/**************************************************************************** Copyright (c) 2013-2014 Chukong Technologies Inc. http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "platform/CCFileUtils.h" #include "base/CCDirector.h" #include "base/CCScheduler.h" #include "base/ccUtils.h" #include "tinyxml2.h" #include "cocostudio/CCDataReaderHelper.h" #include "cocostudio/CCArmatureDataManager.h" #include "cocostudio/CCTransformHelp.h" #include "cocostudio/CCUtilMath.h" #include "cocostudio/CCArmatureDefine.h" #include "cocostudio/CCDatas.h" #include "cocostudio/CocoLoader.h" using namespace cocos2d; static const char *VERSION = "version"; static const float VERSION_2_0 = 2.0f; static const char *ARMATURES = "armatures"; static const char *ARMATURE = "armature"; static const char *BONE = "b"; static const char *DISPLAY = "d"; static const char *ANIMATIONS = "animations"; static const char *ANIMATION = "animation"; static const char *MOVEMENT = "mov"; static const char *FRAME = "f"; static const char *TEXTURE_ATLAS = "TextureAtlas"; static const char *SUB_TEXTURE = "SubTexture"; static const char *A_NAME = "name"; static const char *A_DURATION = "dr"; static const char *A_FRAME_INDEX = "fi"; static const char *A_DURATION_TO = "to"; static const char *A_DURATION_TWEEN = "drTW"; static const char *A_LOOP = "lp"; static const char *A_MOVEMENT_SCALE = "sc"; static const char *A_MOVEMENT_DELAY = "dl"; static const char *A_DISPLAY_INDEX = "dI"; static const char *A_PLIST = "plist"; static const char *A_PARENT = "parent"; static const char *A_SKEW_X = "kX"; static const char *A_SKEW_Y = "kY"; static const char *A_SCALE_X = "cX"; static const char *A_SCALE_Y = "cY"; static const char *A_Z = "z"; static const char *A_EVENT = "evt"; static const char *A_SOUND = "sd"; static const char *A_SOUND_EFFECT = "sdE"; static const char *A_TWEEN_EASING = "twE"; static const char *A_EASING_PARAM = "twEP"; static const char *A_TWEEN_ROTATE = "twR"; static const char *A_IS_ARMATURE = "isArmature"; static const char *A_DISPLAY_TYPE = "displayType"; static const char *A_MOVEMENT = "mov"; static const char *A_X = "x"; static const char *A_Y = "y"; static const char *A_COCOS2DX_X = "cocos2d_x"; static const char *A_COCOS2DX_Y = "cocos2d_y"; static const char *A_WIDTH = "width"; static const char *A_HEIGHT = "height"; static const char *A_PIVOT_X = "pX"; static const char *A_PIVOT_Y = "pY"; static const char *A_COCOS2D_PIVOT_X = "cocos2d_pX"; static const char *A_COCOS2D_PIVOT_Y = "cocos2d_pY"; static const char *A_BLEND_TYPE = "bd"; static const char *A_BLEND_SRC = "bd_src"; static const char *A_BLEND_DST = "bd_dst"; static const char *A_ALPHA = "a"; static const char *A_RED = "r"; static const char *A_GREEN = "g"; static const char *A_BLUE = "b"; static const char *A_ALPHA_OFFSET = "aM"; static const char *A_RED_OFFSET = "rM"; static const char *A_GREEN_OFFSET = "gM"; static const char *A_BLUE_OFFSET = "bM"; static const char *A_COLOR_TRANSFORM = "colorTransform"; static const char *A_TWEEN_FRAME = "tweenFrame"; static const char *CONTOUR = "con"; static const char *CONTOUR_VERTEX = "con_vt"; static const char *FL_NAN = "NaN"; static const char *FRAME_DATA = "frame_data"; static const char *MOVEMENT_BONE_DATA = "mov_bone_data"; static const char *MOVEMENT_DATA = "mov_data"; static const char *ANIMATION_DATA = "animation_data"; static const char *DISPLAY_DATA = "display_data"; static const char *SKIN_DATA = "skin_data"; static const char *BONE_DATA = "bone_data"; static const char *ARMATURE_DATA = "armature_data"; static const char *CONTOUR_DATA = "contour_data"; static const char *TEXTURE_DATA = "texture_data"; static const char *VERTEX_POINT = "vertex"; static const char *COLOR_INFO = "color"; static const char *CONFIG_FILE_PATH = "config_file_path"; static const char *CONTENT_SCALE = "content_scale"; namespace cocostudio { float s_PositionReadScale = 1; std::vector DataReaderHelper::_configFileList; DataReaderHelper *DataReaderHelper::_dataReaderHelper = nullptr; //! Async load void DataReaderHelper::loadData() { AsyncStruct *pAsyncStruct = nullptr; while (true) { std::queue *pQueue = _asyncStructQueue; _asyncStructQueueMutex.lock(); // get async struct from queue if (pQueue->empty()) { _asyncStructQueueMutex.unlock(); if (need_quit) { break; } else { std::unique_lock lk(_sleepMutex); _sleepCondition.wait(lk); continue; } } else { pAsyncStruct = pQueue->front(); pQueue->pop(); _asyncStructQueueMutex.unlock(); } // generate data info DataInfo *pDataInfo = new (std::nothrow) DataInfo(); pDataInfo->asyncStruct = pAsyncStruct; pDataInfo->filename = pAsyncStruct->filename; pDataInfo->baseFilePath = pAsyncStruct->baseFilePath; if (pAsyncStruct->configType == DragonBone_XML) { DataReaderHelper::addDataFromCache(pAsyncStruct->fileContent.c_str(), pDataInfo); } else if(pAsyncStruct->configType == CocoStudio_JSON) { DataReaderHelper::addDataFromJsonCache(pAsyncStruct->fileContent.c_str(), pDataInfo); } else if(pAsyncStruct->configType == CocoStudio_Binary) { DataReaderHelper::addDataFromBinaryCache(pAsyncStruct->fileContent.c_str(),pDataInfo); } // put the image info into the queue _dataInfoMutex.lock(); _dataQueue->push(pDataInfo); _dataInfoMutex.unlock(); } if( _asyncStructQueue != nullptr ) { delete _asyncStructQueue; _asyncStructQueue = nullptr; delete _dataQueue; _dataQueue = nullptr; } } DataReaderHelper *DataReaderHelper::getInstance() { if(!_dataReaderHelper) { _dataReaderHelper = new (std::nothrow) DataReaderHelper(); } return _dataReaderHelper; } void DataReaderHelper::setPositionReadScale(float scale) { s_PositionReadScale = scale; } float DataReaderHelper::getPositionReadScale() { return s_PositionReadScale; } void DataReaderHelper::purge() { _configFileList.clear(); CC_SAFE_RELEASE_NULL(_dataReaderHelper); } DataReaderHelper::DataReaderHelper() : _loadingThread(nullptr) , _asyncRefCount(0) , _asyncRefTotalCount(0) , need_quit(false) , _asyncStructQueue(nullptr) , _dataQueue(nullptr) { } DataReaderHelper::~DataReaderHelper() { need_quit = true; _sleepCondition.notify_one(); if (_loadingThread) _loadingThread->join(); CC_SAFE_DELETE(_loadingThread); _dataReaderHelper = nullptr; } void DataReaderHelper::addDataFromFile(const std::string& filePath) { /* * Check if file is already added to ArmatureDataManager, if then return. */ for(unsigned int i = 0; i < _configFileList.size(); i++) { if (_configFileList[i] == filePath) { return; } } _configFileList.push_back(filePath); //! find the base file path std::string basefilePath = filePath; size_t pos = basefilePath.find_last_of("/"); if (pos != std::string::npos) { basefilePath = basefilePath.substr(0, pos + 1); } else { basefilePath = ""; } std::string filePathStr = filePath; size_t startPos = filePathStr.find_last_of("."); std::string str = &filePathStr[startPos]; // Read content from file std::string fullPath = FileUtils::getInstance()->fullPathForFilename(filePath); bool isbinaryfilesrc = str==".csb"; std::string filemode("r"); if(isbinaryfilesrc) filemode += "b"; ssize_t filesize; _dataReaderHelper->_getFileMutex.lock(); unsigned char *pBytes = FileUtils::getInstance()->getFileData(filePath, filemode.c_str(), &filesize); std::string contentStr((const char*)pBytes,filesize); _dataReaderHelper->_getFileMutex.unlock(); DataInfo dataInfo; dataInfo.filename = filePathStr; dataInfo.asyncStruct = nullptr; dataInfo.baseFilePath = basefilePath; if (str == ".xml") { DataReaderHelper::addDataFromCache(contentStr, &dataInfo); } else if(str == ".json" || str == ".ExportJson") { DataReaderHelper::addDataFromJsonCache(contentStr, &dataInfo); } else if(isbinaryfilesrc) { DataReaderHelper::addDataFromBinaryCache(contentStr.c_str(),&dataInfo); } free(pBytes); } void DataReaderHelper::addDataFromFileAsync(const std::string& imagePath, const std::string& plistPath, const std::string& filePath, Ref *target, SEL_SCHEDULE selector) { /* * Check if file is already added to ArmatureDataManager, if then return. */ for(unsigned int i = 0; i < _configFileList.size(); i++) { if (_configFileList[i] == filePath) { if (target && selector) { if (_asyncRefTotalCount == 0 && _asyncRefCount == 0) { (target->*selector)(1); } else { (target->*selector)((_asyncRefTotalCount - _asyncRefCount) / (float)_asyncRefTotalCount); } } return; } } _configFileList.push_back(filePath); //! find the base file path std::string basefilePath = filePath; size_t pos = basefilePath.find_last_of("/"); if (pos != std::string::npos) { basefilePath = basefilePath.substr(0, pos + 1); } else { basefilePath = ""; } // lazy init if (_asyncStructQueue == nullptr) { _asyncStructQueue = new std::queue(); _dataQueue = new std::queue(); // create a new thread to load images _loadingThread = new std::thread(&DataReaderHelper::loadData, this); need_quit = false; } if (0 == _asyncRefCount) { Director::getInstance()->getScheduler()->schedule(CC_SCHEDULE_SELECTOR(DataReaderHelper::addDataAsyncCallBack), this, 0, false); } ++_asyncRefCount; ++_asyncRefTotalCount; if (target) { target->retain(); } // generate async struct AsyncStruct *data = new (std::nothrow) AsyncStruct(); data->filename = filePath; data->baseFilePath = basefilePath; data->target = target; data->selector = selector; data->autoLoadSpriteFile = ArmatureDataManager::getInstance()->isAutoLoadSpriteFile(); data->imagePath = imagePath; data->plistPath = plistPath; std::string filePathStr = filePath; size_t startPos = filePathStr.find_last_of("."); std::string str = &filePathStr[startPos]; std::string fullPath = FileUtils::getInstance()->fullPathForFilename(filePath); bool isbinaryfilesrc = str==".csb"; std::string filereadmode("r"); if (isbinaryfilesrc) { filereadmode += "b"; } ssize_t size; // FIXME: fileContent is being leaked // This getFileData only read exportJson file, it takes only a little time. // Large image files are loaded in DataReaderHelper::addDataFromJsonCache(dataInfo) asynchronously. _dataReaderHelper->_getFileMutex.lock(); unsigned char *pBytes = FileUtils::getInstance()->getFileData(fullPath.c_str() , filereadmode.c_str(), &size); _dataReaderHelper->_getFileMutex.unlock(); Data bytecpy; bytecpy.copy(pBytes, size); data->fileContent = std::string((const char*)bytecpy.getBytes(), size); // fix memory leak for v3.3 free(pBytes); if (str == ".xml") { data->configType = DragonBone_XML; } else if(str == ".json" || str == ".ExportJson") { data->configType = CocoStudio_JSON; } else if(isbinaryfilesrc) { data->configType = CocoStudio_Binary; } // add async struct into queue _asyncStructQueueMutex.lock(); _asyncStructQueue->push(data); _asyncStructQueueMutex.unlock(); _sleepCondition.notify_one(); } void DataReaderHelper::addDataAsyncCallBack(float dt) { // the data is generated in loading thread std::queue *dataQueue = _dataQueue; _dataInfoMutex.lock(); if (dataQueue->empty()) { _dataInfoMutex.unlock(); } else { DataInfo *pDataInfo = dataQueue->front(); dataQueue->pop(); _dataInfoMutex.unlock(); AsyncStruct *pAsyncStruct = pDataInfo->asyncStruct; if (pAsyncStruct->imagePath != "" && pAsyncStruct->plistPath != "") { _getFileMutex.lock(); ArmatureDataManager::getInstance()->addSpriteFrameFromFile(pAsyncStruct->plistPath.c_str(), pAsyncStruct->imagePath.c_str(), pDataInfo->filename.c_str()); _getFileMutex.unlock(); } while (!pDataInfo->configFileQueue.empty()) { std::string configPath = pDataInfo->configFileQueue.front(); _getFileMutex.lock(); ArmatureDataManager::getInstance()->addSpriteFrameFromFile((pAsyncStruct->baseFilePath + configPath + ".plist").c_str(), (pAsyncStruct->baseFilePath + configPath + ".png").c_str(),pDataInfo->filename.c_str()); _getFileMutex.unlock(); pDataInfo->configFileQueue.pop(); } Ref* target = pAsyncStruct->target; SEL_SCHEDULE selector = pAsyncStruct->selector; --_asyncRefCount; if (target && selector) { (target->*selector)((_asyncRefTotalCount - _asyncRefCount) / (float)_asyncRefTotalCount); target->release(); } delete pAsyncStruct; delete pDataInfo; if (0 == _asyncRefCount) { _asyncRefTotalCount = 0; Director::getInstance()->getScheduler()->unschedule(CC_SCHEDULE_SELECTOR(DataReaderHelper::addDataAsyncCallBack), this); } } } void DataReaderHelper::removeConfigFile(const std::string& configFile) { std::vector::iterator it = _configFileList.end(); for (std::vector::iterator i = _configFileList.begin(); i != _configFileList.end(); i++) { if (*i == configFile) { it = i; } } if (it != _configFileList.end()) { _configFileList.erase(it); } } void DataReaderHelper::addDataFromCache(const std::string& pFileContent, DataInfo *dataInfo) { tinyxml2::XMLDocument document; document.Parse(pFileContent.c_str()); tinyxml2::XMLElement *root = document.RootElement(); CCASSERT(root, "XML error or XML is empty."); root->QueryFloatAttribute(VERSION, &dataInfo->flashToolVersion); /* * Begin decode armature data from xml */ tinyxml2::XMLElement *armaturesXML = root->FirstChildElement(ARMATURES); tinyxml2::XMLElement *armatureXML = armaturesXML->FirstChildElement(ARMATURE); while(armatureXML) { ArmatureData *armatureData = DataReaderHelper::decodeArmature(armatureXML, dataInfo); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addArmatureData(armatureData->name.c_str(), armatureData, dataInfo->filename.c_str()); armatureData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } armatureXML = armatureXML->NextSiblingElement(ARMATURE); } /* * Begin decode animation data from xml */ tinyxml2::XMLElement *animationsXML = root->FirstChildElement(ANIMATIONS); tinyxml2::XMLElement *animationXML = animationsXML->FirstChildElement(ANIMATION); while(animationXML) { AnimationData *animationData = DataReaderHelper::decodeAnimation(animationXML, dataInfo); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addAnimationData(animationData->name.c_str(), animationData, dataInfo->filename.c_str()); animationData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } animationXML = animationXML->NextSiblingElement(ANIMATION); } /* * Begin decode texture data from xml */ tinyxml2::XMLElement *texturesXML = root->FirstChildElement(TEXTURE_ATLAS); tinyxml2::XMLElement *textureXML = texturesXML->FirstChildElement(SUB_TEXTURE); while(textureXML) { TextureData *textureData = DataReaderHelper::decodeTexture(textureXML, dataInfo); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addTextureData(textureData->name.c_str(), textureData, dataInfo->filename.c_str()); textureData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } textureXML = textureXML->NextSiblingElement(SUB_TEXTURE); } } ArmatureData *DataReaderHelper::decodeArmature(tinyxml2::XMLElement *armatureXML, DataInfo *dataInfo) { ArmatureData *armatureData = new (std::nothrow) ArmatureData(); armatureData->init(); armatureData->name = armatureXML->Attribute(A_NAME); tinyxml2::XMLElement *boneXML = armatureXML->FirstChildElement(BONE); while( boneXML ) { /* * If this bone have parent, then get the parent bone xml */ const char *parentName = boneXML->Attribute(A_PARENT); tinyxml2::XMLElement *parentXML = nullptr; if (parentName) { parentXML = armatureXML->FirstChildElement(BONE); std::string parentNameStr = parentName; while (parentXML) { if (parentNameStr == parentXML->Attribute(A_NAME)) { break; } parentXML = parentXML->NextSiblingElement(BONE); } } BoneData *boneData = decodeBone(boneXML, parentXML, dataInfo); armatureData->addBoneData(boneData); boneData->release(); boneXML = boneXML->NextSiblingElement(BONE); } return armatureData; } BoneData *DataReaderHelper::decodeBone(tinyxml2::XMLElement *boneXML, tinyxml2::XMLElement *parentXml, DataInfo *dataInfo) { BoneData *boneData = new (std::nothrow) BoneData(); boneData->init(); std::string name = boneXML->Attribute(A_NAME); boneData->name = name; if( boneXML->Attribute(A_PARENT) != nullptr ) { boneData->parentName = boneXML->Attribute(A_PARENT); } boneXML->QueryIntAttribute(A_Z, &boneData->zOrder); tinyxml2::XMLElement *displayXML = boneXML->FirstChildElement(DISPLAY); while(displayXML) { DisplayData *displayData = decodeBoneDisplay(displayXML, dataInfo); boneData->addDisplayData(displayData); displayData->release(); displayXML = displayXML->NextSiblingElement(DISPLAY); } return boneData; } DisplayData *DataReaderHelper::decodeBoneDisplay(tinyxml2::XMLElement *displayXML, DataInfo *dataInfo) { int _isArmature = 0; DisplayData *displayData; if( displayXML->QueryIntAttribute(A_IS_ARMATURE, &(_isArmature)) == tinyxml2::XML_SUCCESS ) { if(!_isArmature) { displayData = new (std::nothrow) SpriteDisplayData(); displayData->displayType = CS_DISPLAY_SPRITE; } else { displayData = new (std::nothrow) ArmatureDisplayData(); displayData->displayType = CS_DISPLAY_ARMATURE; } } else { displayData = new (std::nothrow) SpriteDisplayData(); displayData->displayType = CS_DISPLAY_SPRITE; } if(displayXML->Attribute(A_NAME) != nullptr ) { if(!_isArmature) { ((SpriteDisplayData *)displayData)->displayName = displayXML->Attribute(A_NAME); } else { ((ArmatureDisplayData *)displayData)->displayName = displayXML->Attribute(A_NAME); } } return displayData; } AnimationData *DataReaderHelper::decodeAnimation(tinyxml2::XMLElement *animationXML, DataInfo *dataInfo) { AnimationData *aniData = new AnimationData(); const char *name = animationXML->Attribute(A_NAME); ArmatureData *armatureData = ArmatureDataManager::getInstance()->getArmatureData(name); aniData->name = name; tinyxml2::XMLElement *movementXML = animationXML->FirstChildElement(MOVEMENT); while( movementXML ) { MovementData *movementData = decodeMovement(movementXML, armatureData, dataInfo); aniData->addMovement(movementData); movementData->release(); movementXML = movementXML->NextSiblingElement(MOVEMENT); } return aniData; } MovementData *DataReaderHelper::decodeMovement(tinyxml2::XMLElement *movementXML, ArmatureData *armatureData, DataInfo *dataInfo) { MovementData *movementData = new (std::nothrow) MovementData(); const char *movName = movementXML->Attribute(A_NAME); movementData->name = movName; int duration, durationTo, durationTween, loop, tweenEasing = 0; if( movementXML->QueryIntAttribute(A_DURATION, &(duration)) == tinyxml2::XML_SUCCESS) { movementData->duration = duration; } if( movementXML->QueryIntAttribute(A_DURATION_TO, &(durationTo)) == tinyxml2::XML_SUCCESS) { movementData->durationTo = durationTo; } if( movementXML->QueryIntAttribute(A_DURATION_TWEEN, &(durationTween)) == tinyxml2::XML_SUCCESS) { movementData->durationTween = durationTween; } if( movementXML->QueryIntAttribute(A_LOOP, &(loop)) == tinyxml2::XML_SUCCESS) { movementData->loop = (loop != 0); } const char *_easing = movementXML->Attribute(A_TWEEN_EASING); if(_easing != nullptr) { std::string str = _easing; if(str != FL_NAN) { if( movementXML->QueryIntAttribute(A_TWEEN_EASING, &(tweenEasing)) == tinyxml2::XML_SUCCESS) { movementData->tweenEasing = tweenEasing == 2 ? cocos2d::tweenfunc::Sine_EaseInOut : (TweenType)tweenEasing; } } else { movementData->tweenEasing = cocos2d::tweenfunc::Linear; } } tinyxml2::XMLElement *movBoneXml = movementXML->FirstChildElement(BONE); while(movBoneXml) { const char *boneName = movBoneXml->Attribute(A_NAME); if (movementData->getMovementBoneData(boneName)) { movBoneXml = movBoneXml->NextSiblingElement(); continue; } BoneData *boneData = (BoneData *)armatureData->getBoneData(boneName); std::string parentName = boneData->parentName; tinyxml2::XMLElement *parentXml = nullptr; if (parentName.length() != 0) { parentXml = movementXML->FirstChildElement(BONE); while (parentXml) { if (parentName == parentXml->Attribute(A_NAME)) { break; } parentXml = parentXml->NextSiblingElement(BONE); } } MovementBoneData *moveBoneData = decodeMovementBone(movBoneXml, parentXml, boneData, dataInfo); movementData->addMovementBoneData(moveBoneData); moveBoneData->release(); movBoneXml = movBoneXml->NextSiblingElement(BONE); } return movementData; } MovementBoneData *DataReaderHelper::decodeMovementBone(tinyxml2::XMLElement *movBoneXml, tinyxml2::XMLElement *parentXml, BoneData *boneData, DataInfo *dataInfo) { MovementBoneData *movBoneData = new (std::nothrow) MovementBoneData(); movBoneData->init(); float scale, delay; if( movBoneXml ) { if( movBoneXml->QueryFloatAttribute(A_MOVEMENT_SCALE, &scale) == tinyxml2::XML_SUCCESS ) { movBoneData->scale = scale; } if( movBoneXml->QueryFloatAttribute(A_MOVEMENT_DELAY, &delay) == tinyxml2::XML_SUCCESS ) { if(delay > 0) { delay -= 1; } movBoneData->delay = delay; } } unsigned long length = 0; unsigned long index = 0; int parentTotalDuration = 0; int currentDuration = 0; tinyxml2::XMLElement *parentFrameXML = nullptr; std::vector parentXmlList; /* * get the parent frame xml list, we need get the origin data */ if( parentXml != nullptr ) { parentFrameXML = parentXml->FirstChildElement(FRAME); while (parentFrameXML) { parentXmlList.push_back(parentFrameXML); parentFrameXML = parentFrameXML->NextSiblingElement(FRAME); } parentFrameXML = nullptr; length = parentXmlList.size(); } int totalDuration = 0; std::string name = movBoneXml->Attribute(A_NAME); movBoneData->name = name; tinyxml2::XMLElement *frameXML = movBoneXml->FirstChildElement(FRAME); while( frameXML ) { if(parentXml) { /* * in this loop we get the corresponding parent frame xml */ while(index < length && (parentFrameXML ? (totalDuration < parentTotalDuration || totalDuration >= parentTotalDuration + currentDuration) : true)) { parentFrameXML = parentXmlList[index]; parentTotalDuration += currentDuration; parentFrameXML->QueryIntAttribute(A_DURATION, ¤tDuration); index++; } } FrameData *frameData = decodeFrame( frameXML, parentFrameXML, boneData, dataInfo); movBoneData->addFrameData(frameData); frameData->release(); frameData->frameID = totalDuration; totalDuration += frameData->duration; movBoneData->duration = totalDuration; frameXML = frameXML->NextSiblingElement(FRAME); } //! Change rotation range from (-180 -- 180) to (-infinity -- infinity) auto frames = movBoneData->frameList; for (long j = movBoneData->frameList.size() - 1; j >= 0; j--) { if (j > 0) { float difSkewX = frames.at(j)->skewX - frames.at(j-1)->skewX; float difSkewY = frames.at(j)->skewY - frames.at(j-1)->skewY; if (difSkewX < -M_PI || difSkewX > M_PI) { frames.at(j-1)->skewX = difSkewX < 0 ? frames.at(j-1)->skewX - 2 * M_PI : frames.at(j-1)->skewX + 2 * M_PI; } if (difSkewY < -M_PI || difSkewY > M_PI) { frames.at(j-1)->skewY = difSkewY < 0 ? frames.at(j-1)->skewY - 2 * M_PI : frames.at(j-1)->skewY + 2 * M_PI; } } } // FrameData *frameData = new (std::nothrow) FrameData(); frameData->copy((FrameData *)movBoneData->frameList.back()); frameData->frameID = movBoneData->duration; movBoneData->addFrameData(frameData); frameData->release(); return movBoneData; } FrameData *DataReaderHelper::decodeFrame(tinyxml2::XMLElement *frameXML, tinyxml2::XMLElement *parentFrameXml, BoneData *boneData, DataInfo *dataInfo) { float x = 0, y = 0, scale_x = 0, scale_y = 0, skew_x = 0, skew_y = 0, tweenRotate = 0; int duration = 0, displayIndex = 0, zOrder = 0, tweenEasing = 0, blendType = 0; FrameData *frameData = new (std::nothrow) FrameData(); if(frameXML->Attribute(A_MOVEMENT) != nullptr) { frameData->strMovement = frameXML->Attribute(A_MOVEMENT); } if(frameXML->Attribute(A_EVENT) != nullptr) { frameData->strEvent = frameXML->Attribute(A_EVENT); } if(frameXML->Attribute(A_SOUND) != nullptr) { frameData->strSound = frameXML->Attribute(A_SOUND); } if(frameXML->Attribute(A_SOUND_EFFECT) != nullptr) { frameData->strSoundEffect = frameXML->Attribute(A_SOUND_EFFECT); } bool tweenFrame = false; if (frameXML->QueryBoolAttribute(A_TWEEN_FRAME, &tweenFrame) == tinyxml2::XML_SUCCESS) { frameData->isTween = tweenFrame; } if (dataInfo->flashToolVersion >= VERSION_2_0) { if(frameXML->QueryFloatAttribute(A_COCOS2DX_X, &x) == tinyxml2::XML_SUCCESS) { frameData->x = x; frameData->x *= s_PositionReadScale; } if(frameXML->QueryFloatAttribute(A_COCOS2DX_Y, &y) == tinyxml2::XML_SUCCESS) { frameData->y = -y; frameData->y *= s_PositionReadScale; } } else { if(frameXML->QueryFloatAttribute(A_X, &x) == tinyxml2::XML_SUCCESS) { frameData->x = x; frameData->x *= s_PositionReadScale; } if(frameXML->QueryFloatAttribute(A_Y, &y) == tinyxml2::XML_SUCCESS) { frameData->y = -y; frameData->y *= s_PositionReadScale; } } if( frameXML->QueryFloatAttribute(A_SCALE_X, &scale_x) == tinyxml2::XML_SUCCESS ) { frameData->scaleX = scale_x; } if( frameXML->QueryFloatAttribute(A_SCALE_Y, &scale_y) == tinyxml2::XML_SUCCESS ) { frameData->scaleY = scale_y; } if( frameXML->QueryFloatAttribute(A_SKEW_X, &skew_x) == tinyxml2::XML_SUCCESS ) { frameData->skewX = CC_DEGREES_TO_RADIANS(skew_x); } if( frameXML->QueryFloatAttribute(A_SKEW_Y, &skew_y) == tinyxml2::XML_SUCCESS ) { frameData->skewY = CC_DEGREES_TO_RADIANS(-skew_y); } if( frameXML->QueryIntAttribute(A_DURATION, &duration) == tinyxml2::XML_SUCCESS ) { frameData->duration = duration; } if( frameXML->QueryIntAttribute(A_DISPLAY_INDEX, &displayIndex) == tinyxml2::XML_SUCCESS ) { frameData->displayIndex = displayIndex; } if( frameXML->QueryIntAttribute(A_Z, &zOrder) == tinyxml2::XML_SUCCESS ) { frameData->zOrder = zOrder; } if( frameXML->QueryFloatAttribute(A_TWEEN_ROTATE, &tweenRotate) == tinyxml2::XML_SUCCESS ) { frameData->tweenRotate = tweenRotate; } if ( frameXML->QueryIntAttribute(A_BLEND_TYPE, &blendType) == tinyxml2::XML_SUCCESS ) { switch (blendType) { case BLEND_NORMAL: { frameData->blendFunc = BlendFunc::ALPHA_PREMULTIPLIED; } break; case BLEND_ADD: { frameData->blendFunc.src = GL_SRC_ALPHA; frameData->blendFunc.dst = GL_ONE; } break; case BLEND_MULTIPLY: { frameData->blendFunc.src = GL_DST_COLOR; frameData->blendFunc.dst = GL_ONE_MINUS_SRC_ALPHA; } break; case BLEND_SCREEN: { frameData->blendFunc.src = GL_ONE; frameData->blendFunc.dst = GL_ONE_MINUS_SRC_COLOR; } break; default: { frameData->blendFunc.src = CC_BLEND_SRC; frameData->blendFunc.dst = CC_BLEND_DST; } break; } } tinyxml2::XMLElement *colorTransformXML = frameXML->FirstChildElement(A_COLOR_TRANSFORM); if (colorTransformXML) { int alpha, red, green, blue = 100; int alphaOffset, redOffset, greenOffset, blueOffset = 0; colorTransformXML->QueryIntAttribute(A_ALPHA, &alpha); colorTransformXML->QueryIntAttribute(A_RED, &red); colorTransformXML->QueryIntAttribute(A_GREEN, &green); colorTransformXML->QueryIntAttribute(A_BLUE, &blue) ; colorTransformXML->QueryIntAttribute(A_ALPHA_OFFSET, &alphaOffset); colorTransformXML->QueryIntAttribute(A_RED_OFFSET, &redOffset); colorTransformXML->QueryIntAttribute(A_GREEN_OFFSET, &greenOffset); colorTransformXML->QueryIntAttribute(A_BLUE_OFFSET, &blueOffset) ; frameData->a = 2.55 * alphaOffset + alpha; frameData->r = 2.55 * redOffset + red; frameData->g = 2.55 * greenOffset + green; frameData->b = 2.55 * blueOffset + blue; frameData->isUseColorInfo = true; } const char *_easing = frameXML->Attribute(A_TWEEN_EASING); if(_easing != nullptr) { std::string str = _easing; if(str != FL_NAN) { if( frameXML->QueryIntAttribute(A_TWEEN_EASING, &(tweenEasing)) == tinyxml2::XML_SUCCESS) { frameData->tweenEasing = tweenEasing == 2 ? cocos2d::tweenfunc::Sine_EaseInOut : (cocos2d::tweenfunc::TweenType)tweenEasing; } } else { frameData->tweenEasing = cocos2d::tweenfunc::Linear; } } if(parentFrameXml) { /* * recalculate frame data from parent frame data, use for translate matrix */ BaseData helpNode; if (dataInfo->flashToolVersion >= VERSION_2_0) { parentFrameXml->QueryFloatAttribute(A_COCOS2DX_X, &helpNode.x); parentFrameXml->QueryFloatAttribute(A_COCOS2DX_Y, &helpNode.y); } else { parentFrameXml->QueryFloatAttribute(A_X, &helpNode.x); parentFrameXml->QueryFloatAttribute(A_Y, &helpNode.y); } parentFrameXml->QueryFloatAttribute(A_SKEW_X, &helpNode.skewX); parentFrameXml->QueryFloatAttribute(A_SKEW_Y, &helpNode.skewY); helpNode.y = -helpNode.y; helpNode.skewX = CC_DEGREES_TO_RADIANS(helpNode.skewX); helpNode.skewY = CC_DEGREES_TO_RADIANS(-helpNode.skewY); TransformHelp::transformFromParent(*frameData, helpNode); } return frameData; } TextureData *DataReaderHelper::decodeTexture(tinyxml2::XMLElement *textureXML, DataInfo *dataInfo) { TextureData *textureData = new (std::nothrow) TextureData(); textureData->init(); if( textureXML->Attribute(A_NAME) != nullptr) { textureData->name = textureXML->Attribute(A_NAME); } float px, py, width, height = 0; if(dataInfo->flashToolVersion >= VERSION_2_0) { textureXML->QueryFloatAttribute(A_COCOS2D_PIVOT_X, &px); textureXML->QueryFloatAttribute(A_COCOS2D_PIVOT_Y, &py); } else { textureXML->QueryFloatAttribute(A_PIVOT_X, &px); textureXML->QueryFloatAttribute(A_PIVOT_Y, &py); } textureXML->QueryFloatAttribute(A_WIDTH, &width); textureXML->QueryFloatAttribute(A_HEIGHT, &height); float anchorPointX = px / width; float anchorPointY = (height - py) / height; textureData->pivotX = anchorPointX; textureData->pivotY = anchorPointY; tinyxml2::XMLElement *contourXML = textureXML->FirstChildElement(CONTOUR); while (contourXML) { ContourData *contourData = decodeContour(contourXML, dataInfo); textureData->addContourData(contourData); contourData->release(); contourXML = contourXML->NextSiblingElement(CONTOUR); } return textureData; } ContourData *DataReaderHelper::decodeContour(tinyxml2::XMLElement *contourXML, DataInfo *dataInfo) { ContourData *contourData = new (std::nothrow) ContourData(); contourData->init(); tinyxml2::XMLElement *vertexDataXML = contourXML->FirstChildElement(CONTOUR_VERTEX); while (vertexDataXML) { Vec2 vertex; vertexDataXML->QueryFloatAttribute(A_X, &vertex.x); vertexDataXML->QueryFloatAttribute(A_Y, &vertex.y); vertex.y = -vertex.y; contourData->vertexList.push_back(vertex); vertexDataXML = vertexDataXML->NextSiblingElement(CONTOUR_VERTEX); } return contourData; } void DataReaderHelper::addDataFromJsonCache(const std::string& fileContent, DataInfo *dataInfo) { rapidjson::Document json; rapidjson::StringStream stream(fileContent.c_str()); if (fileContent.size() >= 3) { // Skip BOM if exists const unsigned char* c = (const unsigned char *)fileContent.c_str(); unsigned bom = c[0] | (c[1] << 8) | (c[2] << 16); if (bom == 0xBFBBEF) // UTF8 BOM { stream.Take(); stream.Take(); stream.Take(); } } json.ParseStream<0>(stream); if (json.HasParseError()) { CCLOG("GetParseError %d\n",json.GetParseError()); } dataInfo->contentScale = DICTOOL->getFloatValue_json(json, CONTENT_SCALE, 1.0f); // Decode armatures int length = DICTOOL->getArrayCount_json(json, ARMATURE_DATA); for (int i = 0; i < length; i++) { const rapidjson::Value &armatureDic = DICTOOL->getSubDictionary_json(json, ARMATURE_DATA, i); ArmatureData *armatureData = decodeArmature(armatureDic, dataInfo); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addArmatureData(armatureData->name.c_str(), armatureData, dataInfo->filename.c_str()); armatureData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } } // Decode animations length = DICTOOL->getArrayCount_json(json, ANIMATION_DATA); //json[ANIMATION_DATA].IsNull() ? 0 : json[ANIMATION_DATA].Size(); for (int i = 0; i < length; i++) { const rapidjson::Value &animationDic = DICTOOL->getSubDictionary_json(json, ANIMATION_DATA, i); AnimationData *animationData = decodeAnimation(animationDic, dataInfo); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addAnimationData(animationData->name.c_str(), animationData, dataInfo->filename.c_str()); animationData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } } // Decode textures length = DICTOOL->getArrayCount_json(json, TEXTURE_DATA); for (int i = 0; i < length; i++) { const rapidjson::Value &textureDic = DICTOOL->getSubDictionary_json(json, TEXTURE_DATA, i); TextureData *textureData = decodeTexture(textureDic); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addTextureData(textureData->name.c_str(), textureData, dataInfo->filename.c_str()); textureData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } } // Auto load sprite file bool autoLoad = dataInfo->asyncStruct == nullptr ? ArmatureDataManager::getInstance()->isAutoLoadSpriteFile() : dataInfo->asyncStruct->autoLoadSpriteFile; if (autoLoad) { length = DICTOOL->getArrayCount_json(json, CONFIG_FILE_PATH); // json[CONFIG_FILE_PATH].IsNull() ? 0 : json[CONFIG_FILE_PATH].Size(); for (int i = 0; i < length; i++) { const char *path = DICTOOL->getStringValueFromArray_json(json, CONFIG_FILE_PATH, i); // json[CONFIG_FILE_PATH][i].IsNull() ? nullptr : json[CONFIG_FILE_PATH][i].GetString(); if (path == nullptr) { CCLOG("load CONFIG_FILE_PATH error."); return; } std::string filePath = path; filePath = filePath.erase(filePath.find_last_of(".")); if (dataInfo->asyncStruct) { dataInfo->configFileQueue.push(filePath); } else { std::string plistPath = filePath + ".plist"; std::string pngPath = filePath + ".png"; if (FileUtils::getInstance()->isFileExist(dataInfo->baseFilePath + plistPath) && FileUtils::getInstance()->isFileExist(dataInfo->baseFilePath + pngPath)) { ValueMap dict = FileUtils::getInstance()->getValueMapFromFile(dataInfo->baseFilePath + plistPath); if (dict.find("particleLifespan") != dict.end()) continue; ArmatureDataManager::getInstance()->addSpriteFrameFromFile((dataInfo->baseFilePath + plistPath).c_str(), (dataInfo->baseFilePath + pngPath).c_str(), dataInfo->filename.c_str()); } } } } } ArmatureData *DataReaderHelper::decodeArmature(const rapidjson::Value& json, DataInfo *dataInfo) { ArmatureData *armatureData = new (std::nothrow) ArmatureData(); armatureData->init(); const char *name = DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { armatureData->name = name; } dataInfo->cocoStudioVersion = armatureData->dataVersion = DICTOOL->getFloatValue_json(json, VERSION, 0.1f); int length = DICTOOL->getArrayCount_json(json, BONE_DATA, 0); for (int i = 0; i < length; i++) { const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, BONE_DATA, i); //json[BONE_DATA][i]; BoneData *boneData = decodeBone(dic, dataInfo); armatureData->addBoneData(boneData); boneData->release(); } return armatureData; } BoneData *DataReaderHelper::decodeBone(const rapidjson::Value& json, DataInfo *dataInfo) { BoneData *boneData = new (std::nothrow) BoneData(); boneData->init(); decodeNode(boneData, json, dataInfo); const char *str = DICTOOL->getStringValue_json(json, A_NAME); if(str != nullptr) { boneData->name = str; } str = DICTOOL->getStringValue_json(json, A_PARENT); if(str != nullptr) { boneData->parentName = str; } int length = DICTOOL->getArrayCount_json(json, DISPLAY_DATA); for (int i = 0; i < length; i++) { const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, DISPLAY_DATA, i); DisplayData *displayData = decodeBoneDisplay(dic, dataInfo); boneData->addDisplayData(displayData); displayData->release(); } return boneData; } DisplayData *DataReaderHelper::decodeBoneDisplay(const rapidjson::Value& json, DataInfo *dataInfo) { DisplayType displayType = (DisplayType)(DICTOOL->getIntValue_json(json, A_DISPLAY_TYPE, CS_DISPLAY_SPRITE)); DisplayData *displayData = nullptr; switch (displayType) { case CS_DISPLAY_SPRITE: { displayData = new (std::nothrow) SpriteDisplayData(); const char *name = DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { ((SpriteDisplayData *)displayData)->displayName = name; } const rapidjson::Value &dicArray = DICTOOL->getSubDictionary_json(json, SKIN_DATA); if(!dicArray.IsNull()) { rapidjson::SizeType index = 0; const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(dicArray, index); if (!dic.IsNull()) { SpriteDisplayData *sdd = (SpriteDisplayData *)displayData; sdd->skinData.x = DICTOOL->getFloatValue_json(dic, A_X) * s_PositionReadScale; sdd->skinData.y = DICTOOL->getFloatValue_json(dic, A_Y) * s_PositionReadScale; sdd->skinData.scaleX = DICTOOL->getFloatValue_json(dic, A_SCALE_X, 1.0f); sdd->skinData.scaleY = DICTOOL->getFloatValue_json(dic, A_SCALE_Y, 1.0f); sdd->skinData.skewX = DICTOOL->getFloatValue_json(dic, A_SKEW_X, 1.0f); sdd->skinData.skewY = DICTOOL->getFloatValue_json(dic, A_SKEW_Y, 1.0f); sdd->skinData.x *= dataInfo->contentScale; sdd->skinData.y *= dataInfo->contentScale; } } } break; case CS_DISPLAY_ARMATURE: { displayData = new (std::nothrow) ArmatureDisplayData(); const char *name = DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { ((ArmatureDisplayData *)displayData)->displayName = name; } } break; case CS_DISPLAY_PARTICLE: { displayData = new (std::nothrow) ParticleDisplayData(); const char *plist = DICTOOL->getStringValue_json(json, A_PLIST); if(plist != nullptr) { if (dataInfo->asyncStruct) { static_cast(displayData)->displayName = dataInfo->asyncStruct->baseFilePath + plist; } else { static_cast(displayData)->displayName = dataInfo->baseFilePath + plist; } } } break; default: displayData = new (std::nothrow) SpriteDisplayData(); break; } displayData->displayType = displayType; return displayData; } AnimationData *DataReaderHelper::decodeAnimation(const rapidjson::Value& json, DataInfo *dataInfo) { AnimationData *aniData = new (std::nothrow) AnimationData(); const char *name = DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { aniData->name = name; } int length = DICTOOL->getArrayCount_json(json, MOVEMENT_DATA); for (int i = 0; i < length; i++) { const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, MOVEMENT_DATA, i); MovementData *movementData = decodeMovement(dic, dataInfo); aniData->addMovement(movementData); movementData->release(); } return aniData; } MovementData *DataReaderHelper::decodeMovement(const rapidjson::Value& json, DataInfo *dataInfo) { MovementData *movementData = new (std::nothrow) MovementData(); movementData->loop = DICTOOL->getBooleanValue_json(json, A_LOOP, true); movementData->durationTween = DICTOOL->getIntValue_json(json, A_DURATION_TWEEN, 0); movementData->durationTo = DICTOOL->getIntValue_json(json, A_DURATION_TO, 0); movementData->duration = DICTOOL->getIntValue_json(json, A_DURATION, 0); if (!DICTOOL->checkObjectExist_json(json, A_DURATION)) { movementData->scale = 1.0f; } else { movementData->scale = DICTOOL->getFloatValue_json(json, A_MOVEMENT_SCALE, 1.0f); } movementData->tweenEasing = (TweenType)(DICTOOL->getIntValue_json(json, A_TWEEN_EASING, cocos2d::tweenfunc::Linear)); const char *name = DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { movementData->name = name; } int length = DICTOOL->getArrayCount_json(json, MOVEMENT_BONE_DATA); for (int i = 0; i < length; i++) { const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, MOVEMENT_BONE_DATA, i); MovementBoneData *movementBoneData = decodeMovementBone(dic, dataInfo); movementData->addMovementBoneData(movementBoneData); movementBoneData->release(); } return movementData; } MovementBoneData *DataReaderHelper::decodeMovementBone(const rapidjson::Value& json, DataInfo *dataInfo) { MovementBoneData *movementBoneData = new (std::nothrow) MovementBoneData(); movementBoneData->init(); movementBoneData->delay = DICTOOL->getFloatValue_json(json, A_MOVEMENT_DELAY); const char *name = DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { movementBoneData->name = name; } rapidjson::SizeType length = DICTOOL->getArrayCount_json(json, FRAME_DATA); for (rapidjson::SizeType i = 0; i < length; i++) { const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, FRAME_DATA, i); FrameData *frameData = decodeFrame(dic, dataInfo); movementBoneData->addFrameData(frameData); frameData->release(); if (dataInfo->cocoStudioVersion < VERSION_COMBINED) { frameData->frameID = movementBoneData->duration; movementBoneData->duration += frameData->duration; } } if (dataInfo->cocoStudioVersion < VERSION_CHANGE_ROTATION_RANGE) { //! Change rotation range from (-180 -- 180) to (-infinity -- infinity) auto frames = movementBoneData->frameList; for (long i = frames.size() - 1; i >= 0; i--) { if (i > 0) { float difSkewX = frames.at(i)->skewX - frames.at(i-1)->skewX; float difSkewY = frames.at(i)->skewY - frames.at(i-1)->skewY; if (difSkewX < -M_PI || difSkewX > M_PI) { frames.at(i-1)->skewX = difSkewX < 0 ? frames.at(i-1)->skewX - 2 * M_PI : frames.at(i-1)->skewX + 2 * M_PI; } if (difSkewY < -M_PI || difSkewY > M_PI) { frames.at(i-1)->skewY = difSkewY < 0 ? frames.at(i-1)->skewY - 2 * M_PI : frames.at(i-1)->skewY + 2 * M_PI; } } } } if (dataInfo->cocoStudioVersion < VERSION_COMBINED) { if (movementBoneData->frameList.size() > 0) { FrameData *frameData = new (std::nothrow) FrameData(); frameData->copy((FrameData *)movementBoneData->frameList.back()); movementBoneData->addFrameData(frameData); frameData->release(); frameData->frameID = movementBoneData->duration; } } return movementBoneData; } FrameData *DataReaderHelper::decodeFrame(const rapidjson::Value& json, DataInfo *dataInfo) { FrameData *frameData = new (std::nothrow) FrameData(); decodeNode(frameData, json, dataInfo); frameData->tweenEasing = (TweenType)(DICTOOL->getIntValue_json(json, A_TWEEN_EASING, cocos2d::tweenfunc::Linear)); frameData->displayIndex = DICTOOL->getIntValue_json(json, A_DISPLAY_INDEX); frameData->blendFunc.src = (GLenum)(DICTOOL->getIntValue_json(json, A_BLEND_SRC, BlendFunc::ALPHA_PREMULTIPLIED.src)); frameData->blendFunc.dst = (GLenum)(DICTOOL->getIntValue_json(json, A_BLEND_DST, BlendFunc::ALPHA_PREMULTIPLIED.dst)); frameData->isTween = DICTOOL->getBooleanValue_json(json, A_TWEEN_FRAME, true); const char *event = DICTOOL->getStringValue_json(json, A_EVENT); if (event != nullptr) { frameData->strEvent = event; } if (dataInfo->cocoStudioVersion < VERSION_COMBINED) { frameData->duration = DICTOOL->getIntValue_json(json, A_DURATION, 1); } else { frameData->frameID = DICTOOL->getIntValue_json(json, A_FRAME_INDEX); } int length = DICTOOL->getArrayCount_json(json, A_EASING_PARAM); if (length != 0) { frameData->easingParams = new float[length]; frameData->easingParamNumber = length; for (int i = 0; i < length; i++) { frameData->easingParams[i] = DICTOOL->getFloatValueFromArray_json(json, A_EASING_PARAM, i); } } return frameData; } TextureData *DataReaderHelper::decodeTexture(const rapidjson::Value& json) { TextureData *textureData = new (std::nothrow) TextureData(); textureData->init(); const char *name = DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { textureData->name = name; } textureData->width = DICTOOL->getFloatValue_json(json, A_WIDTH); textureData->height = DICTOOL->getFloatValue_json(json, A_HEIGHT); textureData->pivotX = DICTOOL->getFloatValue_json(json, A_PIVOT_X); textureData->pivotY = DICTOOL->getFloatValue_json(json, A_PIVOT_Y); int length = DICTOOL->getArrayCount_json(json, CONTOUR_DATA); for (int i = 0; i < length; i++) { const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, CONTOUR_DATA, i); ContourData *contourData = decodeContour(dic); textureData->contourDataList.pushBack(contourData); contourData->release(); } return textureData; } ContourData *DataReaderHelper::decodeContour(const rapidjson::Value& json) { ContourData *contourData = new (std::nothrow) ContourData(); contourData->init(); int length = DICTOOL->getArrayCount_json(json, VERTEX_POINT); for (int i = length - 1; i >= 0; i--) { const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, VERTEX_POINT, i); Vec2 vertex; vertex.x = DICTOOL->getFloatValue_json(dic, A_X); vertex.y = DICTOOL->getFloatValue_json(dic, A_Y); contourData->vertexList.push_back(vertex); } return contourData; } void DataReaderHelper::decodeNode(BaseData *node, const rapidjson::Value& json, DataInfo *dataInfo) { node->x = DICTOOL->getFloatValue_json(json, A_X) * s_PositionReadScale; node->y = DICTOOL->getFloatValue_json(json, A_Y) * s_PositionReadScale; node->x *= dataInfo->contentScale; node->y *= dataInfo->contentScale; node->zOrder = DICTOOL->getIntValue_json(json, A_Z); node->skewX = DICTOOL->getFloatValue_json(json, A_SKEW_X); node->skewY = DICTOOL->getFloatValue_json(json, A_SKEW_Y); node->scaleX = DICTOOL->getFloatValue_json(json, A_SCALE_X, 1.0f); node->scaleY = DICTOOL->getFloatValue_json(json, A_SCALE_Y, 1.0f); if (dataInfo->cocoStudioVersion < VERSION_COLOR_READING) { if (DICTOOL->checkObjectExist_json(json, 0)) { const rapidjson::Value &colorDic = DICTOOL->getSubDictionary_json(json, 0); node->a = DICTOOL->getIntValue_json(colorDic, A_ALPHA, 255); node->r = DICTOOL->getIntValue_json(colorDic, A_RED, 255); node->g = DICTOOL->getIntValue_json(colorDic, A_GREEN, 255); node->b = DICTOOL->getIntValue_json(colorDic, A_BLUE, 255); node->isUseColorInfo = true; } } else { if (DICTOOL->checkObjectExist_json(json, COLOR_INFO)) { const rapidjson::Value &colorDic = DICTOOL->getSubDictionary_json(json, COLOR_INFO); //json.getSubDictionary(COLOR_INFO); node->a = DICTOOL->getIntValue_json(colorDic, A_ALPHA, 255); node->r = DICTOOL->getIntValue_json(colorDic, A_RED, 255); node->g = DICTOOL->getIntValue_json(colorDic, A_GREEN, 255); node->b = DICTOOL->getIntValue_json(colorDic, A_BLUE, 255); node->isUseColorInfo = true; } } } void DataReaderHelper::addDataFromBinaryCache(const char *fileContent, DataInfo *dataInfo) { CocoLoader tCocoLoader; if (tCocoLoader.ReadCocoBinBuff((char*)fileContent)) { stExpCocoNode *tpRootCocoNode = tCocoLoader.GetRootCocoNode(); rapidjson::Type tType = tpRootCocoNode->GetType(&tCocoLoader); if (rapidjson::kObjectType == tType) { stExpCocoNode *tpChildArray = tpRootCocoNode->GetChildArray(&tCocoLoader); int nCount = tpRootCocoNode->GetChildNum(); dataInfo->contentScale = 1.0f; int length = 0; std::string key; stExpCocoNode* pDataArray; for (int i = 0; i < nCount; ++i) { key = tpChildArray[i].GetName(&tCocoLoader); if (key.compare(CONTENT_SCALE) == 0) { std::string value = tpChildArray[i].GetValue(&tCocoLoader); dataInfo->contentScale = utils::atof(value.c_str()); } else if ( 0 == key.compare(ARMATURE_DATA)) { pDataArray = tpChildArray[i].GetChildArray(&tCocoLoader); length = tpChildArray[i].GetChildNum(); ArmatureData * armatureData; for (int ii = 0; ii < length; ++ii) { armatureData = decodeArmature(&tCocoLoader, &pDataArray[ii], dataInfo); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addArmatureData(armatureData->name.c_str(), armatureData, dataInfo->filename.c_str()); armatureData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } } } else if ( 0 == key.compare(ANIMATION_DATA)) { pDataArray = tpChildArray[i].GetChildArray(&tCocoLoader); length = tpChildArray[i].GetChildNum(); AnimationData *animationData; for (int ii = 0; ii < length; ++ii) { animationData = decodeAnimation(&tCocoLoader, &pDataArray[ii], dataInfo); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addAnimationData(animationData->name.c_str(), animationData, dataInfo->filename.c_str()); animationData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } } } else if (key.compare(TEXTURE_DATA) == 0) { pDataArray = tpChildArray[i].GetChildArray(&tCocoLoader); length = tpChildArray[i].GetChildNum(); for (int ii = 0; ii < length; ++ii) { TextureData *textureData = decodeTexture(&tCocoLoader, &pDataArray[ii]); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.lock(); } ArmatureDataManager::getInstance()->addTextureData(textureData->name.c_str(), textureData, dataInfo->filename.c_str()); textureData->release(); if (dataInfo->asyncStruct) { _dataReaderHelper->_addDataMutex.unlock(); } } } } // Auto losprite file bool autoLoad = dataInfo->asyncStruct == nullptr ? ArmatureDataManager::getInstance()->isAutoLoadSpriteFile() : dataInfo->asyncStruct->autoLoadSpriteFile; if (autoLoad) { for (int i = 0; i < nCount; ++i) { key = tpChildArray[i].GetName(&tCocoLoader); if( 0 != key.compare(CONFIG_FILE_PATH)) { continue; } length = tpChildArray[i].GetChildNum(); stExpCocoNode *pConfigFilePath = tpChildArray[i].GetChildArray(&tCocoLoader); for (int ii = 0; ii < length; ii++) { const char *path = pConfigFilePath[ii].GetValue(&tCocoLoader); if (path == nullptr) { CCLOG("load CONFIG_FILE_PATH error."); return; } std::string filePath = path; filePath = filePath.erase(filePath.find_last_of(".")); if (dataInfo->asyncStruct) { dataInfo->configFileQueue.push(filePath); } else { std::string plistPath = filePath + ".plist"; std::string pngPath = filePath + ".png"; ArmatureDataManager::getInstance()->addSpriteFrameFromFile((dataInfo->baseFilePath + plistPath).c_str(), (dataInfo->baseFilePath + pngPath).c_str(), dataInfo->filename.c_str()); } } } } } } } ArmatureData* DataReaderHelper::decodeArmature(CocoLoader *cocoLoader, stExpCocoNode *cocoNode, DataInfo *dataInfo) { ArmatureData *armatureData = new (std::nothrow) ArmatureData(); armatureData->init(); stExpCocoNode *pAramtureDataArray = cocoNode->GetChildArray(cocoLoader); const char *name = pAramtureDataArray[2].GetValue(cocoLoader); //DICTOOL->getStringValue_json(json, A_NAME); if(name != nullptr) { armatureData->name = name; } float version = utils::atof(pAramtureDataArray[1].GetValue(cocoLoader)); dataInfo->cocoStudioVersion = armatureData->dataVersion = version; //DICTOOL->getFloatValue_json(json, VERSION, 0.1f); int length = pAramtureDataArray[3].GetChildNum(); //DICTOOL->getArrayCount_json(json, BONE_DATA, 0); stExpCocoNode *pBoneChildren = pAramtureDataArray[3].GetChildArray(cocoLoader); stExpCocoNode* child; for (int i = 0; i < length; i++) { //const rapidjson::Value &dic = DICTOOL->getSubDictionary_json(json, BONE_DATA, i); //json[BONE_DATA][i]; child = &pBoneChildren[i]; BoneData *boneData = decodeBone(cocoLoader, child, dataInfo); armatureData->addBoneData(boneData); boneData->release(); } return armatureData; } BoneData* DataReaderHelper::decodeBone(CocoLoader *cocoLoader, stExpCocoNode *cocoNode, DataInfo *dataInfo) { BoneData *boneData = new (std::nothrow) BoneData(); boneData->init(); decodeNode(boneData, cocoLoader, cocoNode, dataInfo); int length = cocoNode->GetChildNum(); stExpCocoNode *pBoneChildren = cocoNode->GetChildArray(cocoLoader); stExpCocoNode* child; const char *str = nullptr; std::string key; for (int i = 0; i < length; ++i) { child = &pBoneChildren[i]; key = child->GetName(cocoLoader); str = child->GetValue(cocoLoader); if (key.compare(A_NAME) == 0) { //DICTOOL->getStringValue_json(json, A_NAME); if(str != nullptr) { boneData->name = str; } } else if (key.compare(A_PARENT) == 0) { //DICTOOL->getStringValue_json(json, A_PARENT); if(str != nullptr) { boneData->parentName = str; } } else if (key.compare(DISPLAY_DATA) == 0) { int count = child->GetChildNum(); stExpCocoNode *pDisplayData = child->GetChildArray(cocoLoader); for (int ii = 0; ii < count; ++ii) { DisplayData *displayData = decodeBoneDisplay(cocoLoader, &pDisplayData[ii], dataInfo); if(displayData == nullptr) continue; boneData->addDisplayData(displayData); displayData->release(); } } } return boneData; } DisplayData* DataReaderHelper::decodeBoneDisplay(CocoLoader *cocoLoader, stExpCocoNode *cocoNode, DataInfo *dataInfo) { stExpCocoNode* children = cocoNode->GetChildArray(cocoLoader); stExpCocoNode* child = &children[1]; const char *str = nullptr; std::string key = child->GetName(cocoLoader); str = child->GetValue(cocoLoader); DisplayData *displayData = nullptr; if (key.compare(A_DISPLAY_TYPE) == 0) { str = child->GetValue(cocoLoader); DisplayType displayType = (DisplayType)(atoi(str)); int length = 0; switch (displayType) { case CS_DISPLAY_SPRITE: { displayData = new (std::nothrow) SpriteDisplayData(); const char *name = children[0].GetValue(cocoLoader); if(name != nullptr) { ((SpriteDisplayData *)displayData)->displayName = name; } stExpCocoNode *pSkinDataArray = children[2].GetChildArray(cocoLoader); if (pSkinDataArray != nullptr) { stExpCocoNode *pSkinData = &pSkinDataArray[0]; if (pSkinData != nullptr) { SpriteDisplayData *sdd = (SpriteDisplayData *)displayData; length = pSkinData->GetChildNum(); stExpCocoNode *SkinDataValue = pSkinData->GetChildArray(cocoLoader); for (int i = 0; i < length; ++i) { key = SkinDataValue[i].GetName(cocoLoader); str = SkinDataValue[i].GetValue(cocoLoader); if (key.compare(A_X) == 0) { sdd->skinData.x = utils::atof(str) * s_PositionReadScale; } else if (key.compare(A_Y) == 0) { sdd->skinData.y = utils::atof(str) * s_PositionReadScale; } else if (key.compare(A_SCALE_X) == 0) { sdd->skinData.scaleX = utils::atof(str); } else if (key.compare(A_SCALE_Y) == 0) { sdd->skinData.scaleY = utils::atof(str); } else if (key.compare(A_SKEW_X) == 0) { sdd->skinData.skewX = utils::atof(str); } else if (key.compare(A_SKEW_Y) == 0) { sdd->skinData.skewY = utils::atof(str); } } sdd->skinData.x *= dataInfo->contentScale; sdd->skinData.y *= dataInfo->contentScale; } } } break; case CS_DISPLAY_ARMATURE: { displayData = new (std::nothrow) ArmatureDisplayData(); const char *name = cocoNode[0].GetValue(cocoLoader); if(name != nullptr) { ((ArmatureDisplayData *)displayData)->displayName = name; } } break; case CS_DISPLAY_PARTICLE: { displayData = new (std::nothrow) ParticleDisplayData(); length = cocoNode->GetChildNum(); stExpCocoNode *pDisplayData = cocoNode->GetChildArray(cocoLoader); for (int i = 0; i < length; ++i) { key = pDisplayData[i].GetName(cocoLoader); str = pDisplayData[i].GetValue(cocoLoader); if (key.compare(A_PLIST) == 0) { const char *plist = str; if(plist != nullptr) { if (dataInfo->asyncStruct) { ((ParticleDisplayData *)displayData)->displayName = dataInfo->asyncStruct->baseFilePath + plist; } else { ((ParticleDisplayData *)displayData)->displayName = dataInfo->baseFilePath + plist; } } } } } break; default: displayData = new (std::nothrow) SpriteDisplayData(); break; } displayData->displayType = displayType; } return displayData; } AnimationData* DataReaderHelper::decodeAnimation(CocoLoader *cocoLoader, stExpCocoNode *cocoNode, DataInfo *dataInfo) { AnimationData *aniData = new (std::nothrow) AnimationData(); int length = cocoNode->GetChildNum(); stExpCocoNode *pAnimationData = cocoNode->GetChildArray(cocoLoader); const char *str = nullptr; std::string key; stExpCocoNode* child; MovementData *movementData; for (int i = 0; i < length; ++i) { child = &pAnimationData[i]; key = child->GetName(cocoLoader); str = child->GetValue(cocoLoader); if (key.compare(A_NAME) == 0) { if(str != nullptr) { aniData->name = str; } } else if (key.compare(MOVEMENT_DATA) == 0) { int movcount = child->GetChildNum(); stExpCocoNode* movArray = child->GetChildArray(cocoLoader); for( int movnum =0; movnum addMovement(movementData); movementData->release(); } } } return aniData; } MovementData* DataReaderHelper::decodeMovement(CocoLoader *cocoLoader, stExpCocoNode *cocoNode, DataInfo *dataInfo) { MovementData *movementData = new (std::nothrow) MovementData(); movementData->scale = 1.0f; int length = cocoNode->GetChildNum(); stExpCocoNode *pMoveDataArray = cocoNode->GetChildArray(cocoLoader); const char *str = nullptr; std::string key; stExpCocoNode* child; for (int i = 0; i < length; ++i) { child = &pMoveDataArray[i]; key = child->GetName(cocoLoader); str = child->GetValue(cocoLoader); if (key.compare(A_NAME) == 0) { if(str != nullptr) { movementData->name = str; } } else if (key.compare(A_LOOP) == 0) { movementData->loop = true; if(str != nullptr) { if (strcmp("1", str) != 0) { movementData->loop = false; } } } else if (key.compare(A_DURATION_TWEEN) == 0) { movementData->durationTween = 0; if(str != nullptr) { movementData->durationTween = atoi(str); } } else if (key.compare(A_DURATION_TO) == 0) { movementData->durationTo = 0; if(str != nullptr) { movementData->durationTo = atoi(str); } } else if (key.compare(A_DURATION) == 0) { movementData->duration = 0; if(str != nullptr) { movementData->duration = atoi(str); } } else if (key.compare(A_MOVEMENT_SCALE) == 0) { movementData->scale = 1.0; if(str != nullptr) { movementData->scale = utils::atof(str); } } else if (key.compare(A_TWEEN_EASING) == 0) { movementData->tweenEasing = cocos2d::tweenfunc::Linear; if(str != nullptr) { movementData->tweenEasing = (TweenType)(atoi(str)); } } else if (key.compare(MOVEMENT_BONE_DATA) == 0) { int count = child->GetChildNum(); stExpCocoNode *pMoveBoneData = child->GetChildArray(cocoLoader); MovementBoneData *movementBoneData; for (int ii = 0; ii < count; ++ii) { movementBoneData = decodeMovementBone(cocoLoader, &pMoveBoneData[ii],dataInfo); movementData->addMovementBoneData(movementBoneData); movementBoneData->release(); } } } return movementData; } MovementBoneData* DataReaderHelper::decodeMovementBone(CocoLoader *cocoLoader, stExpCocoNode *cocoNode, DataInfo *dataInfo) { MovementBoneData *movementBoneData = new (std::nothrow) MovementBoneData(); movementBoneData->init(); int length = cocoNode->GetChildNum(); stExpCocoNode *pMovementBoneDataArray = cocoNode->GetChildArray(cocoLoader); stExpCocoNode* movebonechild; const char *str = nullptr; for (int i = 0; i < length; ++i) { movebonechild = &pMovementBoneDataArray[i]; std::string key = movebonechild->GetName(cocoLoader); str = movebonechild->GetValue(cocoLoader); if (key.compare(A_NAME) == 0) { if(str != nullptr) { movementBoneData->name = str; } } else if (key.compare(A_MOVEMENT_DELAY) == 0) { if(str != nullptr) { movementBoneData->delay = utils::atof(str); } } else if (key.compare(FRAME_DATA) == 0) { int count =movebonechild->GetChildNum(); stExpCocoNode *pFrameDataArray = movebonechild->GetChildArray(cocoLoader); for (int ii = 0; ii < count; ++ii) { FrameData *frameData = decodeFrame(cocoLoader, &pFrameDataArray[ii], dataInfo); movementBoneData->addFrameData(frameData); frameData->release(); if (dataInfo->cocoStudioVersion < VERSION_COMBINED) { frameData->frameID = movementBoneData->duration; movementBoneData->duration += frameData->duration; } } } } const ssize_t framesizemusone = movementBoneData->frameList.size()-1; if (dataInfo->cocoStudioVersion < VERSION_CHANGE_ROTATION_RANGE) { //! Change rotation range from (-180 -- 180) to (-infinity -- infinity) cocos2d::Vector frames =movementBoneData->frameList; ssize_t imusone =0; ssize_t i =0; for (i = framesizemusone; i >= 0; i--) { if (i > 0) { imusone = i-1; float difSkewX = frames.at(i)->skewX - frames.at(imusone)->skewX; float difSkewY = frames.at(i)->skewY - frames.at(imusone)->skewY; if (difSkewX < -M_PI || difSkewX > M_PI) { frames.at(imusone)->skewX = difSkewX < 0 ? frames.at(imusone)->skewX - 2 * M_PI : frames.at(imusone)->skewX + 2 * M_PI; } if (difSkewY < -M_PI || difSkewY > M_PI) { frames.at(imusone)->skewY = difSkewY < 0 ? frames.at(imusone)->skewY - 2 * M_PI : frames.at(imusone)->skewY + 2 * M_PI; } } } } if (dataInfo->cocoStudioVersion < VERSION_COMBINED) { if (movementBoneData->frameList.size() > 0) { FrameData *frameData = new (std::nothrow) FrameData(); frameData = movementBoneData->frameList.at(framesizemusone); movementBoneData->addFrameData(frameData); frameData->release(); frameData->frameID = movementBoneData->duration; } } return movementBoneData; } FrameData* DataReaderHelper::decodeFrame(CocoLoader *cocoLoader, stExpCocoNode *cocoNode, DataInfo *dataInfo) { FrameData *frameData = new (std::nothrow) FrameData(); decodeNode(frameData, cocoLoader, cocoNode, dataInfo); int length = cocoNode->GetChildNum(); stExpCocoNode *pFrameDataArray = cocoNode->GetChildArray(cocoLoader); const char *str = nullptr; for (int i = 0; i < length; ++i) { std::string key = pFrameDataArray[i].GetName(cocoLoader); str = pFrameDataArray[i].GetValue(cocoLoader); if (key.compare(A_TWEEN_EASING) == 0) { frameData->tweenEasing = cocos2d::tweenfunc::Linear; if(str != nullptr) { frameData->tweenEasing = (TweenType)(atoi(str)); } } else if (key.compare(A_DISPLAY_INDEX) == 0) { if(str != nullptr) { frameData->displayIndex = atoi(str); } } else if (key.compare(A_BLEND_SRC) == 0) { if(str != nullptr) { frameData->blendFunc.src = (GLenum)(atoi(str)); } } else if (key.compare(A_BLEND_DST) == 0) { if(str != nullptr) { frameData->blendFunc.dst = (GLenum)(atoi(str)); } } else if (key.compare(A_TWEEN_FRAME) == 0) { frameData->isTween = true; if(str != nullptr) { if (strcmp("1", str) != 0) { frameData->isTween = false; } } } else if (key.compare(A_EVENT) == 0) { if(str != nullptr) { frameData->strEvent = str; } } else if (key.compare(A_DURATION) == 0) { if (dataInfo->cocoStudioVersion < VERSION_COMBINED) { frameData->duration = 1; if(str != nullptr) { frameData->duration = atoi(str); } } } else if (key.compare(A_FRAME_INDEX) == 0) { if (dataInfo->cocoStudioVersion >= VERSION_COMBINED) { if(str != nullptr) { frameData->frameID = atoi(str); } } } else if (key.compare(A_EASING_PARAM) == 0) { int count = pFrameDataArray[i].GetChildNum(); if (count != 0 ) { frameData->easingParams = new float[count]; stExpCocoNode *pFrameData = pFrameDataArray[i].GetChildArray(cocoLoader); for (int ii = 0; ii < count; ++ii) { str = pFrameData[ii].GetValue(cocoLoader); if (str != nullptr) { frameData->easingParams[ii] = utils::atof(str); } } } } } return frameData; } TextureData* DataReaderHelper::decodeTexture(CocoLoader *cocoLoader, stExpCocoNode *cocoNode) { TextureData *textureData = new (std::nothrow) TextureData(); textureData->init(); if(cocoNode == nullptr) { return textureData; } int length = cocoNode->GetChildNum(); stExpCocoNode *pTextureDataArray = cocoNode->GetChildArray(cocoLoader); const char *str = nullptr; for (int i = 0; i < length; ++i) { std::string key = pTextureDataArray[i].GetName(cocoLoader); str = pTextureDataArray[i].GetValue(cocoLoader); if (key.compare(A_NAME) == 0) { if(str != nullptr) { textureData->name = str; } } else if (key.compare(A_WIDTH) == 0) { if(str != nullptr) { textureData->width = utils::atof(str); } } else if (key.compare(A_HEIGHT) == 0) { if(str != nullptr) { textureData->height = utils::atof(str); } } else if (key.compare(A_PIVOT_X) == 0) { if(str != nullptr) { textureData->pivotX = utils::atof(str); } } else if (key.compare(A_PIVOT_Y) == 0) { if(str != nullptr) { textureData->pivotY = utils::atof(str); } } else if (key.compare(CONTOUR_DATA) == 0) { int count = pTextureDataArray[i].GetChildNum(); stExpCocoNode *pContourArray = pTextureDataArray[i].GetChildArray(cocoLoader); for (int ii = 0; ii < count; ++ii) { ContourData *contourData = decodeContour(cocoLoader, &pContourArray[ii]); textureData->contourDataList.pushBack(contourData); contourData->release(); } } } return textureData; } ContourData* DataReaderHelper::decodeContour(CocoLoader *cocoLoader, stExpCocoNode *cocoNode) { ContourData *contourData = new (std::nothrow) ContourData(); contourData->init(); int length = cocoNode->GetChildNum(); stExpCocoNode *verTexPointArray = cocoNode->GetChildArray(cocoLoader); const char *str = nullptr; for (int i = 0; i < length; ++i) { std::string key = verTexPointArray[i].GetName(cocoLoader); str = verTexPointArray[i].GetValue(cocoLoader); if (key.compare(VERTEX_POINT) == 0) { int count = verTexPointArray[i].GetChildNum(); stExpCocoNode *pVerTexPointArray = verTexPointArray[i].GetChildArray(cocoLoader); stExpCocoNode *pVerTexPoint; for (int ii = count - 1; ii >= 0; --ii) { pVerTexPoint = pVerTexPointArray[ii].GetChildArray(cocoLoader); Vec2 vertex; vertex.x = utils::atof(pVerTexPoint[0].GetValue(cocoLoader)); vertex.y = utils::atof(pVerTexPoint[1].GetValue(cocoLoader)); contourData->vertexList.push_back(vertex); } break; } } return contourData; } void DataReaderHelper::decodeNode(BaseData *node, CocoLoader *cocoLoader, stExpCocoNode* cocoNode, DataInfo *dataInfo) { int length = cocoNode->GetChildNum(); stExpCocoNode *NodeArray = cocoNode->GetChildArray(cocoLoader); const char *str = nullptr; bool isVersionL = dataInfo->cocoStudioVersion < VERSION_COLOR_READING; stExpCocoNode* child; for (int i = 0; i < length; ++i) { child = &NodeArray[i]; std::string key = child->GetName(cocoLoader); str = child->GetValue(cocoLoader); if (key.compare(A_X) == 0) { node->x = utils::atof(str) * dataInfo->contentScale; } else if (key.compare(A_Y) == 0) { node->y = utils::atof(str) * dataInfo->contentScale; } else if (key.compare(A_Z) == 0) { node->zOrder = atoi(str); } else if (key.compare(A_SKEW_X) == 0) { node->skewX = utils::atof(str); } else if (key.compare(A_SKEW_Y) == 0) { node->skewY = utils::atof(str); } else if (key.compare(A_SCALE_X) == 0) { node->scaleX = utils::atof(str); } else if (key.compare(A_SCALE_Y) == 0) { node->scaleY = utils::atof(str); } else if (key.compare(COLOR_INFO) == 0) { if (!isVersionL) { if (child->GetType(cocoLoader) == rapidjson::kObjectType) { if(child->GetChildNum() == 4) { stExpCocoNode *ChildArray = child->GetChildArray(cocoLoader); node->a = atoi(ChildArray[0].GetValue(cocoLoader)); node->r = atoi(ChildArray[1].GetValue(cocoLoader)); node->g = atoi(ChildArray[2].GetValue(cocoLoader)); node->b = atoi(ChildArray[3].GetValue(cocoLoader)); } } node->isUseColorInfo = true; } } } if (isVersionL) { int colorcoount = NodeArray[0].GetChildNum(); if(colorcoount>0) { if (NodeArray[0].GetType(cocoLoader) == rapidjson::kObjectType) { if(NodeArray[0].GetChildNum() == 4) { stExpCocoNode *ChildArray = NodeArray[0].GetChildArray(cocoLoader); node->a = atoi(ChildArray[0].GetValue(cocoLoader)); node->r = atoi(ChildArray[1].GetValue(cocoLoader)); node->g = atoi(ChildArray[2].GetValue(cocoLoader)); node->b = atoi(ChildArray[3].GetValue(cocoLoader)); } } node->isUseColorInfo = true; } } } }