#include "screen_trunner.h" // standard library includes #include #include // local includes #include "3d_helpers.h" #include "ems.h" TRunnerScreen::TRunnerScreen(std::weak_ptr stack) : Screen(stack), camera{Vector3{0.0F, 1.0F, 0.5F}, Vector3{0.0F, 0.0F, 0.0F}, Vector3{0.0F, 1.0F, 0.0F}, 80.0F, CAMERA_PERSPECTIVE}, flags(), default_material(LoadMaterialDefault()), TEMP_cube_model(LoadModel("res/test_cube.obj")), plane_mesh(GenMeshPlane(1.0F, 1.0F, 2, 2)), TEMP_cube_texture(LoadTexture("res/test_cube_texture.png")), TEMP_matrix(get_identity_matrix()), camera_pos{0.0F, 4.0F, 4.0F}, camera_target{0.0F, 0.0F, 0.0F}, pos_value(0.0F) { TEMP_cube_model.materials[0].maps[MATERIAL_MAP_DIFFUSE].texture = TEMP_cube_texture; TEMP_cube_model.transform = TEMP_cube_model.transform * scale_matrix_xyz(0.5F, 0.5F, 0.5F) * translate_matrix_y(0.5F); } TRunnerScreen::~TRunnerScreen() { UnloadTexture(TEMP_cube_texture); UnloadMesh(plane_mesh); UnloadModel(TEMP_cube_model); UnloadMaterial(default_material); } bool TRunnerScreen::update(float dt) { pos_value += dt * POS_VALUE_INC_RATE; if (pos_value > PI * 2.0F) { pos_value -= PI * 2.0F; } camera_pos.x = std::sin(pos_value) * 4.0F; camera_pos.z = std::cos(pos_value) * 4.0F; camera_to_targets(dt); return false; } bool TRunnerScreen::draw() { BeginDrawing(); ClearBackground(PixelToColor(Pixel::PIXEL_SKY)); BeginMode3D(camera); for (int z = -25; z <= 25; ++z) { for (int x = -25; x <= 25; ++x) { if (x == 0 && z == 0) { default_material.maps[MATERIAL_MAP_DIFFUSE].color = RAYWHITE; } else { default_material.maps[MATERIAL_MAP_DIFFUSE].color = Color{(unsigned char)(200 + x * 2), (unsigned char)(150 + z * 2), 20, 255}; } DrawMesh(plane_mesh, default_material, translate_matrix_xyz(x, 0.0F, z)); } } DrawModel(Model{.transform = TEMP_cube_model.transform * TEMP_matrix, .meshCount = TEMP_cube_model.meshCount, .materialCount = TEMP_cube_model.materialCount, .meshes = TEMP_cube_model.meshes, .materials = TEMP_cube_model.materials, .meshMaterial = TEMP_cube_model.meshMaterial, .boneCount = TEMP_cube_model.boneCount, .bones = TEMP_cube_model.bones, .bindPose = TEMP_cube_model.bindPose}, Vector3{0.0F, 0.0F, -4.0F}, 1.0F, WHITE); EndMode3D(); EndDrawing(); return false; } Color TRunnerScreen::PixelToColor(Pixel p) { switch (p) { case PIXEL_BLANK: return Color{0, 0, 0, 0}; case PIXEL_BLACK: return Color{0, 0, 0, 255}; case PIXEL_RED: return Color{255, 50, 50, 255}; case PIXEL_GREEN: return Color{50, 255, 50, 255}; case PIXEL_BLUE: return Color{50, 50, 255, 255}; case PIXEL_YELLOW: return Color{255, 255, 0, 255}; case PIXEL_CYAN: return Color{0, 255, 255, 255}; case PIXEL_MAGENTA: return Color{255, 0, 255, 255}; case PIXEL_ORANGE: return Color{255, 200, 0, 255}; case PIXEL_BROWN: return Color{180, 130, 0, 255}; case PIXEL_TURQUOISE: return Color{0, 255, 200, 255}; case PIXEL_SKY: return Color{168, 178, 255, 255}; case PIXEL_WHITE: return Color{255, 255, 255, 255}; default: assert(!"unreachable"); return Color{0, 0, 0, 255}; } } void TRunnerScreen::camera_to_targets(float dt) { camera.position.x += (camera_pos.x - camera.position.x) * CAMERA_UPDATE_RATE * dt; camera.position.y += (camera_pos.y - camera.position.y) * CAMERA_UPDATE_RATE * dt; camera.position.z += (camera_pos.z - camera.position.z) * CAMERA_UPDATE_RATE * dt; camera.target.x += (camera_target.x - camera.target.x) * CAMERA_UPDATE_RATE * dt; camera.target.y += (camera_target.y - camera.target.y) * CAMERA_UPDATE_RATE * dt; camera.target.z += (camera_target.z - camera.target.z) * CAMERA_UPDATE_RATE * dt; }