#include "Engine.h" #include "StringHelper.h" #include "GameExtractor.h" #include "ui/ImguiUI.h" #include "libultraship/src/Context.h" #include "resource/type/ResourceType.h" #include "resource/importers/GenericArrayFactory.h" #include "resource/importers/AudioBankFactory.h" #include "resource/importers/AudioSampleFactory.h" #include "resource/importers/AudioSequenceFactory.h" #include "resource/importers/Vec3fFactory.h" #include "resource/importers/Vec3sFactory.h" #include "resource/importers/KartAIFactory.h" #include "resource/importers/CourseVtxFactory.h" #include "resource/importers/TrackSectionsFactory.h" #include "resource/importers/TrackWaypointFactory.h" #include "resource/importers/ActorSpawnDataFactory.h" #include "resource/importers/UnkActorSpawnDataFactory.h" #include "resource/importers/ArrayFactory.h" #include "resource/importers/MinimapFactory.h" #include #include "window/gui/resource/Font.h" #include "window/gui/resource/FontFactory.h" #include "SpaghettiGui.h" #include "port/interpolation/FrameInterpolation.h" #include #include //#include #include #include #ifdef __SWITCH__ #include #endif extern "C" { bool prevAltAssets = false; float gInterpolationStep = 0.0f; #include #include #include #include #include #include #include #include "audio/internal.h" #include "audio/GameAudio.h" } Fast::Interpreter* GetInterpreter() { return static_pointer_cast(Ship::Context::GetInstance()->GetWindow()) ->GetInterpreterWeak() .lock() .get(); } GameEngine* GameEngine::Instance; GameEngine::GameEngine() { const std::string main_path = Ship::Context::GetPathRelativeToAppDirectory("mk64.o2r"); const std::string assets_path = Ship::Context::LocateFileAcrossAppDirs("spaghetti.o2r"); std::vector archiveFiles; #ifdef __SWITCH__ Ship::Switch::Init(Ship::PreInitPhase); Ship::Switch::Init(Ship::PostInitPhase); #endif #ifdef _WIN32 AllocConsole(); #endif if (std::filesystem::exists(main_path)) { archiveFiles.push_back(main_path); } else { if (ShowYesNoBox("No O2R Files", "No O2R files found. Generate one now?") == IDYES) { if(!GenAssetFile()){ ShowMessage("Error", "An error occured, no O2R file was generated.\n\nExiting..."); exit(1); } else { archiveFiles.push_back(main_path); } } else { exit(1); } } if (std::filesystem::exists(assets_path)) { archiveFiles.push_back(assets_path); } if (const std::string patches_path = Ship::Context::GetPathRelativeToAppDirectory("mods"); !patches_path.empty() && std::filesystem::exists(patches_path)) { if (std::filesystem::is_directory(patches_path)) { for (const auto& p : std::filesystem::recursive_directory_iterator(patches_path)) { auto ext = p.path().extension().string(); if (StringHelper::IEquals(ext, ".zip") || StringHelper::IEquals(ext, ".o2r")) { archiveFiles.push_back(p.path().generic_string()); } } } } this->context = Ship::Context::CreateUninitializedInstance("Spaghetti Kart", "spaghettify", "spaghettify.cfg.json"); this->context->InitConfiguration(); // without this line InitConsoleVariables fails at Config::Reload() this->context->InitConsoleVariables(); // without this line the controldeck constructor failes in ShipDeviceIndexMappingManager::UpdateControllerNamesFromConfig() auto controlDeck = std::make_shared(); this->context->InitResourceManager(archiveFiles, {}, 3); // without this line InitWindow fails in Gui::Init() this->context->InitConsole(); // without this line the GuiWindow constructor fails in ConsoleWindow::InitElement() auto gui = std::make_shared(std::vector>({})); auto wnd = std::make_shared(gui); //auto wnd = std::make_shared(std::vector>({})); //auto wnd = std::dynamic_pointer_cast(Ship::Context::GetInstance()->GetWindow()); this->context->Init(archiveFiles, {}, 3, { 26800, 512, 1100 }, wnd, controlDeck); #ifndef __SWITCH__ Ship::Context::GetInstance()->GetLogger()->set_level( (spdlog::level::level_enum) CVarGetInteger("gDeveloperTools.LogLevel", 1)); Ship::Context::GetInstance()->GetLogger()->set_pattern("[%H:%M:%S.%e] [%s:%#] [%l] %v"); #endif wnd->SetRendererUCode(ucode_f3dex); this->context->InitGfxDebugger(); auto loader = context->GetResourceManager()->GetResourceLoader(); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "AudioBank", static_cast(SF64::ResourceType::Bank), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "AudioSample", static_cast(SF64::ResourceType::Sample), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "AudioSequence", static_cast(SF64::ResourceType::Sequence), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Vec3f", static_cast(SF64::ResourceType::Vec3f), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Vec3s", static_cast(SF64::ResourceType::Vec3s), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "GenericArray", static_cast(SF64::ResourceType::GenericArray), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Texture", static_cast(Fast::ResourceType::Texture), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Texture", static_cast(Fast::ResourceType::Texture), 1); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Vertex", static_cast(Fast::ResourceType::Vertex), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_XML, "Vertex", static_cast(Fast::ResourceType::Vertex), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "DisplayList", static_cast(Fast::ResourceType::DisplayList), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_XML, "DisplayList", static_cast(Fast::ResourceType::DisplayList), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Matrix", static_cast(Fast::ResourceType::Matrix), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Blob", static_cast(Ship::ResourceType::Blob), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Lights1", static_cast(Fast::ResourceType::Light), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Array", static_cast(MK64::ResourceType::MK_Array), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "KartAI", static_cast(MK64::ResourceType::KartAI), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "CourseVtx", static_cast(MK64::ResourceType::CourseVertex), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "TrackSections", static_cast(MK64::ResourceType::TrackSection), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_XML, "TrackSections", static_cast(MK64::ResourceType::TrackSection), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Waypoints", static_cast(MK64::ResourceType::Waypoints), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_XML, "Paths", static_cast(MK64::ResourceType::Waypoints), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "SpawnData", static_cast(MK64::ResourceType::SpawnData), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "UnkSpawnData", static_cast(MK64::ResourceType::UnkSpawnData), 0); loader->RegisterResourceFactory(std::make_shared(), RESOURCE_FORMAT_BINARY, "Minimap", static_cast(MK64::ResourceType::Minimap), 0); fontMono = CreateFontWithSize(16.0f, "fonts/Inconsolata-Regular.ttf"); fontMonoLarger = CreateFontWithSize(20.0f, "fonts/Inconsolata-Regular.ttf"); fontMonoLargest = CreateFontWithSize(24.0f, "fonts/Inconsolata-Regular.ttf"); fontStandard = CreateFontWithSize(16.0f, "fonts/Montserrat-Regular.ttf"); fontStandardLarger = CreateFontWithSize(20.0f, "fonts/Montserrat-Regular.ttf"); fontStandardLargest = CreateFontWithSize(24.0f, "fonts/Montserrat-Regular.ttf"); ImGui::GetIO().FontDefault = fontMono; } bool GameEngine::GenAssetFile() { auto extractor = new GameExtractor(); if (!extractor->SelectGameFromUI()) { ShowMessage("Error", "No ROM selected.\n\nExiting..."); exit(1); } auto game = extractor->ValidateChecksum(); if (!game.has_value()) { ShowMessage("Unsupported ROM", "The provided ROM is not supported.\n\nCheck the readme for a list of supported versions."); exit(1); } ShowMessage(("Found " + game.value()).c_str(), "The extraction process will now begin.\n\nThis may take a few minutes.", SDL_MESSAGEBOX_INFORMATION); return extractor->GenerateOTR(); } uint32_t GameEngine::GetInterpolationFPS() { if (CVarGetInteger("gMatchRefreshRate", 0)) { return Ship::Context::GetInstance()->GetWindow()->GetCurrentRefreshRate(); } else if (CVarGetInteger("gVsyncEnabled", 1) || !Ship::Context::GetInstance()->GetWindow()->CanDisableVerticalSync()) { return std::min(Ship::Context::GetInstance()->GetWindow()->GetCurrentRefreshRate(), CVarGetInteger("gInterpolationFPS", 30)); } return CVarGetInteger("gInterpolationFPS", 30); } uint32_t GameEngine::GetInterpolationFrameCount() { return ceil((float)GetInterpolationFPS() / (60.0f / 2 /*gVIsPerFrame*/)); } extern "C" uint32_t GameEngine_GetInterpolationFrameCount() { return GameEngine::GetInterpolationFrameCount(); } void GameEngine::ShowMessage(const char* title, const char* message, SDL_MessageBoxFlags type) { #if defined(__SWITCH__) SPDLOG_ERROR(message); #else SDL_ShowSimpleMessageBox(type, title, message, nullptr); SPDLOG_ERROR(message); #endif } int GameEngine::ShowYesNoBox(const char* title, const char* box) { int ret; #ifdef _WIN32 ret = MessageBoxA(nullptr, box, title, MB_YESNO | MB_ICONQUESTION); #elif defined(__SWITCH__) SPDLOG_ERROR(box); return IDYES; #else SDL_MessageBoxData boxData = { 0 }; SDL_MessageBoxButtonData buttons[2] = { { 0 } }; buttons[0].buttonid = IDYES; buttons[0].text = "Yes"; buttons[0].flags = SDL_MESSAGEBOX_BUTTON_RETURNKEY_DEFAULT; buttons[1].buttonid = IDNO; buttons[1].text = "No"; buttons[1].flags = SDL_MESSAGEBOX_BUTTON_ESCAPEKEY_DEFAULT; boxData.numbuttons = 2; boxData.flags = SDL_MESSAGEBOX_INFORMATION; boxData.message = box; boxData.title = title; boxData.buttons = buttons; SDL_ShowMessageBox(&boxData, &ret); #endif return ret; } void GameEngine::Create() { const auto instance = Instance = new GameEngine(); instance->AudioInit(); GameUI::SetupGuiElements(); #if defined(__SWITCH__) || defined(__WIIU__) CVarRegisterInteger("gControlNav", 1); // always enable controller nav on switch/wii u #endif } void GameEngine::Destroy() { AudioExit(); #ifdef __SWITCH__ Ship::Switch::Exit(); #endif } bool ShouldClearTextureCacheAtEndOfFrame = false; void GameEngine::StartFrame() const { using Ship::KbScancode; const int32_t dwScancode = this->context->GetWindow()->GetLastScancode(); this->context->GetWindow()->SetLastScancode(-1); switch (dwScancode) { case KbScancode::LUS_KB_TAB: { // Toggle HD Assets CVarSetInteger("gAltAssets", !CVarGetInteger("gAltAssets", 0)); ShouldClearTextureCacheAtEndOfFrame = true; break; } default: break; } } // void GameEngine::ProcessFrame(void (*run_one_game_iter)()) const { // //this->context->GetWindow()->MainLoop(run_one_game_iter); // Instance->context->GetWindow()->MainLoop(run_one_game_iter); // } void GameEngine::RunCommands(Gfx* Commands, const std::vector>& mtx_replacements) { auto wnd = std::dynamic_pointer_cast(Ship::Context::GetInstance()->GetWindow()); if (wnd == nullptr) { return; } auto interpreter = wnd->GetInterpreterWeak().lock().get(); // Process window events for resize, mouse, keyboard events wnd->HandleEvents(); interpreter->mInterpolationIndex = 0; for (const auto& m : mtx_replacements) { wnd->DrawAndRunGraphicsCommands(Commands, m); interpreter->mInterpolationIndex++; } bool curAltAssets = CVarGetInteger("gEnhancements.Mods.AlternateAssets", 0); if (prevAltAssets != curAltAssets) { prevAltAssets = curAltAssets; Ship::Context::GetInstance()->GetResourceManager()->SetAltAssetsEnabled(curAltAssets); gfx_texture_cache_clear(); } } void GameEngine::ProcessGfxCommands(Gfx* commands) { std::vector> mtx_replacements; int target_fps = GameEngine::Instance->GetInterpolationFPS(); static int last_fps; static int last_update_rate; static int time; int fps = target_fps; int original_fps = 60 / 2 /*gVIsPerFrame*/; if (target_fps == 30 || original_fps > target_fps) { fps = original_fps; } if (last_fps != fps || last_update_rate != 2 /*gVIsPerFrame*/) { time = 0; } // time_base = fps * original_fps (one second) int next_original_frame = fps; while (time + original_fps <= next_original_frame) { time += original_fps; if (time != next_original_frame) { mtx_replacements.push_back(FrameInterpolation_Interpolate((float) time / next_original_frame)); } else { mtx_replacements.emplace_back(); } } // printf("mtxf size: %d\n", mtx_replacements.size()); time -= fps; auto wnd = std::dynamic_pointer_cast(Ship::Context::GetInstance()->GetWindow()); if (wnd != nullptr) { wnd->SetTargetFps(CVarGetInteger("gInterpolationFPS", 30)); wnd->SetMaximumFrameLatency(1); } RunCommands(commands, mtx_replacements); last_fps = fps; last_update_rate = 2; } // Audio void GameEngine::HandleAudioThread() { while (audio.running) { { std::unique_lock Lock(audio.mutex); while (!audio.processing && audio.running) { audio.cv_to_thread.wait(Lock); } if (!audio.running) { break; } } std::unique_lock Lock(audio.mutex); int samples_left = AudioPlayerBuffered(); u32 num_audio_samples = samples_left < AudioPlayerGetDesiredBuffered() ? SAMPLES_HIGH : SAMPLES_LOW; s16 audio_buffer[SAMPLES_PER_FRAME]; for (int i = 0; i < NUM_AUDIO_CHANNELS; i++) { create_next_audio_buffer(audio_buffer + i * (num_audio_samples * 2), num_audio_samples); } AudioPlayerPlayFrame((u8*) audio_buffer, 2 * num_audio_samples * 4); audio.processing = false; audio.cv_from_thread.notify_one(); } } void GameEngine::StartAudioFrame() { { std::unique_lock Lock(audio.mutex); audio.processing = true; } audio.cv_to_thread.notify_one(); } void GameEngine::EndAudioFrame() { { std::unique_lock Lock(audio.mutex); while (audio.processing) { audio.cv_from_thread.wait(Lock); } } } void GameEngine::AudioInit() { const auto resourceMgr = Ship::Context::GetInstance()->GetResourceManager(); resourceMgr->LoadResources("sound"); const auto banksFiles = resourceMgr->GetArchiveManager()->ListFiles("sound/banks/*"); const auto sequences_files = resourceMgr->GetArchiveManager()->ListFiles("sound/sequences/*"); Instance->sequenceTable.resize(512); Instance->audioSequenceTable.resize(512); Instance->banksTable.resize(512); for (auto& bank : *banksFiles) { auto path = "__OTR__" + bank; const auto ctl = static_cast(ResourceGetDataByName(path.c_str())); this->bankMapTable[bank] = ctl->bankId; SPDLOG_INFO("Loaded bank: {}", bank); } for (auto& sequence : *sequences_files) { auto path = "__OTR__" + sequence; auto seq = static_cast(ResourceGetDataByName(path.c_str())); Instance->sequenceTable[seq->id] = path; SPDLOG_INFO("Loaded sequence: {}", sequence); } if (!audio.running) { audio.running = true; audio.thread = std::thread(HandleAudioThread); SPDLOG_INFO("Audio thread started"); } } void GameEngine::AudioExit() { { std::unique_lock lock(audio.mutex); audio.running = false; } audio.cv_to_thread.notify_all(); // Wait until the audio thread quit audio.thread.join(); } uint8_t GameEngine::GetBankIdByName(const std::string& name) { if (Instance->bankMapTable.contains(name)) { return Instance->bankMapTable[name]; } return 0; } ImFont* GameEngine::CreateFontWithSize(float size, std::string fontPath) { auto mImGuiIo = &ImGui::GetIO(); ImFont* font; if (fontPath == "") { ImFontConfig fontCfg = ImFontConfig(); fontCfg.OversampleH = fontCfg.OversampleV = 1; fontCfg.PixelSnapH = true; fontCfg.SizePixels = size; font = mImGuiIo->Fonts->AddFontDefault(&fontCfg); } else { auto initData = std::make_shared(); initData->Format = RESOURCE_FORMAT_BINARY; initData->Type = static_cast(RESOURCE_TYPE_FONT); initData->ResourceVersion = 0; initData->Path = fontPath; std::shared_ptr fontData = std::static_pointer_cast( Ship::Context::GetInstance()->GetResourceManager()->LoadResource(fontPath, false, initData)); font = mImGuiIo->Fonts->AddFontFromMemoryTTF(fontData->Data, fontData->DataSize, size); } // FontAwesome fonts need to have their sizes reduced by 2.0f/3.0f in order to align correctly float iconFontSize = size * 2.0f / 3.0f; static const ImWchar sIconsRanges[] = { ICON_MIN_FA, ICON_MAX_16_FA, 0 }; ImFontConfig iconsConfig; iconsConfig.MergeMode = true; iconsConfig.PixelSnapH = true; iconsConfig.GlyphMinAdvanceX = iconFontSize; mImGuiIo->Fonts->AddFontFromMemoryCompressedBase85TTF(fontawesome_compressed_data_base85, iconFontSize, &iconsConfig, sIconsRanges); return font; } // End extern "C" uint32_t GameEngine_GetSampleRate() { auto player = Ship::Context::GetInstance()->GetAudio()->GetAudioPlayer(); if (player == nullptr) { return 0; } if (!player->IsInitialized()) { return 0; } return player->GetSampleRate(); } extern "C" uint32_t GameEngine_GetSamplesPerFrame() { return SAMPLES_PER_FRAME; } extern "C" CtlEntry* GameEngine_LoadBank(const uint8_t bankId) { const auto engine = GameEngine::Instance; if (bankId >= engine->bankMapTable.size()) { return nullptr; } if (engine->banksTable[bankId] != nullptr) { return engine->banksTable[bankId]; } for (auto& bank : engine->bankMapTable) { if (bank.second == bankId) { const auto ctl = static_cast(ResourceGetDataByName(("__OTR__" + bank.first).c_str())); engine->banksTable[bankId] = ctl; return ctl; } } return nullptr; } extern "C" uint8_t GameEngine_IsBankLoaded(const uint8_t bankId) { const auto engine = GameEngine::Instance; GameEngine_LoadBank(bankId); return engine->banksTable[bankId] != nullptr; } extern "C" void GameEngine_UnloadBank(const uint8_t bankId) { const auto engine = GameEngine::Instance; engine->banksTable[bankId] = nullptr; } extern "C" AudioSequenceData* GameEngine_LoadSequence(const uint8_t seqId) { auto engine = GameEngine::Instance; if (engine->sequenceTable[seqId].empty()) { return nullptr; } if (engine->audioSequenceTable[seqId] != nullptr) { return engine->audioSequenceTable[seqId]; } auto sequences = static_cast(ResourceGetDataByName(engine->sequenceTable[seqId].c_str())); engine->audioSequenceTable[seqId] = sequences; return sequences; } extern "C" uint32_t GameEngine_GetSequenceCount() { auto engine = GameEngine::Instance; return engine->sequenceTable.size(); } extern "C" uint8_t GameEngine_IsSequenceLoaded(const uint8_t seqId) { return GameEngine_LoadSequence(seqId) != nullptr; } extern "C" void GameEngine_UnloadSequence(const uint8_t seqId) { const auto engine = GameEngine::Instance; engine->audioSequenceTable[seqId] = nullptr; } extern "C" float GameEngine_GetAspectRatio() { auto gfx_current_dimensions = GetInterpreter()->mCurDimensions; return gfx_current_dimensions.aspect_ratio; } extern "C" uint32_t GameEngine_GetGameVersion() { return 0x00000001; } static const char* sOtrSignature = "__OTR__"; extern "C" bool GameEngine_OTRSigCheck(const char* data) { return strncmp(data, sOtrSignature, strlen(sOtrSignature)) == 0; } // struct TimedEntry { // uint64_t duration; // TimerAction action; // int32_t* address; // int32_t value; // bool active; // }; // std::vector gTimerTasks; // uint64_t Timer_GetCurrentMillis() { // return SDL_GetTicks(); // } // extern "C" s32 Timer_CreateTask(u64 time, TimerAction action, s32* address, s32 value) { // const auto millis = Timer_GetCurrentMillis(); // TimedEntry entry = { // .duration = millis + CYCLES_TO_MSEC_PC(time), // .action = action, // .address = address, // .value = value, // .active = true, // }; // gTimerTasks.push_back(entry); // return gTimerTasks.size() - 1; // } extern "C" void Timer_Increment(int32_t* address, int32_t value) { *address += value; } extern "C" void Timer_SetValue(int32_t* address, int32_t value) { *address = value; } // void Timer_CompleteTask(TimedEntry& task) { // if (task.action != nullptr) { // task.action(task.address, task.value); // } // task.active = false; // } // extern "C" void Timer_Update() { // if(gTimerTasks.empty()) { // return; // } // const auto millis = Timer_GetCurrentMillis(); // for (auto& task : gTimerTasks) { // if (task.active && millis >= task.duration) { // Timer_CompleteTask(task); // } // } // } extern "C" float OTRGetAspectRatio() { return GetInterpreter()->mCurDimensions.aspect_ratio; } extern "C" float OTRGetDimensionFromLeftEdge(float v) { return (SCREEN_WIDTH / 2 - SCREEN_HEIGHT / 2 * OTRGetAspectRatio() + (v)); } extern "C" int16_t OTRGetRectDimensionFromLeftEdge(float v) { return ((int) floorf(OTRGetDimensionFromLeftEdge(v))); } extern "C" float OTRGetDimensionFromRightEdge(float v) { return (SCREEN_WIDTH / 2 + SCREEN_HEIGHT / 2 * OTRGetAspectRatio() - (SCREEN_WIDTH - v)); } extern "C" int16_t OTRGetRectDimensionFromRightEdge(float v) { return ((int) ceilf(OTRGetDimensionFromRightEdge(v))); } /** * Centers an item in a given area. * * Adds the number of extended screen pixels to the location to center. * This allows stretching the game window really wide, and the item will stay in-place. * * This is not for centering in the direct center of the screen. * * How to use: * * s32 center = OTRCalculateCenterOfAreaFromRightEdge((SCREEN_WIDTH / 4) + (SCREEN_WIDTH / 2)); * x = center - (texWidth / 2) * x2 = center + (texWidth / 2) */ extern "C" uint32_t OTRCalculateCenterOfAreaFromRightEdge(int32_t center) { return ((OTRGetDimensionFromRightEdge(SCREEN_WIDTH) - SCREEN_WIDTH) / 2) + center; } extern "C" uint32_t OTRCalculateCenterOfAreaFromLeftEdge(int32_t center) { return ((OTRGetDimensionFromLeftEdge(0) - SCREEN_WIDTH) / 2) + center; } // Gets the width of the current render target area extern "C" uint32_t OTRGetGameRenderWidth() { return GetInterpreter()->mCurDimensions.width; } // Gets the height of the current render target area extern "C" uint32_t OTRGetGameRenderHeight() { return GetInterpreter()->mCurDimensions.height; } extern "C" uint32_t OTRGetGameViewportWidth() { return GetInterpreter()->mGameWindowViewport.width; } extern "C" uint32_t OTRGetGameViewportHeight() { return GetInterpreter()->mGameWindowViewport.height; }