// SPDX-License-Identifier: MIT // // EmulationStation Desktop Edition // TextureDataManager.h // // Loading and unloading of texture data. // #ifndef ES_CORE_RESOURCES_TEXTURE_DATA_MANAGER_H #define ES_CORE_RESOURCES_TEXTURE_DATA_MANAGER_H #include #include #include #include #include #include class TextureData; class TextureResource; class TextureLoader { public: TextureLoader(); ~TextureLoader(); void load(std::shared_ptr textureData); void remove(std::shared_ptr textureData); size_t getQueueSize(); private: void processQueue(); void threadProc(); std::list> mTextureDataQ; std::map>::const_iterator> mTextureDataLookup; std::unique_ptr mThread; std::mutex mMutex; std::condition_variable mEvent; bool mExit; }; // // This class manages the loading and unloading of textures. // // When textures are added, the texture data is just stored as-is. The texture // data should only have been constructed and not loaded for this to work correctly. // When the get() function is called it indicates that a texture wants to be used so // at this point the texture data is loaded (via a call to load()). // // Once the load is complete (which may not be on the first call to get() if the // data is loaded in a background thread) then the get() function call uploadAndBind() // to upload to VRAM if necessary and bind the texture. This is followed by a call // to releaseRAM() which frees the memory buffer if the texture can be reloaded from // disk if needed again. // class TextureDataManager { public: TextureDataManager(); ~TextureDataManager(); std::shared_ptr add(const TextureResource* key, bool tiled); // The texturedata being removed may be loading in a different thread. However it will // be referenced by a smart pointer so we only need to remove it from our array and it // will be deleted when the other thread has finished with it. void remove(const TextureResource* key); std::shared_ptr get(const TextureResource* key); bool bind(const TextureResource* key); // Get the total size of all textures managed by this object, loaded and unloaded in bytes. size_t getTotalSize(); // Get the total size of all committed textures (in VRAM) in bytes. size_t getCommittedSize(); // Get the total size of all load-pending textures in the queue - these will // be committed to VRAM as the queue is processed. size_t getQueueSize(); // Load a texture, freeing resources as necessary to make space. void load(std::shared_ptr tex, bool block = false); private: std::list> mTextures; std::map>::const_iterator> mTextureLookup; std::shared_ptr mBlank; TextureLoader* mLoader; }; #endif // ES_CORE_RESOURCES_TEXTURE_DATA_MANAGER_H