int main(int argc, char *argv[]) { #ifdef _MSC_VER SetProcessDPIAware(); #endif std::list<double> smoothed_time; double cumulative_time = 0.0; int cnt = 0; using namespace KRE; SDL::SDL_ptr manager(new SDL::SDL()); SDL_LogSetPriority(SDL_LOG_CATEGORY_APPLICATION, SDL_LOG_PRIORITY_DEBUG); WindowManager wm("SDL"); variant_builder hints; hints.add("renderer", "opengl"); hints.add("dpi_aware", true); hints.add("use_vsync", true); int neww = 1600, newh = 900; //if(!autoWindowSize(neww, newh)) { // LOG_DEBUG("Couldn't get automatic window size. Defaulting to " << neww << "x" << newh); //} LOG_DEBUG("Creating window of size: " << neww << "x" << newh); auto main_wnd = wm.createWindow(neww, newh, hints.build()); main_wnd->enableVsync(true); const float aspect_ratio = static_cast<float>(neww) / newh; std::map<std::string, std::string> font_paths; #if defined(__linux__) LOG_DEBUG("setting image file filter to 'images/'"); Surface::setFileFilter(FileFilterType::LOAD, [](const std::string& fname) { return "images/" + fname; }); Surface::setFileFilter(FileFilterType::SAVE, [](const std::string& fname) { return "images/" + fname; }); font_paths["FreeSans.ttf"] = "data/fonts/FreeSans.ttf"; #else LOG_DEBUG("setting image file filter to '../images/'"); Surface::setFileFilter(FileFilterType::LOAD, [](const std::string& fname) { return "../images/" + fname; }); Surface::setFileFilter(FileFilterType::SAVE, [](const std::string& fname) { return "../images/" + fname; }); font_paths["FreeSans.ttf"] = "../data/fonts/FreeSans.ttf"; #endif Font::setAvailableFonts(font_paths); /*auto surf = Surface::create("test_image.png"); for(auto col : *surf) { LOG_DEBUG(col.red << "," << col.green << "," << col.blue << "," << col.alpha); }*/ set_alpha_masks(); // XXX should a scenegraph be created from a specific window? It'd solve a couple of issues SceneGraphPtr scene = SceneGraph::create("main"); SceneNodePtr root = scene->getRootNode(); root->setNodeName("root_node"); /*auto scenecam = std::make_shared<Camera>("cam0", 0, neww, 0, newh); scenecam->attachFrustum(std::make_shared<Frustum>()); root->attachCamera(scenecam); auto sunlight = std::make_shared<Light>("the_sun", glm::vec3(1.0f, 1.0f, 1.0f)); sunlight->setAmbientColor(Color(1.0f,1.0f,1.0f,1.0f)); root->attachLight(0, sunlight);*/ DisplayDevice::getCurrent()->setDefaultCamera(std::make_shared<Camera>("ortho1", 0, neww, 0, newh)); auto rman = std::make_shared<RenderManager>(); auto rq = rman->addQueue(0, "opaques"); #if defined(__linux__) std::string shader_test_file = "data/shaders.cfg"; #else std::string shader_test_file = "../data/shaders.cfg"; #endif ShaderProgram::loadFromVariant(json::parse_from_file(shader_test_file)); std::shared_ptr<FreeTextureHolder> base_tile = std::make_shared<FreeTextureHolder>("cobbles-keep.png"); base_tile->setPosition(neww/4, newh/4); base_tile->setScale(glm::vec3(2.0f, 2.0f, 1.0f)); root->attachObject(base_tile); #if defined(__linux__) std::string castle_test_file = "data/castles.json"; #else std::string castle_test_file = "../data/castles.json"; #endif variant castle_def; try { castle_def = json::parse_from_file(castle_test_file); } catch(json::parse_error& e) { ASSERT_LOG(false, "Error parsing file '" << castle_test_file << "', error: " << e.what()); } load_castle_definitions(castle_def); std::set<point> castle_hexes; castle_hexes.emplace(0, 0); castle_hexes.emplace(0, 1); castle_hexes.emplace(1, 0); auto castle1 = Castle::create("test", get_castle_def()["human_castle"], castle_hexes); castle1->setPosition(neww/4, newh/4); castle1->setScale(glm::vec3(2.0f, 2.0f, 1.0f)); castle1->setOrder(10); root->attachObject(castle1); Uint32 last_tick_time = SDL_GetTicks(); SDL_Event e; bool done = false; profile::timer timer; while(!done) { timer.start(); while(SDL_PollEvent(&e)) { if(e.type == SDL_KEYUP && e.key.keysym.scancode == SDL_SCANCODE_ESCAPE) { done = true; } else if(e.type == SDL_KEYDOWN) { LOG_DEBUG("KEY PRESSED: " << SDL_GetKeyName(e.key.keysym.sym) << " : " << e.key.keysym.sym << " : " << e.key.keysym.scancode); } else if(e.type == SDL_QUIT) { done = true; } } main_wnd->setClearColor(KRE::Color(0, 0, 0, 255)); main_wnd->clear(ClearFlags::ALL); // Called once a cycle before rendering. Uint32 current_tick_time = SDL_GetTicks(); scene->process((current_tick_time - last_tick_time) / 1000.0f); last_tick_time = current_tick_time; scene->renderScene(rman); rman->render(main_wnd); double t1 = timer.check(); if(t1 < 1.0/50.0) { // SDL_Delay(Uint32((1.0/50.0-t1)*1000.0)); } double t = timer.check(); smoothed_time.push_back(t); cumulative_time += t; if(++cnt > 10) { cnt = 0; //LOG_DEBUG("FPS: " << (smoothed_time.size()/cumulative_time) << ", Time: " << t1*1000.0); LOG_DEBUG("Draw Time: " << (t * 1000000.0) << " us."); } if(smoothed_time.size() > 50) { cumulative_time -= smoothed_time.front(); smoothed_time.pop_front(); } main_wnd->swap(); } return 0; }
int main(int argc, char *argv[]) { #ifdef _MSC_VER SetProcessDPIAware(); #endif std::list<double> smoothed_time; double cumulative_time = 0.0; int cnt = 0; using namespace KRE; SDL::SDL_ptr manager(new SDL::SDL()); SDL_LogSetPriority(SDL_LOG_CATEGORY_APPLICATION, SDL_LOG_PRIORITY_DEBUG); WindowManager wm("SDL"); variant_builder hints; hints.add("renderer", "opengl"); hints.add("dpi_aware", true); hints.add("use_vsync", true); int neww = 1600, newh = 900; //if(!autoWindowSize(neww, newh)) { // LOG_DEBUG("Couldn't get automatic window size. Defaulting to " << neww << "x" << newh); //} LOG_DEBUG("Creating window of size: " << neww << "x" << newh); auto main_wnd = wm.createWindow(neww, newh, hints.build()); main_wnd->enableVsync(true); const float aspect_ratio = static_cast<float>(neww) / newh; std::map<std::string, std::string> font_paths; #if defined(__linux__) LOG_DEBUG("setting image file filter to 'images/'"); Surface::setFileFilter(FileFilterType::LOAD, [](const std::string& fname) { return "images/" + fname; }); Surface::setFileFilter(FileFilterType::SAVE, [](const std::string& fname) { return "images/" + fname; }); font_paths["FreeSans.ttf"] = "data/fonts/FreeSans.ttf"; #else LOG_DEBUG("setting image file filter to '../images/'"); Surface::setFileFilter(FileFilterType::LOAD, [](const std::string& fname) { return "../images/" + fname; }); Surface::setFileFilter(FileFilterType::SAVE, [](const std::string& fname) { return "../images/" + fname; }); font_paths["FreeSans.ttf"] = "../data/fonts/FreeSans.ttf"; #endif Font::setAvailableFonts(font_paths); /*auto surf = Surface::create("test_image.png"); for(auto col : *surf) { LOG_DEBUG(col.red << "," << col.green << "," << col.blue << "," << col.alpha); }*/ set_alpha_masks(); // XXX should a scenegraph be created from a specific window? It'd solve a couple of issues SceneGraphPtr scene = SceneGraph::create("main"); SceneNodePtr root = scene->getRootNode(); root->setNodeName("root_node"); /*auto scenecam = std::make_shared<Camera>("cam0", 0, neww, 0, newh); scenecam->attachFrustum(std::make_shared<Frustum>()); root->attachCamera(scenecam); auto sunlight = std::make_shared<Light>("the_sun", glm::vec3(1.0f, 1.0f, 1.0f)); sunlight->setAmbientColor(Color(1.0f,1.0f,1.0f,1.0f)); root->attachLight(0, sunlight);*/ DisplayDevice::getCurrent()->setDefaultCamera(std::make_shared<Camera>("ortho1", 0, neww, 0, newh)); auto rman = std::make_shared<RenderManager>(); auto rq = rman->addQueue(0, "opaques"); /*SquareRenderablePtr square(std::make_shared<SquareRenderable>()); square->setPosition(600.0f, 400.0f); square->setScale(2.0f,2.0f); root->attachObject(square); auto cairo_canvas = Vector::Context::CreateInstance("cairo", 512, 512); cairo_canvas->SetSourceColor(0.0, 1.0, 0.0); cairo_canvas->Paint(); cairo_canvas->Fill(); auto path = cairo_canvas->NewPath(); path->Circle(256, 256, 100); cairo_canvas->AddPath(path); cairo_canvas->SetSourceColor(0.0, 0.0, 1.0); cairo_canvas->Fill(); auto text = cairo_canvas->NewPath(); text->MoveTo(10, 10); text->TextPath("ABCDabcde"); cairo_canvas->AddPath(text); cairo_canvas->Fill(); cairo_canvas->setOrder(5); cairo_canvas->setPosition(256.0f,256.0f); cairo_canvas->setColor(1.0f,1.0f,1.0f,1.0f); root->attachObject(cairo_canvas);*/ #if defined(__linux__) //std::string psys_test_file = "data/psystem1.cfg"; std::string psys_test_file = "data/psystem2.cfg"; #else //std::string psys_test_file = "../data/psystem1.cfg"; std::string psys_test_file = "../data/psystem4.cfg"; #endif try { auto psystem = scene->createNode("particle_system_container", json::parse_from_file(psys_test_file)); //auto particle_cam = std::make_shared<Camera>("particle_cam"); //particle_cam->lookAt(glm::vec3(0.0f, 10.0f, 20.0f), glm::vec3(0.0f), glm::vec3(0.0f,1.0f,0.0f)); //psystem->attachCamera(particle_cam); //root->attachNode(psystem); //auto rt = DisplayDevice::RenderTargetInstance(400, 300); //rt->SetClearColor(0.0f,0.0f,0.0f,0.0f); //rt->SetDrawRect(rect(400,300,400,300)); //rt->Create(); //psystem->AttachRenderTarget(rt); //root->AttachObject(rt); } catch(json::parse_error& e) { LOG_ERROR("parse error: " << e.what()); throw(e); } #if defined(__linux__) std::string shader_test_file = "data/shaders.cfg"; #else std::string shader_test_file = "../data/shaders.cfg"; #endif ShaderProgram::loadFromVariant(json::parse_from_file(shader_test_file)); /* auto tex = std::make_shared<SimpleTextureHolder>("card-back.png"); tex->setDrawRect(rectf(0.0f,0.0f,146.0f,260.0f)); tex->setPosition(146.0f/2.0f, newh-130.0f); tex->setOrder(10); root->attachObject(tex); // test cloning auto new_tex = std::make_shared<SimpleTextureHolder>(*tex); new_tex->setOrder(tex->getOrder()+1); new_tex->setPosition(neww/2.0f, newh/2.0f); root->attachObject(new_tex); auto free_surf = Surface::create("editor-tools.png", SurfaceFlags::NO_ALPHA_FILTER); //auto free_tex = std::make_shared<FreeTextureHolder>("editor-tools.png"); auto free_tex = std::make_shared<FreeTextureHolder>(free_surf); free_tex->setDrawRect(rectf(0.0f,0.0f,256.0f,256.0f)); free_tex->setPosition(neww - 256.0f, 0.0f); // Test that cache surfaces and textures is working. std::vector<std::shared_ptr<FreeTextureHolder>> texture_list; for(int n = 0; n != 100; ++n) { auto surf2 = Surface::create("editor-tools.png"); auto tex1 = std::make_shared<FreeTextureHolder>(surf2); texture_list.emplace_back(tex1); } auto fnt_surf = Font::getInstance()->renderText("test", Color::colorOrange(), 20, false, "FreeSans.ttf"); auto text_tex = std::make_shared<FreeTextureHolder>(fnt_surf); //text_tex->setDrawRect(rect(0, 0, fnt_surf->surfaceWidth(), fnt_surf->surfaceHeight())); text_tex->setPosition(fnt_surf->surfaceWidth()/2, fnt_surf->surfaceHeight()/2); //text_tex->setPosition(fnt_surf->surfaceWidth()/2, fnt_surf->surfaceHeight()/2); //text_tex->setDrawRect(rectf(0.0f, 0.0f, fnt_surf->surfaceWidth(), fnt_surf->surfaceHeight())); //text_tex->setDrawRect(rectf(0.0f,0.0f,256.0f,256.0f)); //text_tex->setPosition(128.0f,128.0f); float angle = 1.0f; float angle_step = 0.5f; auto canvas = Canvas::getInstance(); canvas->setDimensions(800, static_cast<int>(800/aspect_ratio)); auto canvas_texture = Texture::createTexture("widgets.png"); canvas_texture->setFiltering(-1, Texture::Filtering::LINEAR, Texture::Filtering::LINEAR, Texture::Filtering::NONE); texture_packing_test(); // render target test. auto rt1 = RenderTarget::create(300, 300); { RenderTarget::RenderScope render_scope(rt1); //rt1->setClearColor(Color::colorRed()); rt1->setClearColor(Color(0,0,0,0)); rt1->clear(); canvas->setDimensions(300, 300); std::vector<glm::u8vec4> circle_colors2; generate_color_wheel(60, &circle_colors2, Color(0,0,0,0), 0.8f, 0.8f); canvas->drawSolidCircle(point(150, 150), 150.0f, circle_colors2); canvas->drawSolidRect(rect(50, 50, 200, 200), Color::colorGrey()); canvas->drawSolidCircle(point(150, 150), 20.0f, Color::colorCyan()); rt1->setCentre(Blittable::Centre::TOP_LEFT); rt1->preRender(main_wnd); canvas->setDimensions(800, static_cast<int>(800/aspect_ratio));//(neww, newh); } auto test1 = std::make_shared<FreeTextureHolder>("cave2.png"); test1->setPosition(0,512); auto palette_tex = std::make_shared<FreeTextureHolder>("cave2.png"); palette_tex->getTexture()->addPalette(1, Surface::create("cave_pearl.png")); palette_tex->getTexture()->addPalette(2, Surface::create("cave_mossy.png")); //auto test1 = std::make_shared<FreeTextureHolder>("sand.png"); //test1->setPosition(0,512); //auto palette_tex = std::make_shared<FreeTextureHolder>("sand.png"); //palette_tex->getTexture()->addPalette(Surface::create("seaside_stormy.png")); palette_tex->getTexture()->setPalette(0); //auto palette_tex = std::make_shared<FreeTextureHolder>("checkerboard1.png"); //palette_tex->getTexture()->addPalette(Surface::create("checkerboard-palette.png")); palette_tex->setPosition(0, 0); auto palette_cam = std::make_shared<Camera>("palette_cam", 0, 800, 0, 800); palette_tex->setCamera(palette_cam); test1->setCamera(palette_cam); //auto rt2 = RenderTarget::create(palette_tex->getTexture()->width(), palette_tex->getTexture()->height()); //rt2->setCentre(Blittable::Centre::TOP_LEFT); // Test code for setting shader uniforms. auto water_shader = ShaderProgram::getProgram("water_distort"); water_distort_uniforms wd; uniform_mapping wd_mapping; UniformBuffer<water_distort_uniforms> water_uniforms("anura_uniforms", wd); wd_mapping["u_anura_tex_map"] = offsetof(water_distort_uniforms, texture); wd_mapping["u_anura_mvp_matrix"] = offsetof(water_distort_uniforms, mvp); wd_mapping["u_anura_cycle"] = offsetof(water_distort_uniforms, cycle); wd_mapping["u_anura_sprite_area"] = offsetof(water_distort_uniforms, sprite_area); wd_mapping["u_anura_draw_area"] = offsetof(water_distort_uniforms, draw_area); wd_mapping["u_intensity"] = offsetof(water_distort_uniforms, intensity); wd_mapping["u_water_area"] = offsetof(water_distort_uniforms, water_area); water_uniforms.setMapping(&wd_mapping); auto water_tex = SimpleTextureHolder("checkerboard1.png"); water_tex.setPosition(neww/2, newh/2); water_tex.setShader(water_shader); water_tex.addUniformBuffer(std::move(water_uniforms)); */ variant_builder tmxvar; tmxvar.add("tmx", "data/isometric_grass_and_water.tmx"); auto tiled_map = scene->createNode("tiled_map", tmxvar.build()); tiled_map->setPosition(main_wnd->width() / 2, 0); //tiled::TmxReader tmx_reader(std::dynamic_pointer_cast<tiled::Map>(tiled_map)); //tmx_reader.parseFile("data/isometric_grass_and_water.tmx"); //tmx_reader.parseFile("data/hex-mini.tmx"); //tmx_reader.parseFile("data/sewer_tileset.tmx"); //tmx_reader.parseFile("data/small_isometric_staggered_grass_and_water.tmx"); //root->attachNode(tiled_map); //auto blue_box = std::make_shared<BlurredBlittable>("blue_box3.png"); //const int bbox_w = blue_box->getTexture()->width(); //const int bbox_h = blue_box->getTexture()->height(); //blue_box->setCentre(Blittable::Centre::TOP_LEFT); //blue_box->setPosition(0, 0); //blue_box->setCamera(std::make_shared<Camera>("ortho999", 0, bbox_w, 0, bbox_h)); const int bbox_w = 512; const int bbox_h = 256; auto sr = std::make_shared<SimpleRenderable>(rect(24, 24, bbox_w-48, bbox_h-48), Color(0, 0, 0, 255)); CameraPtr box_cam = std::make_shared<Camera>("ortho999", 0, bbox_w, 0, bbox_h); sr->setCamera(box_cam); RenderTargetPtr rt = RenderTarget::create(bbox_w, bbox_h); rt->getTexture()->setFiltering(-1, Texture::Filtering::LINEAR, Texture::Filtering::LINEAR, Texture::Filtering::POINT); rt->getTexture()->setAddressModes(-1, Texture::AddressMode::CLAMP, Texture::AddressMode::CLAMP); rt->setCentre(Blittable::Centre::TOP_LEFT); rt->setClearColor(Color(128,128,128,0)); rt->apply(rect(0, 0, bbox_w, bbox_h)); rt->clear(); //blue_box->preRender(main_wnd); //main_wnd->render(blue_box.get()); sr->preRender(main_wnd); main_wnd->render(sr.get()); rt->unapply(); //root->attachObject(rt); auto shader_blur = ShaderProgram::getProgram("blur2"); rt->setShader(shader_blur); const int blur_two = shader_blur->getUniform("texel_width_offset"); const int blur_tho = shader_blur->getUniform("texel_height_offset"); const int u_gaussian = shader_blur->getUniform("gaussian"); std::vector<float> gaussian = generate_gaussian(20.0f, 7);//{ 0.05f, 0.09f, 0.12f, 0.15f, 0.16f, 0.15f, 0.12f, 0.09f, 0.05f }; shader_blur->setUniformDrawFunction([blur_two, blur_tho, bbox_h, gaussian, u_gaussian](ShaderProgramPtr shader){ shader->setUniformValue(u_gaussian, &gaussian[0]); shader->setUniformValue(blur_two, 0.0f); shader->setUniformValue(blur_tho, 1.0f / (bbox_h - 1.0f)); }); //rt->setOrder(1); RenderTargetPtr rt2 = RenderTarget::create(bbox_w, bbox_h); rt2->setCentre(Blittable::Centre::TOP_LEFT); rt2->setClearColor(Color(0,0,0,0)); { rt->setCamera(box_cam); RenderTarget::RenderScope rs(rt2, rect(0, 0, bbox_w, bbox_h)); rt->preRender(main_wnd); main_wnd->render(rt.get()); rt2->setShader(shader_blur); const int blur_two = shader_blur->getUniform("texel_width_offset"); const int blur_tho = shader_blur->getUniform("texel_height_offset"); shader_blur->setUniformDrawFunction([blur_two, blur_tho, bbox_w](ShaderProgramPtr shader){ shader->setUniformValue(blur_two, 1.0f / (bbox_w - 1.0f)); shader->setUniformValue(blur_tho, 0.0f); }); //rt->setOrder(1); //shader_blur->makeActive(); //shader_blur->setUniformValue(blur_two, 1.0f / (bbox_w - 1.0f)); //shader_blur->setUniformValue(blur_tho, 0.0f); } rt2->setOrder(1); root->attachObject(rt2); auto sr_blue = std::make_shared<SimpleRenderable>(rect(32, 32, bbox_w-64, bbox_h-64), Color::colorBlue()); sr_blue->setOrder(999); root->attachObject(sr_blue); //auto bb2 = std::make_shared<SimpleTextureHolder>("blue_box2.png"); //root->attachObject(bb2); { //"deephelm-explorer.png" //root->attachObject(blue_box); //auto shader = ShaderProgram::getProgram("blur2"); //int two = shader->getUniform("texel_width_offset"); //int tho = shader->getUniform("texel_height_offset"); //rt->setShader(shader); //shader->setUniformValue(two, 0.0f); //shader->setUniformValue(tho, 1.0f/(bbox_h-1)); } Uint32 last_tick_time = SDL_GetTicks(); SDL_Event e; bool done = false; profile::timer timer; while(!done) { timer.start(); while(SDL_PollEvent(&e)) { if(e.type == SDL_KEYUP && e.key.keysym.scancode == SDL_SCANCODE_ESCAPE) { done = true; } else if(e.type == SDL_KEYDOWN) { LOG_DEBUG("KEY PRESSED: " << SDL_GetKeyName(e.key.keysym.sym) << " : " << e.key.keysym.sym << " : " << e.key.keysym.scancode); } else if(e.type == SDL_QUIT) { done = true; } } main_wnd->setClearColor(KRE::Color(255, 255, 255, 255)); main_wnd->clear(ClearFlags::ALL); // Called once a cycle before rendering. Uint32 current_tick_time = SDL_GetTicks(); scene->process((current_tick_time - last_tick_time) / 1000.0f); last_tick_time = current_tick_time; /*tex->setRotation(angle, glm::vec3(0.0f,0.0f,1.0f)); new_tex->setRotation(360.0f - angle, glm::vec3(0.0f,0.0f,1.0f)); cairo_canvas->setRotation(angle, glm::vec3(0.0f,0.0f,1.0f)); angle += angle_step; while(angle >= 360.0f) { angle -= 360.0f; } canvas->blitTexture(rt1->getTexture(), 0.0f, 800-rt1->getTexture()->surfaceWidth(), 0); { //RenderTarget::RenderScope render_scope(rt2); //rt2->setClearColor(Color(0,0,0,0)); //rt2->clear(); palette_tex->preRender(main_wnd); main_wnd->render(palette_tex.get()); test1->preRender(main_wnd); main_wnd->render(test1.get()); } //rt2->preRender(main_wnd); //canvas->blitTexture(rt2->getTexture(), 0.0f, 0, 0); static int counter_pal = 0; static int pal = -1; if(++counter_pal >= 60*2) { counter_pal = 0; if(++pal >= 2) { pal = -1; } palette_tex->getTexture()->setPalette(pal); } water_tex.preRender(main_wnd); main_wnd->render(&water_tex);*/ //tiled_map->draw(main_wnd); //ModelManager2D mm(400,300); scene->renderScene(rman); rman->render(main_wnd); /*free_tex->preRender(main_wnd); main_wnd->render(free_tex.get()); text_tex->preRender(main_wnd); main_wnd->render(text_tex.get());*/ //canvas->drawSolidCircle(point(canvas->width()/2, canvas->height()/2), 50.0f, Color::colorGold()); //canvas->drawHollowCircle(pointf(400.0f, 400.0f), 150.0f, 150.0f-1.0f,Color::colorAqua()); //std::vector<glm::u8vec4> circle_colors; //generate_color_wheel(60, &circle_colors, Color(0,0,0,0), 0.1f, 0.1f); //canvas->drawSolidCircle(point(400, 300), 150.0f, circle_colors); /*{ Canvas::ModelManager mm(0, 0, 10.0f, 1.0f); canvas->drawSolidRect(rect(600, 400, 100, 100), Color::colorCoral()); { Canvas::ModelManager mm(500, 300, 20.0f, 3.0f);*/ /*mm.setIdentity(); mm.translate(700, 500); mm.translate(-200, -200); mm.rotate(20); mm.scale(1.5f); mm.scale(2.0f);*/ /*canvas->drawSolidRect(rect(0, 0, 100, 100), Color::colorChartreuse()); } }*/ /*canvas->blitTexture(canvas_texture, rect(3,4,56,22), 0.0f, //rect(800-56, 0, 56, 22), rect(0,0,112,44), Color(1.0f,1.0f,1.0f,0.5f)); canvas->drawSolidRect(rect(100, 100, 100, 100), Color("red")); canvas->drawHollowRect(rect(125, 125, 50, 50), Color("blue")); canvas->drawLine(point(95,95), point(205,205), Color("yellow")); std::vector<glm::vec2> varray; //varray.emplace_back(400, 400); //varray.emplace_back(500, 500); varray.emplace_back(400, 400); varray.emplace_back(500, 400); varray.emplace_back(400, 400); varray.emplace_back(500, 500); varray.emplace_back(400, 400); varray.emplace_back(400, 500); canvas->drawLines(varray, 10.0f, Color("pink"));*/ double t1 = timer.check(); if(t1 < 1.0/50.0) { // SDL_Delay(Uint32((1.0/50.0-t1)*1000.0)); } double t = timer.check(); smoothed_time.push_back(t); cumulative_time += t; if(++cnt > 10) { cnt = 0; //LOG_DEBUG("FPS: " << (smoothed_time.size()/cumulative_time) << ", Time: " << t1*1000.0); LOG_DEBUG("Draw Time: " << (t * 1000000.0) << " us."); } if(smoothed_time.size() > 50) { cumulative_time -= smoothed_time.front(); smoothed_time.pop_front(); } main_wnd->swap(); } return 0; }