[$17>>2]|0;

								   $19 = ($18|0)==(0);

								   if (!($19)) {

								    $20 = (($18) + -1)|0;

								    HEAP32[$17>>2] = $20;

								    $$0 = 0;

								    return ($$0|0);

								   }

								  }

								  $21 = ($6|0)==(0);

								  $22 = ((($0)) + 16|0);

								  if ($21) {

								   $23 = ((($8)) + 176|0);

								   Atomics_store(HEAP32,$23>>2,$22)|0;

								   ___vm_lock();

								  }

								  $24 = ((($0)) + 12|0);

								  $25 = HEAP32[$24>>2]|0;

								  $26 = HEAP32[$22>>2]|0;

								  Atomics_store(HEAP32,$25>>2,$26)|0;

								  $27 = ((($8)) + 168|0);

								  $28 = ($26|0)==($27|0);

								  if ($28) {

								   $$045 = $8;$$pre$phiZ2D = $9;

								  } else {

								   $29 = ((($26)) + -4|0);

								   Atomics_store(HEAP32,$29>>2,$25)|0;

								   $$045 = $8;$$pre$phiZ2D = $9;

								  }

								 }

								 $30 = $3 & 8;

								 $31 = ($30|0)!=(0);

								 $32 = $31 ? 2147483647 : 0;

								 while(1) {

								  $33 = (Atomics_load(HEAP32, $$pre$phiZ2D>>2)|0);

								  $34 = (Atomics_compareExchange(HEAP32, $$pre$phiZ2D>>2, $33, $32)|0);

								  $35 = ($34|0)==($33|0);

								  if ($35) {

								   break;

								  }

								 }

								 $36 = ($6|0)!=(0);

								 $or$cond = $7 | $36;

								 if (!($or$cond)) {

								  $37 = ((($$045)) + 176|0);

								  Atomics_store(HEAP32,$37>>2,0)|0;

								  ___vm_unlock();

								 }

								 $38 = ($2|0)!=(0);

								 $39 = ($33|0)<(0);

								 $or$cond3 = $38 | $39;

								 if (!($or$cond3)) {

								  $$0 = 0;

								  return ($$0|0);

								 }

								 (_emscripten_futex_wake(($$pre$phiZ2D|0),1)|0);

								 $$0 = 0;

								 return ($$0|0);

								}

								function ___vm_lock() {

								 var $0 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (Atomics_add(HEAP32, 8603, 1)|0);

								 return;

								}

								function ___vm_unlock() {

								 var $0 = 0, $1 = 0, $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $0 = (Atomics_add(HEAP32, 8603, -1)|0);

								 $1 = ($0|0)==(1);

								 if (!($1)) {

								  return;

								 }

								 $2 = (Atomics_load(HEAP32,(34416)>>2)|0);

								 $3 = ($2|0)==(0);

								 if ($3) {

								  return;

								 }

								 (_emscripten_futex_wake((34412|0),2147483647)|0);

								 return;

								}

								function ___pthread_mutex_lock($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 $2 = $1 & 15;

								 $3 = ($2|0)==(0);

								 if ($3) {

								  $4 = ((($0)) + 4|0);

								  $5 = (Atomics_compareExchange(HEAP32, $4>>2, 0, 16)|0);

								  $6 = ($5|0)==(0);

								  if ($6) {

								   $$0 = 0;

								   return ($$0|0);

								  }

								 }

								 $7 = (___pthread_mutex_timedlock($0,0)|0);

								 $$0 = $7;

								 return ($$0|0);

								}

								function ___pthread_mutex_timedlock($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$0 = 0, $$2 = 0, $$pre = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0;

								 var $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0;

								 var $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond40 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $2 = HEAP32[$0>>2]|0;

								 $3 = $2 & 15;

								 $4 = ($3|0)==(0);

								 do {

								  if ($4) {

								   $5 = ((($0)) + 4|0);

								   $6 = (Atomics_compareExchange(HEAP32, $5>>2, 0, 16)|0);

								   $7 = ($6|0)==(0);

								   if ($7) {

								    $$2 = 0;

								    return ($$2|0);

								   } else {

								    $$pre = HEAP32[$0>>2]|0;

								    $9 = $$pre;

								    break;

								   }

								  } else {

								   $9 = $2;

								  }

								 } while(0);

								 $8 = $9 & 128;

								 $10 = $8 ^ 128;

								 $11 = (___pthread_mutex_trylock($0)|0);

								 $12 = ($11|0)==(16);

								 if (!($12)) {

								  $$2 = $11;

								  return ($$2|0);

								 }

								 $13 = ((($0)) + 4|0);

								 $14 = ((($0)) + 8|0);

								 $$0 = 100;

								 while(1) {

								  $15 = (($$0) + -1)|0;

								  $16 = ($$0|0)==(0);

								  if ($16) {

								   break;

								  }

								  $17 = (Atomics_load(HEAP32,$13>>2)|0);

								  $18 = ($17|0)==(0);

								  if ($18) {

								   break;

								  }

								  $19 = (Atomics_load(HEAP32,$14>>2)|0);

								  $20 = ($19|0)==(0);

								  if ($20) {

								   $$0 = $15;

								  } else {

								   break;

								  }

								 }

								 $21 = (___pthread_mutex_trylock($0)|0);

								 $22 = ($21|0)==(16);

								 if (!($22)) {

								  $$2 = $21;

								  return ($$2|0);

								 }

								 L18: while(1) {

								  $23 = (Atomics_load(HEAP32,$13>>2)|0);

								  $24 = ($23|0)==(0);

								  if (!($24)) {

								   $27 = $23 & 1073741824;

								   $28 = ($27|0)==(0);

								   $29 = HEAP32[$0>>2]|0;

								   $30 = $29 & 4;

								   $31 = ($30|0)==(0);

								   $or$cond40 = $28 | $31;

								   if ($or$cond40) {

								    $32 = $29 & 3;

								    $33 = ($32|0)==(2);

								    if ($33) {

								     $34 = $23 & 2147483647;

								     $35 = (_pthread_self()|0);

								     $36 = ((($35)) + 52|0);

								     $37 = HEAP32[$36>>2]|0;

								     $38 = ($34|0)==($37|0);

								     if ($38) {

								      $$2 = 35;

								      label = 17;

								      break;

								     }

								    }

								    $39 = (Atomics_add(HEAP32, $14>>2, 1)|0);

								    $40 = $23 | -2147483648;

								    $41 = (Atomics_compareExchange(HEAP32, $13>>2, $23, $40)|0);

								    $42 = (___timedwait($13,$40,0,$1,$10)|0);

								    $43 = (Atomics_sub(HEAP32, $14>>2, 1)|0);

								    switch ($42|0) {

								    case 0: case 4:  {

								     break;

								    }

								    default: {

								     $$2 = $42;

								     label = 17;

								     break L18;

								    }

								    }

								   }

								  }

								  $25 = (___pthread_mutex_trylock($0)|0);

								  $26 = ($25|0)==(16);

								  if (!($26)) {

								   $$2 = $25;

								   label = 17;

								   break;

								  }

								 }

								 if ((label|0) == 17) {

								  return ($$2|0);

								 }

								 return (0)|0;

								}

								function ___timedwait($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $5 = sp;

								 (___pthread_setcancelstate(1,($5|0))|0);

								 _emscripten_conditional_set_current_thread_status(1,4);

								 $6 = (___timedwait_cp($0,$1,$2,$3,$4)|0);

								 _emscripten_conditional_set_current_thread_status(4,1);

								 $7 = HEAP32[$5>>2]|0;

								 (___pthread_setcancelstate(($7|0),(0|0))|0);

								 STACKTOP = sp;return ($6|0);

								}

								function ___timedwait_cp($0,$1,$2,$3,$4) {

								 $0 = $0|0;

								 $1 = $1|0;

								 $2 = $2|0;

								 $3 = $3|0;

								 $4 = $4|0;

								 var $$$0$us = 0.0, $$$045 = 0.0, $$$046$us = 0.0, $$0$us = 0.0, $$0$us53 = 0.0, $$138 = 0, $$138$ph = 0, $$138$ph70 = 0, $$138$ph72 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $20 = 0;

								 var $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0.0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0.0, $39 = 0, $40 = 0;

								 var $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $5 = sp;

								 $6 = ($3|0)!=(0|0);

								 if ($6) {

								  $7 = ((($3)) + 4|0);

								  $8 = HEAP32[$7>>2]|0;

								  $9 = ($8>>>0)>(999999999);

								  if ($9) {

								   $$138 = 22;

								   STACKTOP = sp;return ($$138|0);

								  }

								  $10 = (___clock_gettime(($2|0),($5|0))|0);

								  $11 = ($10|0)==(0);

								  if (!($11)) {

								   $$138 = 22;

								   STACKTOP = sp;return ($$138|0);

								  }

								  $12 = HEAP32[$3>>2]|0;

								  $13 = HEAP32[$5>>2]|0;

								  $14 = (($12) - ($13))|0;

								  HEAP32[$5>>2] = $14;

								  $15 = HEAP32[$7>>2]|0;

								  $16 = ((($5)) + 4|0);

								  $17 = HEAP32[$16>>2]|0;

								  $18 = (($15) - ($17))|0;

								  HEAP32[$16>>2] = $18;

								  $19 = ($18|0)<(0);

								  if ($19) {

								   $20 = (($14) + -1)|0;

								   HEAP32[$5>>2] = $20;

								   $21 = (($18) + 1000000000)|0;

								   HEAP32[$16>>2] = $21;

								   $23 = $20;

								  } else {

								   $23 = $14;

								  }

								  $22 = ($23|0)<(0);

								  if ($22) {

								   $$138 = 110;

								   STACKTOP = sp;return ($$138|0);

								  }

								 }

								 $24 = (_emscripten_is_main_runtime_thread()|0);

								 $25 = ($24|0)!=(0);

								 $$$045 = $25 ? 1.0 : 100.0;

								 if ($25) {

								  L15: while(1) {

								   $26 = (_pthread_self()|0);

								   $27 = (__pthread_isduecanceled($26)|0);

								   $28 = ($27|0)==(0);

								   if (!($28)) {

								    $$138$ph = 125;

								    break;

								   }

								   _emscripten_main_thread_process_queued_calls();

								   if ($6) {

								    $29 = (+__pthread_msecs_until($3));

								    $30 = !($29 <= 0.0);

								    $31 = $29 > 100.0;

								    $$0$us = $31 ? 100.0 : $29;

								    $32 = $$0$us > 1.0;

								    $$$0$us = $32 ? 1.0 : $$0$us;

								    if ($30) {

								     $$$046$us = $$$0$us;

								    } else {

								     $$138$ph = 110;

								     break;

								    }

								   } else {

								    $$$046$us = $$$045;

								   }

								   $33 = (_emscripten_futex_wait(($0|0),($1|0),(+$$$046$us))|0);

								   $34 = (0 - ($33))|0;

								   switch ($34|0) {

								   case 110:  {

								    break;

								   }

								   case 4: case 125:  {

								    $$138$ph = $34;

								    break L15;

								    break;

								   }

								   default: {

								    $$138 = 0;

								    label = 21;

								    break L15;

								   }

								   }

								  }

								  if ((label|0) == 21) {

								   STACKTOP = sp;return ($$138|0);

								  }

								  $$138 = $$138$ph;

								  STACKTOP = sp;return ($$138|0);

								 }

								 if (!($6)) {

								  L27: while(1) {

								   $43 = (_pthread_self()|0);

								   $44 = (__pthread_isduecanceled($43)|0);

								   $45 = ($44|0)==(0);

								   if (!($45)) {

								    $$138$ph72 = 125;

								    break;

								   }

								   $46 = (_emscripten_futex_wait(($0|0),($1|0),(+$$$045))|0);

								   $47 = (0 - ($46))|0;

								   switch ($47|0) {

								   case 110:  {

								    break;

								   }

								   case 4: case 125:  {

								    $$138$ph72 = $47;

								    break L27;

								    break;

								   }

								   default: {

								    $$138 = 0;

								    label = 21;

								    break L27;

								   }

								   }

								  }

								  if ((label|0) == 21) {

								   STACKTOP = sp;return ($$138|0);

								  }

								  $$138 = $$138$ph72;

								  STACKTOP = sp;return ($$138|0);

								 }

								 L34: while(1) {

								  $35 = (_pthread_self()|0);

								  $36 = (__pthread_isduecanceled($35)|0);

								  $37 = ($36|0)==(0);

								  if (!($37)) {

								   $$138$ph70 = 125;

								   break;

								  }

								  $38 = (+__pthread_msecs_until($3));

								  $39 = !($38 <= 0.0);

								  if (!($39)) {

								   $$138$ph70 = 110;

								   break;

								  }

								  $40 = $38 > 100.0;

								  $$0$us53 = $40 ? 100.0 : $38;

								  $41 = (_emscripten_futex_wait(($0|0),($1|0),(+$$0$us53))|0);

								  $42 = (0 - ($41))|0;

								  switch ($42|0) {

								  case 110:  {

								   break;

								  }

								  case 4: case 125:  {

								   $$138$ph70 = $42;

								   break L34;

								   break;

								  }

								  default: {

								   $$138 = 0;

								   label = 21;

								   break L34;

								  }

								  }

								 }

								 if ((label|0) == 21) {

								  STACKTOP = sp;return ($$138|0);

								 }

								 $$138 = $$138$ph70;

								 STACKTOP = sp;return ($$138|0);

								}

								function __pthread_isduecanceled($0) {

								 $0 = $0|0;

								 var $1 = 0, $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 $2 = ($1|0)==(2);

								 $3 = $2&1;

								 return ($3|0);

								}

								function __pthread_msecs_until($0) {

								 $0 = $0|0;

								 var $1 = 0, $10 = 0, $11 = 0.0, $12 = 0.0, $13 = 0, $14 = 0, $15 = 0.0, $16 = 0.0, $17 = 0.0, $18 = 0.0, $2 = 0, $3 = 0.0, $4 = 0.0, $5 = 0, $6 = 0, $7 = 0.0, $8 = 0.0, $9 = 0.0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $1 = sp;

								 (_gettimeofday(($1|0),(0|0))|0);

								 $2 = HEAP32[$1>>2]|0;

								 $3 = (+($2|0));

								 $4 = $3 * 1000.0;

								 $5 = ((($1)) + 4|0);

								 $6 = HEAP32[$5>>2]|0;

								 $7 = (+($6|0));

								 $8 = $7 * 0.001;

								 $9 = $4 + $8;

								 $10 = HEAP32[$0>>2]|0;

								 $11 = (+($10|0));

								 $12 = $11 * 1000.0;

								 $13 = ((($0)) + 4|0);

								 $14 = HEAP32[$13>>2]|0;

								 $15 = (+($14|0));

								 $16 = $15 * 9.9999999999999995E-7;

								 $17 = $12 + $16;

								 $18 = $17 - $9;

								 STACKTOP = sp;return (+$18);

								}

								function ___pthread_mutex_trylock($0) {

								 $0 = $0|0;

								 var $$0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 $2 = $1 & 15;

								 $3 = ($2|0)==(0);

								 if ($3) {

								  $4 = ((($0)) + 4|0);

								  $5 = (Atomics_compareExchange(HEAP32, $4>>2, 0, 16)|0);

								  $6 = $5 & 16;

								  $$0 = $6;

								  return ($$0|0);

								 } else {

								  $7 = (___pthread_mutex_trylock_owner($0)|0);

								  $$0 = $7;

								  return ($$0|0);

								 }

								 return (0)|0;

								}

								function ___pthread_mutex_trylock_owner($0) {

								 $0 = $0|0;

								 var $$ = 0, $$1 = 0, $$154 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0;

								 var $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0;

								 var $43 = 0, $44 = 0, $45 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $or$cond = 0, $or$cond57 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = HEAP32[$0>>2]|0;

								 $2 = (_pthread_self()|0);

								 $3 = ((($2)) + 52|0);

								 $4 = HEAP32[$3>>2]|0;

								 $5 = ((($0)) + 4|0);

								 $6 = (Atomics_load(HEAP32,$5>>2)|0);

								 $7 = $6 & 2147483647;

								 $8 = ($7|0)==($4|0);

								 $9 = $1 & 3;

								 $10 = ($9|0)==(1);

								 $or$cond = $10 & $8;

								 if ($or$cond) {

								  $11 = ((($0)) + 20|0);

								  $12 = HEAP32[$11>>2]|0;

								  $13 = ($12>>>0)>(2147483646);

								  if ($13) {

								   $$1 = 11;

								   return ($$1|0);

								  }

								  $14 = (($12) + 1)|0;

								  HEAP32[$11>>2] = $14;

								  $$1 = 0;

								  return ($$1|0);

								 }

								 $15 = ($7|0)==(2147483647);

								 if ($15) {

								  $$1 = 131;

								  return ($$1|0);

								 }

								 $16 = HEAP32[$0>>2]|0;

								 $17 = $16 & 128;

								 $18 = ($17|0)==(0);

								 if ($18) {

								  $$154 = $4;

								 } else {

								  $19 = ((($2)) + 172|0);

								  $20 = HEAP32[$19>>2]|0;

								  $21 = ($20|0)==(0);

								  if ($21) {

								   HEAP32[$19>>2] = -12;

								  }

								  $22 = ((($0)) + 8|0);

								  $23 = (Atomics_load(HEAP32,$22>>2)|0);

								  $24 = ($23|0)==(0);

								  $25 = $4 | -2147483648;

								  $$ = $24 ? $4 : $25;

								  $26 = ((($0)) + 16|0);

								  $27 = ((($2)) + 176|0);

								  Atomics_store(HEAP32,$27>>2,$26)|0;

								  $$154 = $$;

								 }

								 $28 = ($7|0)!=(0);

								 if ($28) {

								  $29 = $6 & 1073741824;

								  $30 = ($29|0)==(0);

								  $31 = $1 & 4;

								  $32 = ($31|0)==(0);

								  $or$cond57 = $32 | $30;

								  if (!($or$cond57)) {

								   label = 11;

								  }

								 } else {

								  label = 11;

								 }

								 if ((label|0) == 11) {

								  $33 = (Atomics_compareExchange(HEAP32, $5>>2, $6, $$154)|0);

								  $34 = ($33|0)==($6|0);

								  if ($34) {

								   $36 = ((($2)) + 168|0);

								   $37 = (Atomics_load(HEAP32,$36>>2)|0);

								   $38 = ((($0)) + 16|0);

								   HEAP32[$38>>2] = $37;

								   $39 = ((($0)) + 12|0);

								   HEAP32[$39>>2] = $36;

								   $40 = ($37|0)==($36|0);

								   if (!($40)) {

								    $41 = ((($37)) + -4|0);

								    Atomics_store(HEAP32,$41>>2,$38)|0;

								   }

								   Atomics_store(HEAP32,$36>>2,$38)|0;

								   $42 = ((($2)) + 176|0);

								   Atomics_store(HEAP32,$42>>2,0)|0;

								   if (!($28)) {

								    $$1 = 0;

								    return ($$1|0);

								   }

								   $43 = ((($0)) + 20|0);

								   HEAP32[$43>>2] = 0;

								   $44 = HEAP32[$0>>2]|0;

								   $45 = $44 | 8;

								   HEAP32[$0>>2] = $45;

								   $$1 = 130;

								   return ($$1|0);

								  }

								 }

								 $35 = ((($2)) + 176|0);

								 Atomics_store(HEAP32,$35>>2,0)|0;

								 $$1 = 16;

								 return ($$1|0);

								}

								function _pthread_mutexattr_destroy($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 return 0;

								}

								function _pthread_mutexattr_init($0) {

								 $0 = $0|0;

								 var label = 0, sp = 0;

								 sp = STACKTOP;

								 HEAP32[$0>>2] = 0;

								 return 0;

								}

								function _pthread_mutex_init($0,$1) {

								 $0 = $0|0;

								 $1 = $1|0;

								 var $$sroa$0 = 0, $2 = 0, $3 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 32|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(32|0);

								 $$sroa$0 = sp;

								 ;HEAP32[$$sroa$0>>2]=0|0;HEAP32[$$sroa$0+4>>2]=0|0;HEAP32[$$sroa$0+8>>2]=0|0;HEAP32[$$sroa$0+12>>2]=0|0;HEAP32[$$sroa$0+16>>2]=0|0;HEAP32[$$sroa$0+20>>2]=0|0;HEAP32[$$sroa$0+24>>2]=0|0;

								 ;HEAP32[$0>>2]=HEAP32[$$sroa$0>>2]|0;HEAP32[$0+4>>2]=HEAP32[$$sroa$0+4>>2]|0;HEAP32[$0+8>>2]=HEAP32[$$sroa$0+8>>2]|0;HEAP32[$0+12>>2]=HEAP32[$$sroa$0+12>>2]|0;HEAP32[$0+16>>2]=HEAP32[$$sroa$0+16>>2]|0;HEAP32[$0+20>>2]=HEAP32[$$sroa$0+20>>2]|0;HEAP32[$0+24>>2]=HEAP32[$$sroa$0+24>>2]|0;

								 $2 = ($1|0)==(0|0);

								 if ($2) {

								  STACKTOP = sp;return 0;

								 }

								 $3 = HEAP32[$1>>2]|0;

								 HEAP32[$0>>2] = $3;

								 STACKTOP = sp;return 0;

								}

								function _malloc($0) {

								 $0 = $0|0;

								 var $$$0192$i = 0, $$$0193$i = 0, $$$4230$i = 0, $$$4236$i = 0, $$$4351$i = 0, $$$i = 0, $$0$i$i = 0, $$0$i$i$i = 0, $$0$i17$i = 0, $$01$i$i = 0, $$0189$i = 0, $$0192$lcssa$i = 0, $$01928$i = 0, $$0193$lcssa$i = 0, $$01937$i = 0, $$0198 = 0, $$0200 = 0, $$0206$i$i = 0, $$0207$i$i = 0, $$0211$i$i = 0;

								 var $$0212$i$i = 0, $$024363$i = 0, $$0287$i$i = 0, $$0288$i$i = 0, $$0289$i$i = 0, $$0295$i$i = 0, $$0296$i$i = 0, $$0342$i = 0, $$0344$i = 0, $$0345$i = 0, $$0347$i = 0, $$0353$i = 0, $$0358$i = 0, $$0359$$i = 0, $$0359$i = 0, $$0361$i = 0, $$0362$i = 0, $$0368$i = 0, $$1 = 0, $$1196$i = 0;

								 var $$1198$i = 0, $$124462$i = 0, $$1291$i$i = 0, $$1293$i$i = 0, $$1343$i = 0, $$1348$i = 0, $$1363$i = 0, $$1370$i = 0, $$1374$i = 0, $$2 = 0, $$2234253237$i = 0, $$2247$ph$i = 0, $$2253$ph$i = 0, $$2355$i = 0, $$3$i = 0, $$3$i$i = 0, $$3$i202 = 0, $$3229$i = 0, $$3235$i = 0, $$3350$i = 0;

								 var $$3372$i = 0, $$4$lcssa$i = 0, $$4$ph$i = 0, $$415$i = 0, $$4230$i = 0, $$4236$i = 0, $$4351$lcssa$i = 0, $$435114$i = 0, $$4357$$4$i = 0, $$4357$ph$i = 0, $$435713$i = 0, $$7$i = 0, $$7239$i = 0, $$pre = 0, $$pre$i = 0, $$pre$i$i = 0, $$pre$i18$i = 0, $$pre$i211 = 0, $$pre$phi$i$iZ2D = 0, $$pre$phi$i19$iZ2D = 0;

								 var $$pre$phi$i212Z2D = 0, $$pre$phi$iZ2D = 0, $$pre$phi11$i$iZ2D = 0, $$pre$phiZ2D = 0, $$pre10$i$i = 0, $$sink1$i = 0, $$sink1$i$i = 0, $$sink16$i = 0, $$sink2$i = 0, $$sink2$i205 = 0, $$sink3$i = 0, $1 = 0, $10 = 0, $100 = 0, $1000 = 0, $1001 = 0, $1002 = 0, $1003 = 0, $1004 = 0, $1005 = 0;

								 var $1006 = 0, $1007 = 0, $1008 = 0, $1009 = 0, $101 = 0, $1010 = 0, $1011 = 0, $1012 = 0, $1013 = 0, $1014 = 0, $1015 = 0, $1016 = 0, $1017 = 0, $1018 = 0, $1019 = 0, $102 = 0, $1020 = 0, $1021 = 0, $1022 = 0, $1023 = 0;

								 var $1024 = 0, $1025 = 0, $1026 = 0, $1027 = 0, $1028 = 0, $1029 = 0, $103 = 0, $1030 = 0, $1031 = 0, $1032 = 0, $1033 = 0, $1034 = 0, $1035 = 0, $1036 = 0, $1037 = 0, $1038 = 0, $1039 = 0, $104 = 0, $1040 = 0, $1041 = 0;

								 var $1042 = 0, $1043 = 0, $1044 = 0, $1045 = 0, $1046 = 0, $1047 = 0, $1048 = 0, $1049 = 0, $105 = 0, $1050 = 0, $1051 = 0, $1052 = 0, $1053 = 0, $1054 = 0, $1055 = 0, $1056 = 0, $1057 = 0, $1058 = 0, $1059 = 0, $106 = 0;

								 var $1060 = 0, $1061 = 0, $1062 = 0, $1063 = 0, $1064 = 0, $1065 = 0, $1066 = 0, $1067 = 0, $1068 = 0, $1069 = 0, $107 = 0, $1070 = 0, $1071 = 0, $1072 = 0, $1073 = 0, $1074 = 0, $1075 = 0, $1076 = 0, $1077 = 0, $1078 = 0;

								 var $1079 = 0, $108 = 0, $1080 = 0, $1081 = 0, $1082 = 0, $1083 = 0, $1084 = 0, $1085 = 0, $1086 = 0, $1087 = 0, $1088 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0;

								 var $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0;

								 var $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0;

								 var $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0;

								 var $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0;

								 var $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0;

								 var $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0;

								 var $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0;

								 var $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0;

								 var $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0;

								 var $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0;

								 var $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0;

								 var $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $332 = 0;

								 var $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0, $350 = 0;

								 var $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0, $369 = 0;

								 var $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0, $387 = 0;

								 var $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0, $404 = 0;

								 var $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0, $422 = 0;

								 var $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0, $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0, $440 = 0;

								 var $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0, $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0, $459 = 0;

								 var $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0, $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0, $477 = 0;

								 var $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0, $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0, $495 = 0;

								 var $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0, $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0, $512 = 0;

								 var $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0, $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0, $530 = 0;

								 var $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0, $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0, $549 = 0;

								 var $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0, $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0, $564 = 0, $565 = 0, $566 = 0, $567 = 0;

								 var $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0, $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0, $582 = 0, $583 = 0, $584 = 0, $585 = 0;

								 var $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0, $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0, $60 = 0, $600 = 0, $601 = 0, $602 = 0;

								 var $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0, $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0, $618 = 0, $619 = 0, $62 = 0, $620 = 0;

								 var $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0, $631 = 0, $632 = 0, $633 = 0, $634 = 0, $635 = 0, $636 = 0, $637 = 0, $638 = 0, $639 = 0;

								 var $64 = 0, $640 = 0, $641 = 0, $642 = 0, $643 = 0, $644 = 0, $645 = 0, $646 = 0, $647 = 0, $648 = 0, $649 = 0, $65 = 0, $650 = 0, $651 = 0, $652 = 0, $653 = 0, $654 = 0, $655 = 0, $656 = 0, $657 = 0;

								 var $658 = 0, $659 = 0, $66 = 0, $660 = 0, $661 = 0, $662 = 0, $663 = 0, $664 = 0, $665 = 0, $666 = 0, $667 = 0, $668 = 0, $669 = 0, $67 = 0, $670 = 0, $671 = 0, $672 = 0, $673 = 0, $674 = 0, $675 = 0;

								 var $676 = 0, $677 = 0, $678 = 0, $679 = 0, $68 = 0, $680 = 0, $681 = 0, $682 = 0, $683 = 0, $684 = 0, $685 = 0, $686 = 0, $687 = 0, $688 = 0, $689 = 0, $69 = 0, $690 = 0, $691 = 0, $692 = 0, $693 = 0;

								 var $694 = 0, $695 = 0, $696 = 0, $697 = 0, $698 = 0, $699 = 0, $7 = 0, $70 = 0, $700 = 0, $701 = 0, $702 = 0, $703 = 0, $704 = 0, $705 = 0, $706 = 0, $707 = 0, $708 = 0, $709 = 0, $71 = 0, $710 = 0;

								 var $711 = 0, $712 = 0, $713 = 0, $714 = 0, $715 = 0, $716 = 0, $717 = 0, $718 = 0, $719 = 0, $72 = 0, $720 = 0, $721 = 0, $722 = 0, $723 = 0, $724 = 0, $725 = 0, $726 = 0, $727 = 0, $728 = 0, $729 = 0;

								 var $73 = 0, $730 = 0, $731 = 0, $732 = 0, $733 = 0, $734 = 0, $735 = 0, $736 = 0, $737 = 0, $738 = 0, $739 = 0, $74 = 0, $740 = 0, $741 = 0, $742 = 0, $743 = 0, $744 = 0, $745 = 0, $746 = 0, $747 = 0;

								 var $748 = 0, $749 = 0, $75 = 0, $750 = 0, $751 = 0, $752 = 0, $753 = 0, $754 = 0, $755 = 0, $756 = 0, $757 = 0, $758 = 0, $759 = 0, $76 = 0, $760 = 0, $761 = 0, $762 = 0, $763 = 0, $764 = 0, $765 = 0;

								 var $766 = 0, $767 = 0, $768 = 0, $769 = 0, $77 = 0, $770 = 0, $771 = 0, $772 = 0, $773 = 0, $774 = 0, $775 = 0, $776 = 0, $777 = 0, $778 = 0, $779 = 0, $78 = 0, $780 = 0, $781 = 0, $782 = 0, $783 = 0;

								 var $784 = 0, $785 = 0, $786 = 0, $787 = 0, $788 = 0, $789 = 0, $79 = 0, $790 = 0, $791 = 0, $792 = 0, $793 = 0, $794 = 0, $795 = 0, $796 = 0, $797 = 0, $798 = 0, $799 = 0, $8 = 0, $80 = 0, $800 = 0;

								 var $801 = 0, $802 = 0, $803 = 0, $804 = 0, $805 = 0, $806 = 0, $807 = 0, $808 = 0, $809 = 0, $81 = 0, $810 = 0, $811 = 0, $812 = 0, $813 = 0, $814 = 0, $815 = 0, $816 = 0, $817 = 0, $818 = 0, $819 = 0;

								 var $82 = 0, $820 = 0, $821 = 0, $822 = 0, $823 = 0, $824 = 0, $825 = 0, $826 = 0, $827 = 0, $828 = 0, $829 = 0, $83 = 0, $830 = 0, $831 = 0, $832 = 0, $833 = 0, $834 = 0, $835 = 0, $836 = 0, $837 = 0;

								 var $838 = 0, $839 = 0, $84 = 0, $840 = 0, $841 = 0, $842 = 0, $843 = 0, $844 = 0, $845 = 0, $846 = 0, $847 = 0, $848 = 0, $849 = 0, $85 = 0, $850 = 0, $851 = 0, $852 = 0, $853 = 0, $854 = 0, $855 = 0;

								 var $856 = 0, $857 = 0, $858 = 0, $859 = 0, $86 = 0, $860 = 0, $861 = 0, $862 = 0, $863 = 0, $864 = 0, $865 = 0, $866 = 0, $867 = 0, $868 = 0, $869 = 0, $87 = 0, $870 = 0, $871 = 0, $872 = 0, $873 = 0;

								 var $874 = 0, $875 = 0, $876 = 0, $877 = 0, $878 = 0, $879 = 0, $88 = 0, $880 = 0, $881 = 0, $882 = 0, $883 = 0, $884 = 0, $885 = 0, $886 = 0, $887 = 0, $888 = 0, $889 = 0, $89 = 0, $890 = 0, $891 = 0;

								 var $892 = 0, $893 = 0, $894 = 0, $895 = 0, $896 = 0, $897 = 0, $898 = 0, $899 = 0, $9 = 0, $90 = 0, $900 = 0, $901 = 0, $902 = 0, $903 = 0, $904 = 0, $905 = 0, $906 = 0, $907 = 0, $908 = 0, $909 = 0;

								 var $91 = 0, $910 = 0, $911 = 0, $912 = 0, $913 = 0, $914 = 0, $915 = 0, $916 = 0, $917 = 0, $918 = 0, $919 = 0, $92 = 0, $920 = 0, $921 = 0, $922 = 0, $923 = 0, $924 = 0, $925 = 0, $926 = 0, $927 = 0;

								 var $928 = 0, $929 = 0, $93 = 0, $930 = 0, $931 = 0, $932 = 0, $933 = 0, $934 = 0, $935 = 0, $936 = 0, $937 = 0, $938 = 0, $939 = 0, $94 = 0, $940 = 0, $941 = 0, $942 = 0, $943 = 0, $944 = 0, $945 = 0;

								 var $946 = 0, $947 = 0, $948 = 0, $949 = 0, $95 = 0, $950 = 0, $951 = 0, $952 = 0, $953 = 0, $954 = 0, $955 = 0, $956 = 0, $957 = 0, $958 = 0, $959 = 0, $96 = 0, $960 = 0, $961 = 0, $962 = 0, $963 = 0;

								 var $964 = 0, $965 = 0, $966 = 0, $967 = 0, $968 = 0, $969 = 0, $97 = 0, $970 = 0, $971 = 0, $972 = 0, $973 = 0, $974 = 0, $975 = 0, $976 = 0, $977 = 0, $978 = 0, $979 = 0, $98 = 0, $980 = 0, $981 = 0;

								 var $982 = 0, $983 = 0, $984 = 0, $985 = 0, $986 = 0, $987 = 0, $988 = 0, $989 = 0, $99 = 0, $990 = 0, $991 = 0, $992 = 0, $993 = 0, $994 = 0, $995 = 0, $996 = 0, $997 = 0, $998 = 0, $999 = 0, $cond$i = 0;

								 var $cond$i$i = 0, $cond$i209 = 0, $exitcond$i$i = 0, $not$$i = 0, $not$$i$i = 0, $not$$i21$i = 0, $not$$i210 = 0, $not$1$i = 0, $not$1$i204 = 0, $not$5$i = 0, $not$7$i$i = 0, $not$8$i = 0, $not$9$i = 0, $or$cond$i = 0, $or$cond$i213 = 0, $or$cond1$i = 0, $or$cond10$i = 0, $or$cond11$i = 0, $or$cond12$i = 0, $or$cond2$i = 0;

								 var $or$cond2$i214 = 0, $or$cond43$i = 0, $or$cond5$i = 0, $or$cond7$i = 0, $or$cond9$i = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 STACKTOP = STACKTOP + 16|0; if ((STACKTOP|0) >= (STACK_MAX|0)) abortStackOverflow(16|0);

								 $1 = sp + 4|0;

								 $2 = sp;

								 $3 = HEAP32[8861]|0;

								 $4 = ($3|0)==(0);

								 if ($4) {

								  (___pthread_mutex_lock(35468)|0);

								  $5 = HEAP32[8861]|0;

								  $6 = ($5|0)==(0);

								  if ($6) {

								   HEAP32[(35452)>>2] = 4096;

								   HEAP32[(35448)>>2] = 4096;

								   HEAP32[(35456)>>2] = -1;

								   HEAP32[(35460)>>2] = -1;

								   HEAP32[(35464)>>2] = 2;

								   HEAP32[(35940)>>2] = 2;

								   $7 = (_pthread_mutexattr_init($1)|0);

								   $8 = ($7|0)==(0);

								   if ($8) {

								    $9 = (_pthread_mutex_init((35944),$1)|0);

								    $10 = ($9|0)==(0);

								    if ($10) {

								    }

								   }

								   $11 = $2;

								   $12 = $11 & -16;

								   $13 = $12 ^ 1431655768;

								   HEAP32[$2>>2] = $13;

								   Atomics_store(HEAP32,8861,$13)|0;

								  }

								  (___pthread_mutex_unlock(35468)|0);

								 }

								 $14 = HEAP32[(35940)>>2]|0;

								 $15 = $14 & 2;

								 $16 = ($15|0)==(0);

								 if (!($16)) {

								  $17 = (___pthread_mutex_lock((35944))|0);

								  $18 = ($17|0)==(0);

								  if (!($18)) {

								   $$1 = 0;

								   STACKTOP = sp;return ($$1|0);

								  }

								 }

								 $19 = ($0>>>0)<(245);

								 do {

								  if ($19) {

								   $20 = ($0>>>0)<(11);

								   $21 = (($0) + 11)|0;

								   $22 = $21 & -8;

								   $23 = $20 ? 16 : $22;

								   $24 = $23 >>> 3;

								   $25 = HEAP32[8874]|0;

								   $26 = $25 >>> $24;

								   $27 = $26 & 3;

								   $28 = ($27|0)==(0);

								   if (!($28)) {

								    $29 = $26 & 1;

								    $30 = $29 ^ 1;

								    $31 = (($30) + ($24))|0;

								    $32 = $31 << 1;

								    $33 = (35536 + ($32<<2)|0);

								    $34 = ((($33)) + 8|0);

								    $35 = HEAP32[$34>>2]|0;

								    $36 = ((($35)) + 8|0);

								    $37 = HEAP32[$36>>2]|0;

								    $38 = ($33|0)==($37|0);

								    do {

								     if ($38) {

								      $39 = 1 << $31;

								      $40 = $39 ^ -1;

								      $41 = $25 & $40;

								      HEAP32[8874] = $41;

								     } else {

								      $42 = HEAP32[(35512)>>2]|0;

								      $43 = ($37>>>0)<($42>>>0);

								      if ($43) {

								       _abort();

								       // unreachable;

								      }

								      $44 = ((($37)) + 12|0);

								      $45 = HEAP32[$44>>2]|0;

								      $46 = ($45|0)==($35|0);

								      if ($46) {

								       HEAP32[$44>>2] = $33;

								       HEAP32[$34>>2] = $37;

								       break;

								      } else {

								       _abort();

								       // unreachable;

								      }

								     }

								    } while(0);

								    $47 = $31 << 3;

								    $48 = $47 | 3;

								    $49 = ((($35)) + 4|0);

								    HEAP32[$49>>2] = $48;

								    $50 = (($35) + ($47)|0);

								    $51 = ((($50)) + 4|0);

								    $52 = HEAP32[$51>>2]|0;

								    $53 = $52 | 1;

								    HEAP32[$51>>2] = $53;

								    $$2 = $36;

								    break;

								   }

								   $54 = HEAP32[(35504)>>2]|0;

								   $55 = ($23>>>0)>($54>>>0);

								   if ($55) {

								    $56 = ($26|0)==(0);

								    if (!($56)) {

								     $57 = $26 << $24;

								     $58 = 2 << $24;

								     $59 = (0 - ($58))|0;

								     $60 = $58 | $59;

								     $61 = $57 & $60;

								     $62 = (0 - ($61))|0;

								     $63 = $61 & $62;

								     $64 = (($63) + -1)|0;

								     $65 = $64 >>> 12;

								     $66 = $65 & 16;

								     $67 = $64 >>> $66;

								     $68 = $67 >>> 5;

								     $69 = $68 & 8;

								     $70 = $69 | $66;

								     $71 = $67 >>> $69;

								     $72 = $71 >>> 2;

								     $73 = $72 & 4;

								     $74 = $70 | $73;

								     $75 = $71 >>> $73;

								     $76 = $75 >>> 1;

								     $77 = $76 & 2;

								     $78 = $74 | $77;

								     $79 = $75 >>> $77;

								     $80 = $79 >>> 1;

								     $81 = $80 & 1;

								     $82 = $78 | $81;

								     $83 = $79 >>> $81;

								     $84 = (($82) + ($83))|0;

								     $85 = $84 << 1;

								     $86 = (35536 + ($85<<2)|0);

								     $87 = ((($86)) + 8|0);

								     $88 = HEAP32[$87>>2]|0;

								     $89 = ((($88)) + 8|0);

								     $90 = HEAP32[$89>>2]|0;

								     $91 = ($86|0)==($90|0);

								     do {

								      if ($91) {

								       $92 = 1 << $84;

								       $93 = $92 ^ -1;

								       $94 = $25 & $93;

								       HEAP32[8874] = $94;

								       $115 = $94;

								      } else {

								       $95 = HEAP32[(35512)>>2]|0;

								       $96 = ($90>>>0)<($95>>>0);

								       if ($96) {

								        _abort();

								        // unreachable;

								       }

								       $97 = ((($90)) + 12|0);

								       $98 = HEAP32[$97>>2]|0;

								       $99 = ($98|0)==($88|0);

								       if ($99) {

								        HEAP32[$97>>2] = $86;

								        HEAP32[$87>>2] = $90;

								        $115 = $25;

								        break;

								       } else {

								        _abort();

								        // unreachable;

								       }

								      }

								     } while(0);

								     $100 = $84 << 3;

								     $101 = (($100) - ($23))|0;

								     $102 = $23 | 3;

								     $103 = ((($88)) + 4|0);

								     HEAP32[$103>>2] = $102;

								     $104 = (($88) + ($23)|0);

								     $105 = $101 | 1;

								     $106 = ((($104)) + 4|0);

								     HEAP32[$106>>2] = $105;

								     $107 = (($104) + ($101)|0);

								     HEAP32[$107>>2] = $101;

								     $108 = ($54|0)==(0);

								     if (!($108)) {

								      $109 = HEAP32[(35516)>>2]|0;

								      $110 = $54 >>> 3;

								      $111 = $110 << 1;

								      $112 = (35536 + ($111<<2)|0);

								      $113 = 1 << $110;

								      $114 = $115 & $113;

								      $116 = ($114|0)==(0);

								      if ($116) {

								       $117 = $115 | $113;

								       HEAP32[8874] = $117;

								       $$pre = ((($112)) + 8|0);

								       $$0200 = $112;$$pre$phiZ2D = $$pre;

								      } else {

								       $118 = ((($112)) + 8|0);

								       $119 = HEAP32[$118>>2]|0;

								       $120 = HEAP32[(35512)>>2]|0;

								       $121 = ($119>>>0)<($120>>>0);

								       if ($121) {

								        _abort();

								        // unreachable;

								       } else {

								        $$0200 = $119;$$pre$phiZ2D = $118;

								       }

								      }

								      HEAP32[$$pre$phiZ2D>>2] = $109;

								      $122 = ((($$0200)) + 12|0);

								      HEAP32[$122>>2] = $109;

								      $123 = ((($109)) + 8|0);

								      HEAP32[$123>>2] = $$0200;

								      $124 = ((($109)) + 12|0);

								      HEAP32[$124>>2] = $112;

								     }

								     HEAP32[(35504)>>2] = $101;

								     HEAP32[(35516)>>2] = $104;

								     $$2 = $89;

								     break;

								    }

								    $125 = HEAP32[(35500)>>2]|0;

								    $126 = ($125|0)==(0);

								    if ($126) {

								     $$0198 = $23;

								     label = 153;

								    } else {

								     $127 = (0 - ($125))|0;

								     $128 = $125 & $127;

								     $129 = (($128) + -1)|0;

								     $130 = $129 >>> 12;

								     $131 = $130 & 16;

								     $132 = $129 >>> $131;

								     $133 = $132 >>> 5;

								     $134 = $133 & 8;

								     $135 = $134 | $131;

								     $136 = $132 >>> $134;

								     $137 = $136 >>> 2;

								     $138 = $137 & 4;

								     $139 = $135 | $138;

								     $140 = $136 >>> $138;

								     $141 = $140 >>> 1;

								     $142 = $141 & 2;

								     $143 = $139 | $142;

								     $144 = $140 >>> $142;

								     $145 = $144 >>> 1;

								     $146 = $145 & 1;

								     $147 = $143 | $146;

								     $148 = $144 >>> $146;

								     $149 = (($147) + ($148))|0;

								     $150 = (35800 + ($149<<2)|0);

								     $151 = HEAP32[$150>>2]|0;

								     $152 = ((($151)) + 4|0);

								     $153 = HEAP32[$152>>2]|0;

								     $154 = $153 & -8;

								     $155 = (($154) - ($23))|0;

								     $156 = ((($151)) + 16|0);

								     $157 = HEAP32[$156>>2]|0;

								     $not$5$i = ($157|0)==(0|0);

								     $$sink16$i = $not$5$i&1;

								     $158 = (((($151)) + 16|0) + ($$sink16$i<<2)|0);

								     $159 = HEAP32[$158>>2]|0;

								     $160 = ($159|0)==(0|0);

								     if ($160) {

								      $$0192$lcssa$i = $151;$$0193$lcssa$i = $155;

								     } else {

								      $$01928$i = $151;$$01937$i = $155;$162 = $159;

								      while(1) {

								       $161 = ((($162)) + 4|0);

								       $163 = HEAP32[$161>>2]|0;

								       $164 = $163 & -8;

								       $165 = (($164) - ($23))|0;

								       $166 = ($165>>>0)<($$01937$i>>>0);

								       $$$0193$i = $166 ? $165 : $$01937$i;

								       $$$0192$i = $166 ? $162 : $$01928$i;

								       $167 = ((($162)) + 16|0);

								       $168 = HEAP32[$167>>2]|0;

								       $not$$i = ($168|0)==(0|0);

								       $$sink1$i = $not$$i&1;

								       $169 = (((($162)) + 16|0) + ($$sink1$i<<2)|0);

								       $170 = HEAP32[$169>>2]|0;

								       $171 = ($170|0)==(0|0);

								       if ($171) {

								        $$0192$lcssa$i = $$$0192$i;$$0193$lcssa$i = $$$0193$i;

								        break;

								       } else {

								        $$01928$i = $$$0192$i;$$01937$i = $$$0193$i;$162 = $170;

								       }

								      }

								     }

								     $172 = HEAP32[(35512)>>2]|0;

								     $173 = ($$0192$lcssa$i>>>0)<($172>>>0);

								     if ($173) {

								      _abort();

								      // unreachable;

								     }

								     $174 = (($$0192$lcssa$i) + ($23)|0);

								     $175 = ($$0192$lcssa$i>>>0)<($174>>>0);

								     if (!($175)) {

								      _abort();

								      // unreachable;

								     }

								     $176 = ((($$0192$lcssa$i)) + 24|0);

								     $177 = HEAP32[$176>>2]|0;

								     $178 = ((($$0192$lcssa$i)) + 12|0);

								     $179 = HEAP32[$178>>2]|0;

								     $180 = ($179|0)==($$0192$lcssa$i|0);

								     do {

								      if ($180) {

								       $190 = ((($$0192$lcssa$i)) + 20|0);

								       $191 = HEAP32[$190>>2]|0;

								       $192 = ($191|0)==(0|0);

								       if ($192) {

								        $193 = ((($$0192$lcssa$i)) + 16|0);

								        $194 = HEAP32[$193>>2]|0;

								        $195 = ($194|0)==(0|0);

								        if ($195) {

								         $$3$i = 0;

								         break;

								        } else {

								         $$1196$i = $194;$$1198$i = $193;

								        }

								       } else {

								        $$1196$i = $191;$$1198$i = $190;

								       }

								       while(1) {

								        $196 = ((($$1196$i)) + 20|0);

								        $197 = HEAP32[$196>>2]|0;

								        $198 = ($197|0)==(0|0);

								        if (!($198)) {

								         $$1196$i = $197;$$1198$i = $196;

								         continue;

								        }

								        $199 = ((($$1196$i)) + 16|0);

								        $200 = HEAP32[$199>>2]|0;

								        $201 = ($200|0)==(0|0);

								        if ($201) {

								         break;

								        } else {

								         $$1196$i = $200;$$1198$i = $199;

								        }

								       }

								       $202 = ($$1198$i>>>0)<($172>>>0);

								       if ($202) {

								        _abort();

								        // unreachable;

								       } else {

								        HEAP32[$$1198$i>>2] = 0;

								        $$3$i = $$1196$i;

								        break;

								       }

								      } else {

								       $181 = ((($$0192$lcssa$i)) + 8|0);

								       $182 = HEAP32[$181>>2]|0;

								       $183 = ($182>>>0)<($172>>>0);

								       if ($183) {

								        _abort();

								        // unreachable;

								       }

								       $184 = ((($182)) + 12|0);

								       $185 = HEAP32[$184>>2]|0;

								       $186 = ($185|0)==($$0192$lcssa$i|0);

								       if (!($186)) {

								        _abort();

								        // unreachable;

								       }

								       $187 = ((($179)) + 8|0);

								       $188 = HEAP32[$187>>2]|0;

								       $189 = ($188|0)==($$0192$lcssa$i|0);

								       if ($189) {

								        HEAP32[$184>>2] = $179;

								        HEAP32[$187>>2] = $182;

								        $$3$i = $179;

								        break;

								       } else {

								        _abort();

								        // unreachable;

								       }

								      }

								     } while(0);

								     $203 = ($177|0)==(0|0);

								     L85: do {

								      if (!($203)) {

								       $204 = ((($$0192$lcssa$i)) + 28|0);

								       $205 = HEAP32[$204>>2]|0;

								       $206 = (35800 + ($205<<2)|0);

								       $207 = HEAP32[$206>>2]|0;

								       $208 = ($$0192$lcssa$i|0)==($207|0);

								       do {

								        if ($208) {

								         HEAP32[$206>>2] = $$3$i;

								         $cond$i = ($$3$i|0)==(0|0);

								         if ($cond$i) {

								          $209 = 1 << $205;

								          $210 = $209 ^ -1;

								          $211 = $125 & $210;

								          HEAP32[(35500)>>2] = $211;

								          break L85;

								         }

								        } else {

								         $212 = HEAP32[(35512)>>2]|0;

								         $213 = ($177>>>0)<($212>>>0);

								         if ($213) {

								          _abort();

								          // unreachable;

								         } else {

								          $214 = ((($177)) + 16|0);

								          $215 = HEAP32[$214>>2]|0;

								          $not$1$i = ($215|0)!=($$0192$lcssa$i|0);

								          $$sink2$i = $not$1$i&1;

								          $216 = (((($177)) + 16|0) + ($$sink2$i<<2)|0);

								          HEAP32[$216>>2] = $$3$i;

								          $217 = ($$3$i|0)==(0|0);

								          if ($217) {

								           break L85;

								          } else {

								           break;

								          }

								         }

								        }

								       } while(0);

								       $218 = HEAP32[(35512)>>2]|0;

								       $219 = ($$3$i>>>0)<($218>>>0);

								       if ($219) {

								        _abort();

								        // unreachable;

								       }

								       $220 = ((($$3$i)) + 24|0);

								       HEAP32[$220>>2] = $177;

								       $221 = ((($$0192$lcssa$i)) + 16|0);

								       $222 = HEAP32[$221>>2]|0;

								       $223 = ($222|0)==(0|0);

								       do {

								        if (!($223)) {

								         $224 = ($222>>>0)<($218>>>0);

								         if ($224) {

								          _abort();

								          // unreachable;

								         } else {

								          $225 = ((($$3$i)) + 16|0);

								          HEAP32[$225>>2] = $222;

								          $226 = ((($222)) + 24|0);

								          HEAP32[$226>>2] = $$3$i;

								          break;

								         }

								        }

								       } while(0);

								       $227 = ((($$0192$lcssa$i)) + 20|0);

								       $228 = HEAP32[$227>>2]|0;

								       $229 = ($228|0)==(0|0);

								       if (!($229)) {

								        $230 = HEAP32[(35512)>>2]|0;

								        $231 = ($228>>>0)<($230>>>0);

								        if ($231) {

								         _abort();

								         // unreachable;

								        } else {

								         $232 = ((($$3$i)) + 20|0);

								         HEAP32[$232>>2] = $228;

								         $233 = ((($228)) + 24|0);

								         HEAP32[$233>>2] = $$3$i;

								         break;

								        }

								       }

								      }

								     } while(0);

								     $234 = ($$0193$lcssa$i>>>0)<(16);

								     if ($234) {

								      $235 = (($$0193$lcssa$i) + ($23))|0;

								      $236 = $235 | 3;

								      $237 = ((($$0192$lcssa$i)) + 4|0);

								      HEAP32[$237>>2] = $236;

								      $238 = (($$0192$lcssa$i) + ($235)|0);

								      $239 = ((($238)) + 4|0);

								      $240 = HEAP32[$239>>2]|0;

								      $241 = $240 | 1;

								      HEAP32[$239>>2] = $241;

								     } else {

								      $242 = $23 | 3;

								      $243 = ((($$0192$lcssa$i)) + 4|0);

								      HEAP32[$243>>2] = $242;

								      $244 = $$0193$lcssa$i | 1;

								      $245 = ((($174)) + 4|0);

								      HEAP32[$245>>2] = $244;

								      $246 = (($174) + ($$0193$lcssa$i)|0);

								      HEAP32[$246>>2] = $$0193$lcssa$i;

								      $247 = ($54|0)==(0);

								      if (!($247)) {

								       $248 = HEAP32[(35516)>>2]|0;

								       $249 = $54 >>> 3;

								       $250 = $249 << 1;

								       $251 = (35536 + ($250<<2)|0);

								       $252 = 1 << $249;

								       $253 = $25 & $252;

								       $254 = ($253|0)==(0);

								       if ($254) {

								        $255 = $25 | $252;

								        HEAP32[8874] = $255;

								        $$pre$i = ((($251)) + 8|0);

								        $$0189$i = $251;$$pre$phi$iZ2D = $$pre$i;

								       } else {

								        $256 = ((($251)) + 8|0);

								        $257 = HEAP32[$256>>2]|0;

								        $258 = HEAP32[(35512)>>2]|0;

								        $259 = ($257>>>0)<($258>>>0);

								        if ($259) {

								         _abort();

								         // unreachable;

								        } else {

								         $$0189$i = $257;$$pre$phi$iZ2D = $256;

								        }

								       }

								       HEAP32[$$pre$phi$iZ2D>>2] = $248;

								       $260 = ((($$0189$i)) + 12|0);

								       HEAP32[$260>>2] = $248;

								       $261 = ((($248)) + 8|0);

								       HEAP32[$261>>2] = $$0189$i;

								       $262 = ((($248)) + 12|0);

								       HEAP32[$262>>2] = $251;

								      }

								      HEAP32[(35504)>>2] = $$0193$lcssa$i;

								      HEAP32[(35516)>>2] = $174;

								     }

								     $263 = ((($$0192$lcssa$i)) + 8|0);

								     $$2 = $263;

								    }

								   } else {

								    $$0198 = $23;

								    label = 153;

								   }

								  } else {

								   $264 = ($0>>>0)>(4294967231);

								   if ($264) {

								    $$0198 = -1;

								    label = 153;

								   } else {

								    $265 = (($0) + 11)|0;

								    $266 = $265 & -8;

								    $267 = HEAP32[(35500)>>2]|0;

								    $268 = ($267|0)==(0);

								    if ($268) {

								     $$0198 = $266;

								     label = 153;

								    } else {

								     $269 = (0 - ($266))|0;

								     $270 = $265 >>> 8;

								     $271 = ($270|0)==(0);

								     if ($271) {

								      $$0358$i = 0;

								     } else {

								      $272 = ($266>>>0)>(16777215);

								      if ($272) {

								       $$0358$i = 31;

								      } else {

								       $273 = (($270) + 1048320)|0;

								       $274 = $273 >>> 16;

								       $275 = $274 & 8;

								       $276 = $270 << $275;

								       $277 = (($276) + 520192)|0;

								       $278 = $277 >>> 16;

								       $279 = $278 & 4;

								       $280 = $279 | $275;

								       $281 = $276 << $279;

								       $282 = (($281) + 245760)|0;

								       $283 = $282 >>> 16;

								       $284 = $283 & 2;

								       $285 = $280 | $284;

								       $286 = (14 - ($285))|0;

								       $287 = $281 << $284;

								       $288 = $287 >>> 15;

								       $289 = (($286) + ($288))|0;

								       $290 = $289 << 1;

								       $291 = (($289) + 7)|0;

								       $292 = $266 >>> $291;

								       $293 = $292 & 1;

								       $294 = $293 | $290;

								       $$0358$i = $294;

								      }

								     }

								     $295 = (35800 + ($$0358$i<<2)|0);

								     $296 = HEAP32[$295>>2]|0;

								     $297 = ($296|0)==(0|0);

								     L128: do {

								      if ($297) {

								       $$2355$i = 0;$$3$i202 = 0;$$3350$i = $269;

								       label = 90;

								      } else {

								       $298 = ($$0358$i|0)==(31);

								       $299 = $$0358$i >>> 1;

								       $300 = (25 - ($299))|0;

								       $301 = $298 ? 0 : $300;

								       $302 = $266 << $301;

								       $$0342$i = 0;$$0347$i = $269;$$0353$i = $296;$$0359$i = $302;$$0362$i = 0;

								       while(1) {

								        $303 = ((($$0353$i)) + 4|0);

								        $304 = HEAP32[$303>>2]|0;

								        $305 = $304 & -8;

								        $306 = (($305) - ($266))|0;

								        $307 = ($306>>>0)<($$0347$i>>>0);

								        if ($307) {

								         $308 = ($306|0)==(0);

								         if ($308) {

								          $$415$i = $$0353$i;$$435114$i = 0;$$435713$i = $$0353$i;

								          label = 94;

								          break L128;

								         } else {

								          $$1343$i = $$0353$i;$$1348$i = $306;

								         }

								        } else {

								         $$1343$i = $$0342$i;$$1348$i = $$0347$i;

								        }

								        $309 = ((($$0353$i)) + 20|0);

								        $310 = HEAP32[$309>>2]|0;

								        $311 = $$0359$i >>> 31;

								        $312 = (((($$0353$i)) + 16|0) + ($311<<2)|0);

								        $313 = HEAP32[$312>>2]|0;

								        $314 = ($310|0)==(0|0);

								        $315 = ($310|0)==($313|0);

								        $or$cond2$i = $314 | $315;

								        $$1363$i = $or$cond2$i ? $$0362$i : $310;

								        $316 = ($313|0)==(0|0);

								        $not$8$i = $316 ^ 1;

								        $317 = $not$8$i&1;

								        $$0359$$i = $$0359$i << $317;

								        if ($316) {

								         $$2355$i = $$1363$i;$$3$i202 = $$1343$i;$$3350$i = $$1348$i;

								         label = 90;

								         break;

								        } else {

								         $$0342$i = $$1343$i;$$0347$i = $$1348$i;$$0353$i = $313;$$0359$i = $$0359$$i;$$0362$i = $$1363$i;

								        }

								       }

								      }

								     } while(0);

								     if ((label|0) == 90) {

								      $318 = ($$2355$i|0)==(0|0);

								      $319 = ($$3$i202|0)==(0|0);

								      $or$cond$i = $318 & $319;

								      if ($or$cond$i) {

								       $320 = 2 << $$0358$i;

								       $321 = (0 - ($320))|0;

								       $322 = $320 | $321;

								       $323 = $267 & $322;

								       $324 = ($323|0)==(0);

								       if ($324) {

								        $$0198 = $266;

								        label = 153;

								        break;

								       }

								       $325 = (0 - ($323))|0;

								       $326 = $323 & $325;

								       $327 = (($326) + -1)|0;

								       $328 = $327 >>> 12;

								       $329 = $328 & 16;

								       $330 = $327 >>> $329;

								       $331 = $330 >>> 5;

								       $332 = $331 & 8;

								       $333 = $332 | $329;

								       $334 = $330 >>> $332;

								       $335 = $334 >>> 2;

								       $336 = $335 & 4;

								       $337 = $333 | $336;

								       $338 = $334 >>> $336;

								       $339 = $338 >>> 1;

								       $340 = $339 & 2;

								       $341 = $337 | $340;

								       $342 = $338 >>> $340;

								       $343 = $342 >>> 1;

								       $344 = $343 & 1;

								       $345 = $341 | $344;

								       $346 = $342 >>> $344;

								       $347 = (($345) + ($346))|0;

								       $348 = (35800 + ($347<<2)|0);

								       $349 = HEAP32[$348>>2]|0;

								       $$4$ph$i = 0;$$4357$ph$i = $349;

								      } else {

								       $$4$ph$i = $$3$i202;$$4357$ph$i = $$2355$i;

								      }

								      $350 = ($$4357$ph$i|0)==(0|0);

								      if ($350) {

								       $$4$lcssa$i = $$4$ph$i;$$4351$lcssa$i = $$3350$i;

								      } else {

								       $$415$i = $$4$ph$i;$$435114$i = $$3350$i;$$435713$i = $$4357$ph$i;

								       label = 94;

								      }

								     }

								     if ((label|0) == 94) {

								      while(1) {

								       label = 0;

								       $351 = ((($$435713$i)) + 4|0);

								       $352 = HEAP32[$351>>2]|0;

								       $353 = $352 & -8;

								       $354 = (($353) - ($266))|0;

								       $355 = ($354>>>0)<($$435114$i>>>0);

								       $$$4351$i = $355 ? $354 : $$435114$i;

								       $$4357$$4$i = $355 ? $$435713$i : $$415$i;

								       $356 = ((($$435713$i)) + 16|0);

								       $357 = HEAP32[$356>>2]|0;

								       $not$1$i204 = ($357|0)==(0|0);

								       $$sink2$i205 = $not$1$i204&1;

								       $358 = (((($$435713$i)) + 16|0) + ($$sink2$i205<<2)|0);

								       $359 = HEAP32[$358>>2]|0;

								       $360 = ($359|0)==(0|0);

								       if ($360) {

								        $$4$lcssa$i = $$4357$$4$i;$$4351$lcssa$i = $$$4351$i;

								        break;

								       } else {

								        $$415$i = $$4357$$4$i;$$435114$i = $$$4351$i;$$435713$i = $359;

								        label = 94;

								       }

								      }

								     }

								     $361 = ($$4$lcssa$i|0)==(0|0);

								     if ($361) {

								      $$0198 = $266;

								      label = 153;

								     } else {

								      $362 = HEAP32[(35504)>>2]|0;

								      $363 = (($362) - ($266))|0;

								      $364 = ($$4351$lcssa$i>>>0)<($363>>>0);

								      if ($364) {

								       $365 = HEAP32[(35512)>>2]|0;

								       $366 = ($$4$lcssa$i>>>0)<($365>>>0);

								       if ($366) {

								        _abort();

								        // unreachable;

								       }

								       $367 = (($$4$lcssa$i) + ($266)|0);

								       $368 = ($$4$lcssa$i>>>0)<($367>>>0);

								       if (!($368)) {

								        _abort();

								        // unreachable;

								       }

								       $369 = ((($$4$lcssa$i)) + 24|0);

								       $370 = HEAP32[$369>>2]|0;

								       $371 = ((($$4$lcssa$i)) + 12|0);

								       $372 = HEAP32[$371>>2]|0;

								       $373 = ($372|0)==($$4$lcssa$i|0);

								       do {

								        if ($373) {

								         $383 = ((($$4$lcssa$i)) + 20|0);

								         $384 = HEAP32[$383>>2]|0;

								         $385 = ($384|0)==(0|0);

								         if ($385) {

								          $386 = ((($$4$lcssa$i)) + 16|0);

								          $387 = HEAP32[$386>>2]|0;

								          $388 = ($387|0)==(0|0);

								          if ($388) {

								           $$3372$i = 0;

								           break;

								          } else {

								           $$1370$i = $387;$$1374$i = $386;

								          }

								         } else {

								          $$1370$i = $384;$$1374$i = $383;

								         }

								         while(1) {

								          $389 = ((($$1370$i)) + 20|0);

								          $390 = HEAP32[$389>>2]|0;

								          $391 = ($390|0)==(0|0);

								          if (!($391)) {

								           $$1370$i = $390;$$1374$i = $389;

								           continue;

								          }

								          $392 = ((($$1370$i)) + 16|0);

								          $393 = HEAP32[$392>>2]|0;

								          $394 = ($393|0)==(0|0);

								          if ($394) {

								           break;

								          } else {

								           $$1370$i = $393;$$1374$i = $392;

								          }

								         }

								         $395 = ($$1374$i>>>0)<($365>>>0);

								         if ($395) {

								          _abort();

								          // unreachable;

								         } else {

								          HEAP32[$$1374$i>>2] = 0;

								          $$3372$i = $$1370$i;

								          break;

								         }

								        } else {

								         $374 = ((($$4$lcssa$i)) + 8|0);

								         $375 = HEAP32[$374>>2]|0;

								         $376 = ($375>>>0)<($365>>>0);

								         if ($376) {

								          _abort();

								          // unreachable;

								         }

								         $377 = ((($375)) + 12|0);

								         $378 = HEAP32[$377>>2]|0;

								         $379 = ($378|0)==($$4$lcssa$i|0);

								         if (!($379)) {

								          _abort();

								          // unreachable;

								         }

								         $380 = ((($372)) + 8|0);

								         $381 = HEAP32[$380>>2]|0;

								         $382 = ($381|0)==($$4$lcssa$i|0);

								         if ($382) {

								          HEAP32[$377>>2] = $372;

								          HEAP32[$380>>2] = $375;

								          $$3372$i = $372;

								          break;

								         } else {

								          _abort();

								          // unreachable;

								         }

								        }

								       } while(0);

								       $396 = ($370|0)==(0|0);

								       L175: do {

								        if ($396) {

								         $487 = $267;

								        } else {

								         $397 = ((($$4$lcssa$i)) + 28|0);

								         $398 = HEAP32[$397>>2]|0;

								         $399 = (35800 + ($398<<2)|0);

								         $400 = HEAP32[$399>>2]|0;

								         $401 = ($$4$lcssa$i|0)==($400|0);

								         do {

								          if ($401) {

								           HEAP32[$399>>2] = $$3372$i;

								           $cond$i209 = ($$3372$i|0)==(0|0);

								           if ($cond$i209) {

								            $402 = 1 << $398;

								            $403 = $402 ^ -1;

								            $404 = $267 & $403;

								            HEAP32[(35500)>>2] = $404;

								            $487 = $404;

								            break L175;

								           }

								          } else {

								           $405 = HEAP32[(35512)>>2]|0;

								           $406 = ($370>>>0)<($405>>>0);

								           if ($406) {

								            _abort();

								            // unreachable;

								           } else {

								            $407 = ((($370)) + 16|0);

								            $408 = HEAP32[$407>>2]|0;

								            $not$$i210 = ($408|0)!=($$4$lcssa$i|0);

								            $$sink3$i = $not$$i210&1;

								            $409 = (((($370)) + 16|0) + ($$sink3$i<<2)|0);

								            HEAP32[$409>>2] = $$3372$i;

								            $410 = ($$3372$i|0)==(0|0);

								            if ($410) {

								             $487 = $267;

								             break L175;

								            } else {

								             break;

								            }

								           }

								          }

								         } while(0);

								         $411 = HEAP32[(35512)>>2]|0;

								         $412 = ($$3372$i>>>0)<($411>>>0);

								         if ($412) {

								          _abort();

								          // unreachable;

								         }

								         $413 = ((($$3372$i)) + 24|0);

								         HEAP32[$413>>2] = $370;

								         $414 = ((($$4$lcssa$i)) + 16|0);

								         $415 = HEAP32[$414>>2]|0;

								         $416 = ($415|0)==(0|0);

								         do {

								          if (!($416)) {

								           $417 = ($415>>>0)<($411>>>0);

								           if ($417) {

								            _abort();

								            // unreachable;

								           } else {

								            $418 = ((($$3372$i)) + 16|0);

								            HEAP32[$418>>2] = $415;

								            $419 = ((($415)) + 24|0);

								            HEAP32[$419>>2] = $$3372$i;

								            break;

								           }

								          }

								         } while(0);

								         $420 = ((($$4$lcssa$i)) + 20|0);

								         $421 = HEAP32[$420>>2]|0;

								         $422 = ($421|0)==(0|0);

								         if ($422) {

								          $487 = $267;

								         } else {

								          $423 = HEAP32[(35512)>>2]|0;

								          $424 = ($421>>>0)<($423>>>0);

								          if ($424) {

								           _abort();

								           // unreachable;

								          } else {

								           $425 = ((($$3372$i)) + 20|0);

								           HEAP32[$425>>2] = $421;

								           $426 = ((($421)) + 24|0);

								           HEAP32[$426>>2] = $$3372$i;

								           $487 = $267;

								           break;

								          }

								         }

								        }

								       } while(0);

								       $427 = ($$4351$lcssa$i>>>0)<(16);

								       do {

								        if ($427) {

								         $428 = (($$4351$lcssa$i) + ($266))|0;

								         $429 = $428 | 3;

								         $430 = ((($$4$lcssa$i)) + 4|0);

								         HEAP32[$430>>2] = $429;

								         $431 = (($$4$lcssa$i) + ($428)|0);

								         $432 = ((($431)) + 4|0);

								         $433 = HEAP32[$432>>2]|0;

								         $434 = $433 | 1;

								         HEAP32[$432>>2] = $434;

								        } else {

								         $435 = $266 | 3;

								         $436 = ((($$4$lcssa$i)) + 4|0);

								         HEAP32[$436>>2] = $435;

								         $437 = $$4351$lcssa$i | 1;

								         $438 = ((($367)) + 4|0);

								         HEAP32[$438>>2] = $437;

								         $439 = (($367) + ($$4351$lcssa$i)|0);

								         HEAP32[$439>>2] = $$4351$lcssa$i;

								         $440 = $$4351$lcssa$i >>> 3;

								         $441 = ($$4351$lcssa$i>>>0)<(256);

								         if ($441) {

								          $442 = $440 << 1;

								          $443 = (35536 + ($442<<2)|0);

								          $444 = HEAP32[8874]|0;

								          $445 = 1 << $440;

								          $446 = $444 & $445;

								          $447 = ($446|0)==(0);

								          do {

								           if ($447) {

								            $448 = $444 | $445;

								            HEAP32[8874] = $448;

								            $$pre$i211 = ((($443)) + 8|0);

								            $$0368$i = $443;$$pre$phi$i212Z2D = $$pre$i211;

								           } else {

								            $449 = ((($443)) + 8|0);

								            $450 = HEAP32[$449>>2]|0;

								            $451 = HEAP32[(35512)>>2]|0;

								            $452 = ($450>>>0)<($451>>>0);

								            if (!($452)) {

								             $$0368$i = $450;$$pre$phi$i212Z2D = $449;

								             break;

								            }

								            _abort();

								            // unreachable;

								           }

								          } while(0);

								          HEAP32[$$pre$phi$i212Z2D>>2] = $367;

								          $453 = ((($$0368$i)) + 12|0);

								          HEAP32[$453>>2] = $367;

								          $454 = ((($367)) + 8|0);

								          HEAP32[$454>>2] = $$0368$i;

								          $455 = ((($367)) + 12|0);

								          HEAP32[$455>>2] = $443;

								          break;

								         }

								         $456 = $$4351$lcssa$i >>> 8;

								         $457 = ($456|0)==(0);

								         if ($457) {

								          $$0361$i = 0;

								         } else {

								          $458 = ($$4351$lcssa$i>>>0)>(16777215);

								          if ($458) {

								           $$0361$i = 31;

								          } else {

								           $459 = (($456) + 1048320)|0;

								           $460 = $459 >>> 16;

								           $461 = $460 & 8;

								           $462 = $456 << $461;

								           $463 = (($462) + 520192)|0;

								           $464 = $463 >>> 16;

								           $465 = $464 & 4;

								           $466 = $465 | $461;

								           $467 = $462 << $465;

								           $468 = (($467) + 245760)|0;

								           $469 = $468 >>> 16;

								           $470 = $469 & 2;

								           $471 = $466 | $470;

								           $472 = (14 - ($471))|0;

								           $473 = $467 << $470;

								           $474 = $473 >>> 15;

								           $475 = (($472) + ($474))|0;

								           $476 = $475 << 1;

								           $477 = (($475) + 7)|0;

								           $478 = $$4351$lcssa$i >>> $477;

								           $479 = $478 & 1;

								           $480 = $479 | $476;

								           $$0361$i = $480;

								          }

								         }

								         $481 = (35800 + ($$0361$i<<2)|0);

								         $482 = ((($367)) + 28|0);

								         HEAP32[$482>>2] = $$0361$i;

								         $483 = ((($367)) + 16|0);

								         $484 = ((($483)) + 4|0);

								         HEAP32[$484>>2] = 0;

								         HEAP32[$483>>2] = 0;

								         $485 = 1 << $$0361$i;

								         $486 = $487 & $485;

								         $488 = ($486|0)==(0);

								         if ($488) {

								          $489 = $487 | $485;

								          HEAP32[(35500)>>2] = $489;

								          HEAP32[$481>>2] = $367;

								          $490 = ((($367)) + 24|0);

								          HEAP32[$490>>2] = $481;

								          $491 = ((($367)) + 12|0);

								          HEAP32[$491>>2] = $367;

								          $492 = ((($367)) + 8|0);

								          HEAP32[$492>>2] = $367;

								          break;

								         }

								         $493 = HEAP32[$481>>2]|0;

								         $494 = ($$0361$i|0)==(31);

								         $495 = $$0361$i >>> 1;

								         $496 = (25 - ($495))|0;

								         $497 = $494 ? 0 : $496;

								         $498 = $$4351$lcssa$i << $497;

								         $$0344$i = $498;$$0345$i = $493;

								         while(1) {

								          $499 = ((($$0345$i)) + 4|0);

								          $500 = HEAP32[$499>>2]|0;

								          $501 = $500 & -8;

								          $502 = ($501|0)==($$4351$lcssa$i|0);

								          if ($502) {

								           label = 148;

								           break;

								          }

								          $503 = $$0344$i >>> 31;

								          $504 = (((($$0345$i)) + 16|0) + ($503<<2)|0);

								          $505 = $$0344$i << 1;

								          $506 = HEAP32[$504>>2]|0;

								          $507 = ($506|0)==(0|0);

								          if ($507) {

								           label = 145;

								           break;

								          } else {

								           $$0344$i = $505;$$0345$i = $506;

								          }

								         }

								         if ((label|0) == 145) {

								          $508 = HEAP32[(35512)>>2]|0;

								          $509 = ($504>>>0)<($508>>>0);

								          if ($509) {

								           _abort();

								           // unreachable;

								          } else {

								           HEAP32[$504>>2] = $367;

								           $510 = ((($367)) + 24|0);

								           HEAP32[$510>>2] = $$0345$i;

								           $511 = ((($367)) + 12|0);

								           HEAP32[$511>>2] = $367;

								           $512 = ((($367)) + 8|0);

								           HEAP32[$512>>2] = $367;

								           break;

								          }

								         }

								         else if ((label|0) == 148) {

								          $513 = ((($$0345$i)) + 8|0);

								          $514 = HEAP32[$513>>2]|0;

								          $515 = HEAP32[(35512)>>2]|0;

								          $516 = ($514>>>0)>=($515>>>0);

								          $not$9$i = ($$0345$i>>>0)>=($515>>>0);

								          $517 = $516 & $not$9$i;

								          if ($517) {

								           $518 = ((($514)) + 12|0);

								           HEAP32[$518>>2] = $367;

								           HEAP32[$513>>2] = $367;

								           $519 = ((($367)) + 8|0);

								           HEAP32[$519>>2] = $514;

								           $520 = ((($367)) + 12|0);

								           HEAP32[$520>>2] = $$0345$i;

								           $521 = ((($367)) + 24|0);

								           HEAP32[$521>>2] = 0;

								           break;

								          } else {

								           _abort();

								           // unreachable;

								          }

								         }

								        }

								       } while(0);

								       $522 = ((($$4$lcssa$i)) + 8|0);

								       $$2 = $522;

								      } else {

								       $$0198 = $266;

								       label = 153;

								      }

								     }

								    }

								   }

								  }

								 } while(0);

								 L230: do {

								  if ((label|0) == 153) {

								   $523 = HEAP32[(35504)>>2]|0;

								   $524 = ($523>>>0)<($$0198>>>0);

								   if (!($524)) {

								    $525 = (($523) - ($$0198))|0;

								    $526 = HEAP32[(35516)>>2]|0;

								    $527 = ($525>>>0)>(15);

								    if ($527) {

								     $528 = (($526) + ($$0198)|0);

								     HEAP32[(35516)>>2] = $528;

								     HEAP32[(35504)>>2] = $525;

								     $529 = $525 | 1;

								     $530 = ((($528)) + 4|0);

								     HEAP32[$530>>2] = $529;

								     $531 = (($528) + ($525)|0);

								     HEAP32[$531>>2] = $525;

								     $532 = $$0198 | 3;

								     $533 = ((($526)) + 4|0);

								     HEAP32[$533>>2] = $532;

								    } else {

								     HEAP32[(35504)>>2] = 0;

								     HEAP32[(35516)>>2] = 0;

								     $534 = $523 | 3;

								     $535 = ((($526)) + 4|0);

								     HEAP32[$535>>2] = $534;

								     $536 = (($526) + ($523)|0);

								     $537 = ((($536)) + 4|0);

								     $538 = HEAP32[$537>>2]|0;

								     $539 = $538 | 1;

								     HEAP32[$537>>2] = $539;

								    }

								    $540 = ((($526)) + 8|0);

								    $$2 = $540;

								    break;

								   }

								   $541 = HEAP32[(35508)>>2]|0;

								   $542 = ($541>>>0)>($$0198>>>0);

								   if ($542) {

								    $543 = (($541) - ($$0198))|0;

								    HEAP32[(35508)>>2] = $543;

								    $544 = HEAP32[(35520)>>2]|0;

								    $545 = (($544) + ($$0198)|0);

								    HEAP32[(35520)>>2] = $545;

								    $546 = $543 | 1;

								    $547 = ((($545)) + 4|0);

								    HEAP32[$547>>2] = $546;

								    $548 = $$0198 | 3;

								    $549 = ((($544)) + 4|0);

								    HEAP32[$549>>2] = $548;

								    $550 = ((($544)) + 8|0);

								    $$2 = $550;

								    break;

								   }

								   $551 = HEAP32[8861]|0;

								   $552 = ($551|0)==(0);

								   if ($552) {

								    (___pthread_mutex_lock(35468)|0);

								    $553 = HEAP32[8861]|0;

								    $554 = ($553|0)==(0);

								    if ($554) {

								     HEAP32[(35452)>>2] = 4096;

								     HEAP32[(35448)>>2] = 4096;

								     HEAP32[(35456)>>2] = -1;

								     HEAP32[(35460)>>2] = -1;

								     HEAP32[(35464)>>2] = 2;

								     HEAP32[(35940)>>2] = 2;

								     $555 = (_pthread_mutexattr_init($1)|0);

								     $556 = ($555|0)==(0);

								     if ($556) {

								      $557 = (_pthread_mutex_init((35944),$1)|0);

								      $558 = ($557|0)==(0);

								      if ($558) {

								      }

								     }

								     $559 = $2;

								     $560 = $559 & -16;

								     $561 = $560 ^ 1431655768;

								     HEAP32[$2>>2] = $561;

								     Atomics_store(HEAP32,8861,$561)|0;

								    }

								    (___pthread_mutex_unlock(35468)|0);

								   }

								   $562 = (($$0198) + 48)|0;

								   $563 = HEAP32[(35452)>>2]|0;

								   $564 = (($$0198) + 47)|0;

								   $565 = (($563) + ($564))|0;

								   $566 = (0 - ($563))|0;

								   $567 = $565 & $566;

								   $568 = ($567>>>0)>($$0198>>>0);

								   if ($568) {

								    $569 = HEAP32[(35936)>>2]|0;

								    $570 = ($569|0)==(0);

								    if (!($570)) {

								     $571 = HEAP32[(35928)>>2]|0;

								     $572 = (($571) + ($567))|0;

								     $573 = ($572>>>0)<=($571>>>0);

								     $574 = ($572>>>0)>($569>>>0);

								     $or$cond1$i = $573 | $574;

								     if ($or$cond1$i) {

								      $$2 = 0;

								      break;

								     }

								    }

								    $575 = HEAP32[(35940)>>2]|0;

								    $576 = $575 & 4;

								    $577 = ($576|0)==(0);

								    if ($577) {

								     $578 = HEAP32[(35520)>>2]|0;

								     $579 = ($578|0)==(0|0);

								     L258: do {

								      if ($579) {

								       label = 176;

								      } else {

								       $$0$i$i = (35972);

								       while(1) {

								        $580 = HEAP32[$$0$i$i>>2]|0;

								        $581 = ($580>>>0)>($578>>>0);

								        if (!($581)) {

								         $582 = ((($$0$i$i)) + 4|0);

								         $583 = HEAP32[$582>>2]|0;

								         $584 = (($580) + ($583)|0);

								         $585 = ($584>>>0)>($578>>>0);

								         if ($585) {

								          break;

								         }

								        }

								        $586 = ((($$0$i$i)) + 8|0);

								        $587 = HEAP32[$586>>2]|0;

								        $588 = ($587|0)==(0|0);

								        if ($588) {

								         label = 176;

								         break L258;

								        } else {

								         $$0$i$i = $587;

								        }

								       }

								       (___pthread_mutex_lock(35468)|0);

								       $611 = HEAP32[(35508)>>2]|0;

								       $612 = HEAP32[(35452)>>2]|0;

								       $613 = (($564) - ($611))|0;

								       $614 = (($613) + ($612))|0;

								       $615 = (0 - ($612))|0;

								       $616 = $614 & $615;

								       $617 = ($616>>>0)<(2147483647);

								       if ($617) {

								        $618 = (_sbrk(($616|0))|0);

								        $619 = HEAP32[$$0$i$i>>2]|0;

								        $620 = HEAP32[$582>>2]|0;

								        $621 = (($619) + ($620)|0);

								        $622 = ($618|0)==($621|0);

								        if ($622) {

								         $623 = ($618|0)==((-1)|0);

								         if ($623) {

								          $$2234253237$i = $616;

								          label = 190;

								         } else {

								          $$3229$i = $618;$$3235$i = $616;

								         }

								        } else {

								         $$2247$ph$i = $618;$$2253$ph$i = $616;

								         label = 184;

								        }

								       } else {

								        $$2234253237$i = 0;

								        label = 190;

								       }

								      }

								     } while(0);

								     do {

								      if ((label|0) == 176) {

								       (___pthread_mutex_lock(35468)|0);

								       $589 = (_sbrk(0)|0);

								       $590 = ($589|0)==((-1)|0);

								       if ($590) {

								        $$2234253237$i = 0;

								        label = 190;

								       } else {

								        $591 = $589;

								        $592 = HEAP32[(35448)>>2]|0;

								        $593 = (($592) + -1)|0;

								        $594 = $593 & $591;

								        $595 = ($594|0)==(0);

								        $596 = (($593) + ($591))|0;

								        $597 = (0 - ($592))|0;

								        $598 = $596 & $597;

								        $599 = (($598) - ($591))|0;

								        $600 = $595 ? 0 : $599;

								        $$$i = (($600) + ($567))|0;

								        $601 = HEAP32[(35928)>>2]|0;

								        $602 = (($$$i) + ($601))|0;

								        $603 = ($$$i>>>0)>($$0198>>>0);

								        $604 = ($$$i>>>0)<(2147483647);

								        $or$cond$i213 = $603 & $604;

								        if ($or$cond$i213) {

								         $605 = HEAP32[(35936)>>2]|0;

								         $606 = ($605|0)==(0);

								         if (!($606)) {

								          $607 = ($602>>>0)<=($601>>>0);

								          $608 = ($602>>>0)>($605>>>0);

								          $or$cond2$i214 = $607 | $608;

								          if ($or$cond2$i214) {

								           $$2234253237$i = 0;

								           label = 190;

								           break;

								          }

								         }

								         $609 = (_sbrk(($$$i|0))|0);

								         $610 = ($609|0)==($589|0);

								         if ($610) {

								          $$3229$i = $589;$$3235$i = $$$i;

								         } else {

								          $$2247$ph$i = $609;$$2253$ph$i = $$$i;

								          label = 184;

								         }

								        } else {

								         $$2234253237$i = 0;

								         label = 190;

								        }

								       }

								      }

								     } while(0);

								     do {

								      if ((label|0) == 184) {

								       $624 = (0 - ($$2253$ph$i))|0;

								       $625 = ($$2247$ph$i|0)!=((-1)|0);

								       $626 = ($$2253$ph$i>>>0)<(2147483647);

								       $or$cond7$i = $626 & $625;

								       $627 = ($562>>>0)>($$2253$ph$i>>>0);

								       $or$cond10$i = $627 & $or$cond7$i;

								       if (!($or$cond10$i)) {

								        $637 = ($$2247$ph$i|0)==((-1)|0);

								        if ($637) {

								         $$2234253237$i = 0;

								         label = 190;

								         break;

								        } else {

								         $$3229$i = $$2247$ph$i;$$3235$i = $$2253$ph$i;

								         break;

								        }

								       }

								       $628 = HEAP32[(35452)>>2]|0;

								       $629 = (($564) - ($$2253$ph$i))|0;

								       $630 = (($629) + ($628))|0;

								       $631 = (0 - ($628))|0;

								       $632 = $630 & $631;

								       $633 = ($632>>>0)<(2147483647);

								       if ($633) {

								        $634 = (_sbrk(($632|0))|0);

								        $635 = ($634|0)==((-1)|0);

								        if ($635) {

								         (_sbrk(($624|0))|0);

								         $$2234253237$i = 0;

								         label = 190;

								         break;

								        } else {

								         $636 = (($632) + ($$2253$ph$i))|0;

								         $$3229$i = $$2247$ph$i;$$3235$i = $636;

								         break;

								        }

								       } else {

								        $$3229$i = $$2247$ph$i;$$3235$i = $$2253$ph$i;

								       }

								      }

								     } while(0);

								     if ((label|0) == 190) {

								      $638 = HEAP32[(35940)>>2]|0;

								      $639 = $638 | 4;

								      HEAP32[(35940)>>2] = $639;

								      $$3229$i = (-1);$$3235$i = $$2234253237$i;

								     }

								     (___pthread_mutex_unlock(35468)|0);

								     $$4230$i = $$3229$i;$$4236$i = $$3235$i;

								    } else {

								     $$4230$i = (-1);$$4236$i = 0;

								    }

								    $640 = ($$4230$i|0)==((-1)|0);

								    $641 = ($567>>>0)<(2147483647);

								    $or$cond9$i = $641 & $640;

								    if ($or$cond9$i) {

								     (___pthread_mutex_lock(35468)|0);

								     $642 = (_sbrk(($567|0))|0);

								     $643 = (_sbrk(0)|0);

								     (___pthread_mutex_unlock(35468)|0);

								     $644 = ($642|0)!=((-1)|0);

								     $645 = ($643|0)!=((-1)|0);

								     $or$cond5$i = $644 & $645;

								     $646 = ($642>>>0)<($643>>>0);

								     $or$cond11$i = $646 & $or$cond5$i;

								     $647 = $643;

								     $648 = $642;

								     $649 = (($647) - ($648))|0;

								     $650 = (($$0198) + 40)|0;

								     $651 = ($649>>>0)>($650>>>0);

								     $$$4236$i = $651 ? $649 : $$4236$i;

								     $$$4230$i = $651 ? $642 : (-1);

								     if ($or$cond11$i) {

								      $$7$i = $$$4230$i;$$7239$i = $$$4236$i;

								      label = 194;

								     }

								    } else {

								     $$7$i = $$4230$i;$$7239$i = $$4236$i;

								     label = 194;

								    }

								    if ((label|0) == 194) {

								     $652 = ($$7$i|0)==((-1)|0);

								     if (!($652)) {

								      $653 = HEAP32[(35928)>>2]|0;

								      $654 = (($653) + ($$7239$i))|0;

								      HEAP32[(35928)>>2] = $654;

								      $655 = HEAP32[(35932)>>2]|0;

								      $656 = ($654>>>0)>($655>>>0);

								      if ($656) {

								       HEAP32[(35932)>>2] = $654;

								      }

								      $657 = HEAP32[(35520)>>2]|0;

								      $658 = ($657|0)==(0|0);

								      do {

								       if ($658) {

								        $659 = HEAP32[(35512)>>2]|0;

								        $660 = ($659|0)==(0|0);

								        $661 = ($$7$i>>>0)<($659>>>0);

								        $or$cond12$i = $660 | $661;

								        if ($or$cond12$i) {

								         HEAP32[(35512)>>2] = $$7$i;

								        }

								        HEAP32[(35972)>>2] = $$7$i;

								        HEAP32[(35976)>>2] = $$7239$i;

								        HEAP32[(35984)>>2] = 0;

								        $662 = HEAP32[8861]|0;

								        HEAP32[(35532)>>2] = $662;

								        HEAP32[(35528)>>2] = -1;

								        $$01$i$i = 0;

								        while(1) {

								         $663 = $$01$i$i << 1;

								         $664 = (35536 + ($663<<2)|0);

								         $665 = ((($664)) + 12|0);

								         HEAP32[$665>>2] = $664;

								         $666 = ((($664)) + 8|0);

								         HEAP32[$666>>2] = $664;

								         $667 = (($$01$i$i) + 1)|0;

								         $exitcond$i$i = ($667|0)==(32);

								         if ($exitcond$i$i) {

								          break;

								         } else {

								          $$01$i$i = $667;

								         }

								        }

								        $668 = (($$7239$i) + -40)|0;

								        $669 = ((($$7$i)) + 8|0);

								        $670 = $669;

								        $671 = $670 & 7;

								        $672 = ($671|0)==(0);

								        $673 = (0 - ($670))|0;

								        $674 = $673 & 7;

								        $675 = $672 ? 0 : $674;

								        $676 = (($$7$i) + ($675)|0);

								        $677 = (($668) - ($675))|0;

								        HEAP32[(35520)>>2] = $676;

								        HEAP32[(35508)>>2] = $677;

								        $678 = $677 | 1;

								        $679 = ((($676)) + 4|0);

								        HEAP32[$679>>2] = $678;

								        $680 = (($676) + ($677)|0);

								        $681 = ((($680)) + 4|0);

								        HEAP32[$681>>2] = 40;

								        $682 = HEAP32[(35460)>>2]|0;

								        HEAP32[(35524)>>2] = $682;

								       } else {

								        $$024363$i = (35972);

								        while(1) {

								         $683 = HEAP32[$$024363$i>>2]|0;

								         $684 = ((($$024363$i)) + 4|0);

								         $685 = HEAP32[$684>>2]|0;

								         $686 = (($683) + ($685)|0);

								         $687 = ($$7$i|0)==($686|0);

								         if ($687) {

								          label = 205;

								          break;

								         }

								         $688 = ((($$024363$i)) + 8|0);

								         $689 = HEAP32[$688>>2]|0;

								         $690 = ($689|0)==(0|0);

								         if ($690) {

								          break;

								         } else {

								          $$024363$i = $689;

								         }

								        }

								        if ((label|0) == 205) {

								         $691 = ((($$024363$i)) + 12|0);

								         $692 = HEAP32[$691>>2]|0;

								         $693 = $692 & 8;

								         $694 = ($693|0)==(0);

								         if ($694) {

								          $695 = ($657>>>0)>=($683>>>0);

								          $696 = ($657>>>0)<($$7$i>>>0);

								          $or$cond43$i = $696 & $695;

								          if ($or$cond43$i) {

								           $697 = (($685) + ($$7239$i))|0;

								           HEAP32[$684>>2] = $697;

								           $698 = HEAP32[(35508)>>2]|0;

								           $699 = ((($657)) + 8|0);

								           $700 = $699;

								           $701 = $700 & 7;

								           $702 = ($701|0)==(0);

								           $703 = (0 - ($700))|0;

								           $704 = $703 & 7;

								           $705 = $702 ? 0 : $704;

								           $706 = (($657) + ($705)|0);

								           $707 = (($$7239$i) - ($705))|0;

								           $708 = (($698) + ($707))|0;

								           HEAP32[(35520)>>2] = $706;

								           HEAP32[(35508)>>2] = $708;

								           $709 = $708 | 1;

								           $710 = ((($706)) + 4|0);

								           HEAP32[$710>>2] = $709;

								           $711 = (($706) + ($708)|0);

								           $712 = ((($711)) + 4|0);

								           HEAP32[$712>>2] = 40;

								           $713 = HEAP32[(35460)>>2]|0;

								           HEAP32[(35524)>>2] = $713;

								           break;

								          }

								         }

								        }

								        $714 = HEAP32[(35512)>>2]|0;

								        $715 = ($$7$i>>>0)<($714>>>0);

								        if ($715) {

								         HEAP32[(35512)>>2] = $$7$i;

								         $779 = $$7$i;

								        } else {

								         $779 = $714;

								        }

								        $716 = (($$7$i) + ($$7239$i)|0);

								        $$124462$i = (35972);

								        while(1) {

								         $717 = HEAP32[$$124462$i>>2]|0;

								         $718 = ($717|0)==($716|0);

								         if ($718) {

								          label = 213;

								          break;

								         }

								         $719 = ((($$124462$i)) + 8|0);

								         $720 = HEAP32[$719>>2]|0;

								         $721 = ($720|0)==(0|0);

								         if ($721) {

								          break;

								         } else {

								          $$124462$i = $720;

								         }

								        }

								        if ((label|0) == 213) {

								         $722 = ((($$124462$i)) + 12|0);

								         $723 = HEAP32[$722>>2]|0;

								         $724 = $723 & 8;

								         $725 = ($724|0)==(0);

								         if ($725) {

								          HEAP32[$$124462$i>>2] = $$7$i;

								          $726 = ((($$124462$i)) + 4|0);

								          $727 = HEAP32[$726>>2]|0;

								          $728 = (($727) + ($$7239$i))|0;

								          HEAP32[$726>>2] = $728;

								          $729 = ((($$7$i)) + 8|0);

								          $730 = $729;

								          $731 = $730 & 7;

								          $732 = ($731|0)==(0);

								          $733 = (0 - ($730))|0;

								          $734 = $733 & 7;

								          $735 = $732 ? 0 : $734;

								          $736 = (($$7$i) + ($735)|0);

								          $737 = ((($716)) + 8|0);

								          $738 = $737;

								          $739 = $738 & 7;

								          $740 = ($739|0)==(0);

								          $741 = (0 - ($738))|0;

								          $742 = $741 & 7;

								          $743 = $740 ? 0 : $742;

								          $744 = (($716) + ($743)|0);

								          $745 = $744;

								          $746 = $736;

								          $747 = (($745) - ($746))|0;

								          $748 = (($736) + ($$0198)|0);

								          $749 = (($747) - ($$0198))|0;

								          $750 = $$0198 | 3;

								          $751 = ((($736)) + 4|0);

								          HEAP32[$751>>2] = $750;

								          $752 = ($744|0)==($657|0);

								          do {

								           if ($752) {

								            $753 = HEAP32[(35508)>>2]|0;

								            $754 = (($753) + ($749))|0;

								            HEAP32[(35508)>>2] = $754;

								            HEAP32[(35520)>>2] = $748;

								            $755 = $754 | 1;

								            $756 = ((($748)) + 4|0);

								            HEAP32[$756>>2] = $755;

								           } else {

								            $757 = HEAP32[(35516)>>2]|0;

								            $758 = ($744|0)==($757|0);

								            if ($758) {

								             $759 = HEAP32[(35504)>>2]|0;

								             $760 = (($759) + ($749))|0;

								             HEAP32[(35504)>>2] = $760;

								             HEAP32[(35516)>>2] = $748;

								             $761 = $760 | 1;

								             $762 = ((($748)) + 4|0);

								             HEAP32[$762>>2] = $761;

								             $763 = (($748) + ($760)|0);

								             HEAP32[$763>>2] = $760;

								             break;

								            }

								            $764 = ((($744)) + 4|0);

								            $765 = HEAP32[$764>>2]|0;

								            $766 = $765 & 3;

								            $767 = ($766|0)==(1);

								            if ($767) {

								             $768 = $765 & -8;

								             $769 = $765 >>> 3;

								             $770 = ($765>>>0)<(256);

								             L329: do {

								              if ($770) {

								               $771 = ((($744)) + 8|0);

								               $772 = HEAP32[$771>>2]|0;

								               $773 = ((($744)) + 12|0);

								               $774 = HEAP32[$773>>2]|0;

								               $775 = $769 << 1;

								               $776 = (35536 + ($775<<2)|0);

								               $777 = ($772|0)==($776|0);

								               do {

								                if (!($777)) {

								                 $778 = ($772>>>0)<($779>>>0);

								                 if ($778) {

								                  _abort();

								                  // unreachable;

								                 }

								                 $780 = ((($772)) + 12|0);

								                 $781 = HEAP32[$780>>2]|0;

								                 $782 = ($781|0)==($744|0);

								                 if ($782) {

								                  break;

								                 }

								                 _abort();

								                 // unreachable;

								                }

								               } while(0);

								               $783 = ($774|0)==($772|0);

								               if ($783) {

								                $784 = 1 << $769;

								                $785 = $784 ^ -1;

								                $786 = HEAP32[8874]|0;

								                $787 = $786 & $785;

								                HEAP32[8874] = $787;

								                break;

								               }

								               $788 = ($774|0)==($776|0);

								               do {

								                if ($788) {

								                 $$pre10$i$i = ((($774)) + 8|0);

								                 $$pre$phi11$i$iZ2D = $$pre10$i$i;

								                } else {

								                 $789 = ($774>>>0)<($779>>>0);

								                 if ($789) {

								                  _abort();

								                  // unreachable;

								                 }

								                 $790 = ((($774)) + 8|0);

								                 $791 = HEAP32[$790>>2]|0;

								                 $792 = ($791|0)==($744|0);

								                 if ($792) {

								                  $$pre$phi11$i$iZ2D = $790;

								                  break;

								                 }

								                 _abort();

								                 // unreachable;

								                }

								               } while(0);

								               $793 = ((($772)) + 12|0);

								               HEAP32[$793>>2] = $774;

								               HEAP32[$$pre$phi11$i$iZ2D>>2] = $772;

								              } else {

								               $794 = ((($744)) + 24|0);

								               $795 = HEAP32[$794>>2]|0;

								               $796 = ((($744)) + 12|0);

								               $797 = HEAP32[$796>>2]|0;

								               $798 = ($797|0)==($744|0);

								               do {

								                if ($798) {

								                 $808 = ((($744)) + 16|0);

								                 $809 = ((($808)) + 4|0);

								                 $810 = HEAP32[$809>>2]|0;

								                 $811 = ($810|0)==(0|0);

								                 if ($811) {

								                  $812 = HEAP32[$808>>2]|0;

								                  $813 = ($812|0)==(0|0);

								                  if ($813) {

								                   $$3$i$i = 0;

								                   break;

								                  } else {

								                   $$1291$i$i = $812;$$1293$i$i = $808;

								                  }

								                 } else {

								                  $$1291$i$i = $810;$$1293$i$i = $809;

								                 }

								                 while(1) {

								                  $814 = ((($$1291$i$i)) + 20|0);

								                  $815 = HEAP32[$814>>2]|0;

								                  $816 = ($815|0)==(0|0);

								                  if (!($816)) {

								                   $$1291$i$i = $815;$$1293$i$i = $814;

								                   continue;

								                  }

								                  $817 = ((($$1291$i$i)) + 16|0);

								                  $818 = HEAP32[$817>>2]|0;

								                  $819 = ($818|0)==(0|0);

								                  if ($819) {

								                   break;

								                  } else {

								                   $$1291$i$i = $818;$$1293$i$i = $817;

								                  }

								                 }

								                 $820 = ($$1293$i$i>>>0)<($779>>>0);

								                 if ($820) {

								                  _abort();

								                  // unreachable;

								                 } else {

								                  HEAP32[$$1293$i$i>>2] = 0;

								                  $$3$i$i = $$1291$i$i;

								                  break;

								                 }

								                } else {

								                 $799 = ((($744)) + 8|0);

								                 $800 = HEAP32[$799>>2]|0;

								                 $801 = ($800>>>0)<($779>>>0);

								                 if ($801) {

								                  _abort();

								                  // unreachable;

								                 }

								                 $802 = ((($800)) + 12|0);

								                 $803 = HEAP32[$802>>2]|0;

								                 $804 = ($803|0)==($744|0);

								                 if (!($804)) {

								                  _abort();

								                  // unreachable;

								                 }

								                 $805 = ((($797)) + 8|0);

								                 $806 = HEAP32[$805>>2]|0;

								                 $807 = ($806|0)==($744|0);

								                 if ($807) {

								                  HEAP32[$802>>2] = $797;

								                  HEAP32[$805>>2] = $800;

								                  $$3$i$i = $797;

								                  break;

								                 } else {

								                  _abort();

								                  // unreachable;

								                 }

								                }

								               } while(0);

								               $821 = ($795|0)==(0|0);

								               if ($821) {

								                break;

								               }

								               $822 = ((($744)) + 28|0);

								               $823 = HEAP32[$822>>2]|0;

								               $824 = (35800 + ($823<<2)|0);

								               $825 = HEAP32[$824>>2]|0;

								               $826 = ($744|0)==($825|0);

								               do {

								                if ($826) {

								                 HEAP32[$824>>2] = $$3$i$i;

								                 $cond$i$i = ($$3$i$i|0)==(0|0);

								                 if (!($cond$i$i)) {

								                  break;

								                 }

								                 $827 = 1 << $823;

								                 $828 = $827 ^ -1;

								                 $829 = HEAP32[(35500)>>2]|0;

								                 $830 = $829 & $828;

								                 HEAP32[(35500)>>2] = $830;

								                 break L329;

								                } else {

								                 $831 = HEAP32[(35512)>>2]|0;

								                 $832 = ($795>>>0)<($831>>>0);

								                 if ($832) {

								                  _abort();

								                  // unreachable;

								                 } else {

								                  $833 = ((($795)) + 16|0);

								                  $834 = HEAP32[$833>>2]|0;

								                  $not$$i$i = ($834|0)!=($744|0);

								                  $$sink1$i$i = $not$$i$i&1;

								                  $835 = (((($795)) + 16|0) + ($$sink1$i$i<<2)|0);

								                  HEAP32[$835>>2] = $$3$i$i;

								                  $836 = ($$3$i$i|0)==(0|0);

								                  if ($836) {

								                   break L329;

								                  } else {

								                   break;

								                  }

								                 }

								                }

								               } while(0);

								               $837 = HEAP32[(35512)>>2]|0;

								               $838 = ($$3$i$i>>>0)<($837>>>0);

								               if ($838) {

								                _abort();

								                // unreachable;

								               }

								               $839 = ((($$3$i$i)) + 24|0);

								               HEAP32[$839>>2] = $795;

								               $840 = ((($744)) + 16|0);

								               $841 = HEAP32[$840>>2]|0;

								               $842 = ($841|0)==(0|0);

								               do {

								                if (!($842)) {

								                 $843 = ($841>>>0)<($837>>>0);

								                 if ($843) {

								                  _abort();

								                  // unreachable;

								                 } else {

								                  $844 = ((($$3$i$i)) + 16|0);

								                  HEAP32[$844>>2] = $841;

								                  $845 = ((($841)) + 24|0);

								                  HEAP32[$845>>2] = $$3$i$i;

								                  break;

								                 }

								                }

								               } while(0);

								               $846 = ((($840)) + 4|0);

								               $847 = HEAP32[$846>>2]|0;

								               $848 = ($847|0)==(0|0);

								               if ($848) {

								                break;

								               }

								               $849 = HEAP32[(35512)>>2]|0;

								               $850 = ($847>>>0)<($849>>>0);

								               if ($850) {

								                _abort();

								                // unreachable;

								               } else {

								                $851 = ((($$3$i$i)) + 20|0);

								                HEAP32[$851>>2] = $847;

								                $852 = ((($847)) + 24|0);

								                HEAP32[$852>>2] = $$3$i$i;

								                break;

								               }

								              }

								             } while(0);

								             $853 = (($744) + ($768)|0);

								             $854 = (($768) + ($749))|0;

								             $$0$i17$i = $853;$$0287$i$i = $854;

								            } else {

								             $$0$i17$i = $744;$$0287$i$i = $749;

								            }

								            $855 = ((($$0$i17$i)) + 4|0);

								            $856 = HEAP32[$855>>2]|0;

								            $857 = $856 & -2;

								            HEAP32[$855>>2] = $857;

								            $858 = $$0287$i$i | 1;

								            $859 = ((($748)) + 4|0);

								            HEAP32[$859>>2] = $858;

								            $860 = (($748) + ($$0287$i$i)|0);

								            HEAP32[$860>>2] = $$0287$i$i;

								            $861 = $$0287$i$i >>> 3;

								            $862 = ($$0287$i$i>>>0)<(256);

								            if ($862) {

								             $863 = $861 << 1;

								             $864 = (35536 + ($863<<2)|0);

								             $865 = HEAP32[8874]|0;

								             $866 = 1 << $861;

								             $867 = $865 & $866;

								             $868 = ($867|0)==(0);

								             do {

								              if ($868) {

								               $869 = $865 | $866;

								               HEAP32[8874] = $869;

								               $$pre$i$i = ((($864)) + 8|0);

								               $$0295$i$i = $864;$$pre$phi$i$iZ2D = $$pre$i$i;

								              } else {

								               $870 = ((($864)) + 8|0);

								               $871 = HEAP32[$870>>2]|0;

								               $872 = HEAP32[(35512)>>2]|0;

								               $873 = ($871>>>0)<($872>>>0);

								               if (!($873)) {

								                $$0295$i$i = $871;$$pre$phi$i$iZ2D = $870;

								                break;

								               }

								               _abort();

								               // unreachable;

								              }

								             } while(0);

								             HEAP32[$$pre$phi$i$iZ2D>>2] = $748;

								             $874 = ((($$0295$i$i)) + 12|0);

								             HEAP32[$874>>2] = $748;

								             $875 = ((($748)) + 8|0);

								             HEAP32[$875>>2] = $$0295$i$i;

								             $876 = ((($748)) + 12|0);

								             HEAP32[$876>>2] = $864;

								             break;

								            }

								            $877 = $$0287$i$i >>> 8;

								            $878 = ($877|0)==(0);

								            do {

								             if ($878) {

								              $$0296$i$i = 0;

								             } else {

								              $879 = ($$0287$i$i>>>0)>(16777215);

								              if ($879) {

								               $$0296$i$i = 31;

								               break;

								              }

								              $880 = (($877) + 1048320)|0;

								              $881 = $880 >>> 16;

								              $882 = $881 & 8;

								              $883 = $877 << $882;

								              $884 = (($883) + 520192)|0;

								              $885 = $884 >>> 16;

								              $886 = $885 & 4;

								              $887 = $886 | $882;

								              $888 = $883 << $886;

								              $889 = (($888) + 245760)|0;

								              $890 = $889 >>> 16;

								              $891 = $890 & 2;

								              $892 = $887 | $891;

								              $893 = (14 - ($892))|0;

								              $894 = $888 << $891;

								              $895 = $894 >>> 15;

								              $896 = (($893) + ($895))|0;

								              $897 = $896 << 1;

								              $898 = (($896) + 7)|0;

								              $899 = $$0287$i$i >>> $898;

								              $900 = $899 & 1;

								              $901 = $900 | $897;

								              $$0296$i$i = $901;

								             }

								            } while(0);

								            $902 = (35800 + ($$0296$i$i<<2)|0);

								            $903 = ((($748)) + 28|0);

								            HEAP32[$903>>2] = $$0296$i$i;

								            $904 = ((($748)) + 16|0);

								            $905 = ((($904)) + 4|0);

								            HEAP32[$905>>2] = 0;

								            HEAP32[$904>>2] = 0;

								            $906 = HEAP32[(35500)>>2]|0;

								            $907 = 1 << $$0296$i$i;

								            $908 = $906 & $907;

								            $909 = ($908|0)==(0);

								            if ($909) {

								             $910 = $906 | $907;

								             HEAP32[(35500)>>2] = $910;

								             HEAP32[$902>>2] = $748;

								             $911 = ((($748)) + 24|0);

								             HEAP32[$911>>2] = $902;

								             $912 = ((($748)) + 12|0);

								             HEAP32[$912>>2] = $748;

								             $913 = ((($748)) + 8|0);

								             HEAP32[$913>>2] = $748;

								             break;

								            }

								            $914 = HEAP32[$902>>2]|0;

								            $915 = ($$0296$i$i|0)==(31);

								            $916 = $$0296$i$i >>> 1;

								            $917 = (25 - ($916))|0;

								            $918 = $915 ? 0 : $917;

								            $919 = $$0287$i$i << $918;

								            $$0288$i$i = $919;$$0289$i$i = $914;

								            while(1) {

								             $920 = ((($$0289$i$i)) + 4|0);

								             $921 = HEAP32[$920>>2]|0;

								             $922 = $921 & -8;

								             $923 = ($922|0)==($$0287$i$i|0);

								             if ($923) {

								              label = 280;

								              break;

								             }

								             $924 = $$0288$i$i >>> 31;

								             $925 = (((($$0289$i$i)) + 16|0) + ($924<<2)|0);

								             $926 = $$0288$i$i << 1;

								             $927 = HEAP32[$925>>2]|0;

								             $928 = ($927|0)==(0|0);

								             if ($928) {

								              label = 277;

								              break;

								             } else {

								              $$0288$i$i = $926;$$0289$i$i = $927;

								             }

								            }

								            if ((label|0) == 277) {

								             $929 = HEAP32[(35512)>>2]|0;

								             $930 = ($925>>>0)<($929>>>0);

								             if ($930) {

								              _abort();

								              // unreachable;

								             } else {

								              HEAP32[$925>>2] = $748;

								              $931 = ((($748)) + 24|0);

								              HEAP32[$931>>2] = $$0289$i$i;

								              $932 = ((($748)) + 12|0);

								              HEAP32[$932>>2] = $748;

								              $933 = ((($748)) + 8|0);

								              HEAP32[$933>>2] = $748;

								              break;

								             }

								            }

								            else if ((label|0) == 280) {

								             $934 = ((($$0289$i$i)) + 8|0);

								             $935 = HEAP32[$934>>2]|0;

								             $936 = HEAP32[(35512)>>2]|0;

								             $937 = ($935>>>0)>=($936>>>0);

								             $not$7$i$i = ($$0289$i$i>>>0)>=($936>>>0);

								             $938 = $937 & $not$7$i$i;

								             if ($938) {

								              $939 = ((($935)) + 12|0);

								              HEAP32[$939>>2] = $748;

								              HEAP32[$934>>2] = $748;

								              $940 = ((($748)) + 8|0);

								              HEAP32[$940>>2] = $935;

								              $941 = ((($748)) + 12|0);

								              HEAP32[$941>>2] = $$0289$i$i;

								              $942 = ((($748)) + 24|0);

								              HEAP32[$942>>2] = 0;

								              break;

								             } else {

								              _abort();

								              // unreachable;

								             }

								            }

								           }

								          } while(0);

								          $1074 = ((($736)) + 8|0);

								          $$2 = $1074;

								          break L230;

								         }

								        }

								        $$0$i$i$i = (35972);

								        while(1) {

								         $943 = HEAP32[$$0$i$i$i>>2]|0;

								         $944 = ($943>>>0)>($657>>>0);

								         if (!($944)) {

								          $945 = ((($$0$i$i$i)) + 4|0);

								          $946 = HEAP32[$945>>2]|0;

								          $947 = (($943) + ($946)|0);

								          $948 = ($947>>>0)>($657>>>0);

								          if ($948) {

								           break;

								          }

								         }

								         $949 = ((($$0$i$i$i)) + 8|0);

								         $950 = HEAP32[$949>>2]|0;

								         $$0$i$i$i = $950;

								        }

								        $951 = ((($947)) + -47|0);

								        $952 = ((($951)) + 8|0);

								        $953 = $952;

								        $954 = $953 & 7;

								        $955 = ($954|0)==(0);

								        $956 = (0 - ($953))|0;

								        $957 = $956 & 7;

								        $958 = $955 ? 0 : $957;

								        $959 = (($951) + ($958)|0);

								        $960 = ((($657)) + 16|0);

								        $961 = ($959>>>0)<($960>>>0);

								        $962 = $961 ? $657 : $959;

								        $963 = ((($962)) + 8|0);

								        $964 = ((($962)) + 24|0);

								        $965 = (($$7239$i) + -40)|0;

								        $966 = ((($$7$i)) + 8|0);

								        $967 = $966;

								        $968 = $967 & 7;

								        $969 = ($968|0)==(0);

								        $970 = (0 - ($967))|0;

								        $971 = $970 & 7;

								        $972 = $969 ? 0 : $971;

								        $973 = (($$7$i) + ($972)|0);

								        $974 = (($965) - ($972))|0;

								        HEAP32[(35520)>>2] = $973;

								        HEAP32[(35508)>>2] = $974;

								        $975 = $974 | 1;

								        $976 = ((($973)) + 4|0);

								        HEAP32[$976>>2] = $975;

								        $977 = (($973) + ($974)|0);

								        $978 = ((($977)) + 4|0);

								        HEAP32[$978>>2] = 40;

								        $979 = HEAP32[(35460)>>2]|0;

								        HEAP32[(35524)>>2] = $979;

								        $980 = ((($962)) + 4|0);

								        HEAP32[$980>>2] = 27;

								        ;HEAP32[$963>>2]=HEAP32[(35972)>>2]|0;HEAP32[$963+4>>2]=HEAP32[(35972)+4>>2]|0;HEAP32[$963+8>>2]=HEAP32[(35972)+8>>2]|0;HEAP32[$963+12>>2]=HEAP32[(35972)+12>>2]|0;

								        HEAP32[(35972)>>2] = $$7$i;

								        HEAP32[(35976)>>2] = $$7239$i;

								        HEAP32[(35984)>>2] = 0;

								        HEAP32[(35980)>>2] = $963;

								        $982 = $964;

								        while(1) {

								         $981 = ((($982)) + 4|0);

								         HEAP32[$981>>2] = 7;

								         $983 = ((($982)) + 8|0);

								         $984 = ($983>>>0)<($947>>>0);

								         if ($984) {

								          $982 = $981;

								         } else {

								          break;

								         }

								        }

								        $985 = ($962|0)==($657|0);

								        if (!($985)) {

								         $986 = $962;

								         $987 = $657;

								         $988 = (($986) - ($987))|0;

								         $989 = HEAP32[$980>>2]|0;

								         $990 = $989 & -2;

								         HEAP32[$980>>2] = $990;

								         $991 = $988 | 1;

								         $992 = ((($657)) + 4|0);

								         HEAP32[$992>>2] = $991;

								         HEAP32[$962>>2] = $988;

								         $993 = $988 >>> 3;

								         $994 = ($988>>>0)<(256);

								         if ($994) {

								          $995 = $993 << 1;

								          $996 = (35536 + ($995<<2)|0);

								          $997 = HEAP32[8874]|0;

								          $998 = 1 << $993;

								          $999 = $997 & $998;

								          $1000 = ($999|0)==(0);

								          do {

								           if ($1000) {

								            $1001 = $997 | $998;

								            HEAP32[8874] = $1001;

								            $$pre$i18$i = ((($996)) + 8|0);

								            $$0211$i$i = $996;$$pre$phi$i19$iZ2D = $$pre$i18$i;

								           } else {

								            $1002 = ((($996)) + 8|0);

								            $1003 = HEAP32[$1002>>2]|0;

								            $1004 = HEAP32[(35512)>>2]|0;

								            $1005 = ($1003>>>0)<($1004>>>0);

								            if (!($1005)) {

								             $$0211$i$i = $1003;$$pre$phi$i19$iZ2D = $1002;

								             break;

								            }

								            _abort();

								            // unreachable;

								           }

								          } while(0);

								          HEAP32[$$pre$phi$i19$iZ2D>>2] = $657;

								          $1006 = ((($$0211$i$i)) + 12|0);

								          HEAP32[$1006>>2] = $657;

								          $1007 = ((($657)) + 8|0);

								          HEAP32[$1007>>2] = $$0211$i$i;

								          $1008 = ((($657)) + 12|0);

								          HEAP32[$1008>>2] = $996;

								          break;

								         }

								         $1009 = $988 >>> 8;

								         $1010 = ($1009|0)==(0);

								         do {

								          if ($1010) {

								           $$0212$i$i = 0;

								          } else {

								           $1011 = ($988>>>0)>(16777215);

								           if ($1011) {

								            $$0212$i$i = 31;

								            break;

								           }

								           $1012 = (($1009) + 1048320)|0;

								           $1013 = $1012 >>> 16;

								           $1014 = $1013 & 8;

								           $1015 = $1009 << $1014;

								           $1016 = (($1015) + 520192)|0;

								           $1017 = $1016 >>> 16;

								           $1018 = $1017 & 4;

								           $1019 = $1018 | $1014;

								           $1020 = $1015 << $1018;

								           $1021 = (($1020) + 245760)|0;

								           $1022 = $1021 >>> 16;

								           $1023 = $1022 & 2;

								           $1024 = $1019 | $1023;

								           $1025 = (14 - ($1024))|0;

								           $1026 = $1020 << $1023;

								           $1027 = $1026 >>> 15;

								           $1028 = (($1025) + ($1027))|0;

								           $1029 = $1028 << 1;

								           $1030 = (($1028) + 7)|0;

								           $1031 = $988 >>> $1030;

								           $1032 = $1031 & 1;

								           $1033 = $1032 | $1029;

								           $$0212$i$i = $1033;

								          }

								         } while(0);

								         $1034 = (35800 + ($$0212$i$i<<2)|0);

								         $1035 = ((($657)) + 28|0);

								         HEAP32[$1035>>2] = $$0212$i$i;

								         $1036 = ((($657)) + 20|0);

								         HEAP32[$1036>>2] = 0;

								         HEAP32[$960>>2] = 0;

								         $1037 = HEAP32[(35500)>>2]|0;

								         $1038 = 1 << $$0212$i$i;

								         $1039 = $1037 & $1038;

								         $1040 = ($1039|0)==(0);

								         if ($1040) {

								          $1041 = $1037 | $1038;

								          HEAP32[(35500)>>2] = $1041;

								          HEAP32[$1034>>2] = $657;

								          $1042 = ((($657)) + 24|0);

								          HEAP32[$1042>>2] = $1034;

								          $1043 = ((($657)) + 12|0);

								          HEAP32[$1043>>2] = $657;

								          $1044 = ((($657)) + 8|0);

								          HEAP32[$1044>>2] = $657;

								          break;

								         }

								         $1045 = HEAP32[$1034>>2]|0;

								         $1046 = ($$0212$i$i|0)==(31);

								         $1047 = $$0212$i$i >>> 1;

								         $1048 = (25 - ($1047))|0;

								         $1049 = $1046 ? 0 : $1048;

								         $1050 = $988 << $1049;

								         $$0206$i$i = $1050;$$0207$i$i = $1045;

								         while(1) {

								          $1051 = ((($$0207$i$i)) + 4|0);

								          $1052 = HEAP32[$1051>>2]|0;

								          $1053 = $1052 & -8;

								          $1054 = ($1053|0)==($988|0);

								          if ($1054) {

								           label = 307;

								           break;

								          }

								          $1055 = $$0206$i$i >>> 31;

								          $1056 = (((($$0207$i$i)) + 16|0) + ($1055<<2)|0);

								          $1057 = $$0206$i$i << 1;

								          $1058 = HEAP32[$1056>>2]|0;

								          $1059 = ($1058|0)==(0|0);

								          if ($1059) {

								           label = 304;

								           break;

								          } else {

								           $$0206$i$i = $1057;$$0207$i$i = $1058;

								          }

								         }

								         if ((label|0) == 304) {

								          $1060 = HEAP32[(35512)>>2]|0;

								          $1061 = ($1056>>>0)<($1060>>>0);

								          if ($1061) {

								           _abort();

								           // unreachable;

								          } else {

								           HEAP32[$1056>>2] = $657;

								           $1062 = ((($657)) + 24|0);

								           HEAP32[$1062>>2] = $$0207$i$i;

								           $1063 = ((($657)) + 12|0);

								           HEAP32[$1063>>2] = $657;

								           $1064 = ((($657)) + 8|0);

								           HEAP32[$1064>>2] = $657;

								           break;

								          }

								         }

								         else if ((label|0) == 307) {

								          $1065 = ((($$0207$i$i)) + 8|0);

								          $1066 = HEAP32[$1065>>2]|0;

								          $1067 = HEAP32[(35512)>>2]|0;

								          $1068 = ($1066>>>0)>=($1067>>>0);

								          $not$$i21$i = ($$0207$i$i>>>0)>=($1067>>>0);

								          $1069 = $1068 & $not$$i21$i;

								          if ($1069) {

								           $1070 = ((($1066)) + 12|0);

								           HEAP32[$1070>>2] = $657;

								           HEAP32[$1065>>2] = $657;

								           $1071 = ((($657)) + 8|0);

								           HEAP32[$1071>>2] = $1066;

								           $1072 = ((($657)) + 12|0);

								           HEAP32[$1072>>2] = $$0207$i$i;

								           $1073 = ((($657)) + 24|0);

								           HEAP32[$1073>>2] = 0;

								           break;

								          } else {

								           _abort();

								           // unreachable;

								          }

								         }

								        }

								       }

								      } while(0);

								      $1075 = HEAP32[(35508)>>2]|0;

								      $1076 = ($1075>>>0)>($$0198>>>0);

								      if ($1076) {

								       $1077 = (($1075) - ($$0198))|0;

								       HEAP32[(35508)>>2] = $1077;

								       $1078 = HEAP32[(35520)>>2]|0;

								       $1079 = (($1078) + ($$0198)|0);

								       HEAP32[(35520)>>2] = $1079;

								       $1080 = $1077 | 1;

								       $1081 = ((($1079)) + 4|0);

								       HEAP32[$1081>>2] = $1080;

								       $1082 = $$0198 | 3;

								       $1083 = ((($1078)) + 4|0);

								       HEAP32[$1083>>2] = $1082;

								       $1084 = ((($1078)) + 8|0);

								       $$2 = $1084;

								       break;

								      }

								     }

								    }

								    $1085 = (___errno_location()|0);

								    HEAP32[$1085>>2] = 12;

								    $$2 = 0;

								   } else {

								    $$2 = 0;

								   }

								  }

								 } while(0);

								 $1086 = HEAP32[(35940)>>2]|0;

								 $1087 = $1086 & 2;

								 $1088 = ($1087|0)==(0);

								 if ($1088) {

								  $$1 = $$2;

								  STACKTOP = sp;return ($$1|0);

								 }

								 (___pthread_mutex_unlock((35944))|0);

								 $$1 = $$2;

								 STACKTOP = sp;return ($$1|0);

								}

								function _free($0) {

								 $0 = $0|0;

								 var $$0212$i = 0, $$0212$in$i = 0, $$0383 = 0, $$0384 = 0, $$0396 = 0, $$0403 = 0, $$1 = 0, $$1382 = 0, $$1387 = 0, $$1390 = 0, $$1398 = 0, $$1402 = 0, $$2 = 0, $$3 = 0, $$3400 = 0, $$pre = 0, $$pre$phi443Z2D = 0, $$pre$phi445Z2D = 0, $$pre$phiZ2D = 0, $$pre442 = 0;

								 var $$pre444 = 0, $$sink3 = 0, $$sink5 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0;

								 var $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0;

								 var $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0;

								 var $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0;

								 var $169 = 0, $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0;

								 var $187 = 0, $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0;

								 var $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0;

								 var $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0;

								 var $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0;

								 var $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0;

								 var $277 = 0, $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0;

								 var $295 = 0, $296 = 0, $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0;

								 var $312 = 0, $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0;

								 var $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0;

								 var $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0;

								 var $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0;

								 var $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $cond421 = 0, $cond422 = 0, $not$ = 0, $not$405 = 0, $not$437 = 0, label = 0, sp = 0;

								 sp = STACKTOP;

								 $1 = ($0|0)==(0|0);

								 if ($1) {

								  return;

								 }

								 $2 = ((($0)) + -8|0);

								 $3 = HEAP32[(35940)>>2]|0;

								 $4 = $3 & 2;

								 $5 = ($4|0)==(0);

								 if (!($5)) {

								  $6 = (___pthread_mutex_lock((35944))|0);

								  $7 = ($6|0)==(0);

								  if (!($7)) {

								   return;

								  }

								 }

								 $8 = HEAP32[(35512)>>2]|0;

								 $9 = ($2>>>0)<($8>>>0);

								 if ($9) {

								  _abort();

								  // unreachable;

								 }

								 $10 = ((($0)) + -4|0);

								 $11 = HEAP32[$10>>2]|0;

								 $12 = $11 & 3;

								 $13 = ($12|0)==(1);

								 if ($13) {

								  _abort();

								  // unreachable;

								 }

								 $14 = $11 & -8;

								 $15 = (($2) + ($14)|0);

								 $16 = $11 & 1;

								 $17 = ($16|0)==(0);

								 L14: do {

								  if ($17) {

								   $18 = HEAP32[$2>>2]|0;

								   $19 = ($12|0)==(0);

								   if (!($19)) {

								    $20 = (0 - ($18))|0;

								    $21 = (($2) + ($20)|0);

								    $22 = (($18) + ($14))|0;

								    $23 = ($21>>>0)<($8>>>0);

								    if ($23) {

								     _abort();

								     // unreachable;

								    }

								    $24 = HEAP32[(35516)>>2]|0;

								    $25 = ($21|0)==($24|0);

								    if ($25) {

								     $109 = ((($15)) + 4|0);

								     $110 = HEAP32[$109>>2]|0;

								     $111 = $110 & 3;

								     $112 = ($111|0)==(3);

								     if (!($112)) {

								      $$1 = $21;$$1382 = $22;$118 = $21;

								      label = 55;

								      break;

								     }

								     $113 = (($21) + ($22)|0);

								     $114 = ((($21)) + 4|0);

								     $115 = $22 | 1;

								     $116 = $110 & -2;

								     HEAP32[(35504)>>2] = $22;

								     HEAP32[$109>>2] = $116;

								     HEAP32[$114>>2] = $115;

								     HEAP32[$113>>2] = $22;

								     break;

								    }

								    $26 = $18 >>> 3;

								    $27 = ($18>>>0)<(256);

								    if ($27) {

								     $28 = ((($21)) + 8|0);

								     $29 = HEAP32[$28>>2]|0;

								     $30 = ((($21)) + 12|0);

								     $31 = HEAP32[$30>>2]|0;

								     $32 = $26 << 1;

								     $33 = (35536 + ($32<<2)|0);

								     $34 = ($29|0)==($33|0);

								     if (!($34)) {

								      $35 = ($29>>>0)<($8>>>0);

								      if ($35) {

								       _abort();

								       // unreachable;

								      }

								      $36 = ((($29)) + 12|0);

								      $37 = HEAP32[$36>>2]|0;

								      $38 = ($37|0)==($21|0);

								      if (!($38)) {

								       _abort();

								       // unreachable;

								      }

								     }

								     $39 = ($31|0)==($29|0);

								     if ($39) {

								      $40 = 1 << $26;

								      $41 = $40 ^ -1;

								      $42 = HEAP32[8874]|0;

								      $43 = $42 & $41;

								      HEAP32[8874] = $43;

								      $$1 = $21;$$1382 = $22;$118 = $21;

								      label = 55;

								      break;

								     }

								     $44 = ($31|0)==($33|0);

								     if ($44) {

								      $$pre444 = ((($31)) + 8|0);

								      $$pre$phi445Z2D = $$pre444;

								     } else {

								      $45 = ($31>>>0)<($8>>>0);

								      if ($45) {

								       _abort();

								       // unreachable;

								      }

								      $46 = ((($31)) + 8|0);

								      $47 = HEAP32[$46>>2]|0;

								      $48 = ($47|0)==($21|0);

								      if ($48) {

								       $$pre$phi445Z2D = $46;

								      } else {

								       _abort();

								       // unreachable;

								      }

								     }

								     $49 = ((($29)) + 12|0);

								     HEAP32[$49>>2] = $31;

								     HEAP32[$$pre$phi445Z2D>>2] = $29;

								     $$1 = $21;$$1382 = $22;$118 = $21;

								     label = 55;

								     break;

								    }

								    $50 = ((($21)) + 24|0);

								    $51 = HEAP32[$50>>2]|0;

								    $52 = ((($21)) + 12|0);

								    $53 = HEAP32[$52>>2]|0;

								    $54 = ($53|0)==($21|0);

								    do {

								     if ($54) {

								      $64 = ((($21)) + 16|0);

								      $65 = ((($64)) + 4|0);

								      $66 = HEAP32[$65>>2]|0;

								      $67 = ($66|0)==(0|0);

								      if ($67) {

								       $68 = HEAP32[$64>>2]|0;

								       $69 = ($68|0)==(0|0);

								       if ($69) {

								        $$3 = 0;

								        break;

								       } else {

								        $$1387 = $68;$$1390 = $64;

								       }

								      } else {

								       $$1387 = $66;$$1390 = $65;

								      }

								      while(1) {

								       $70 = ((($$1387)) + 20|0);

								       $71 = HEAP32[$70>>2]|0;

								       $72 = ($71|0)==(0|0);

								       if (!($72)) {

								        $$1387 = $71;$$1390 = $70;

								        continue;

								       }

								       $73 = ((($$1387)) + 16|0);

								       $74 = HEAP32[$73>>2]|0;

								       $75 = ($74|0)==(0|0);

								       if ($75) {

								        break;

								       } else {

								        $$1387 = $74;$$1390 = $73;

								       }

								      }

								      $76 = ($$1390>>>0)<($8>>>0);

								      if ($76) {

								       _abort();

								       // unreachable;

								      } else {

								       HEAP32[$$1390>>2] = 0;

								       $$3 = $$1387;

								       break;

								      }

								     } else {

								      $55 = ((($21)) + 8|0);

								      $56 = HEAP32[$55>>2]|0;

								      $57 = ($56>>>0)<($8>>>0);

								      if ($57) {

								       _abort();

								       // unreachable;

								      }

								      $58 = ((($56)) + 12|0);

								      $59 = HEAP32[$58>>2]|0;

								      $60 = ($59|0)==($21|0);

								      if (!($60)) {

								       _abort();

								       // unreachable;

								      }

								      $61 = ((($53)) + 8|0);

								      $62 = HEAP32[$61>>2]|0;

								      $63 = ($62|0)==($21|0);

								      if ($63) {

								       HEAP32[$58>>2] = $53;

								       HEAP32[$61>>2] = $56;

								       $$3 = $53;

								       break;

								      } else {

								       _abort();

								       // unreachable;

								      }

								     }

								    } while(0);

								    $77 = ($51|0)==(0|0);

								    if ($77) {

								     $$1 = $21;$$1382 = $22;$118 = $21;

								     label = 55;

								    } else {

								     $78 = ((($21)) + 28|0);

								     $79 = HEAP32[$78>>2]|0;

								     $80 = (35800 + ($79<<2)|0);

								     $81 = HEAP32[$80>>2]|0;

								     $82 = ($21|0)==($81|0);

								     do {

								      if ($82) {

								       HEAP32[$80>>2] = $$3;

								       $cond421 = ($$3|0)==(0|0);

								       if ($cond421) {

								        $83 = 1 << $79;

								        $84 = $83 ^ -1;

								        $85 = HEAP32[(35500)>>2]|0;

								        $86 = $85 & $84;

								        HEAP32[(35500)>>2] = $86;

								        $$1 = $21;$$1382 = $22;$118 = $21;

								        label = 55;

								        break L14;

								       }

								      } else {

								       $87 = HEAP32[(35512)>>2]|0;

								       $88 = ($51>>>0)<($87>>>0);

								       if ($88) {

								        _abort();

								        // unreachable;

								       } else {

								        $89 = ((($51)) + 16|0);

								        $90 = HEAP32[$89>>2]|0;

								        $not$405 = ($90|0)!=($21|0);

								        $$sink3 = $not$405&1;

								        $91 = (((($51)) + 16|0) + ($$sink3<<2)|0);

								        HEAP32[$91>>2] = $$3;

								        $92 = ($$3|0)==(0|0);

								        if ($92) {

								         $$1 = $21;$$1382 = $22;$118 = $21;

								         label = 55;

								         break L14;

								        } else {

								         break;

								        }

								       }

								      }

								     } while(0);

								     $93 = HEAP32[(35512)>>2]|0;

								     $94 = ($$3>>>0)<($93>>>0);

								     if ($94) {

								      _abort();

								      // unreachable;

								     }

								     $95 = ((($$3)) + 24|0);

								     HEAP32[$95>>2] = $51;

								     $96 = ((($21)) + 16|0);

								     $97 = HEAP32[$96>>2]|0;

								     $98 = ($97|0)==(0|0);

								     do {

								      if (!($98)) {

								       $99 = ($97>>>0)<($93>>>0);

								       if ($99) {

								        _abort();

								        // unreachable;

								       } else {

								        $100 = ((($$3)) + 16|0);

								        HEAP32[$100>>2] = $97;

								        $101 = ((($97)) + 24|0);

								        HEAP32[$101>>2] = $$3;

								        break;

								       }

								      }

								     } while(0);

								     $102 = ((($96)) + 4|0);

								     $103 = HEAP32[$102>>2]|0;

								     $104 = ($103|0)==(0|0);

								     if ($104) {

								      $$1 = $21;$$1382 = $22;$118 = $21;

								      label = 55;

								     } else {

								      $105 = HEAP32[(35512)>>2]|0;

								      $106 = ($103>>>0)<($105>>>0);

								      if ($106) {

								       _abort();

								       // unreachable;

								      } else {

								       $107 = ((($$3)) + 20|0);

								       HEAP32[$107>>2] = $103;

								       $108 = ((($103)) + 24|0);

								       HEAP32[$108>>2] = $$3;

								       $$1 = $21;$$1382 = $22;$118 = $21;

								       label = 55;

								       break;

								      }

								     }

								    }

								   }

								  } else {

								   $$1 = $2;$$1382 = $14;$118 = $2;

								   label = 55;

								  }

								 } while(0);

								 do {

								  if ((label|0) == 55) {

								   $117 = ($118>>>0)<($15>>>0);

								   if (!($117)) {

								    _abort();

								    // unreachable;

								   }

								   $119 = ((($15)) + 4|0);

								   $120 = HEAP32[$119>>2]|0;

								   $121 = $120 & 1;

								   $122 = ($121|0)==(0);

								   if ($122) {

								    _abort();

								    // unreachable;

								   }

								   $123 = $120 & 2;

								   $124 = ($123|0)==(0);

								   if ($124) {

								    $125 = HEAP32[(35520)>>2]|0;

								    $126 = ($15|0)==($125|0);

								    $127 = HEAP32[(35516)>>2]|0;

								    if ($126) {

								     $128 = HEAP32[(35508)>>2]|0;

								     $129 = (($128) + ($$1382))|0;

								     HEAP32[(35508)>>2] = $129;

								     HEAP32[(35520)>>2] = $$1;

								     $130 = $129 | 1;

								     $131 = ((($$1)) + 4|0);

								     HEAP32[$131>>2] = $130;

								     $132 = ($$1|0)==($127|0);

								     if (!($132)) {

								      break;

								     }

								     HEAP32[(35516)>>2] = 0;

								     HEAP32[(35504)>>2] = 0;

								     break;

								    }

								    $133 = ($15|0)==($127|0);

								    if ($133) {

								     $134 = HEAP32[(35504)>>2]|0;

								     $135 = (($134) + ($$1382))|0;

								     HEAP32[(35504)>>2] = $135;

								     HEAP32[(35516)>>2] = $118;

								     $136 = $135 | 1;

								     $137 = ((($$1)) + 4|0);

								     HEAP32[$137>>2] = $136;

								     $138 = (($118) + ($135)|0);

								     HEAP32[$138>>2] = $135;

								     break;

								    }

								    $139 = $120 & -8;

								    $140 = (($139) + ($$1382))|0;

								    $141 = $120 >>> 3;

								    $142 = ($120>>>0)<(256);

								    L106: do {

								     if ($142) {

								      $143 = ((($15)) + 8|0);

								      $144 = HEAP32[$143>>2]|0;

								      $145 = ((($15)) + 12|0);

								      $146 = HEAP32[$145>>2]|0;

								      $147 = $141 << 1;

								      $148 = (35536 + ($147<<2)|0);

								      $149 = ($144|0)==($148|0);

								      if (!($149)) {

								       $150 = HEAP32[(35512)>>2]|0;

								       $151 = ($144>>>0)<($150>>>0);

								       if ($151) {

								        _abort();

								        // unreachable;

								       }

								       $152 = ((($144)) + 12|0);

								       $153 = HEAP32[$152>>2]|0;

								       $154 = ($153|0)==($15|0);

								       if (!($154)) {

								        _abort();

								        // unreachable;

								       }

								      }

								      $155 = ($146|0)==($144|0);

								      if ($155) {

								       $156 = 1 << $141;

								       $157 = $156 ^ -1;

								       $158 = HEAP32[8874]|0;

								       $159 = $158 & $157;

								       HEAP32[8874] = $159;

								       break;

								      }

								      $160 = ($146|0)==($148|0);

								      if ($160) {

								       $$pre442 = ((($146)) + 8|0);

								       $$pre$phi443Z2D = $$pre442;

								      } else {

								       $161 = HEAP32[(35512)>>2]|0;

								       $162 = ($146>>>0)<($161>>>0);

								       if ($162) {

								        _abort();

								        // unreachable;

								       }

								       $163 = ((($146)) + 8|0);

								       $164 = HEAP32[$163>>2]|0;

								       $165 = ($164|0)==($15|0);

								       if ($165) {

								        $$pre$phi443Z2D = $163;

								       } else {

								        _abort();

								        // unreachable;

								       }

								      }

								      $166 = ((($144)) + 12|0);

								      HEAP32[$166>>2] = $146;

								      HEAP32[$$pre$phi443Z2D>>2] = $144;

								     } else {

								      $167 = ((($15)) + 24|0);

								      $168 = HEAP32[$167>>2]|0;

								      $169 = ((($15)) + 12|0);

								      $170 = HEAP32[$169>>2]|0;

								      $171 = ($170|0)==($15|0);

								      do {

								       if ($171) {

								        $182 = ((($15)) + 16|0);

								        $183 = ((($182)) + 4|0);

								        $184 = HEAP32[$183>>2]|0;

								        $185 = ($184|0)==(0|0);

								        if ($185) {

								         $186 = HEAP32[$182>>2]|0;

								         $187 = ($186|0)==(0|0);

								         if ($187) {

								          $$3400 = 0;

								          break;

								         } else {

								          $$1398 = $186;$$1402 = $182;

								         }

								        } else {

								         $$1398 = $184;$$1402 = $183;

								        }

								        while(1) {

								         $188 = ((($$1398)) + 20|0);

								         $189 = HEAP32[$188>>2]|0;

								         $190 = ($189|0)==(0|0);

								         if (!($190)) {

								          $$1398 = $189;$$1402 = $188;

								          continue;

								         }

								         $191 = ((($$1398)) + 16|0);

								         $192 = HEAP32[$191>>2]|0;

								         $193 = ($192|0)==(0|0);

								         if ($193) {

								          break;

								         } else {

								          $$1398 = $192;$$1402 = $191;

								         }

								        }

								        $194 = HEAP32[(35512)>>2]|0;

								        $195 = ($$1402>>>0)<($194>>>0);

								        if ($195) {

								         _abort();

								         // unreachable;

								        } else {

								         HEAP32[$$1402>>2] = 0;

								         $$3400 = $$1398;

								         break;

								        }

								       } else {

								        $172 = ((($15)) + 8|0);

								        $173 = HEAP32[$172>>2]|0;

								        $174 = HEAP32[(35512)>>2]|0;

								        $175 = ($173>>>0)<($174>>>0);

								        if ($175) {

								         _abort();

								         // unreachable;

								        }

								        $176 = ((($173)) + 12|0);

								        $177 = HEAP32[$176>>2]|0;

								        $178 = ($177|0)==($15|0);

								        if (!($178)) {

								         _abort();

								         // unreachable;

								        }

								        $179 = ((($170)) + 8|0);

								        $180 = HEAP32[$179>>2]|0;

								        $181 = ($180|0)==($15|0);

								        if ($181) {

								         HEAP32[$176>>2] = $170;

								         HEAP32[$179>>2] = $173;

								         $$3400 = $170;

								         break;

								        } else {

								         _abort();

								         // unreachable;

								        }

								       }

								      } while(0);

								      $196 = ($168|0)==(0|0);

								      if (!($196)) {

								       $197 = ((($15)) + 28|0);

								       $198 = HEAP32[$197>>2]|0;

								       $199 = (35800 + ($198<<2)|0);

								       $200 = HEAP32[$199>>2]|0;

								       $201 = ($15|0)==($200|0);

								       do {

								        if ($201) {

								         HEAP32[$199>>2] = $$3400;

								         $cond422 = ($$3400|0)==(0|0);

								         if ($cond422) {

								          $202 = 1 << $198;

								          $203 = $202 ^ -1;

								          $204 = HEAP32[(35500)>>2]|0;

								          $205 = $204 & $203;

								          HEAP32[(35500)>>2] = $205;

								          break L106;

								         }

								        } else {

								         $206 = HEAP32[(35512)>>2]|0;

								         $207 = ($168>>>0)<($206>>>0);

								         if ($207) {

								          _abort();

								          // unreachable;

								         } else {

								          $208 = ((($168)) + 16|0);

								          $209 = HEAP32[$208>>2]|0;

								          $not$ = ($209|0)!=($15|0);

								          $$sink5 = $not$&1;

								          $210 = (((($168)) + 16|0) + ($$sink5<<2)|0);

								          HEAP32[$210>>2] = $$3400;

								          $211 = ($$3400|0)==(0|0);

								          if ($211) {

								           break L106;

								          } else {

								           break;

								          }

								         }

								        }

								       } while(0);

								       $212 = HEAP32[(35512)>>2]|0;

								       $213 = ($$3400>>>0)<($212>>>0);

								       if ($213) {

								        _abort();

								        // unreachable;

								       }

								       $214 = ((($$3400)) + 24|0);

								       HEAP32[$214>>2] = $168;

								       $215 = ((($15)) + 16|0);

								       $216 = HEAP32[$215>>2]|0;

								       $217 = ($216|0)==(0|0);

								       do {

								        if (!($217)) {

								         $218 = ($216>>>0)<($212>>>0);

								         if ($218) {

								          _abort();

								          // unreachable;

								         } else {

								          $219 = ((($$3400)) + 16|0);

								          HEAP32[$219>>2] = $216;

								          $220 = ((($216)) + 24|0);

								          HEAP32[$220>>2] = $$3400;

								          break;

								         }

								        }

								       } while(0);

								       $221 = ((($215)) + 4|0);

								       $222 = HEAP32[$221>>2]|0;

								       $223 = ($222|0)==(0|0);

								       if (!($223)) {

								        $224 = HEAP32[(35512)>>2]|0;

								        $225 = ($222>>>0)<($224>>>0);

								        if ($225) {

								         _abort();

								         // unreachable;

								        } else {

								         $226 = ((($$3400)) + 20|0);

								         HEAP32[$226>>2] = $222;

								         $227 = ((($222)) + 24|0);

								         HEAP32[$227>>2] = $$3400;

								         break;

								        }

								       }

								      }

								     }

								    } while(0);

								    $228 = $140 | 1;

								    $229 = ((($$1)) + 4|0);

								    HEAP32[$229>>2] = $228;

								    $230 = (($118) + ($140)|0);

								    HEAP32[$230>>2] = $140;

								    $231 = HEAP32[(35516)>>2]|0;

								    $232 = ($$1|0)==($231|0);

								    if ($232) {

								     HEAP32[(35504)>>2] = $140;

								     break;

								    } else {

								     $$2 = $140;

								    }

								   } else {

								    $233 = $120 & -2;

								    HEAP32[$119>>2] = $233;

								    $234 = $$1382 | 1;

								    $235 = ((($$1)) + 4|0);

								    HEAP32[$235>>2] = $234;

								    $236 = (($118) + ($$1382)|0);

								    HEAP32[$236>>2] = $$1382;

								    $$2 = $$1382;

								   }

								   $237 = $$2 >>> 3;

								   $238 = ($$2>>>0)<(256);

								   if ($238) {

								    $239 = $237 << 1;

								    $240 = (35536 + ($239<<2)|0);

								    $241 = HEAP32[8874]|0;

								    $242 = 1 << $237;

								    $243 = $241 & $242;

								    $244 = ($243|0)==(0);

								    if ($244) {

								     $245 = $241 | $242;

								     HEAP32[8874] = $245;

								     $$pre = ((($240)) + 8|0);

								     $$0403 = $240;$$pre$phiZ2D = $$pre;

								    } else {

								     $246 = ((($240)) + 8|0);

								     $247 = HEAP32[$246>>2]|0;

								     $248 = HEAP32[(35512)>>2]|0;

								     $249 = ($247>>>0)<($248>>>0);

								     if ($249) {

								      _abort();

								      // unreachable;

								     } else {

								      $$0403 = $247;$$pre$phiZ2D = $246;

								     }

								    }

								    HEAP32[$$pre$phiZ2D>>2] = $$1;

								    $250 = ((($$0403)) + 12|0);

								    HEAP32[$250>>2] = $$1;

								    $251 = ((($$1)) + 8|0);

								    HEAP32[$251>>2] = $$0403;

								    $252 = ((($$1)) + 12|0);

								    HEAP32[$252>>2] = $240;

								    break;

								   }

								   $253 = $$2 >>> 8;

								   $254 = ($253|0)==(0);

								   if ($254) {

								    $$0396 = 0;

								   } else {

								    $255 = ($$2>>>0)>(16777215);

								    if ($255) {

								     $$0396 = 31;

								    } else {

								     $256 = (($253) + 1048320)|0;

								     $257 = $256 >>> 16;

								     $258 = $257 & 8;

								     $259 = $253 << $258;

								     $260 = (($259) + 520192)|0;

								     $261 = $260 >>> 16;

								     $262 = $261 & 4;

								     $263 = $262 | $258;

								     $264 = $259 << $262;

								     $265 = (($264) + 245760)|0;

								     $266 = $265 >>> 16;

								     $267 = $266 & 2;

								     $268 = $263 | $267;

								     $269 = (14 - ($268))|0;

								     $270 = $264 << $267;

								     $271 = $270 >>> 15;

								     $272 = (($269) + ($271))|0;

								     $273 = $272 << 1;

								     $274 = (($272) + 7)|0;

								     $275 = $$2 >>> $274;

								     $276 = $275 & 1;

								     $277 = $276 | $273;

								     $$0396 = $277;

								    }

								   }

								   $278 = (35800 + ($$0396<<2)|0);

								   $279 = ((($$1)) + 28|0);

								   HEAP32[$279>>2] = $$0396;

								   $280 = ((($$1)) + 16|0);

								   $281 = ((($$1)) + 20|0);

								   HEAP32[$281>>2] = 0;

								   HEAP32[$280>>2] = 0;

								   $282 = HEAP32[(35500)>>2]|0;

								   $283 = 1 << $$0396;

								   $284 = $282 & $283;

								   $285 = ($284|0)==(0);

								   do {

								    if ($285) {

								     $286 = $282 | $283;

								     HEAP32[(35500)>>2] = $286;

								     HEAP32[$278>>2] = $$1;

								     $287 = ((($$1)) + 24|0);

								     HEAP32[$287>>2] = $278;

								     $288 = ((($$1)) + 12|0);

								     HEAP32[$288>>2] = $$1;

								     $289 = ((($$1)) + 8|0);

								     HEAP32[$289>>2] = $$1;

								    } else {

								     $290 = HEAP32[$278>>2]|0;

								     $291 = ($$0396|0)==(31);

								     $292 = $$0396 >>> 1;

								     $293 = (25 - ($292))|0;

								     $294 = $291 ? 0 : $293;

								     $295 = $$2 << $294;

								     $$0383 = $295;$$0384 = $290;

								     while(1) {

								      $296 = ((($$0384)) + 4|0);

								      $297 = HEAP32[$296>>2]|0;

								      $298 = $297 & -8;

								      $299 = ($298|0)==($$2|0);

								      if ($299) {

								       label = 126;

								       break;

								      }

								      $300 = $$0383 >>> 31;

								      $301 = (((($$0384)) + 16|0) + ($300<<2)|0);

								      $302 = $$0383 << 1;

								      $303 = HEAP32[$301>>2]|0;

								      $304 = ($303|0)==(0|0);

								      if ($304) {

								       label = 123;

								       break;

								      } else {

								       $$0383 = $302;$$0384 = $303;

								      }

								     }

								     if ((label|0) == 123) {

								      $305 = HEAP32[(35512)>>2]|0;

								      $306 = ($301>>>0)<($305>>>0);

								      if ($306) {

								       _abort();

								       // unreachable;

								      } else {

								       HEAP32[$301>>2] = $$1;

								       $307 = ((($$1)) + 24|0);

								       HEAP32[$307>>2] = $$0384;

								       $308 = ((($$1)) + 12|0);

								       HEAP32[$308>>2] = $$1;

								       $309 = ((($$1)) + 8|0);

								       HEAP32[$309>>2] = $$1;

								       break;

								      }

								     }

								     else if ((label|0) == 126) {

								      $310 = ((($$0384)) + 8|0);

								      $311 = HEAP32[$310>>2]|0;

								      $312 = HEAP32[(35512)>>2]|0;

								      $313 = ($311>>>0)>=($312>>>0);

								      $not$437 = ($$0384>>>0)>=($312>>>0);

								      $314 = $313 & $not$437;

								      if ($314) {

								       $315 = ((($311)) + 12|0);

								       HEAP32[$315>>2] = $$1;

								       HEAP32[$310>>2] = $$1;

								       $316 = ((($$1)) + 8|0);

								       HEAP32[$316>>2] = $311;

								       $317 = ((($$1)) + 12|0);

								       HEAP32[$317>>2] = $$0384;

								       $318 = ((($$1)) + 24|0);

								       HEAP32[$318>>2] = 0;

								       break;

								      } else {

								       _abort();

								       // unreachable;

								      }

								     }

								    }

								   } while(0);

								   $319 = HEAP32[(35528)>>2]|0;

								   $320 = (($319) + -1)|0;

								   HEAP32[(35528)>>2] = $320;

								   $321 = ($320|0)==(0);

								   if ($321) {

								    $$0212$in$i = (35980);

								    while(1) {

								     $$0212$i = HEAP32[$$0212$in$i>>2]|0;

								     $322 = ($$0212$i|0)==(0|0);

								     $323 = ((($$0212$i)) + 8|0);

								     if ($322) {

								      break;

								     } else {

								      $$0212$in$i = $323;

								     }

								    }

								    HEAP32[(35528)>>2] = -1;

								   }

								  }

								 } while(0);

								 $324 = HEAP32[(35940)>>2]|0;

								 $325 = $324 & 2;

								 $326 = ($325|0)==(0);

								 if ($326) {

								  return;

								 }

								 (___pthread_mutex_unlock((35944))|0);

								 return;

								}

								function runPostSets() {

								}

								function _memset(ptr, value, num) {

								    ptr = ptr|0; value = value|0; num = num|0;

								    var end = 0, aligned_end = 0, block_aligned_end = 0, value4 = 0;

								    end = (ptr + num)|0;


								    value = value & 0xff;

								    if ((num|0) >= 67 /* 64 bytes for an unrolled loop + 3 bytes for unaligned head*/) {

								      while ((ptr&3) != 0) {

								        HEAP8[((ptr)>>0)]=value;

								        ptr = (ptr+1)|0;

								      }


								      aligned_end = (end & -4)|0;

								      block_aligned_end = (aligned_end - 64)|0;

								      value4 = value | (value << 8) | (value << 16) | (value << 24);


								      while((ptr|0) <= (block_aligned_end|0)) {

								        HEAP32[((ptr)>>2)]=value4;

								        HEAP32[(((ptr)+(4))>>2)]=value4;

								        HEAP32[(((ptr)+(8))>>2)]=value4;

								        HEAP32[(((ptr)+(12))>>2)]=value4;

								        HEAP32[(((ptr)+(16))>>2)]=value4;

								        HEAP32[(((ptr)+(20))>>2)]=value4;

								        HEAP32[(((ptr)+(24))>>2)]=value4;

								        HEAP32[(((ptr)+(28))>>2)]=value4;

								        HEAP32[(((ptr)+(32))>>2)]=value4;

								        HEAP32[(((ptr)+(36))>>2)]=value4;

								        HEAP32[(((ptr)+(40))>>2)]=value4;

								        HEAP32[(((ptr)+(44))>>2)]=value4;

								        HEAP32[(((ptr)+(48))>>2)]=value4;

								        HEAP32[(((ptr)+(52))>>2)]=value4;

								        HEAP32[(((ptr)+(56))>>2)]=value4;

								        HEAP32[(((ptr)+(60))>>2)]=value4;

								        ptr = (ptr + 64)|0;

								      }


								      while ((ptr|0) < (aligned_end|0) ) {

								        HEAP32[((ptr)>>2)]=value4;

								        ptr = (ptr+4)|0;

								      }

								    }

								    // The remaining bytes.

								    while ((ptr|0) < (end|0)) {

								      HEAP8[((ptr)>>0)]=value;

								      ptr = (ptr+1)|0;

								    }

								    return (end-num)|0;

								}

								function _i64Subtract(a, b, c, d) {

								    a = a|0; b = b|0; c = c|0; d = d|0;

								    var l = 0, h = 0;

								    l = (a - c)>>>0;

								    h = (b - d)>>>0;

								    h = (b - d - (((c>>>0) > (a>>>0))|0))>>>0; // Borrow one from high word to low word on underflow.

								    return ((tempRet0 = h,l|0)|0);

								}

								function _i64Add(a, b, c, d) {

								    /*

								      x = a + b*2^32

								      y = c + d*2^32

								      result = l + h*2^32

								    */

								    a = a|0; b = b|0; c = c|0; d = d|0;

								    var l = 0, h = 0;

								    l = (a + c)>>>0;

								    h = (b + d + (((l>>>0) < (a>>>0))|0))>>>0; // Add carry from low word to high word on overflow.

								    return ((tempRet0 = h,l|0)|0);

								}

								function ___muldsi3($a, $b) {

								    $a = $a | 0;

								    $b = $b | 0;

								    var $1 = 0, $2 = 0, $3 = 0, $6 = 0, $8 = 0, $11 = 0, $12 = 0;

								    $1 = $a & 65535;

								    $2 = $b & 65535;

								    $3 = Math_imul($2, $1) | 0;

								    $6 = $a >>> 16;

								    $8 = ($3 >>> 16) + (Math_imul($2, $6) | 0) | 0;

								    $11 = $b >>> 16;

								    $12 = Math_imul($11, $1) | 0;

								    return (tempRet0 = (($8 >>> 16) + (Math_imul($11, $6) | 0) | 0) + ((($8 & 65535) + $12 | 0) >>> 16) | 0, 0 | ($8 + $12 << 16 | $3 & 65535)) | 0;

								}

								function ___muldi3($a$0, $a$1, $b$0, $b$1) {

								    $a$0 = $a$0 | 0;

								    $a$1 = $a$1 | 0;

								    $b$0 = $b$0 | 0;

								    $b$1 = $b$1 | 0;

								    var $x_sroa_0_0_extract_trunc = 0, $y_sroa_0_0_extract_trunc = 0, $1$0 = 0, $1$1 = 0, $2 = 0;

								    $x_sroa_0_0_extract_trunc = $a$0;

								    $y_sroa_0_0_extract_trunc = $b$0;

								    $1$0 = ___muldsi3($x_sroa_0_0_extract_trunc, $y_sroa_0_0_extract_trunc) | 0;

								    $1$1 = tempRet0;

								    $2 = Math_imul($a$1, $y_sroa_0_0_extract_trunc) | 0;

								    return (tempRet0 = ((Math_imul($b$1, $x_sroa_0_0_extract_trunc) | 0) + $2 | 0) + $1$1 | $1$1 & 0, 0 | $1$0 & -1) | 0;

								}

								function _memcpy(dest, src, num) {

								    dest = dest|0; src = src|0; num = num|0;

								    var ret = 0;

								    var aligned_dest_end = 0;

								    var block_aligned_dest_end = 0;

								    var dest_end = 0;

								    // Test against a benchmarked cutoff limit for when HEAPU8.set() becomes faster to use.

								    if ((num|0) >=

								      8192

								    ) {

								      return _emscripten_memcpy_big(dest|0, src|0, num|0)|0;

								    }


								    ret = dest|0;

								    dest_end = (dest + num)|0;

								    if ((dest&3) == (src&3)) {

								      // The initial unaligned < 4-byte front.

								      while (dest & 3) {

								        if ((num|0) == 0) return ret|0;

								        HEAP8[((dest)>>0)]=((HEAP8[((src)>>0)])|0);

								        dest = (dest+1)|0;

								        src = (src+1)|0;

								        num = (num-1)|0;

								      }

								      aligned_dest_end = (dest_end & -4)|0;

								      block_aligned_dest_end = (aligned_dest_end - 64)|0;

								      while ((dest|0) <= (block_aligned_dest_end|0) ) {

								        HEAP32[((dest)>>2)]=((HEAP32[((src)>>2)])|0);

								        HEAP32[(((dest)+(4))>>2)]=((HEAP32[(((src)+(4))>>2)])|0);

								        HEAP32[(((dest)+(8))>>2)]=((HEAP32[(((src)+(8))>>2)])|0);

								        HEAP32[(((dest)+(12))>>2)]=((HEAP32[(((src)+(12))>>2)])|0);

								        HEAP32[(((dest)+(16))>>2)]=((HEAP32[(((src)+(16))>>2)])|0);

								        HEAP32[(((dest)+(20))>>2)]=((HEAP32[(((src)+(20))>>2)])|0);

								        HEAP32[(((dest)+(24))>>2)]=((HEAP32[(((src)+(24))>>2)])|0);

								        HEAP32[(((dest)+(28))>>2)]=((HEAP32[(((src)+(28))>>2)])|0);

								        HEAP32[(((dest)+(32))>>2)]=((HEAP32[(((src)+(32))>>2)])|0);

								        HEAP32[(((dest)+(36))>>2)]=((HEAP32[(((src)+(36))>>2)])|0);

								        HEAP32[(((dest)+(40))>>2)]=((HEAP32[(((src)+(40))>>2)])|0);

								        HEAP32[(((dest)+(44))>>2)]=((HEAP32[(((src)+(44))>>2)])|0);

								        HEAP32[(((dest)+(48))>>2)]=((HEAP32[(((src)+(48))>>2)])|0);

								        HEAP32[(((dest)+(52))>>2)]=((HEAP32[(((src)+(52))>>2)])|0);

								        HEAP32[(((dest)+(56))>>2)]=((HEAP32[(((src)+(56))>>2)])|0);

								        HEAP32[(((dest)+(60))>>2)]=((HEAP32[(((src)+(60))>>2)])|0);

								        dest = (dest+64)|0;

								        src = (src+64)|0;

								      }

								      while ((dest|0) < (aligned_dest_end|0) ) {

								        HEAP32[((dest)>>2)]=((HEAP32[((src)>>2)])|0);

								        dest = (dest+4)|0;

								        src = (src+4)|0;

								      }

								    } else {

								      // In the unaligned copy case, unroll a bit as well.

								      aligned_dest_end = (dest_end - 4)|0;

								      while ((dest|0) < (aligned_dest_end|0) ) {

								        HEAP8[((dest)>>0)]=((HEAP8[((src)>>0)])|0);

								        HEAP8[(((dest)+(1))>>0)]=((HEAP8[(((src)+(1))>>0)])|0);

								        HEAP8[(((dest)+(2))>>0)]=((HEAP8[(((src)+(2))>>0)])|0);

								        HEAP8[(((dest)+(3))>>0)]=((HEAP8[(((src)+(3))>>0)])|0);

								        dest = (dest+4)|0;

								        src = (src+4)|0;

								      }

								    }

								    // The remaining unaligned < 4 byte tail.

								    while ((dest|0) < (dest_end|0)) {

								      HEAP8[((dest)>>0)]=((HEAP8[((src)>>0)])|0);

								      dest = (dest+1)|0;

								      src = (src+1)|0;

								    }

								    return ret|0;

								}

								function _memmove(dest, src, num) {

								    dest = dest|0; src = src|0; num = num|0;

								    var ret = 0;

								    if (((src|0) < (dest|0)) & ((dest|0) < ((src + num)|0))) {

								      // Unlikely case: Copy backwards in a safe manner

								      ret = dest;

								      src = (src + num)|0;

								      dest = (dest + num)|0;

								      while ((num|0) > 0) {

								        dest = (dest - 1)|0;

								        src = (src - 1)|0;

								        num = (num - 1)|0;

								        HEAP8[((dest)>>0)]=((HEAP8[((src)>>0)])|0);

								      }

								      dest = ret;

								    } else {

								      _memcpy(dest, src, num) | 0;

								    }

								    return dest | 0;

								}

								function _llvm_cttz_i32(x) {

								    x = x|0;

								    var ret = 0;

								    ret = ((HEAP8[(((cttz_i8)+(x & 0xff))>>0)])|0);

								    if ((ret|0) < 8) return ret|0;

								    ret = ((HEAP8[(((cttz_i8)+((x >> 8)&0xff))>>0)])|0);

								    if ((ret|0) < 8) return (ret + 8)|0;

								    ret = ((HEAP8[(((cttz_i8)+((x >> 16)&0xff))>>0)])|0);

								    if ((ret|0) < 8) return (ret + 16)|0;

								    return (((HEAP8[(((cttz_i8)+(x >>> 24))>>0)])|0) + 24)|0;

								}

								function ___udivmoddi4($a$0, $a$1, $b$0, $b$1, $rem) {

								    $a$0 = $a$0 | 0;

								    $a$1 = $a$1 | 0;

								    $b$0 = $b$0 | 0;

								    $b$1 = $b$1 | 0;

								    $rem = $rem | 0;

								    var $n_sroa_0_0_extract_trunc = 0, $n_sroa_1_4_extract_shift$0 = 0, $n_sroa_1_4_extract_trunc = 0, $d_sroa_0_0_extract_trunc = 0, $d_sroa_1_4_extract_shift$0 = 0, $d_sroa_1_4_extract_trunc = 0, $4 = 0, $17 = 0, $37 = 0, $49 = 0, $51 = 0, $57 = 0, $58 = 0, $66 = 0, $78 = 0, $86 = 0, $88 = 0, $89 = 0, $91 = 0, $92 = 0, $95 = 0, $105 = 0, $117 = 0, $119 = 0, $125 = 0, $126 = 0, $130 = 0, $q_sroa_1_1_ph = 0, $q_sroa_0_1_ph = 0, $r_sroa_1_1_ph = 0, $r_sroa_0_1_ph = 0, $sr_1_ph = 0, $d_sroa_0_0_insert_insert99$0 = 0, $d_sroa_0_0_insert_insert99$1 = 0, $137$0 = 0, $137$1 = 0, $carry_0203 = 0, $sr_1202 = 0, $r_sroa_0_1201 = 0, $r_sroa_1_1200 = 0, $q_sroa_0_1199 = 0, $q_sroa_1_1198 = 0, $147 = 0, $149 = 0, $r_sroa_0_0_insert_insert42$0 = 0, $r_sroa_0_0_insert_insert42$1 = 0, $150$1 = 0, $151$0 = 0, $152 = 0, $154$0 = 0, $r_sroa_0_0_extract_trunc = 0, $r_sroa_1_4_extract_trunc = 0, $155 = 0, $carry_0_lcssa$0 = 0, $carry_0_lcssa$1 = 0, $r_sroa_0_1_lcssa = 0, $r_sroa_1_1_lcssa = 0, $q_sroa_0_1_lcssa = 0, $q_sroa_1_1_lcssa = 0, $q_sroa_0_0_insert_ext75$0 = 0, $q_sroa_0_0_insert_ext75$1 = 0, $q_sroa_0_0_insert_insert77$1 = 0, $_0$0 = 0, $_0$1 = 0;

								    $n_sroa_0_0_extract_trunc = $a$0;

								    $n_sroa_1_4_extract_shift$0 = $a$1;

								    $n_sroa_1_4_extract_trunc = $n_sroa_1_4_extract_shift$0;

								    $d_sroa_0_0_extract_trunc = $b$0;

								    $d_sroa_1_4_extract_shift$0 = $b$1;

								    $d_sroa_1_4_extract_trunc = $d_sroa_1_4_extract_shift$0;

								    if (($n_sroa_1_4_extract_trunc | 0) == 0) {

								      $4 = ($rem | 0) != 0;

								      if (($d_sroa_1_4_extract_trunc | 0) == 0) {

								        if ($4) {

								          HEAP32[$rem >> 2] = ($n_sroa_0_0_extract_trunc >>> 0) % ($d_sroa_0_0_extract_trunc >>> 0);

								          HEAP32[$rem + 4 >> 2] = 0;

								        }

								        $_0$1 = 0;

								        $_0$0 = ($n_sroa_0_0_extract_trunc >>> 0) / ($d_sroa_0_0_extract_trunc >>> 0) >>> 0;

								        return (tempRet0 = $_0$1, $_0$0) | 0;

								      } else {

								        if (!$4) {

								          $_0$1 = 0;

								          $_0$0 = 0;

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        }

								        HEAP32[$rem >> 2] = $a$0 & -1;

								        HEAP32[$rem + 4 >> 2] = $a$1 & 0;

								        $_0$1 = 0;

								        $_0$0 = 0;

								        return (tempRet0 = $_0$1, $_0$0) | 0;

								      }

								    }

								    $17 = ($d_sroa_1_4_extract_trunc | 0) == 0;

								    do {

								      if (($d_sroa_0_0_extract_trunc | 0) == 0) {

								        if ($17) {

								          if (($rem | 0) != 0) {

								            HEAP32[$rem >> 2] = ($n_sroa_1_4_extract_trunc >>> 0) % ($d_sroa_0_0_extract_trunc >>> 0);

								            HEAP32[$rem + 4 >> 2] = 0;

								          }

								          $_0$1 = 0;

								          $_0$0 = ($n_sroa_1_4_extract_trunc >>> 0) / ($d_sroa_0_0_extract_trunc >>> 0) >>> 0;

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        }

								        if (($n_sroa_0_0_extract_trunc | 0) == 0) {

								          if (($rem | 0) != 0) {

								            HEAP32[$rem >> 2] = 0;

								            HEAP32[$rem + 4 >> 2] = ($n_sroa_1_4_extract_trunc >>> 0) % ($d_sroa_1_4_extract_trunc >>> 0);

								          }

								          $_0$1 = 0;

								          $_0$0 = ($n_sroa_1_4_extract_trunc >>> 0) / ($d_sroa_1_4_extract_trunc >>> 0) >>> 0;

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        }

								        $37 = $d_sroa_1_4_extract_trunc - 1 | 0;

								        if (($37 & $d_sroa_1_4_extract_trunc | 0) == 0) {

								          if (($rem | 0) != 0) {

								            HEAP32[$rem >> 2] = 0 | $a$0 & -1;

								            HEAP32[$rem + 4 >> 2] = $37 & $n_sroa_1_4_extract_trunc | $a$1 & 0;

								          }

								          $_0$1 = 0;

								          $_0$0 = $n_sroa_1_4_extract_trunc >>> ((_llvm_cttz_i32($d_sroa_1_4_extract_trunc | 0) | 0) >>> 0);

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        }

								        $49 = Math_clz32($d_sroa_1_4_extract_trunc | 0) | 0;

								        $51 = $49 - (Math_clz32($n_sroa_1_4_extract_trunc | 0) | 0) | 0;

								        if ($51 >>> 0 <= 30) {

								          $57 = $51 + 1 | 0;

								          $58 = 31 - $51 | 0;

								          $sr_1_ph = $57;

								          $r_sroa_0_1_ph = $n_sroa_1_4_extract_trunc << $58 | $n_sroa_0_0_extract_trunc >>> ($57 >>> 0);

								          $r_sroa_1_1_ph = $n_sroa_1_4_extract_trunc >>> ($57 >>> 0);

								          $q_sroa_0_1_ph = 0;

								          $q_sroa_1_1_ph = $n_sroa_0_0_extract_trunc << $58;

								          break;

								        }

								        if (($rem | 0) == 0) {

								          $_0$1 = 0;

								          $_0$0 = 0;

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        }

								        HEAP32[$rem >> 2] = 0 | $a$0 & -1;

								        HEAP32[$rem + 4 >> 2] = $n_sroa_1_4_extract_shift$0 | $a$1 & 0;

								        $_0$1 = 0;

								        $_0$0 = 0;

								        return (tempRet0 = $_0$1, $_0$0) | 0;

								      } else {

								        if (!$17) {

								          $117 = Math_clz32($d_sroa_1_4_extract_trunc | 0) | 0;

								          $119 = $117 - (Math_clz32($n_sroa_1_4_extract_trunc | 0) | 0) | 0;

								          if ($119 >>> 0 <= 31) {

								            $125 = $119 + 1 | 0;

								            $126 = 31 - $119 | 0;

								            $130 = $119 - 31 >> 31;

								            $sr_1_ph = $125;

								            $r_sroa_0_1_ph = $n_sroa_0_0_extract_trunc >>> ($125 >>> 0) & $130 | $n_sroa_1_4_extract_trunc << $126;

								            $r_sroa_1_1_ph = $n_sroa_1_4_extract_trunc >>> ($125 >>> 0) & $130;

								            $q_sroa_0_1_ph = 0;

								            $q_sroa_1_1_ph = $n_sroa_0_0_extract_trunc << $126;

								            break;

								          }

								          if (($rem | 0) == 0) {

								            $_0$1 = 0;

								            $_0$0 = 0;

								            return (tempRet0 = $_0$1, $_0$0) | 0;

								          }

								          HEAP32[$rem >> 2] = 0 | $a$0 & -1;

								          HEAP32[$rem + 4 >> 2] = $n_sroa_1_4_extract_shift$0 | $a$1 & 0;

								          $_0$1 = 0;

								          $_0$0 = 0;

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        }

								        $66 = $d_sroa_0_0_extract_trunc - 1 | 0;

								        if (($66 & $d_sroa_0_0_extract_trunc | 0) != 0) {

								          $86 = (Math_clz32($d_sroa_0_0_extract_trunc | 0) | 0) + 33 | 0;

								          $88 = $86 - (Math_clz32($n_sroa_1_4_extract_trunc | 0) | 0) | 0;

								          $89 = 64 - $88 | 0;

								          $91 = 32 - $88 | 0;

								          $92 = $91 >> 31;

								          $95 = $88 - 32 | 0;

								          $105 = $95 >> 31;

								          $sr_1_ph = $88;

								          $r_sroa_0_1_ph = $91 - 1 >> 31 & $n_sroa_1_4_extract_trunc >>> ($95 >>> 0) | ($n_sroa_1_4_extract_trunc << $91 | $n_sroa_0_0_extract_trunc >>> ($88 >>> 0)) & $105;

								          $r_sroa_1_1_ph = $105 & $n_sroa_1_4_extract_trunc >>> ($88 >>> 0);

								          $q_sroa_0_1_ph = $n_sroa_0_0_extract_trunc << $89 & $92;

								          $q_sroa_1_1_ph = ($n_sroa_1_4_extract_trunc << $89 | $n_sroa_0_0_extract_trunc >>> ($95 >>> 0)) & $92 | $n_sroa_0_0_extract_trunc << $91 & $88 - 33 >> 31;

								          break;

								        }

								        if (($rem | 0) != 0) {

								          HEAP32[$rem >> 2] = $66 & $n_sroa_0_0_extract_trunc;

								          HEAP32[$rem + 4 >> 2] = 0;

								        }

								        if (($d_sroa_0_0_extract_trunc | 0) == 1) {

								          $_0$1 = $n_sroa_1_4_extract_shift$0 | $a$1 & 0;

								          $_0$0 = 0 | $a$0 & -1;

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        } else {

								          $78 = _llvm_cttz_i32($d_sroa_0_0_extract_trunc | 0) | 0;

								          $_0$1 = 0 | $n_sroa_1_4_extract_trunc >>> ($78 >>> 0);

								          $_0$0 = $n_sroa_1_4_extract_trunc << 32 - $78 | $n_sroa_0_0_extract_trunc >>> ($78 >>> 0) | 0;

								          return (tempRet0 = $_0$1, $_0$0) | 0;

								        }

								      }

								    } while (0);

								    if (($sr_1_ph | 0) == 0) {

								      $q_sroa_1_1_lcssa = $q_sroa_1_1_ph;

								      $q_sroa_0_1_lcssa = $q_sroa_0_1_ph;

								      $r_sroa_1_1_lcssa = $r_sroa_1_1_ph;

								      $r_sroa_0_1_lcssa = $r_sroa_0_1_ph;

								      $carry_0_lcssa$1 = 0;

								      $carry_0_lcssa$0 = 0;

								    } else {

								      $d_sroa_0_0_insert_insert99$0 = 0 | $b$0 & -1;

								      $d_sroa_0_0_insert_insert99$1 = $d_sroa_1_4_extract_shift$0 | $b$1 & 0;

								      $137$0 = _i64Add($d_sroa_0_0_insert_insert99$0 | 0, $d_sroa_0_0_insert_insert99$1 | 0, -1, -1) | 0;

								      $137$1 = tempRet0;

								      $q_sroa_1_1198 = $q_sroa_1_1_ph;

								      $q_sroa_0_1199 = $q_sroa_0_1_ph;

								      $r_sroa_1_1200 = $r_sroa_1_1_ph;

								      $r_sroa_0_1201 = $r_sroa_0_1_ph;

								      $sr_1202 = $sr_1_ph;

								      $carry_0203 = 0;

								      while (1) {

								        $147 = $q_sroa_0_1199 >>> 31 | $q_sroa_1_1198 << 1;

								        $149 = $carry_0203 | $q_sroa_0_1199 << 1;

								        $r_sroa_0_0_insert_insert42$0 = 0 | ($r_sroa_0_1201 << 1 | $q_sroa_1_1198 >>> 31);

								        $r_sroa_0_0_insert_insert42$1 = $r_sroa_0_1201 >>> 31 | $r_sroa_1_1200 << 1 | 0;

								        _i64Subtract($137$0 | 0, $137$1 | 0, $r_sroa_0_0_insert_insert42$0 | 0, $r_sroa_0_0_insert_insert42$1 | 0) | 0;

								        $150$1 = tempRet0;

								        $151$0 = $150$1 >> 31 | (($150$1 | 0) < 0 ? -1 : 0) << 1;

								        $152 = $151$0 & 1;

								        $154$0 = _i64Subtract($r_sroa_0_0_insert_insert42$0 | 0, $r_sroa_0_0_insert_insert42$1 | 0, $151$0 & $d_sroa_0_0_insert_insert99$0 | 0, ((($150$1 | 0) < 0 ? -1 : 0) >> 31 | (($150$1 | 0) < 0 ? -1 : 0) << 1) & $d_sroa_0_0_insert_insert99$1 | 0) | 0;

								        $r_sroa_0_0_extract_trunc = $154$0;

								        $r_sroa_1_4_extract_trunc = tempRet0;

								        $155 = $sr_1202 - 1 | 0;

								        if (($155 | 0) == 0) {

								          break;

								        } else {

								          $q_sroa_1_1198 = $147;

								          $q_sroa_0_1199 = $149;

								          $r_sroa_1_1200 = $r_sroa_1_4_extract_trunc;

								          $r_sroa_0_1201 = $r_sroa_0_0_extract_trunc;

								          $sr_1202 = $155;

								          $carry_0203 = $152;

								        }

								      }

								      $q_sroa_1_1_lcssa = $147;

								      $q_sroa_0_1_lcssa = $149;

								      $r_sroa_1_1_lcssa = $r_sroa_1_4_extract_trunc;

								      $r_sroa_0_1_lcssa = $r_sroa_0_0_extract_trunc;

								      $carry_0_lcssa$1 = 0;

								      $carry_0_lcssa$0 = $152;

								    }

								    $q_sroa_0_0_insert_ext75$0 = $q_sroa_0_1_lcssa;

								    $q_sroa_0_0_insert_ext75$1 = 0;

								    $q_sroa_0_0_insert_insert77$1 = $q_sroa_1_1_lcssa | $q_sroa_0_0_insert_ext75$1;

								    if (($rem | 0) != 0) {

								      HEAP32[$rem >> 2] = 0 | $r_sroa_0_1_lcssa;

								      HEAP32[$rem + 4 >> 2] = $r_sroa_1_1_lcssa | 0;

								    }

								    $_0$1 = (0 | $q_sroa_0_0_insert_ext75$0) >>> 31 | $q_sroa_0_0_insert_insert77$1 << 1 | ($q_sroa_0_0_insert_ext75$1 << 1 | $q_sroa_0_0_insert_ext75$0 >>> 31) & 0 | $carry_0_lcssa$1;

								    $_0$0 = ($q_sroa_0_0_insert_ext75$0 << 1 | 0 >>> 31) & -2 | $carry_0_lcssa$0;

								    return (tempRet0 = $_0$1, $_0$0) | 0;

								}

								function ___uremdi3($a$0, $a$1, $b$0, $b$1) {

								    $a$0 = $a$0 | 0;

								    $a$1 = $a$1 | 0;

								    $b$0 = $b$0 | 0;

								    $b$1 = $b$1 | 0;

								    var $rem = 0, __stackBase__ = 0;

								    __stackBase__ = STACKTOP;

								    STACKTOP = STACKTOP + 16 | 0;

								    $rem = __stackBase__ | 0;

								    ___udivmoddi4($a$0, $a$1, $b$0, $b$1, $rem) | 0;

								    STACKTOP = __stackBase__;

								    return (tempRet0 = HEAP32[$rem + 4 >> 2] | 0, HEAP32[$rem >> 2] | 0) | 0;

								}

								function ___udivdi3($a$0, $a$1, $b$0, $b$1) {

								    $a$0 = $a$0 | 0;

								    $a$1 = $a$1 | 0;

								    $b$0 = $b$0 | 0;

								    $b$1 = $b$1 | 0;

								    var $1$0 = 0;

								    $1$0 = ___udivmoddi4($a$0, $a$1, $b$0, $b$1, 0) | 0;

								    return $1$0 | 0;

								}

								function _roundf(f) {

								    f = +f;

								    return f >= +0 ? +Math_floor(f + +0.5) : +Math_ceil(f - +0.5); // TODO: use fround?

								}

								function _emscripten_set_current_thread_status(newStatus) {

								    newStatus = newStatus|0;

								}

								function _bitshift64Lshr(low, high, bits) {

								    low = low|0; high = high|0; bits = bits|0;

								    var ander = 0;

								    if ((bits|0) < 32) {

								      ander = ((1 << bits) - 1)|0;

								      tempRet0 = high >>> bits;

								      return (low >>> bits) | ((high&ander) << (32 - bits));

								    }

								    tempRet0 = 0;

								    return (high >>> (bits - 32))|0;

								}

								function _emscripten_conditional_set_current_thread_status(expectedStatus, newStatus) {

								    expectedStatus = expectedStatus|0;

								    newStatus = newStatus|0;

								}

								function _sbrk(increment) {

								    increment = increment|0;

								    var oldDynamicTop = 0;

								    var oldDynamicTopOnChange = 0;

								    var newDynamicTop = 0;

								    var totalMemory = 0;

								    increment = ((increment + 15) & -16)|0;

								    totalMemory = getTotalMemory()|0;


								    // Perform a compare-and-swap loop to update the new dynamic top value. This is because

								    // this function can becalled simultaneously in multiple threads.

								    do {

								      oldDynamicTop = Atomics_load(HEAP32, DYNAMICTOP_PTR>>2)|0;

								      newDynamicTop = oldDynamicTop + increment | 0;

								      // Asking to increase dynamic top to a too high value? In pthreads builds we cannot

								      // enlarge memory, so this needs to fail.

								      if (((increment|0) > 0 & (newDynamicTop|0) < (oldDynamicTop|0)) // Detect and fail if we would wrap around signed 32-bit int.

								        | (newDynamicTop|0) < 0 // Also underflow, sbrk() should be able to be used to subtract.

								        | (newDynamicTop|0) > (totalMemory|0)) {

								        abortOnCannotGrowMemory()|0;

								      }

								      // Attempt to update the dynamic top to new value. Another thread may have beat this thread to the update,

								      // in which case we will need to start over by iterating the loop body again.

								      oldDynamicTopOnChange = Atomics_compareExchange(HEAP32, DYNAMICTOP_PTR>>2, oldDynamicTop|0, newDynamicTop|0)|0;

								    } while((oldDynamicTopOnChange|0) != (oldDynamicTop|0));

								    return oldDynamicTop|0;

								}

								function _bitshift64Shl(low, high, bits) {

								    low = low|0; high = high|0; bits = bits|0;

								    var ander = 0;

								    if ((bits|0) < 32) {

								      ander = ((1 << bits) - 1)|0;

								      tempRet0 = (high << bits) | ((low&(ander << (32 - bits))) >>> (32 - bits));

								      return low << bits;

								    }

								    tempRet0 = low << (bits - 32);

								    return 0;

								}

								function _llvm_bswap_i32(x) {

								    x = x|0;

								    return (((x&0xff)<<24) | (((x>>8)&0xff)<<16) | (((x>>16)&0xff)<<8) | (x>>>24))|0;

								}


								function dynCall_viiiii(index,a1,a2,a3,a4,a5) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0; a4=a4|0; a5=a5|0;

								  FUNCTION_TABLE_viiiii[index&7](a1|0,a2|0,a3|0,a4|0,a5|0);

								}


								function dynCall_vd(index,a1) {

								  index = index|0;

								  a1=+a1;

								  FUNCTION_TABLE_vd[index&3](+a1);

								}


								function dynCall_vid(index,a1,a2) {

								  index = index|0;

								  a1=a1|0; a2=+a2;

								  FUNCTION_TABLE_vid[index&3](a1|0,+a2);

								}


								function dynCall_vi(index,a1) {

								  index = index|0;

								  a1=a1|0;

								  FUNCTION_TABLE_vi[index&31](a1|0);

								}


								function dynCall_vii(index,a1,a2) {

								  index = index|0;

								  a1=a1|0; a2=a2|0;

								  FUNCTION_TABLE_vii[index&63](a1|0,a2|0);

								}


								function dynCall_ii(index,a1) {

								  index = index|0;

								  a1=a1|0;

								  return FUNCTION_TABLE_ii[index&15](a1|0)|0;

								}


								function dynCall_viddd(index,a1,a2,a3,a4) {

								  index = index|0;

								  a1=a1|0; a2=+a2; a3=+a3; a4=+a4;

								  FUNCTION_TABLE_viddd[index&3](a1|0,+a2,+a3,+a4);

								}


								function dynCall_vidd(index,a1,a2,a3) {

								  index = index|0;

								  a1=a1|0; a2=+a2; a3=+a3;

								  FUNCTION_TABLE_vidd[index&7](a1|0,+a2,+a3);

								}


								function dynCall_iiii(index,a1,a2,a3) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0;

								  return FUNCTION_TABLE_iiii[index&15](a1|0,a2|0,a3|0)|0;

								}


								function dynCall_viiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0; a4=a4|0; a5=a5|0; a6=a6|0; a7=a7|0; a8=a8|0;

								  FUNCTION_TABLE_viiiiiiii[index&3](a1|0,a2|0,a3|0,a4|0,a5|0,a6|0,a7|0,a8|0);

								}


								function dynCall_viiiiii(index,a1,a2,a3,a4,a5,a6) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0; a4=a4|0; a5=a5|0; a6=a6|0;

								  FUNCTION_TABLE_viiiiii[index&3](a1|0,a2|0,a3|0,a4|0,a5|0,a6|0);

								}


								function dynCall_viii(index,a1,a2,a3) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0;

								  FUNCTION_TABLE_viii[index&31](a1|0,a2|0,a3|0);

								}


								function dynCall_vidddd(index,a1,a2,a3,a4,a5) {

								  index = index|0;

								  a1=a1|0; a2=+a2; a3=+a3; a4=+a4; a5=+a5;

								  FUNCTION_TABLE_vidddd[index&3](a1|0,+a2,+a3,+a4,+a5);

								}


								function dynCall_vdi(index,a1,a2) {

								  index = index|0;

								  a1=+a1; a2=a2|0;

								  FUNCTION_TABLE_vdi[index&1](+a1,a2|0);

								}


								function dynCall_viiiiiii(index,a1,a2,a3,a4,a5,a6,a7) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0; a4=a4|0; a5=a5|0; a6=a6|0; a7=a7|0;

								  FUNCTION_TABLE_viiiiiii[index&3](a1|0,a2|0,a3|0,a4|0,a5|0,a6|0,a7|0);

								}


								function dynCall_viiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0; a4=a4|0; a5=a5|0; a6=a6|0; a7=a7|0; a8=a8|0; a9=a9|0;

								  FUNCTION_TABLE_viiiiiiiii[index&3](a1|0,a2|0,a3|0,a4|0,a5|0,a6|0,a7|0,a8|0,a9|0);

								}


								function dynCall_iii(index,a1,a2) {

								  index = index|0;

								  a1=a1|0; a2=a2|0;

								  return FUNCTION_TABLE_iii[index&3](a1|0,a2|0)|0;

								}


								function dynCall_i(index) {

								  index = index|0;


								  return FUNCTION_TABLE_i[index&3]()|0;

								}


								function dynCall_vdddddd(index,a1,a2,a3,a4,a5,a6) {

								  index = index|0;

								  a1=+a1; a2=+a2; a3=+a3; a4=+a4; a5=+a5; a6=+a6;

								  FUNCTION_TABLE_vdddddd[index&1](+a1,+a2,+a3,+a4,+a5,+a6);

								}


								function dynCall_vdddd(index,a1,a2,a3,a4) {

								  index = index|0;

								  a1=+a1; a2=+a2; a3=+a3; a4=+a4;

								  FUNCTION_TABLE_vdddd[index&3](+a1,+a2,+a3,+a4);

								}


								function dynCall_vdd(index,a1,a2) {

								  index = index|0;

								  a1=+a1; a2=+a2;

								  FUNCTION_TABLE_vdd[index&3](+a1,+a2);

								}


								function dynCall_v(index) {

								  index = index|0;


								  FUNCTION_TABLE_v[index&7]();

								}


								function dynCall_viid(index,a1,a2,a3) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=+a3;

								  FUNCTION_TABLE_viid[index&1](a1|0,a2|0,+a3);

								}


								function dynCall_viiii(index,a1,a2,a3,a4) {

								  index = index|0;

								  a1=a1|0; a2=a2|0; a3=a3|0; a4=a4|0;

								  FUNCTION_TABLE_viiii[index&31](a1|0,a2|0,a3|0,a4|0);

								}


								function b0(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0; nullFunc_viiiii(0);

								}

								function _emscripten_glUniform4i__wrapper(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0; _emscripten_glUniform4i(p0|0,p1|0,p2|0,p3|0,p4|0);

								}

								function _emscripten_glFramebufferTexture2D__wrapper(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0; _emscripten_glFramebufferTexture2D(p0|0,p1|0,p2|0,p3|0,p4|0);

								}

								function _emscripten_glShaderBinary__wrapper(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0; _emscripten_glShaderBinary(p0|0,p1|0,p2|0,p3|0,p4|0);

								}

								function _emscripten_glDrawElementsInstanced__wrapper(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0; _emscripten_glDrawElementsInstanced(p0|0,p1|0,p2|0,p3|0,p4|0);

								}

								function b1(p0) {

								 p0 = +p0; nullFunc_vd(1);

								}

								function _emscripten_glClearDepth__wrapper(p0) {

								 p0 = +p0; _emscripten_glClearDepth(+p0);

								}

								function _emscripten_glClearDepthf__wrapper(p0) {

								 p0 = +p0; _emscripten_glClearDepthf(+p0);

								}

								function _emscripten_glLineWidth__wrapper(p0) {

								 p0 = +p0; _emscripten_glLineWidth(+p0);

								}

								function b2(p0,p1) {

								 p0 = p0|0;p1 = +p1; nullFunc_vid(2);

								}

								function _emscripten_glUniform1f__wrapper(p0,p1) {

								 p0 = p0|0;p1 = +p1; _emscripten_glUniform1f(p0|0,+p1);

								}

								function _emscripten_glVertexAttrib1f__wrapper(p0,p1) {

								 p0 = p0|0;p1 = +p1; _emscripten_glVertexAttrib1f(p0|0,+p1);

								}

								function b3(p0) {

								 p0 = p0|0; nullFunc_vi(3);

								}

								function _emscripten_glDeleteShader__wrapper(p0) {

								 p0 = p0|0; _emscripten_glDeleteShader(p0|0);

								}

								function _emscripten_glCompileShader__wrapper(p0) {

								 p0 = p0|0; _emscripten_glCompileShader(p0|0);

								}

								function _emscripten_glDeleteProgram__wrapper(p0) {

								 p0 = p0|0; _emscripten_glDeleteProgram(p0|0);

								}

								function _emscripten_glLinkProgram__wrapper(p0) {

								 p0 = p0|0; _emscripten_glLinkProgram(p0|0);

								}

								function _emscripten_glUseProgram__wrapper(p0) {

								 p0 = p0|0; _emscripten_glUseProgram(p0|0);

								}

								function _emscripten_glValidateProgram__wrapper(p0) {

								 p0 = p0|0; _emscripten_glValidateProgram(p0|0);

								}

								function _emscripten_glDeleteObjectARB__wrapper(p0) {

								 p0 = p0|0; _emscripten_glDeleteObjectARB(p0|0);

								}

								function _emscripten_glEnableClientState__wrapper(p0) {

								 p0 = p0|0; _emscripten_glEnableClientState(p0|0);

								}

								function _emscripten_glClientActiveTexture__wrapper(p0) {

								 p0 = p0|0; _emscripten_glClientActiveTexture(p0|0);

								}

								function _emscripten_glBindVertexArray__wrapper(p0) {

								 p0 = p0|0; _emscripten_glBindVertexArray(p0|0);

								}

								function _emscripten_glMatrixMode__wrapper(p0) {

								 p0 = p0|0; _emscripten_glMatrixMode(p0|0);

								}

								function _emscripten_glLoadMatrixf__wrapper(p0) {

								 p0 = p0|0; _emscripten_glLoadMatrixf(p0|0);

								}

								function _emscripten_glEnableVertexAttribArray__wrapper(p0) {

								 p0 = p0|0; _emscripten_glEnableVertexAttribArray(p0|0);

								}

								function _emscripten_glDisableVertexAttribArray__wrapper(p0) {

								 p0 = p0|0; _emscripten_glDisableVertexAttribArray(p0|0);

								}

								function _emscripten_glDepthFunc__wrapper(p0) {

								 p0 = p0|0; _emscripten_glDepthFunc(p0|0);

								}

								function _emscripten_glEnable__wrapper(p0) {

								 p0 = p0|0; _emscripten_glEnable(p0|0);

								}

								function _emscripten_glDisable__wrapper(p0) {

								 p0 = p0|0; _emscripten_glDisable(p0|0);

								}

								function _emscripten_glFrontFace__wrapper(p0) {

								 p0 = p0|0; _emscripten_glFrontFace(p0|0);

								}

								function _emscripten_glCullFace__wrapper(p0) {

								 p0 = p0|0; _emscripten_glCullFace(p0|0);

								}

								function _emscripten_glClear__wrapper(p0) {

								 p0 = p0|0; _emscripten_glClear(p0|0);

								}

								function _emscripten_glClearStencil__wrapper(p0) {

								 p0 = p0|0; _emscripten_glClearStencil(p0|0);

								}

								function _emscripten_glDepthMask__wrapper(p0) {

								 p0 = p0|0; _emscripten_glDepthMask(p0|0);

								}

								function _emscripten_glStencilMask__wrapper(p0) {

								 p0 = p0|0; _emscripten_glStencilMask(p0|0);

								}

								function _emscripten_glGenerateMipmap__wrapper(p0) {

								 p0 = p0|0; _emscripten_glGenerateMipmap(p0|0);

								}

								function _emscripten_glActiveTexture__wrapper(p0) {

								 p0 = p0|0; _emscripten_glActiveTexture(p0|0);

								}

								function _emscripten_glBlendEquation__wrapper(p0) {

								 p0 = p0|0; _emscripten_glBlendEquation(p0|0);

								}

								function b4(p0,p1) {

								 p0 = p0|0;p1 = p1|0; nullFunc_vii(4);

								}

								function _emscripten_glPixelStorei__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glPixelStorei(p0|0,p1|0);

								}

								function _emscripten_glGetIntegerv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGetIntegerv(p0|0,p1|0);

								}

								function _emscripten_glGetFloatv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGetFloatv(p0|0,p1|0);

								}

								function _emscripten_glGetBooleanv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGetBooleanv(p0|0,p1|0);

								}

								function _emscripten_glGenTextures__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGenTextures(p0|0,p1|0);

								}

								function _emscripten_glDeleteTextures__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glDeleteTextures(p0|0,p1|0);

								}

								function _emscripten_glBindTexture__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glBindTexture(p0|0,p1|0);

								}

								function _emscripten_glGenBuffers__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGenBuffers(p0|0,p1|0);

								}

								function _emscripten_glDeleteBuffers__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glDeleteBuffers(p0|0,p1|0);

								}

								function _emscripten_glGenRenderbuffers__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGenRenderbuffers(p0|0,p1|0);

								}

								function _emscripten_glDeleteRenderbuffers__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glDeleteRenderbuffers(p0|0,p1|0);

								}

								function _emscripten_glBindRenderbuffer__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glBindRenderbuffer(p0|0,p1|0);

								}

								function _emscripten_glUniform1i__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glUniform1i(p0|0,p1|0);

								}

								function _emscripten_glBindBuffer__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glBindBuffer(p0|0,p1|0);

								}

								function _emscripten_glVertexAttrib1fv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glVertexAttrib1fv(p0|0,p1|0);

								}

								function _emscripten_glVertexAttrib2fv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glVertexAttrib2fv(p0|0,p1|0);

								}

								function _emscripten_glVertexAttrib3fv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glVertexAttrib3fv(p0|0,p1|0);

								}

								function _emscripten_glVertexAttrib4fv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glVertexAttrib4fv(p0|0,p1|0);

								}

								function _emscripten_glAttachShader__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glAttachShader(p0|0,p1|0);

								}

								function _emscripten_glDetachShader__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glDetachShader(p0|0,p1|0);

								}

								function _emscripten_glBindFramebuffer__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glBindFramebuffer(p0|0,p1|0);

								}

								function _emscripten_glGenFramebuffers__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGenFramebuffers(p0|0,p1|0);

								}

								function _emscripten_glDeleteFramebuffers__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glDeleteFramebuffers(p0|0,p1|0);

								}

								function _emscripten_glBindProgramARB__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glBindProgramARB(p0|0,p1|0);

								}

								function _emscripten_glGetPointerv__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGetPointerv(p0|0,p1|0);

								}

								function _emscripten_glGenVertexArrays__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glGenVertexArrays(p0|0,p1|0);

								}

								function _emscripten_glDeleteVertexArrays__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glDeleteVertexArrays(p0|0,p1|0);

								}

								function _emscripten_glVertexAttribDivisor__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glVertexAttribDivisor(p0|0,p1|0);

								}

								function _emscripten_glBlendFunc__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glBlendFunc(p0|0,p1|0);

								}

								function _emscripten_glBlendEquationSeparate__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glBlendEquationSeparate(p0|0,p1|0);

								}

								function _emscripten_glStencilMaskSeparate__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glStencilMaskSeparate(p0|0,p1|0);

								}

								function _emscripten_glHint__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glHint(p0|0,p1|0);

								}

								function _emscripten_glDrawBuffers__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; _emscripten_glDrawBuffers(p0|0,p1|0);

								}

								function b5(p0) {

								 p0 = p0|0; nullFunc_ii(5);return 0;

								}

								function _emscripten_glGetString__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glGetString(p0|0)|0;

								}

								function _emscripten_glIsTexture__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glIsTexture(p0|0)|0;

								}

								function _emscripten_glIsBuffer__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glIsBuffer(p0|0)|0;

								}

								function _emscripten_glIsRenderbuffer__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glIsRenderbuffer(p0|0)|0;

								}

								function _emscripten_glCreateShader__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glCreateShader(p0|0)|0;

								}

								function _emscripten_glIsShader__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glIsShader(p0|0)|0;

								}

								function _emscripten_glIsProgram__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glIsProgram(p0|0)|0;

								}

								function _emscripten_glIsFramebuffer__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glIsFramebuffer(p0|0)|0;

								}

								function _emscripten_glCheckFramebufferStatus__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glCheckFramebufferStatus(p0|0)|0;

								}

								function _emscripten_glIsEnabled__wrapper(p0) {

								 p0 = p0|0; return _emscripten_glIsEnabled(p0|0)|0;

								}

								function b6(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = +p1;p2 = +p2;p3 = +p3; nullFunc_viddd(6);

								}

								function _emscripten_glUniform3f__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = +p1;p2 = +p2;p3 = +p3; _emscripten_glUniform3f(p0|0,+p1,+p2,+p3);

								}

								function _emscripten_glVertexAttrib3f__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = +p1;p2 = +p2;p3 = +p3; _emscripten_glVertexAttrib3f(p0|0,+p1,+p2,+p3);

								}

								function b7(p0,p1,p2) {

								 p0 = p0|0;p1 = +p1;p2 = +p2; nullFunc_vidd(7);

								}

								function _emscripten_glUniform2f__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = +p1;p2 = +p2; _emscripten_glUniform2f(p0|0,+p1,+p2);

								}

								function _emscripten_glVertexAttrib2f__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = +p1;p2 = +p2; _emscripten_glVertexAttrib2f(p0|0,+p1,+p2);

								}

								function b8(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; nullFunc_iiii(8);return 0;

								}

								function b9(p0,p1,p2,p3,p4,p5,p6,p7) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0; nullFunc_viiiiiiii(9);

								}

								function _emscripten_glCompressedTexImage2D__wrapper(p0,p1,p2,p3,p4,p5,p6,p7) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0; _emscripten_glCompressedTexImage2D(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0,p7|0);

								}

								function _emscripten_glCopyTexImage2D__wrapper(p0,p1,p2,p3,p4,p5,p6,p7) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0; _emscripten_glCopyTexImage2D(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0,p7|0);

								}

								function _emscripten_glCopyTexSubImage2D__wrapper(p0,p1,p2,p3,p4,p5,p6,p7) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0; _emscripten_glCopyTexSubImage2D(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0,p7|0);

								}

								function b10(p0,p1,p2,p3,p4,p5) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0; nullFunc_viiiiii(10);

								}

								function _emscripten_glDrawRangeElements__wrapper(p0,p1,p2,p3,p4,p5) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0; _emscripten_glDrawRangeElements(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0);

								}

								function _emscripten_glVertexAttribPointer__wrapper(p0,p1,p2,p3,p4,p5) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0; _emscripten_glVertexAttribPointer(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0);

								}

								function b11(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; nullFunc_viii(11);

								}

								function _emscripten_glGetTexParameterfv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetTexParameterfv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetTexParameteriv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetTexParameteriv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glTexParameterfv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glTexParameterfv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glTexParameteriv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glTexParameteriv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetBufferParameteriv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetBufferParameteriv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetRenderbufferParameteriv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetRenderbufferParameteriv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetUniformfv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetUniformfv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetUniformiv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetUniformiv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetVertexAttribfv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetVertexAttribfv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetVertexAttribiv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetVertexAttribiv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetVertexAttribPointerv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetVertexAttribPointerv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform2i__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform2i(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform1iv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform1iv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform2iv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform2iv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform3iv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform3iv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform4iv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform4iv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform1fv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform1fv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform2fv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform2fv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform3fv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform3fv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glUniform4fv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glUniform4fv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetShaderiv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetShaderiv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetProgramiv__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetProgramiv(p0|0,p1|0,p2|0);

								}

								function _emscripten_glBindAttribLocation__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glBindAttribLocation(p0|0,p1|0,p2|0);

								}

								function _emscripten_glGetObjectParameterivARB__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glGetObjectParameterivARB(p0|0,p1|0,p2|0);

								}

								function _emscripten_glNormalPointer__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glNormalPointer(p0|0,p1|0,p2|0);

								}

								function _emscripten_glDrawArrays__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glDrawArrays(p0|0,p1|0,p2|0);

								}

								function _emscripten_glTexParameteri__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glTexParameteri(p0|0,p1|0,p2|0);

								}

								function _emscripten_glStencilFunc__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glStencilFunc(p0|0,p1|0,p2|0);

								}

								function _emscripten_glStencilOp__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0; _emscripten_glStencilOp(p0|0,p1|0,p2|0);

								}

								function b12(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = +p1;p2 = +p2;p3 = +p3;p4 = +p4; nullFunc_vidddd(12);

								}

								function _emscripten_glUniform4f__wrapper(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = +p1;p2 = +p2;p3 = +p3;p4 = +p4; _emscripten_glUniform4f(p0|0,+p1,+p2,+p3,+p4);

								}

								function _emscripten_glVertexAttrib4f__wrapper(p0,p1,p2,p3,p4) {

								 p0 = p0|0;p1 = +p1;p2 = +p2;p3 = +p3;p4 = +p4; _emscripten_glVertexAttrib4f(p0|0,+p1,+p2,+p3,+p4);

								}

								function b13(p0,p1) {

								 p0 = +p0;p1 = p1|0; nullFunc_vdi(13);

								}

								function _emscripten_glSampleCoverage__wrapper(p0,p1) {

								 p0 = +p0;p1 = p1|0; _emscripten_glSampleCoverage(+p0,p1|0);

								}

								function b14(p0,p1,p2,p3,p4,p5,p6) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0; nullFunc_viiiiiii(14);

								}

								function _emscripten_glReadPixels__wrapper(p0,p1,p2,p3,p4,p5,p6) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0; _emscripten_glReadPixels(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0);

								}

								function _emscripten_glGetActiveUniform__wrapper(p0,p1,p2,p3,p4,p5,p6) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0; _emscripten_glGetActiveUniform(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0);

								}

								function _emscripten_glGetActiveAttrib__wrapper(p0,p1,p2,p3,p4,p5,p6) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0; _emscripten_glGetActiveAttrib(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0);

								}

								function b15(p0,p1,p2,p3,p4,p5,p6,p7,p8) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0;p8 = p8|0; nullFunc_viiiiiiiii(15);

								}

								function _emscripten_glCompressedTexSubImage2D__wrapper(p0,p1,p2,p3,p4,p5,p6,p7,p8) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0;p8 = p8|0; _emscripten_glCompressedTexSubImage2D(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0,p7|0,p8|0);

								}

								function _emscripten_glTexImage2D__wrapper(p0,p1,p2,p3,p4,p5,p6,p7,p8) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0;p8 = p8|0; _emscripten_glTexImage2D(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0,p7|0,p8|0);

								}

								function _emscripten_glTexSubImage2D__wrapper(p0,p1,p2,p3,p4,p5,p6,p7,p8) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0;p4 = p4|0;p5 = p5|0;p6 = p6|0;p7 = p7|0;p8 = p8|0; _emscripten_glTexSubImage2D(p0|0,p1|0,p2|0,p3|0,p4|0,p5|0,p6|0,p7|0,p8|0);

								}

								function b16(p0,p1) {

								 p0 = p0|0;p1 = p1|0; nullFunc_iii(16);return 0;

								}

								function _emscripten_glGetUniformLocation__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; return _emscripten_glGetUniformLocation(p0|0,p1|0)|0;

								}

								function _emscripten_glGetAttribLocation__wrapper(p0,p1) {

								 p0 = p0|0;p1 = p1|0; return _emscripten_glGetAttribLocation(p0|0,p1|0)|0;

								}

								function b17() {

								 ; nullFunc_i(17);return 0;

								}

								function _emscripten_glCreateProgram__wrapper() {

								 ; return _emscripten_glCreateProgram()|0;

								}

								function _emscripten_glGetError__wrapper() {

								 ; return _emscripten_glGetError()|0;

								}

								function b18(p0,p1,p2,p3,p4,p5) {

								 p0 = +p0;p1 = +p1;p2 = +p2;p3 = +p3;p4 = +p4;p5 = +p5; nullFunc_vdddddd(18);

								}

								function _emscripten_glFrustum__wrapper(p0,p1,p2,p3,p4,p5) {

								 p0 = +p0;p1 = +p1;p2 = +p2;p3 = +p3;p4 = +p4;p5 = +p5; _emscripten_glFrustum(+p0,+p1,+p2,+p3,+p4,+p5);

								}

								function b19(p0,p1,p2,p3) {

								 p0 = +p0;p1 = +p1;p2 = +p2;p3 = +p3; nullFunc_vdddd(19);

								}

								function _emscripten_glRotatef__wrapper(p0,p1,p2,p3) {

								 p0 = +p0;p1 = +p1;p2 = +p2;p3 = +p3; _emscripten_glRotatef(+p0,+p1,+p2,+p3);

								}

								function _emscripten_glClearColor__wrapper(p0,p1,p2,p3) {

								 p0 = +p0;p1 = +p1;p2 = +p2;p3 = +p3; _emscripten_glClearColor(+p0,+p1,+p2,+p3);

								}

								function _emscripten_glBlendColor__wrapper(p0,p1,p2,p3) {

								 p0 = +p0;p1 = +p1;p2 = +p2;p3 = +p3; _emscripten_glBlendColor(+p0,+p1,+p2,+p3);

								}

								function b20(p0,p1) {

								 p0 = +p0;p1 = +p1; nullFunc_vdd(20);

								}

								function _emscripten_glDepthRange__wrapper(p0,p1) {

								 p0 = +p0;p1 = +p1; _emscripten_glDepthRange(+p0,+p1);

								}

								function _emscripten_glDepthRangef__wrapper(p0,p1) {

								 p0 = +p0;p1 = +p1; _emscripten_glDepthRangef(+p0,+p1);

								}

								function _emscripten_glPolygonOffset__wrapper(p0,p1) {

								 p0 = +p0;p1 = +p1; _emscripten_glPolygonOffset(+p0,+p1);

								}

								function b21() {

								 ; nullFunc_v(21);

								}

								function _emscripten_glLoadIdentity__wrapper() {

								 ; _emscripten_glLoadIdentity();

								}

								function _emscripten_glReleaseShaderCompiler__wrapper() {

								 ; _emscripten_glReleaseShaderCompiler();

								}

								function _emscripten_glFinish__wrapper() {

								 ; _emscripten_glFinish();

								}

								function _emscripten_glFlush__wrapper() {

								 ; _emscripten_glFlush();

								}

								function b22(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = +p2; nullFunc_viid(22);

								}

								function _emscripten_glTexParameterf__wrapper(p0,p1,p2) {

								 p0 = p0|0;p1 = p1|0;p2 = +p2; _emscripten_glTexParameterf(p0|0,p1|0,+p2);

								}

								function b23(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; nullFunc_viiii(23);

								}

								function _emscripten_glBufferData__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glBufferData(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glBufferSubData__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glBufferSubData(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glUniform3i__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glUniform3i(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glUniformMatrix2fv__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glUniformMatrix2fv(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glUniformMatrix3fv__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glUniformMatrix3fv(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glUniformMatrix4fv__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glUniformMatrix4fv(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glGetAttachedShaders__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glGetAttachedShaders(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glShaderSource__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glShaderSource(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glGetShaderSource__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glGetShaderSource(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glGetShaderInfoLog__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glGetShaderInfoLog(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glGetShaderPrecisionFormat__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glGetShaderPrecisionFormat(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glGetProgramInfoLog__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glGetProgramInfoLog(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glFramebufferRenderbuffer__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glFramebufferRenderbuffer(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glGetFramebufferAttachmentParameteriv__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glGetFramebufferAttachmentParameteriv(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glGetInfoLogARB__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glGetInfoLogARB(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glVertexPointer__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glVertexPointer(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glTexCoordPointer__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glTexCoordPointer(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glColorPointer__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glColorPointer(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glDrawElements__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glDrawElements(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glDrawArraysInstanced__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glDrawArraysInstanced(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glViewport__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glViewport(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glScissor__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glScissor(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glColorMask__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glColorMask(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glRenderbufferStorage__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glRenderbufferStorage(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glBlendFuncSeparate__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glBlendFuncSeparate(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glStencilFuncSeparate__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glStencilFuncSeparate(p0|0,p1|0,p2|0,p3|0);

								}

								function _emscripten_glStencilOpSeparate__wrapper(p0,p1,p2,p3) {

								 p0 = p0|0;p1 = p1|0;p2 = p2|0;p3 = p3|0; _emscripten_glStencilOpSeparate(p0|0,p1|0,p2|0,p3|0);

								}


								// EMSCRIPTEN_END_FUNCS

								var FUNCTION_TABLE_viiiii = [b0,_KeyCallback,_emscripten_glUniform4i__wrapper,_emscripten_glFramebufferTexture2D__wrapper,_emscripten_glShaderBinary__wrapper,_emscripten_glDrawElementsInstanced__wrapper,b0,b0];

								var FUNCTION_TABLE_vd = [b1,_emscripten_glClearDepth__wrapper,_emscripten_glClearDepthf__wrapper,_emscripten_glLineWidth__wrapper];

								var FUNCTION_TABLE_vid = [b2,_emscripten_glUniform1f__wrapper,_emscripten_glVertexAttrib1f__wrapper,b2];

								var FUNCTION_TABLE_vi = [b3,_emscripten_glDeleteShader__wrapper,_emscripten_glCompileShader__wrapper,_emscripten_glDeleteProgram__wrapper,_emscripten_glLinkProgram__wrapper,_emscripten_glUseProgram__wrapper,_emscripten_glValidateProgram__wrapper,_emscripten_glDeleteObjectARB__wrapper,_emscripten_glEnableClientState__wrapper,_emscripten_glClientActiveTexture__wrapper,_emscripten_glBindVertexArray__wrapper,_emscripten_glMatrixMode__wrapper,_emscripten_glLoadMatrixf__wrapper,_emscripten_glEnableVertexAttribArray__wrapper,_emscripten_glDisableVertexAttribArray__wrapper,_emscripten_glDepthFunc__wrapper,_emscripten_glEnable__wrapper,_emscripten_glDisable__wrapper,_emscripten_glFrontFace__wrapper,_emscripten_glCullFace__wrapper,_emscripten_glClear__wrapper,_emscripten_glClearStencil__wrapper,_emscripten_glDepthMask__wrapper,_emscripten_glStencilMask__wrapper,_emscripten_glGenerateMipmap__wrapper,_emscripten_glActiveTexture__wrapper,_emscripten_glBlendEquation__wrapper,b3,b3

								,b3,b3,b3];

								var FUNCTION_TABLE_vii = [b4,_ErrorCallback,_CursorEnterCallback,_CharCallback,_WindowIconifyCallback,_emscripten_glPixelStorei__wrapper,_emscripten_glGetIntegerv__wrapper,_emscripten_glGetFloatv__wrapper,_emscripten_glGetBooleanv__wrapper,_emscripten_glGenTextures__wrapper,_emscripten_glDeleteTextures__wrapper,_emscripten_glBindTexture__wrapper,_emscripten_glGenBuffers__wrapper,_emscripten_glDeleteBuffers__wrapper,_emscripten_glGenRenderbuffers__wrapper,_emscripten_glDeleteRenderbuffers__wrapper,_emscripten_glBindRenderbuffer__wrapper,_emscripten_glUniform1i__wrapper,_emscripten_glBindBuffer__wrapper,_emscripten_glVertexAttrib1fv__wrapper,_emscripten_glVertexAttrib2fv__wrapper,_emscripten_glVertexAttrib3fv__wrapper,_emscripten_glVertexAttrib4fv__wrapper,_emscripten_glAttachShader__wrapper,_emscripten_glDetachShader__wrapper,_emscripten_glBindFramebuffer__wrapper,_emscripten_glGenFramebuffers__wrapper,_emscripten_glDeleteFramebuffers__wrapper,_emscripten_glBindProgramARB__wrapper,_emscripten_glGetPointerv__wrapper,_emscripten_glGenVertexArrays__wrapper,_emscripten_glDeleteVertexArrays__wrapper,_emscripten_glVertexAttribDivisor__wrapper,_emscripten_glBlendFunc__wrapper,_emscripten_glBlendEquationSeparate__wrapper,_emscripten_glStencilMaskSeparate__wrapper,_emscripten_glHint__wrapper,_emscripten_glDrawBuffers__wrapper,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4,b4

								,b4,b4,b4,b4,b4];

								var FUNCTION_TABLE_ii = [b5,___stdio_close,_PhysicsLoop,_emscripten_glGetString__wrapper,_emscripten_glIsTexture__wrapper,_emscripten_glIsBuffer__wrapper,_emscripten_glIsRenderbuffer__wrapper,_emscripten_glCreateShader__wrapper,_emscripten_glIsShader__wrapper,_emscripten_glIsProgram__wrapper,_emscripten_glIsFramebuffer__wrapper,_emscripten_glCheckFramebufferStatus__wrapper,_emscripten_glIsEnabled__wrapper,b5,b5,b5];

								var FUNCTION_TABLE_viddd = [b6,_emscripten_glUniform3f__wrapper,_emscripten_glVertexAttrib3f__wrapper,b6];

								var FUNCTION_TABLE_vidd = [b7,_MouseCursorPosCallback,_ScrollCallback,_emscripten_glUniform2f__wrapper,_emscripten_glVertexAttrib2f__wrapper,b7,b7,b7];

								var FUNCTION_TABLE_iiii = [b8,___stdout_write,___stdio_seek,_sn_write,_EmscriptenFullscreenChangeCallback,_EmscriptenKeyboardCallback,_EmscriptenMouseCallback,_EmscriptenTouchCallback,_EmscriptenGamepadCallback,___stdio_write,b8,b8,b8,b8,b8,b8];

								var FUNCTION_TABLE_viiiiiiii = [b9,_emscripten_glCompressedTexImage2D__wrapper,_emscripten_glCopyTexImage2D__wrapper,_emscripten_glCopyTexSubImage2D__wrapper];

								var FUNCTION_TABLE_viiiiii = [b10,_emscripten_glDrawRangeElements__wrapper,_emscripten_glVertexAttribPointer__wrapper,b10];

								var FUNCTION_TABLE_viii = [b11,_WindowSizeCallback,_emscripten_glGetTexParameterfv__wrapper,_emscripten_glGetTexParameteriv__wrapper,_emscripten_glTexParameterfv__wrapper,_emscripten_glTexParameteriv__wrapper,_emscripten_glGetBufferParameteriv__wrapper,_emscripten_glGetRenderbufferParameteriv__wrapper,_emscripten_glGetUniformfv__wrapper,_emscripten_glGetUniformiv__wrapper,_emscripten_glGetVertexAttribfv__wrapper,_emscripten_glGetVertexAttribiv__wrapper,_emscripten_glGetVertexAttribPointerv__wrapper,_emscripten_glUniform2i__wrapper,_emscripten_glUniform1iv__wrapper,_emscripten_glUniform2iv__wrapper,_emscripten_glUniform3iv__wrapper,_emscripten_glUniform4iv__wrapper,_emscripten_glUniform1fv__wrapper,_emscripten_glUniform2fv__wrapper,_emscripten_glUniform3fv__wrapper,_emscripten_glUniform4fv__wrapper,_emscripten_glGetShaderiv__wrapper,_emscripten_glGetProgramiv__wrapper,_emscripten_glBindAttribLocation__wrapper,_emscripten_glGetObjectParameterivARB__wrapper,_emscripten_glNormalPointer__wrapper,_emscripten_glDrawArrays__wrapper,_emscripten_glTexParameteri__wrapper,_emscripten_glStencilFunc__wrapper,_emscripten_glStencilOp__wrapper,b11];

								var FUNCTION_TABLE_vidddd = [b12,_emscripten_glUniform4f__wrapper,_emscripten_glVertexAttrib4f__wrapper,b12];

								var FUNCTION_TABLE_vdi = [b13,_emscripten_glSampleCoverage__wrapper];

								var FUNCTION_TABLE_viiiiiii = [b14,_emscripten_glReadPixels__wrapper,_emscripten_glGetActiveUniform__wrapper,_emscripten_glGetActiveAttrib__wrapper];

								var FUNCTION_TABLE_viiiiiiiii = [b15,_emscripten_glCompressedTexSubImage2D__wrapper,_emscripten_glTexImage2D__wrapper,_emscripten_glTexSubImage2D__wrapper];

								var FUNCTION_TABLE_iii = [b16,_emscripten_glGetUniformLocation__wrapper,_emscripten_glGetAttribLocation__wrapper,b16];

								var FUNCTION_TABLE_i = [b17,_emscripten_glCreateProgram__wrapper,_emscripten_glGetError__wrapper,b17];

								var FUNCTION_TABLE_vdddddd = [b18,_emscripten_glFrustum__wrapper];

								var FUNCTION_TABLE_vdddd = [b19,_emscripten_glRotatef__wrapper,_emscripten_glClearColor__wrapper,_emscripten_glBlendColor__wrapper];

								var FUNCTION_TABLE_vdd = [b20,_emscripten_glDepthRange__wrapper,_emscripten_glDepthRangef__wrapper,_emscripten_glPolygonOffset__wrapper];

								var FUNCTION_TABLE_v = [b21,_UpdateDrawFrame,_emscripten_glLoadIdentity__wrapper,_emscripten_glReleaseShaderCompiler__wrapper,_emscripten_glFinish__wrapper,_emscripten_glFlush__wrapper,b21,b21];

								var FUNCTION_TABLE_viid = [b22,_emscripten_glTexParameterf__wrapper];

								var FUNCTION_TABLE_viiii = [b23,_MouseButtonCallback,_emscripten_glBufferData__wrapper,_emscripten_glBufferSubData__wrapper,_emscripten_glUniform3i__wrapper,_emscripten_glUniformMatrix2fv__wrapper,_emscripten_glUniformMatrix3fv__wrapper,_emscripten_glUniformMatrix4fv__wrapper,_emscripten_glGetAttachedShaders__wrapper,_emscripten_glShaderSource__wrapper,_emscripten_glGetShaderSource__wrapper,_emscripten_glGetShaderInfoLog__wrapper,_emscripten_glGetShaderPrecisionFormat__wrapper,_emscripten_glGetProgramInfoLog__wrapper,_emscripten_glFramebufferRenderbuffer__wrapper,_emscripten_glGetFramebufferAttachmentParameteriv__wrapper,_emscripten_glGetInfoLogARB__wrapper,_emscripten_glVertexPointer__wrapper,_emscripten_glTexCoordPointer__wrapper,_emscripten_glColorPointer__wrapper,_emscripten_glDrawElements__wrapper,_emscripten_glDrawArraysInstanced__wrapper,_emscripten_glViewport__wrapper,_emscripten_glScissor__wrapper,_emscripten_glColorMask__wrapper,_emscripten_glRenderbufferStorage__wrapper,_emscripten_glBlendFuncSeparate__wrapper,_emscripten_glStencilFuncSeparate__wrapper,_emscripten_glStencilOpSeparate__wrapper,b23,b23,b23];


								  return { _emscripten_sync_run_in_main_thread_3: _emscripten_sync_run_in_main_thread_3, _roundf: _roundf, _bitshift64Shl: _bitshift64Shl, _emscripten_atomic_load_f32: _emscripten_atomic_load_f32, ___uremdi3: ___uremdi3, ___udivdi3: ___udivdi3, _emscripten_atomic_xor_u64: _emscripten_atomic_xor_u64, _llvm_cttz_i32: _llvm_cttz_i32, _bitshift64Lshr: _bitshift64Lshr, _emscripten_atomic_and_u64: _emscripten_atomic_and_u64, _emscripten_sync_run_in_main_thread: _emscripten_sync_run_in_main_thread, _emscripten_sync_run_in_main_thread_4: _emscripten_sync_run_in_main_thread_4, _emscripten_sync_run_in_main_thread_5: _emscripten_sync_run_in_main_thread_5, _emscripten_sync_run_in_main_thread_6: _emscripten_sync_run_in_main_thread_6, _emscripten_sync_run_in_main_thread_7: _emscripten_sync_run_in_main_thread_7, _emscripten_sync_run_in_main_thread_0: _emscripten_sync_run_in_main_thread_0, _emscripten_sync_run_in_main_thread_1: _emscripten_sync_run_in_main_thread_1, _emscripten_sync_run_in_main_thread_2: _emscripten_sync_run_in_main_thread_2, __emscripten_atomic_fetch_and_sub_u64: __emscripten_atomic_fetch_and_sub_u64, _emscripten_atomic_exchange_u32: _emscripten_atomic_exchange_u32, _fflush: _fflush, _emscripten_set_current_thread_status: _emscripten_set_current_thread_status, _emscripten_atomic_cas_u64: _emscripten_atomic_cas_u64, _memset: _memset, _emscripten_atomic_sub_u64: _emscripten_atomic_sub_u64, _emscripten_sync_run_in_main_thread_xprintf_varargs: _emscripten_sync_run_in_main_thread_xprintf_varargs, _i64Subtract: _i64Subtract, _llvm_bswap_i32: _llvm_bswap_i32, ___muldi3: ___muldi3, __emscripten_atomic_fetch_and_and_u64: __emscripten_atomic_fetch_and_and_u64, _emscripten_atomic_add_u64: _emscripten_atomic_add_u64, _emscripten_atomic_store_f64: _emscripten_atomic_store_f64, ___muldsi3: ___muldsi3, __emscripten_atomic_fetch_and_xor_u64: __emscripten_atomic_fetch_and_xor_u64, ___udivmoddi4: ___udivmoddi4, _i64Add: _i64Add, _emscripten_atomic_store_u64: _emscripten_atomic_store_u64, _emscripten_atomic_load_f64: _emscripten_atomic_load_f64, _emscripten_get_global_libc: _emscripten_get_global_libc, __emscripten_atomic_fetch_and_add_u64: __emscripten_atomic_fetch_and_add_u64, __emscripten_atomic_fetch_and_or_u64: __emscripten_atomic_fetch_and_or_u64, _emscripten_GetProcAddress: _emscripten_GetProcAddress, _emscripten_async_run_in_main_thread: _emscripten_async_run_in_main_thread, ___errno_location: ___errno_location, _main: _main, _emscripten_main_thread_process_queued_calls: _emscripten_main_thread_process_queued_calls, _emscripten_atomic_load_u64: _emscripten_atomic_load_u64, _free: _free, _emscripten_atomic_store_f32: _emscripten_atomic_store_f32, _emscripten_atomic_exchange_u64: _emscripten_atomic_exchange_u64, _memmove: _memmove, ___pthread_tsd_run_dtors: ___pthread_tsd_run_dtors, _malloc: _malloc, _memcpy: _memcpy, _emscripten_conditional_set_current_thread_status: _emscripten_conditional_set_current_thread_status, _sbrk: _sbrk, _emscripten_atomic_or_u64: _emscripten_atomic_or_u64, _strstr: _strstr, ___emscripten_pthread_data_constructor: ___emscripten_pthread_data_constructor, runPostSets: runPostSets, stackAlloc: stackAlloc, stackSave: stackSave, stackRestore: stackRestore, establishStackSpace: establishStackSpace, setTempRet0: setTempRet0, getTempRet0: getTempRet0, setThrew: setThrew, stackAlloc: stackAlloc, stackSave: stackSave, stackRestore: stackRestore, establishStackSpace: establishStackSpace, setThrew: setThrew, setTempRet0: setTempRet0, getTempRet0: getTempRet0, dynCall_viiiii: dynCall_viiiii, dynCall_vd: dynCall_vd, dynCall_vid: dynCall_vid, dynCall_vi: dynCall_vi, dynCall_vii: dynCall_vii, dynCall_ii: dynCall_ii, dynCall_viddd: dynCall_viddd, dynCall_vidd: dynCall_vidd, dynCall_iiii: dynCall_iiii, dynCall_viiiiiiii: dynCall_viiiiiiii, dynCall_viiiiii: dynCall_viiiiii, dynCall_viii: dynCall_viii, dynCall_vidddd: dynCall_vidddd, dynCall_vdi: dynCall_vdi, dynCall_viiiiiii: dynCall_viiiiiii, dynCall_viiiiiiiii: dynCall_viiiiiiiii, dynCall_iii: dynCall_iii, dynCall_i: dynCall_i, dynCall_vdddddd: dynCall_vdddddd, dynCall_vdddd: dynCall_vdddd, dynCall_vdd: dynCall_vdd, dynCall_v: dynCall_v, dynCall_viid: dynCall_viid, dynCall_viiii: dynCall_viiii };

								})

								// EMSCRIPTEN_END_ASM

								(Module.asmGlobalArg, Module.asmLibraryArg, buffer);


								var real___emscripten_atomic_fetch_and_xor_u64 = asm["__emscripten_atomic_fetch_and_xor_u64"]; asm["__emscripten_atomic_fetch_and_xor_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real___emscripten_atomic_fetch_and_xor_u64.apply(null, arguments);

								};


								var real__roundf = asm["_roundf"]; asm["_roundf"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__roundf.apply(null, arguments);

								};


								var real__bitshift64Shl = asm["_bitshift64Shl"]; asm["_bitshift64Shl"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__bitshift64Shl.apply(null, arguments);

								};


								var real__emscripten_atomic_load_f32 = asm["_emscripten_atomic_load_f32"]; asm["_emscripten_atomic_load_f32"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_load_f32.apply(null, arguments);

								};


								var real____emscripten_pthread_data_constructor = asm["___emscripten_pthread_data_constructor"]; asm["___emscripten_pthread_data_constructor"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____emscripten_pthread_data_constructor.apply(null, arguments);

								};


								var real_stackSave = asm["stackSave"]; asm["stackSave"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real_stackSave.apply(null, arguments);

								};


								var real__emscripten_atomic_xor_u64 = asm["_emscripten_atomic_xor_u64"]; asm["_emscripten_atomic_xor_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_xor_u64.apply(null, arguments);

								};


								var real__emscripten_atomic_load_u64 = asm["_emscripten_atomic_load_u64"]; asm["_emscripten_atomic_load_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_load_u64.apply(null, arguments);

								};


								var real____udivdi3 = asm["___udivdi3"]; asm["___udivdi3"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____udivdi3.apply(null, arguments);

								};


								var real__bitshift64Lshr = asm["_bitshift64Lshr"]; asm["_bitshift64Lshr"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__bitshift64Lshr.apply(null, arguments);

								};


								var real_getTempRet0 = asm["getTempRet0"]; asm["getTempRet0"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real_getTempRet0.apply(null, arguments);

								};


								var real__emscripten_atomic_and_u64 = asm["_emscripten_atomic_and_u64"]; asm["_emscripten_atomic_and_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_and_u64.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread = asm["_emscripten_sync_run_in_main_thread"]; asm["_emscripten_sync_run_in_main_thread"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_4 = asm["_emscripten_sync_run_in_main_thread_4"]; asm["_emscripten_sync_run_in_main_thread_4"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_4.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_5 = asm["_emscripten_sync_run_in_main_thread_5"]; asm["_emscripten_sync_run_in_main_thread_5"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_5.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_6 = asm["_emscripten_sync_run_in_main_thread_6"]; asm["_emscripten_sync_run_in_main_thread_6"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_6.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_7 = asm["_emscripten_sync_run_in_main_thread_7"]; asm["_emscripten_sync_run_in_main_thread_7"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_7.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_0 = asm["_emscripten_sync_run_in_main_thread_0"]; asm["_emscripten_sync_run_in_main_thread_0"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_0.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_1 = asm["_emscripten_sync_run_in_main_thread_1"]; asm["_emscripten_sync_run_in_main_thread_1"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_1.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_2 = asm["_emscripten_sync_run_in_main_thread_2"]; asm["_emscripten_sync_run_in_main_thread_2"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_2.apply(null, arguments);

								};


								var real___emscripten_atomic_fetch_and_sub_u64 = asm["__emscripten_atomic_fetch_and_sub_u64"]; asm["__emscripten_atomic_fetch_and_sub_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real___emscripten_atomic_fetch_and_sub_u64.apply(null, arguments);

								};


								var real__emscripten_atomic_exchange_u32 = asm["_emscripten_atomic_exchange_u32"]; asm["_emscripten_atomic_exchange_u32"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_exchange_u32.apply(null, arguments);

								};


								var real__fflush = asm["_fflush"]; asm["_fflush"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__fflush.apply(null, arguments);

								};


								var real__emscripten_set_current_thread_status = asm["_emscripten_set_current_thread_status"]; asm["_emscripten_set_current_thread_status"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_set_current_thread_status.apply(null, arguments);

								};


								var real__emscripten_atomic_cas_u64 = asm["_emscripten_atomic_cas_u64"]; asm["_emscripten_atomic_cas_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_cas_u64.apply(null, arguments);

								};


								var real__llvm_cttz_i32 = asm["_llvm_cttz_i32"]; asm["_llvm_cttz_i32"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__llvm_cttz_i32.apply(null, arguments);

								};


								var real__emscripten_atomic_sub_u64 = asm["_emscripten_atomic_sub_u64"]; asm["_emscripten_atomic_sub_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_sub_u64.apply(null, arguments);

								};


								var real__main = asm["_main"]; asm["_main"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__main.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_xprintf_varargs = asm["_emscripten_sync_run_in_main_thread_xprintf_varargs"]; asm["_emscripten_sync_run_in_main_thread_xprintf_varargs"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_xprintf_varargs.apply(null, arguments);

								};


								var real____errno_location = asm["___errno_location"]; asm["___errno_location"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____errno_location.apply(null, arguments);

								};


								var real____muldi3 = asm["___muldi3"]; asm["___muldi3"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____muldi3.apply(null, arguments);

								};


								var real___emscripten_atomic_fetch_and_and_u64 = asm["__emscripten_atomic_fetch_and_and_u64"]; asm["__emscripten_atomic_fetch_and_and_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real___emscripten_atomic_fetch_and_and_u64.apply(null, arguments);

								};


								var real__emscripten_sync_run_in_main_thread_3 = asm["_emscripten_sync_run_in_main_thread_3"]; asm["_emscripten_sync_run_in_main_thread_3"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_sync_run_in_main_thread_3.apply(null, arguments);

								};


								var real____uremdi3 = asm["___uremdi3"]; asm["___uremdi3"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____uremdi3.apply(null, arguments);

								};


								var real_stackAlloc = asm["stackAlloc"]; asm["stackAlloc"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real_stackAlloc.apply(null, arguments);

								};


								var real__i64Subtract = asm["_i64Subtract"]; asm["_i64Subtract"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__i64Subtract.apply(null, arguments);

								};


								var real_setTempRet0 = asm["setTempRet0"]; asm["setTempRet0"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real_setTempRet0.apply(null, arguments);

								};


								var real__i64Add = asm["_i64Add"]; asm["_i64Add"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__i64Add.apply(null, arguments);

								};


								var real__emscripten_atomic_store_u64 = asm["_emscripten_atomic_store_u64"]; asm["_emscripten_atomic_store_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_store_u64.apply(null, arguments);

								};


								var real__emscripten_atomic_load_f64 = asm["_emscripten_atomic_load_f64"]; asm["_emscripten_atomic_load_f64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_load_f64.apply(null, arguments);

								};


								var real__emscripten_get_global_libc = asm["_emscripten_get_global_libc"]; asm["_emscripten_get_global_libc"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_get_global_libc.apply(null, arguments);

								};


								var real___emscripten_atomic_fetch_and_add_u64 = asm["__emscripten_atomic_fetch_and_add_u64"]; asm["__emscripten_atomic_fetch_and_add_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real___emscripten_atomic_fetch_and_add_u64.apply(null, arguments);

								};


								var real___emscripten_atomic_fetch_and_or_u64 = asm["__emscripten_atomic_fetch_and_or_u64"]; asm["__emscripten_atomic_fetch_and_or_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real___emscripten_atomic_fetch_and_or_u64.apply(null, arguments);

								};


								var real__emscripten_GetProcAddress = asm["_emscripten_GetProcAddress"]; asm["_emscripten_GetProcAddress"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_GetProcAddress.apply(null, arguments);

								};


								var real__emscripten_async_run_in_main_thread = asm["_emscripten_async_run_in_main_thread"]; asm["_emscripten_async_run_in_main_thread"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_async_run_in_main_thread.apply(null, arguments);

								};


								var real__llvm_bswap_i32 = asm["_llvm_bswap_i32"]; asm["_llvm_bswap_i32"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__llvm_bswap_i32.apply(null, arguments);

								};


								var real____muldsi3 = asm["___muldsi3"]; asm["___muldsi3"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____muldsi3.apply(null, arguments);

								};


								var real__emscripten_main_thread_process_queued_calls = asm["_emscripten_main_thread_process_queued_calls"]; asm["_emscripten_main_thread_process_queued_calls"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_main_thread_process_queued_calls.apply(null, arguments);

								};


								var real__emscripten_atomic_add_u64 = asm["_emscripten_atomic_add_u64"]; asm["_emscripten_atomic_add_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_add_u64.apply(null, arguments);

								};


								var real__free = asm["_free"]; asm["_free"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__free.apply(null, arguments);

								};


								var real__emscripten_atomic_store_f32 = asm["_emscripten_atomic_store_f32"]; asm["_emscripten_atomic_store_f32"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_store_f32.apply(null, arguments);

								};


								var real_setThrew = asm["setThrew"]; asm["setThrew"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real_setThrew.apply(null, arguments);

								};


								var real__emscripten_atomic_exchange_u64 = asm["_emscripten_atomic_exchange_u64"]; asm["_emscripten_atomic_exchange_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_exchange_u64.apply(null, arguments);

								};


								var real__emscripten_atomic_store_f64 = asm["_emscripten_atomic_store_f64"]; asm["_emscripten_atomic_store_f64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_store_f64.apply(null, arguments);

								};


								var real____pthread_tsd_run_dtors = asm["___pthread_tsd_run_dtors"]; asm["___pthread_tsd_run_dtors"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____pthread_tsd_run_dtors.apply(null, arguments);

								};


								var real_stackRestore = asm["stackRestore"]; asm["stackRestore"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real_stackRestore.apply(null, arguments);

								};


								var real____udivmoddi4 = asm["___udivmoddi4"]; asm["___udivmoddi4"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real____udivmoddi4.apply(null, arguments);

								};


								var real__malloc = asm["_malloc"]; asm["_malloc"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__malloc.apply(null, arguments);

								};


								var real_establishStackSpace = asm["establishStackSpace"]; asm["establishStackSpace"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real_establishStackSpace.apply(null, arguments);

								};


								var real__emscripten_conditional_set_current_thread_status = asm["_emscripten_conditional_set_current_thread_status"]; asm["_emscripten_conditional_set_current_thread_status"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_conditional_set_current_thread_status.apply(null, arguments);

								};


								var real__sbrk = asm["_sbrk"]; asm["_sbrk"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__sbrk.apply(null, arguments);

								};


								var real__memmove = asm["_memmove"]; asm["_memmove"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__memmove.apply(null, arguments);

								};


								var real__emscripten_atomic_or_u64 = asm["_emscripten_atomic_or_u64"]; asm["_emscripten_atomic_or_u64"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__emscripten_atomic_or_u64.apply(null, arguments);

								};


								var real__strstr = asm["_strstr"]; asm["_strstr"] = function() {

								assert(runtimeInitialized, 'you need to wait for the runtime to be ready (e.g. wait for main() to be called)');

								assert(!runtimeExited, 'the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)');

								return real__strstr.apply(null, arguments);

								};

								var __emscripten_atomic_fetch_and_xor_u64 = Module["__emscripten_atomic_fetch_and_xor_u64"] = asm["__emscripten_atomic_fetch_and_xor_u64"];

								var _roundf = Module["_roundf"] = asm["_roundf"];

								var _bitshift64Shl = Module["_bitshift64Shl"] = asm["_bitshift64Shl"];

								var _emscripten_atomic_load_f32 = Module["_emscripten_atomic_load_f32"] = asm["_emscripten_atomic_load_f32"];

								var ___emscripten_pthread_data_constructor = Module["___emscripten_pthread_data_constructor"] = asm["___emscripten_pthread_data_constructor"];

								var stackSave = Module["stackSave"] = asm["stackSave"];

								var _emscripten_atomic_xor_u64 = Module["_emscripten_atomic_xor_u64"] = asm["_emscripten_atomic_xor_u64"];

								var _emscripten_atomic_load_u64 = Module["_emscripten_atomic_load_u64"] = asm["_emscripten_atomic_load_u64"];

								var ___udivdi3 = Module["___udivdi3"] = asm["___udivdi3"];

								var _bitshift64Lshr = Module["_bitshift64Lshr"] = asm["_bitshift64Lshr"];

								var getTempRet0 = Module["getTempRet0"] = asm["getTempRet0"];

								var _emscripten_atomic_and_u64 = Module["_emscripten_atomic_and_u64"] = asm["_emscripten_atomic_and_u64"];

								var _emscripten_sync_run_in_main_thread = Module["_emscripten_sync_run_in_main_thread"] = asm["_emscripten_sync_run_in_main_thread"];

								var _emscripten_sync_run_in_main_thread_4 = Module["_emscripten_sync_run_in_main_thread_4"] = asm["_emscripten_sync_run_in_main_thread_4"];

								var _emscripten_sync_run_in_main_thread_5 = Module["_emscripten_sync_run_in_main_thread_5"] = asm["_emscripten_sync_run_in_main_thread_5"];

								var _emscripten_sync_run_in_main_thread_6 = Module["_emscripten_sync_run_in_main_thread_6"] = asm["_emscripten_sync_run_in_main_thread_6"];

								var _emscripten_sync_run_in_main_thread_7 = Module["_emscripten_sync_run_in_main_thread_7"] = asm["_emscripten_sync_run_in_main_thread_7"];

								var _emscripten_sync_run_in_main_thread_0 = Module["_emscripten_sync_run_in_main_thread_0"] = asm["_emscripten_sync_run_in_main_thread_0"];

								var _emscripten_sync_run_in_main_thread_1 = Module["_emscripten_sync_run_in_main_thread_1"] = asm["_emscripten_sync_run_in_main_thread_1"];

								var _emscripten_sync_run_in_main_thread_2 = Module["_emscripten_sync_run_in_main_thread_2"] = asm["_emscripten_sync_run_in_main_thread_2"];

								var __emscripten_atomic_fetch_and_sub_u64 = Module["__emscripten_atomic_fetch_and_sub_u64"] = asm["__emscripten_atomic_fetch_and_sub_u64"];

								var _emscripten_atomic_exchange_u32 = Module["_emscripten_atomic_exchange_u32"] = asm["_emscripten_atomic_exchange_u32"];

								var _fflush = Module["_fflush"] = asm["_fflush"];

								var _emscripten_set_current_thread_status = Module["_emscripten_set_current_thread_status"] = asm["_emscripten_set_current_thread_status"];

								var _emscripten_atomic_cas_u64 = Module["_emscripten_atomic_cas_u64"] = asm["_emscripten_atomic_cas_u64"];

								var _llvm_cttz_i32 = Module["_llvm_cttz_i32"] = asm["_llvm_cttz_i32"];

								var _emscripten_atomic_sub_u64 = Module["_emscripten_atomic_sub_u64"] = asm["_emscripten_atomic_sub_u64"];

								var _main = Module["_main"] = asm["_main"];

								var _emscripten_sync_run_in_main_thread_xprintf_varargs = Module["_emscripten_sync_run_in_main_thread_xprintf_varargs"] = asm["_emscripten_sync_run_in_main_thread_xprintf_varargs"];

								var _memcpy = Module["_memcpy"] = asm["_memcpy"];

								var ___errno_location = Module["___errno_location"] = asm["___errno_location"];

								var ___muldi3 = Module["___muldi3"] = asm["___muldi3"];

								var __emscripten_atomic_fetch_and_and_u64 = Module["__emscripten_atomic_fetch_and_and_u64"] = asm["__emscripten_atomic_fetch_and_and_u64"];

								var _emscripten_sync_run_in_main_thread_3 = Module["_emscripten_sync_run_in_main_thread_3"] = asm["_emscripten_sync_run_in_main_thread_3"];

								var ___uremdi3 = Module["___uremdi3"] = asm["___uremdi3"];

								var stackAlloc = Module["stackAlloc"] = asm["stackAlloc"];

								var _i64Subtract = Module["_i64Subtract"] = asm["_i64Subtract"];

								var _memset = Module["_memset"] = asm["_memset"];

								var setTempRet0 = Module["setTempRet0"] = asm["setTempRet0"];

								var _i64Add = Module["_i64Add"] = asm["_i64Add"];

								var _emscripten_atomic_store_u64 = Module["_emscripten_atomic_store_u64"] = asm["_emscripten_atomic_store_u64"];

								var _emscripten_atomic_load_f64 = Module["_emscripten_atomic_load_f64"] = asm["_emscripten_atomic_load_f64"];

								var _emscripten_get_global_libc = Module["_emscripten_get_global_libc"] = asm["_emscripten_get_global_libc"];

								var __emscripten_atomic_fetch_and_add_u64 = Module["__emscripten_atomic_fetch_and_add_u64"] = asm["__emscripten_atomic_fetch_and_add_u64"];

								var __emscripten_atomic_fetch_and_or_u64 = Module["__emscripten_atomic_fetch_and_or_u64"] = asm["__emscripten_atomic_fetch_and_or_u64"];

								var _emscripten_GetProcAddress = Module["_emscripten_GetProcAddress"] = asm["_emscripten_GetProcAddress"];

								var _emscripten_async_run_in_main_thread = Module["_emscripten_async_run_in_main_thread"] = asm["_emscripten_async_run_in_main_thread"];

								var _llvm_bswap_i32 = Module["_llvm_bswap_i32"] = asm["_llvm_bswap_i32"];

								var runPostSets = Module["runPostSets"] = asm["runPostSets"];

								var ___muldsi3 = Module["___muldsi3"] = asm["___muldsi3"];

								var _emscripten_main_thread_process_queued_calls = Module["_emscripten_main_thread_process_queued_calls"] = asm["_emscripten_main_thread_process_queued_calls"];

								var _emscripten_atomic_add_u64 = Module["_emscripten_atomic_add_u64"] = asm["_emscripten_atomic_add_u64"];

								var _free = Module["_free"] = asm["_free"];

								var _emscripten_atomic_store_f32 = Module["_emscripten_atomic_store_f32"] = asm["_emscripten_atomic_store_f32"];

								var setThrew = Module["setThrew"] = asm["setThrew"];

								var _emscripten_atomic_exchange_u64 = Module["_emscripten_atomic_exchange_u64"] = asm["_emscripten_atomic_exchange_u64"];

								var _emscripten_atomic_store_f64 = Module["_emscripten_atomic_store_f64"] = asm["_emscripten_atomic_store_f64"];

								var ___pthread_tsd_run_dtors = Module["___pthread_tsd_run_dtors"] = asm["___pthread_tsd_run_dtors"];

								var stackRestore = Module["stackRestore"] = asm["stackRestore"];

								var ___udivmoddi4 = Module["___udivmoddi4"] = asm["___udivmoddi4"];

								var _malloc = Module["_malloc"] = asm["_malloc"];

								var establishStackSpace = Module["establishStackSpace"] = asm["establishStackSpace"];

								var _emscripten_conditional_set_current_thread_status = Module["_emscripten_conditional_set_current_thread_status"] = asm["_emscripten_conditional_set_current_thread_status"];

								var _sbrk = Module["_sbrk"] = asm["_sbrk"];

								var _memmove = Module["_memmove"] = asm["_memmove"];

								var _emscripten_atomic_or_u64 = Module["_emscripten_atomic_or_u64"] = asm["_emscripten_atomic_or_u64"];

								var _strstr = Module["_strstr"] = asm["_strstr"];

								var dynCall_viiiii = Module["dynCall_viiiii"] = asm["dynCall_viiiii"];

								var dynCall_vd = Module["dynCall_vd"] = asm["dynCall_vd"];

								var dynCall_vid = Module["dynCall_vid"] = asm["dynCall_vid"];

								var dynCall_vi = Module["dynCall_vi"] = asm["dynCall_vi"];

								var dynCall_vii = Module["dynCall_vii"] = asm["dynCall_vii"];

								var dynCall_ii = Module["dynCall_ii"] = asm["dynCall_ii"];

								var dynCall_viddd = Module["dynCall_viddd"] = asm["dynCall_viddd"];

								var dynCall_vidd = Module["dynCall_vidd"] = asm["dynCall_vidd"];

								var dynCall_iiii = Module["dynCall_iiii"] = asm["dynCall_iiii"];

								var dynCall_viiiiiiii = Module["dynCall_viiiiiiii"] = asm["dynCall_viiiiiiii"];

								var dynCall_viiiiii = Module["dynCall_viiiiii"] = asm["dynCall_viiiiii"];

								var dynCall_viii = Module["dynCall_viii"] = asm["dynCall_viii"];

								var dynCall_vidddd = Module["dynCall_vidddd"] = asm["dynCall_vidddd"];

								var dynCall_vdi = Module["dynCall_vdi"] = asm["dynCall_vdi"];

								var dynCall_viiiiiii = Module["dynCall_viiiiiii"] = asm["dynCall_viiiiiii"];

								var dynCall_viiiiiiiii = Module["dynCall_viiiiiiiii"] = asm["dynCall_viiiiiiiii"];

								var dynCall_iii = Module["dynCall_iii"] = asm["dynCall_iii"];

								var dynCall_i = Module["dynCall_i"] = asm["dynCall_i"];

								var dynCall_vdddddd = Module["dynCall_vdddddd"] = asm["dynCall_vdddddd"];

								var dynCall_vdddd = Module["dynCall_vdddd"] = asm["dynCall_vdddd"];

								var dynCall_vdd = Module["dynCall_vdd"] = asm["dynCall_vdd"];

								var dynCall_v = Module["dynCall_v"] = asm["dynCall_v"];

								var dynCall_viid = Module["dynCall_viid"] = asm["dynCall_viid"];

								var dynCall_viiii = Module["dynCall_viiii"] = asm["dynCall_viiii"];

								;


								Runtime.stackAlloc = Module['stackAlloc'];

								Runtime.stackSave = Module['stackSave'];

								Runtime.stackRestore = Module['stackRestore'];

								Runtime.establishStackSpace = Module['establishStackSpace'];


								Runtime.setTempRet0 = Module['setTempRet0'];

								Runtime.getTempRet0 = Module['getTempRet0'];


								// === Auto-generated postamble setup entry stuff ===


								Module['asm'] = asm;


								function ExitStatus(status) {

								  this.name = "ExitStatus";

								  this.message = "Program terminated with exit(" + status + ")";

								  this.status = status;

								};

								ExitStatus.prototype = new Error();

								ExitStatus.prototype.constructor = ExitStatus;


								var initialStackTop;

								var preloadStartTime = null;

								var calledMain = false;


								dependenciesFulfilled = function runCaller() {

								  // If run has never been called, and we should call run (INVOKE_RUN is true, and Module.noInitialRun is not false)

								  if (!Module['calledRun']) run();

								  if (!Module['calledRun']) dependenciesFulfilled = runCaller; // try this again later, after new deps are fulfilled

								}


								Module['callMain'] = Module.callMain = function callMain(args) {

								  assert(runDependencies == 0, 'cannot call main when async dependencies remain! (listen on __ATMAIN__)');

								  assert(__ATPRERUN__.length == 0, 'cannot call main when preRun functions remain to be called');


								  args = args || [];


								  ensureInitRuntime();


								  var argc = args.length+1;

								  function pad() {

								    for (var i = 0; i < 4-1; i++) {

								      argv.push(0);

								    }

								  }

								  var argv = [allocate(intArrayFromString(Module['thisProgram']), 'i8', ALLOC_NORMAL) ];

								  pad();

								  for (var i = 0; i < argc-1; i = i + 1) {

								    argv.push(allocate(intArrayFromString(args[i]), 'i8', ALLOC_NORMAL));

								    pad();

								  }

								  argv.push(0);

								  argv = allocate(argv, 'i32', ALLOC_NORMAL);


								  try {


								    var ret = Module['_main'](argc, argv, 0);


								    // if we're not running an evented main loop, it's time to exit

								    exit(ret, /* implicit = */ true);

								  }

								  catch(e) {

								    if (e instanceof ExitStatus) {

								      // exit() throws this once it's done to make sure execution

								      // has been stopped completely

								      return;

								    } else if (e == 'SimulateInfiniteLoop') {

								      // running an evented main loop, don't immediately exit

								      Module['noExitRuntime'] = true;

								      return;

								    } else {

								      var toLog = e;

								      if (e && typeof e === 'object' && e.stack) {

								        toLog = [e, e.stack];

								      }

								      Module.printErr('exception thrown: ' + toLog);

								      Module['quit'](1, e);

								    }

								  } finally {

								    calledMain = true;

								  }

								}


								function run(args) {

								  args = args || Module['arguments'];


								  if (preloadStartTime === null) preloadStartTime = Date.now();


								  if (runDependencies > 0) {

								    Module.printErr('run() called, but dependencies remain, so not running');

								    return;

								  }


								  writeStackCookie();


								  preRun();


								  if (runDependencies > 0) return; // a preRun added a dependency, run will be called later

								  if (Module['calledRun']) return; // run may have just been called through dependencies being fulfilled just in this very frame


								  function doRun() {

								    if (Module['calledRun']) return; // run may have just been called while the async setStatus time below was happening

								    Module['calledRun'] = true;


								    if (ABORT) return;


								    ensureInitRuntime();


								    preMain();


								    if (ENVIRONMENT_IS_WEB && preloadStartTime !== null) {

								      Module.printErr('pre-main prep time: ' + (Date.now() - preloadStartTime) + ' ms');

								    }


								    if (Module['onRuntimeInitialized']) Module['onRuntimeInitialized']();


								    if (Module['_main'] && shouldRunNow) Module['callMain'](args);


								    postRun();

								  }


								  if (Module['setStatus']) {

								    Module['setStatus']('Running...');

								    setTimeout(function() {

								      setTimeout(function() {

								        Module['setStatus']('');

								      }, 1);

								      doRun();

								    }, 1);

								  } else {

								    doRun();

								  }

								  checkStackCookie();

								}

								Module['run'] = Module.run = run;


								function exit(status, implicit) {

								  if (implicit && Module['noExitRuntime']) {

								    Module.printErr('exit(' + status + ') implicitly called by end of main(), but noExitRuntime, so not exiting the runtime (you can use emscripten_force_exit, if you want to force a true shutdown)');

								    return;

								  }


								  if (Module['noExitRuntime']) {

								    Module.printErr('exit(' + status + ') called, but noExitRuntime, so halting execution but not exiting the runtime or preventing further async execution (you can use emscripten_force_exit, if you want to force a true shutdown)');

								  } else {

								    PThread.terminateAllThreads();


								    ABORT = true;

								    EXITSTATUS = status;

								    STACKTOP = initialStackTop;


								    exitRuntime();


								    if (Module['onExit']) Module['onExit'](status);

								  }


								  if (ENVIRONMENT_IS_NODE) {

								    process['exit'](status);

								  }

								  Module['quit'](status, new ExitStatus(status));

								}

								Module['exit'] = Module.exit = exit;


								var abortDecorators = [];


								function abort(what) {

								  if (ENVIRONMENT_IS_PTHREAD) console.error('Pthread aborting at ' + new Error().stack);

								  if (what !== undefined) {

								    Module.print(what);

								    Module.printErr(what);

								    what = JSON.stringify(what)

								  } else {

								    what = '';

								  }


								  ABORT = true;

								  EXITSTATUS = 1;


								  var extra = '';


								  var output = 'abort(' + what + ') at ' + stackTrace() + extra;

								  if (abortDecorators) {

								    abortDecorators.forEach(function(decorator) {

								      output = decorator(output, what);

								    });

								  }

								  throw output;

								}

								Module['abort'] = Module.abort = abort;


								// {{PRE_RUN_ADDITIONS}}


								if (Module['preInit']) {

								  if (typeof Module['preInit'] == 'function') Module['preInit'] = [Module['preInit']];

								  while (Module['preInit'].length > 0) {

								    Module['preInit'].pop()();

								  }

								}


								// shouldRunNow refers to calling main(), not run().

								var shouldRunNow = true;

								if (Module['noInitialRun']) {

								  shouldRunNow = false;

								}


								if (!ENVIRONMENT_IS_PTHREAD) run();


								// {{POST_RUN_ADDITIONS}}


								// {{MODULE_ADDITIONS}}