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								/*******************************************************************************************

								*

								*   raylib [shaders] example - rlgl module usage for instanced meshes

								*

								*   This example uses [rlgl] module funtionality (pseudo-OpenGL 1.1 style coding)

								*

								*   This example has been created using raylib 3.5 (www.raylib.com)

								*   raylib is licensed under an unmodified zlib/libpng license (View raylib.h for details)

								*

								*   Example contributed by @seanpringle and reviewed by Ramon Santamaria (@raysan5)

								*

								*   Copyright (c) 2020 @seanpringle

								*

								********************************************************************************************/


								#include "raylib.h"

								#include "raymath.h"

								#include "rlgl.h"


								#define RLIGHTS_IMPLEMENTATION

								#include "rlights.h"


								#include <stdlib.h>


								#define GLSL_VERSION 330


								float maxf(float a, float b){

								    return (a > b ? a : b);

								}


								//------------------------------------------------------------------------------------

								// Program main entry point

								//------------------------------------------------------------------------------------

								int main(void)

								{

								    // Initialization

								    //--------------------------------------------------------------------------------------

								    const int screenWidth = 800;

								    const int screenHeight = 450;

								    int speed = 30;                 // speed of jump animation

								    int groups = 2;                 // count of separate groups jumping around

								    float amp = 10;                 // maximum amplitude of jump

								    float variance = 0.8;           // global variance in jump height

								    float loop=0;                   // individual cube's computed loop timer .

								    float x=0,y=0,z=0;              // used for various 3D coordinate & vector ops.

								    const int fps = 60;


								    SetConfigFlags(FLAG_MSAA_4X_HINT);  // Enable Multi Sampling Anti Aliasing 4x (if available)

								    InitWindow(screenWidth, screenHeight, "raylib [shaders] example - rlgl mesh instanced");


								    // Define the camera to look into our 3d world

								    Camera camera = { 0 };

								    camera.position = (Vector3){ -125.0f, 125.0f, -125.0f };

								    camera.target = (Vector3){ 0.0f, 0.0f, 0.0f };

								    camera.up = (Vector3){ 0.0f, 1.0f, 0.0f };

								    camera.fovy = 45.0f;

								    camera.projection = CAMERA_PERSPECTIVE;


								    const int count = 10000;                                 // Number of instances to display

								    Mesh cube = GenMeshCube(1.0f, 1.0f, 1.0f);


								    Matrix *rotations = RL_MALLOC(count*sizeof(Matrix));    // Rotation state of instances

								    Matrix *rotationsInc = RL_MALLOC(count*sizeof(Matrix)); // Per-frame rotation animation of instances

								    Matrix *translations = RL_MALLOC(count*sizeof(Matrix)); // Locations of instances


								    // Scatter random cubes around

								    for (int i = 0; i < count; i++)

								    {

								        x = GetRandomValue(-50, 50);

								        y = GetRandomValue(-50, 50);

								        z = GetRandomValue(-50, 50);

								        translations[i] = MatrixTranslate(x, y, z);


								        x = GetRandomValue(0, 360);

								        y = GetRandomValue(0, 360);

								        z = GetRandomValue(0, 360);

								        Vector3 axis = Vector3Normalize((Vector3){x, y, z});

								        float angle = (float)GetRandomValue(0, 10) * DEG2RAD;


								        rotationsInc[i] = MatrixRotate(axis, angle);

								        rotations[i] = MatrixIdentity();

								    }


								    Matrix *transforms = RL_MALLOC(count*sizeof(Matrix));   // Pre-multiplied transformations passed to rlgl


								    Shader shader = LoadShader(TextFormat("resources/shaders/glsl%i/base_lighting_instanced.vs", GLSL_VERSION),

								                               TextFormat("resources/shaders/glsl%i/lighting.fs", GLSL_VERSION));


								    // Get some shader loactions

								    shader.locs[SHADER_LOC_MATRIX_MVP] = GetShaderLocation(shader, "mvp");

								    shader.locs[SHADER_LOC_VECTOR_VIEW] = GetShaderLocation(shader, "viewPos");

								    shader.locs[SHADER_LOC_MATRIX_MODEL] = GetShaderLocationAttrib(shader, "instance");


								    // Ambient light level

								    int ambientLoc = GetShaderLocation(shader, "ambient");

								    SetShaderValue(shader, ambientLoc, (float[4]){ 0.2f, 0.2f, 0.2f, 1.0f }, SHADER_UNIFORM_VEC4);


								    CreateLight(LIGHT_DIRECTIONAL, (Vector3){ 50, 50, 0 }, Vector3Zero(), WHITE, shader);


								    Material material = LoadMaterialDefault();

								    material.shader = shader;

								    material.maps[MATERIAL_MAP_DIFFUSE].color = RED;


								    SetCameraMode(camera, CAMERA_ORBITAL); // Set a free camera mode


								    SetTargetFPS(fps);                   // Set our game to run at 60 frames-per-second

								    //--------------------------------------------------------------------------------------


								    // Main game loop

								    int frame = 0;                      // simple frame counter to manage animation

								    while (!WindowShouldClose())        // Detect window close button or ESC key

								    {


								        // Update

								        //----------------------------------------------------------------------------------

								        UpdateCamera(&camera);

								        frame ++;


								        //if (IsKeyDown(KEY_RIGHT)) ballPosition.x += 2.0f;

								        //if (IsKeyDown(KEY_LEFT)) ballPosition.x -= 2.0f;

								        if (IsKeyDown(KEY_UP)) amp += 0.5;

								        if (IsKeyDown(KEY_DOWN)) amp = amp <= 1 ? 1 : amp - 1.0;

								        if (IsKeyDown(KEY_LEFT))  variance = variance <=0 ? 0 : variance - 0.01;

								        if (IsKeyDown(KEY_RIGHT)) variance = variance >=1 ? 1 : variance + 0.01;

								        if (IsKeyDown(KEY_ONE)) groups = 1;

								        if (IsKeyDown(KEY_TWO)) groups = 2;

								        if (IsKeyDown(KEY_THREE)) groups = 3;

								        if (IsKeyDown(KEY_FOUR)) groups = 4;

								        if (IsKeyDown(KEY_FIVE)) groups = 5;

								        if (IsKeyDown(KEY_SIX)) groups = 6;

								        if (IsKeyDown(KEY_SEVEN)) groups = 7;

								        if (IsKeyDown(KEY_EIGHT)) groups = 8;

								        if (IsKeyDown(KEY_NINE)) groups = 9;

								        if (IsKeyDown(KEY_W)) {groups=7; amp = 25; speed=18; variance=0.70;}


								        if (IsKeyDown(KEY_EQUAL)) speed = speed <= (fps *.25)  ? (fps *.25) : speed * 0.95;

								        if (IsKeyDown(KEY_KP_ADD)) speed = speed <= (fps *.25)  ? (fps *.25) : speed * 0.95;


								        if (IsKeyDown(KEY_MINUS)) speed = maxf(speed * 1.02, speed + 1) ;

								        if (IsKeyDown(KEY_KP_SUBTRACT)) maxf(speed * 1.02, speed + 1) ;


								        // Update the light shader with the camera view position

								        float cameraPos[3] = { camera.position.x, camera.position.y, camera.position.z };

								        SetShaderValue(shader, shader.locs[SHADER_LOC_VECTOR_VIEW], cameraPos, SHADER_UNIFORM_VEC3);


								        // Apply per-instance transformations

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

								            rotations[i] = MatrixMultiply(rotations[i], rotationsInc[i]);

								            transforms[i] = MatrixMultiply(rotations[i], translations[i]);


								            // get the animation cycle's frame for this instance.

								            loop = (float)( (frame + (int)(((float)(i % groups)/groups) * speed)) % speed)  / speed;


								            // calculate the y according to loop cycle

								            y =  ( sinf( loop * PI * 2 )  )  * (amp )* ((1 - variance) +  ((variance) * (float)(i % (groups * 10)) / (groups * 10)));


								            // clamp to floor

								            y = (y<0 ? 0 : y);


								            transforms[i] = MatrixMultiply(transforms[i], MatrixTranslate(0, y, 0));

								        }

								        //----------------------------------------------------------------------------------


								        // Draw

								        //----------------------------------------------------------------------------------

								        BeginDrawing();


								            ClearBackground(RAYWHITE);


								            BeginMode3D(camera);

								                rlDrawMeshInstanced(cube, material, transforms, count);

								            EndMode3D();

								            int u = 10;

								            int u2 = u + 40;

								            int u3 = u2 + 110;

								            int v = 300;

								            DrawText("A CUBE OF DANCING CUBES!", 490, 10, 20, MAROON);

								            DrawText("PRESS KEYS:", u, v, 20, BLACK);


								            DrawText("1 - 9", u, v+=25, 10, BLACK);

								            DrawText(": Number of groups", u2, v , 10, BLACK);

								            DrawText(TextFormat(": %d", groups), u3, v , 10, BLACK);


								            DrawText("UP", u, v+=15, 10, BLACK);

								            DrawText(": increase amplitude", u2, v, 10, BLACK);

								            DrawText(TextFormat(": %.2f", amp), u3, v , 10, BLACK);


								            DrawText("DOWN", u, v+=15, 10, BLACK);

								            DrawText(": decrease amplitude", u2, v, 10, BLACK);


								            DrawText("LEFT", u, v+=15, 10, BLACK);

								            DrawText(": decrease variance", u2, v, 10, BLACK);

								            DrawText(TextFormat(": %.2f", variance), u3, v , 10, BLACK);


								            DrawText("RIGHT", u, v+=15, 10, BLACK);

								            DrawText(": increase variance", u2, v, 10, BLACK);


								            DrawText("+/=", u, v+=15, 10, BLACK);

								            DrawText(": increase speed", u2, v, 10, BLACK);

								            DrawText(TextFormat(": %d = %f loops/sec", speed, ((float)fps / speed)), u3, v , 10, BLACK);


								            DrawText("-", u, v+=15, 10, BLACK);

								            DrawText(": decrease speed", u2, v, 10, BLACK);


								            DrawText("W", u, v+=15, 10, BLACK);

								            DrawText(": Wild setup!", u2, v, 10, BLACK);


								            DrawFPS(10, 10);


								        EndDrawing();

								        //----------------------------------------------------------------------------------

								    }


								    // De-Initialization

								    //--------------------------------------------------------------------------------------

								    CloseWindow();        // Close window and OpenGL context

								    //--------------------------------------------------------------------------------------


								    return 0;

								}