Archivist
/
sugar


								#include <algorithm>

								#include <cassert>

								#include <iostream>

								#include "molasses/parser_primitives.h"

								#include "molasses/generator_primitives.h"


								namespace molasses {

									std::vector<std::string> operator>>(std::vector<std::string> current_stack, const operation& next_op) {

										{

											auto args = next_op.argument_types();

											while(not (args.empty() or current_stack.empty())) {

												if(current_stack.back() != args.back()) {

													throw type_input_error();

												} else {

													args.pop_back();

													current_stack.pop_back();

												}

											}

											if(not args.empty()) {

												throw value_missing_error();

											}

										}

										{

											auto return_types = next_op.return_types();

											std::move(return_types.begin(), return_types.end(), std::back_inserter(current_stack));

										}

										return current_stack;

									}


									std::optional<int32_t> try_parse_int32(const std::string& str) {

										int32_t value;

										auto begin = str.data();

										auto end = str.data()+str.size();

										auto result = std::from_chars(begin, end, value, 10);

										// TODO: Add other bases

										if(result.ptr == end) {

											return value;

										}

										return std::nullopt;

									}


									auto find_ptr_by_name_in_container(auto container, const auto& name) -> typeof(*std::begin(container)) {

										auto it = std::find_if(std::begin(container), std::end(container), [&](auto elem){

											return elem->name() == name;

										});

										if(it != std::end(container)) {

											return *it;

										}

										return {};

									}


									std::shared_ptr<type> parser_context::lookup_type(const std::string & name) const {

										return find_ptr_by_name_in_container(types, name);

									}


									std::shared_ptr<operation> parser_context::lookup_operation(const std::string & name) const {

										return find_ptr_by_name_in_container(operations, name);

									}


									bool type_check(

										const parser_context& parser_state,

										const lexed_output& lexer_state,

										const std::vector<symbol>& consumed_stream,

										std::vector<std::string> execution_input,

										const std::vector<std::string>& execution_output

									) {

										auto& type_stack = execution_input;


										for(const auto& symbol : consumed_stream) {

											const auto& symbol_text = lexer_state.dictionary.at(symbol);

											if(auto is_int = try_parse_int32(symbol_text); is_int) {

												type_stack.emplace_back("i32");

											} else if(auto is_op = parser_state.lookup_operation(symbol_text); is_op) {

												type_stack = type_stack >> *is_op;

											}

										}


										return type_stack == execution_output;

									}


									generate_context parse(parser_context ctx, const lexed_output& lexer_data) {

										enum op : int {

											DO_KW = 1,

											SEPARATOR_KW,

											PROC_KW,

											END_KW

										};


										lexed_output fake;

										fake.dictionary[PROC_KW] = "__PROC__";

										fake.dictionary[SEPARATOR_KW] = "__--__";

										fake.dictionary[DO_KW] = "__DO__";

										fake.dictionary[END_KW] = "__END__";


										auto tokens = concatenate(fake, lexer_data);


										std::vector<std::shared_ptr<procedure_operation>> parsed_procedures;


										auto register_pointer_type = [&](std::string full_ptr_type_name) -> void {

											if(auto type = ctx.lookup_type(full_ptr_type_name); !type) {

												ctx.types.push_back(std::make_shared<primitive_type>(std::move(full_ptr_type_name), architecture_ptr_size));

											}

										};


										auto compact_type_modifiers = [&](const std::vector<std::string>& type_info) -> std::vector<std::string> {

											std::vector<std::string> ret_val;

											for(auto elem : type_info) {

												if(elem == "ptr") {

													if(ret_val.empty()) throw type_expected_with_modifier_error();

													ret_val.back() += " ptr";

													register_pointer_type(ret_val.back());

												} else {

													ret_val.push_back(elem);

												}

											}

											return ret_val;

										};


										auto parse_proc = [&](auto it) -> std::pair<typeof(it), std::shared_ptr<procedure_operation>> {

								#define CHECK_FOR_UNEXPECTED_STREAM_END \

											if(it == tokens.symbols.end()) { \

												throw expecting_token_error(); \

											}


											if(*it != PROC_KW) {

												throw unexpected_token_error();

											}

											++it;

											CHECK_FOR_UNEXPECTED_STREAM_END;


											std::string name = tokens.dictionary.at(*it);

											++it;

											CHECK_FOR_UNEXPECTED_STREAM_END;


											// Process arguments list

											std::vector<std::string> argument_types;

											while(*it != SEPARATOR_KW) {

												argument_types.emplace_back(tokens.dictionary.at(*it));

												++it;

												CHECK_FOR_UNEXPECTED_STREAM_END;

											}

											++it;

											CHECK_FOR_UNEXPECTED_STREAM_END;

											argument_types = compact_type_modifiers(argument_types);


											// Process return types list

											std::vector<std::string> return_types;

											while(*it != DO_KW) {

												return_types.emplace_back(tokens.dictionary.at(*it));

												++it;

												CHECK_FOR_UNEXPECTED_STREAM_END;

											}

											++it;

											CHECK_FOR_UNEXPECTED_STREAM_END;

											return_types = compact_type_modifiers(return_types);


											// Process return types list

											std::vector<symbol> body;

											while(*it != END_KW) {

												body.emplace_back(*it);

												++it;

												CHECK_FOR_UNEXPECTED_STREAM_END;

											}

											++it;


											return std::make_pair(it, std::make_shared<procedure_operation>(name, argument_types, return_types, body));

								#undef CHECK_FOR_UNEXPECTED_STREAM_END

										};


								        auto progress = tokens.symbols.begin();


								        do {

								            auto [iterator, procedure] = parse_proc(progress);

								            ctx.operations.push_back(procedure);

								            parsed_procedures.emplace_back(std::move(procedure));

								            progress = iterator;

								        } while (progress != tokens.symbols.end());


										for(auto& proc : parsed_procedures) {

											if(not type_check(ctx, tokens, proc->_body, proc->_args, proc->_rets)) {

												throw procedure_stack_error();

											}

										}


										return {

								            tokens,

								            ctx,

								            parsed_procedures

								        };

									}


								    std::vector<std::string> procedure_operation::generate(const parser_context& ctx, const lexed_output& lexer_data) const {

								        std::vector<std::string> ops = generate_label(name());


									    for(auto&& instruction : generate_enter()) {

										    ops.push_back(instruction);

									    }


								        for(auto elem : _body) {

								            auto token = lexer_data.dictionary.at(elem);

								            if(auto result = try_parse_int32(token); result) {

								                for(auto&& instruction : generate_push_int32(result.value())) {

								                    ops.push_back(instruction);

								                }

								            } else if(auto op = ctx.lookup_operation(token); op) {

								                for(auto&& instruction : op->emit(ctx)) {

								                    ops.push_back(instruction);

								                }

								            } else {

								                throw unknown_token_error();

								            }

								        }


									    for(auto&& instruction : generate_return()) {

										    ops.push_back(instruction);

									    }


								        return ops;

								    }


								    std::vector<std::string> procedure_operation::emit(const parser_context& ctx) const {

								        return generate_call(name());

								    }


								    std::vector<std::string> generate(generate_context ctx) {

								        std::vector<std::string> generated;


								        for(auto instr : initialize_stack()) {

								            generated.push_back(instr);

								        }


								        for(auto proc : ctx.procedures) {

								            for(auto instr : proc->generate(ctx.parser, ctx.lexer)) {

								                generated.push_back(instr);

								            }

								        }

								        return generated;

								    }

								}