/**************************************************************************** * Copyright (C) 2015 Dimok * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . ****************************************************************************/ #include #include #include "fs/FSUtils.h" std::vector GuiImageAsync::imageQueue; CThread * GuiImageAsync::pThread = NULL; CMutex * GuiImageAsync::pMutex = NULL; uint32_t GuiImageAsync::threadRefCounter = 0; bool GuiImageAsync::bExitRequested = false; GuiImageAsync * GuiImageAsync::pInUse = NULL; GuiImageAsync::GuiImageAsync(const uint8_t *imageBuffer, const uint32_t & imageBufferSize, GuiImageData * preloadImg) : GuiImage(preloadImg) , imgData(NULL) , imgBuffer(imageBuffer) , imgBufferSize(imageBufferSize) { threadInit(); threadAddImage(this); } GuiImageAsync::GuiImageAsync(const std::string & file, GuiImageData * preloadImg) : GuiImage(preloadImg) , imgData(NULL) , filename(file) , imgBuffer(NULL) , imgBufferSize(0) { threadInit(); threadAddImage(this); } GuiImageAsync::~GuiImageAsync() { threadRemoveImage(this); while(pInUse == this) OSSleepTicks(OSMicrosecondsToTicks(1000)); if (imgData) delete imgData; //threadExit(); } void GuiImageAsync::threadAddImage(GuiImageAsync *Image) { pMutex->lock(); imageQueue.push_back(Image); pMutex->unlock(); pThread->resumeThread(); } void GuiImageAsync::threadRemoveImage(GuiImageAsync *image) { pMutex->lock(); for(uint32_t i = 0; i < imageQueue.size(); ++i) { if(imageQueue[i] == image) { imageQueue.erase(imageQueue.begin() + i); break; } } pMutex->unlock(); } void GuiImageAsync::clearQueue() { pMutex->lock(); imageQueue.clear(); pMutex->unlock(); } void GuiImageAsync::guiImageAsyncThread(CThread *thread, void *arg) { while(!bExitRequested) { if(imageQueue.empty() && !bExitRequested) pThread->suspendThread(); if(!imageQueue.empty() && !bExitRequested) { pMutex->lock(); pInUse = imageQueue.front(); imageQueue.erase(imageQueue.begin()); pMutex->unlock(); if (!pInUse) continue; if(pInUse->imgBuffer && pInUse->imgBufferSize) { pInUse->imgData = new GuiImageData(pInUse->imgBuffer, pInUse->imgBufferSize); } else { uint8_t *buffer = NULL; uint32_t bufferSize = 0; int32_t iResult = FSUtils::LoadFileToMem(pInUse->filename.c_str(), &buffer, &bufferSize); if(iResult > 0) { pInUse->imgData = new GuiImageData(buffer, bufferSize, GX2_TEX_CLAMP_MODE_MIRROR); //! free original image buffer which is converted to texture now and not needed anymore free(buffer); } } if(pInUse->imgData) { if(pInUse->imgData->getTexture()) { pInUse->width = pInUse->imgData->getWidth(); pInUse->height = pInUse->imgData->getHeight(); pInUse->imageData = pInUse->imgData; } else { delete pInUse->imgData; pInUse->imgData = NULL; } } pInUse->imageLoaded(pInUse); pInUse = NULL; } } } void GuiImageAsync::threadInit() { if (pThread == NULL) { bExitRequested = false; pMutex = new CMutex(); pThread = CThread::create(GuiImageAsync::guiImageAsyncThread, NULL, CThread::eAttributeAffCore1 | CThread::eAttributePinnedAff, 10); pThread->resumeThread(); } ++threadRefCounter; } void GuiImageAsync::threadExit() { if(threadRefCounter) { --threadRefCounter; } if(/*(threadRefCounter == 0) &&*/ (pThread != NULL)) { bExitRequested = true; delete pThread; delete pMutex; pThread = NULL; pMutex = NULL; } }