#include "CCBReader.h" #include #include "CCNodeLoader.h" #include "CCNodeLoaderLibrary.h" #include "CCNodeLoaderListener.h" #include "CCBMemberVariableAssigner.h" #include "CCBSelectorResolver.h" #include "CCBAnimationManager.h" #include "CCBSequenceProperty.h" #include "CCBKeyframe.h" #include "CCBValue.h" #include #ifdef __CC_PLATFORM_IOS #include #endif using namespace std; NS_CC_EXT_BEGIN; /************************************************************************* Implementation of CCBFile *************************************************************************/ CCBFile::CCBFile():mCCBFileNode(NULL) {} CCBFile* CCBFile::create() { CCBFile *ret = new CCBFile(); if (ret) { ret->autorelease(); } return ret; } CCNode* CCBFile::getCCBFileNode() { return mCCBFileNode; } void CCBFile::setCCBFileNode(CCNode *pNode) { CC_SAFE_RELEASE(mCCBFileNode); mCCBFileNode = pNode; CC_SAFE_RETAIN(mCCBFileNode); } /************************************************************************* Implementation of CCBReader *************************************************************************/ CCBReader::CCBReader(CCNodeLoaderLibrary * pCCNodeLoaderLibrary, CCBMemberVariableAssigner * pCCBMemberVariableAssigner, CCBSelectorResolver * pCCBSelectorResolver, CCNodeLoaderListener * pCCNodeLoaderListener) : mData(NULL) , mBytes(NULL) , mCurrentByte(-1) , mCurrentBit(-1) , mOwner(NULL) , mActionManager(NULL) , mActionManagers(NULL) , mAnimatedProps(NULL) , mOwnerOutletNodes(NULL) , mNodesWithAnimationManagers(NULL) , mAnimationManagersForNodes(NULL) , mOwnerCallbackNodes(NULL) , hasScriptingOwner(false) { this->mCCNodeLoaderLibrary = pCCNodeLoaderLibrary; this->mCCNodeLoaderLibrary->retain(); this->mCCBMemberVariableAssigner = pCCBMemberVariableAssigner; this->mCCBSelectorResolver = pCCBSelectorResolver; this->mCCNodeLoaderListener = pCCNodeLoaderListener; init(); } CCBReader::CCBReader(CCBReader * pCCBReader) : mData(NULL) , mBytes(NULL) , mCurrentByte(-1) , mCurrentBit(-1) , mOwner(NULL) , mActionManager(NULL) , mActionManagers(NULL) , mAnimatedProps(NULL) , mOwnerOutletNodes(NULL) , mNodesWithAnimationManagers(NULL) , mAnimationManagersForNodes(NULL) , mOwnerCallbackNodes(NULL) , hasScriptingOwner(false) { this->mLoadedSpriteSheets = pCCBReader->mLoadedSpriteSheets; this->mCCNodeLoaderLibrary = pCCBReader->mCCNodeLoaderLibrary; this->mCCNodeLoaderLibrary->retain(); this->mCCBMemberVariableAssigner = pCCBReader->mCCBMemberVariableAssigner; this->mCCBSelectorResolver = pCCBReader->mCCBSelectorResolver; this->mCCNodeLoaderListener = pCCBReader->mCCNodeLoaderListener; this->mOwnerCallbackNames = pCCBReader->mOwnerCallbackNames; this->mOwnerCallbackNodes = pCCBReader->mOwnerCallbackNodes; this->mOwnerCallbackNodes->retain(); this->mOwnerOutletNames = pCCBReader->mOwnerOutletNames; this->mOwnerOutletNodes = pCCBReader->mOwnerOutletNodes; this->mOwnerOutletNodes->retain(); init(); } CCBReader::CCBReader() : mData(NULL) , mBytes(NULL) , mCurrentByte(-1) , mCurrentBit(-1) , mOwner(NULL) , mActionManager(NULL) , mActionManagers(NULL) , mCCNodeLoaderLibrary(NULL) , mCCNodeLoaderListener(NULL) , mCCBMemberVariableAssigner(NULL) , mCCBSelectorResolver(NULL) , mNodesWithAnimationManagers(NULL) , mAnimationManagersForNodes(NULL) , hasScriptingOwner(false) { init(); } CCBReader::~CCBReader() { CC_SAFE_RELEASE_NULL(mOwner); CC_SAFE_RELEASE_NULL(mData); this->mCCNodeLoaderLibrary->release(); CC_SAFE_RELEASE(mOwnerOutletNodes); mOwnerOutletNames.clear(); CC_SAFE_RELEASE(mOwnerCallbackNodes); mOwnerCallbackNames.clear(); // Clear string cache. this->mStringCache.clear(); CC_SAFE_RELEASE(mNodesWithAnimationManagers); CC_SAFE_RELEASE(mAnimationManagersForNodes); setAnimationManager(NULL); } void CCBReader::setCCBRootPath(const char* pCCBRootPath) { CCAssert(pCCBRootPath != NULL, ""); mCCBRootPath = pCCBRootPath; } const std::string& CCBReader::getCCBRootPath() const { return mCCBRootPath; } bool CCBReader::init() { // Setup action manager CCBAnimationManager *pActionManager = new CCBAnimationManager(); setAnimationManager(pActionManager); pActionManager->release(); // Setup resolution scale and container size mActionManager->setRootContainerSize(CCDirector::sharedDirector()->getWinSize()); return true; } CCBAnimationManager* CCBReader::getAnimationManager() { return mActionManager; } void CCBReader::setAnimationManager(CCBAnimationManager *pAnimationManager) { CC_SAFE_RELEASE(mActionManager); mActionManager = pAnimationManager; CC_SAFE_RETAIN(mActionManager); } CCDictionary* CCBReader::getAnimationManagers() { return mActionManagers; } void CCBReader::setAnimationManagers(CCDictionary* x) { mActionManagers = x; } CCBMemberVariableAssigner * CCBReader::getCCBMemberVariableAssigner() { return this->mCCBMemberVariableAssigner; } CCBSelectorResolver * CCBReader::getCCBSelectorResolver() { return this->mCCBSelectorResolver; } set* CCBReader::getAnimatedProperties() { return mAnimatedProps; } set& CCBReader::getLoadedSpriteSheet() { return mLoadedSpriteSheets; } CCObject* CCBReader::getOwner() { return mOwner; } CCNode* CCBReader::readNodeGraphFromFile(const char *pCCBFileName) { return this->readNodeGraphFromFile(pCCBFileName, NULL); } CCNode* CCBReader::readNodeGraphFromFile(const char* pCCBFileName, CCObject* pOwner) { return this->readNodeGraphFromFile(pCCBFileName, pOwner, CCDirector::sharedDirector()->getWinSize()); } CCNode* CCBReader::readNodeGraphFromFile(const char *pCCBFileName, CCObject *pOwner, const CCSize &parentSize) { if (NULL == pCCBFileName || strlen(pCCBFileName) == 0) { return NULL; } std::string strCCBFileName(pCCBFileName); std::string strSuffix(".ccbi"); // Add ccbi suffix if (!CCBReader::endsWith(strCCBFileName.c_str(), strSuffix.c_str())) { strCCBFileName += strSuffix; } std::string strPath = CCFileUtils::sharedFileUtils()->fullPathForFilename(strCCBFileName.c_str()); unsigned long size = 0; unsigned char * pBytes = CCFileUtils::sharedFileUtils()->getFileData(strPath.c_str(), "rb", &size); CCData *data = new CCData(pBytes, size); CC_SAFE_DELETE_ARRAY(pBytes); CCNode *ret = this->readNodeGraphFromData(data, pOwner, parentSize); data->release(); return ret; } CCNode* CCBReader::readNodeGraphFromData(CCData *pData, CCObject *pOwner, const CCSize &parentSize) { mData = pData; CC_SAFE_RETAIN(mData); mBytes = mData->getBytes(); mCurrentByte = 0; mCurrentBit = 0; mOwner = pOwner; CC_SAFE_RETAIN(mOwner); mActionManager->setRootContainerSize(parentSize); mActionManager->mOwner = mOwner; mOwnerOutletNodes = new CCArray(); mOwnerCallbackNodes = new CCArray(); CCDictionary* animationManagers = CCDictionary::create(); CCNode *pNodeGraph = readFileWithCleanUp(true, animationManagers); if (pNodeGraph && mActionManager->getAutoPlaySequenceId() != -1 && !jsControlled) { // Auto play animations mActionManager->runAnimationsForSequenceIdTweenDuration(mActionManager->getAutoPlaySequenceId(), 0); } // Assign actionManagers to userObject if(jsControlled) { mNodesWithAnimationManagers = new CCArray(); mAnimationManagersForNodes = new CCArray(); } CCDictElement* pElement = NULL; CCDICT_FOREACH(animationManagers, pElement) { CCNode* pNode = (CCNode*)pElement->getIntKey(); CCBAnimationManager* manager = (CCBAnimationManager*)animationManagers->objectForKey((intptr_t)pNode); pNode->setUserObject(manager); if (jsControlled) { mNodesWithAnimationManagers->addObject(pNode); mAnimationManagersForNodes->addObject(manager); } } return pNodeGraph; } CCScene* CCBReader::createSceneWithNodeGraphFromFile(const char *pCCBFileName) { return createSceneWithNodeGraphFromFile(pCCBFileName, NULL); } CCScene* CCBReader::createSceneWithNodeGraphFromFile(const char *pCCBFileName, CCObject *pOwner) { return createSceneWithNodeGraphFromFile(pCCBFileName, pOwner, CCDirector::sharedDirector()->getWinSize()); } CCScene* CCBReader::createSceneWithNodeGraphFromFile(const char *pCCBFileName, CCObject *pOwner, const CCSize &parentSize) { CCNode *pNode = readNodeGraphFromFile(pCCBFileName, pOwner, parentSize); CCScene *pScene = CCScene::create(); pScene->addChild(pNode); return pScene; } void CCBReader::cleanUpNodeGraph(CCNode *pNode) { pNode->setUserObject(NULL); CCObject *pChild = NULL; CCARRAY_FOREACH(pNode->getChildren(), pChild) { cleanUpNodeGraph((CCNode*)pChild); } } CCNode* CCBReader::readFileWithCleanUp(bool bCleanUp, CCDictionary* am) { if (! readHeader()) { return NULL; } if (! readStringCache()) { return NULL; } if (! readSequences()) { return NULL; } setAnimationManagers(am); CCNode *pNode = readNodeGraph(NULL); mActionManagers->setObject(mActionManager, intptr_t(pNode)); if (bCleanUp) { cleanUpNodeGraph(pNode); } return pNode; } bool CCBReader::readStringCache() { int numStrings = this->readInt(false); for(int i = 0; i < numStrings; i++) { this->mStringCache.push_back(this->readUTF8()); } return true; } bool CCBReader::readHeader() { /* If no bytes loaded, don't crash about it. */ if(this->mBytes == NULL) { return false; } /* Read magic bytes */ int magicBytes = *((int*)(this->mBytes + this->mCurrentByte)); this->mCurrentByte += 4; if(CC_SWAP_INT32_LITTLE_TO_HOST(magicBytes) != 'ccbi') { return false; } /* Read version. */ int version = this->readInt(false); if(version != kCCBVersion) { CCLog("WARNING! Incompatible ccbi file version (file: %d reader: %d)", version, kCCBVersion); return false; } // Read JS check jsControlled = this->readBool(); mActionManager->jsControlled = jsControlled; return true; } unsigned char CCBReader::readByte() { unsigned char byte = this->mBytes[this->mCurrentByte]; this->mCurrentByte++; return byte; } bool CCBReader::readBool() { return 0 == this->readByte() ? false : true; } std::string CCBReader::readUTF8() { std::string ret; int b0 = this->readByte(); int b1 = this->readByte(); int numBytes = b0 << 8 | b1; char* pStr = (char*)malloc(numBytes+1); memcpy(pStr, mBytes+mCurrentByte, numBytes); pStr[numBytes] = '\0'; ret = pStr; free(pStr); mCurrentByte += numBytes; return ret; } bool CCBReader::getBit() { bool bit; unsigned char byte = *(this->mBytes + this->mCurrentByte); if(byte & (1 << this->mCurrentBit)) { bit = true; } else { bit = false; } this->mCurrentBit++; if(this->mCurrentBit >= 8) { this->mCurrentBit = 0; this->mCurrentByte++; } return bit; } void CCBReader::alignBits() { if(this->mCurrentBit) { this->mCurrentBit = 0; this->mCurrentByte++; } } int CCBReader::readInt(bool pSigned) { // Read encoded int int numBits = 0; while(!this->getBit()) { numBits++; } long long current = 0; for(int a = numBits - 1; a >= 0; a--) { if(this->getBit()) { current |= 1LL << a; } } current |= 1LL << numBits; int num; if(pSigned) { int s = current % 2; if(s) { num = (int)(current / 2); } else { num = (int)(-current / 2); } } else { num = current - 1; } this->alignBits(); return num; } float CCBReader::readFloat() { unsigned char type = this->readByte(); switch (type) { case kCCBFloat0: return 0; case kCCBFloat1: return 1; case kCCBFloatMinus1: return -1; case kCCBFloat05: return 0.5f; case kCCBFloatInteger: return (float)this->readInt(true); default: { /* using a memcpy since the compiler isn't * doing the float ptr math correctly on device. * TODO still applies in C++ ? */ unsigned char* pF = (this->mBytes + this->mCurrentByte); float f = 0; // N.B - in order to avoid an unaligned memory access crash on 'memcpy()' the the (void*) casts of the source and // destination pointers are EXTREMELY important for the ARM compiler. // // Without a (void*) cast, the ARM compiler makes the assumption that the float* pointer is naturally aligned // according to it's type size (aligned along 4 byte boundaries) and thus tries to call a more optimized // version of memcpy() which makes this alignment assumption also. When reading back from a file of course our pointers // may not be aligned, hence we need to avoid the compiler making this assumption. The (void*) cast serves this purpose, // and causes the ARM compiler to choose the slower, more generalized (unaligned) version of memcpy() // // For more about this compiler behavior, see: // http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.faqs/ka3934.html memcpy((void*) &f, (const void*) pF, sizeof(float)); this->mCurrentByte += sizeof(float); return f; } } } std::string CCBReader::readCachedString() { int n = this->readInt(false); return this->mStringCache[n]; } CCNode * CCBReader::readNodeGraph(CCNode * pParent) { /* Read class name. */ std::string className = this->readCachedString(); std::string jsControlledName; if(jsControlled) { jsControlledName = this->readCachedString(); } // Read assignment type and name int memberVarAssignmentType = this->readInt(false); std::string memberVarAssignmentName; if(memberVarAssignmentType != kCCBTargetTypeNone) { memberVarAssignmentName = this->readCachedString(); } CCNodeLoader *ccNodeLoader = this->mCCNodeLoaderLibrary->getCCNodeLoader(className.c_str()); if (! ccNodeLoader) { CCLog("no corresponding node loader for %s", className.c_str()); return NULL; } CCNode *node = ccNodeLoader->loadCCNode(pParent, this); // Set root node if (! mActionManager->getRootNode()) { mActionManager->setRootNode(node); } // Assign controller if(jsControlled && node == mActionManager->getRootNode()) { mActionManager->setDocumentControllerName(jsControlledName); } // Read animated properties CCDictionary *seqs = CCDictionary::create(); mAnimatedProps = new set(); int numSequence = readInt(false); for (int i = 0; i < numSequence; ++i) { int seqId = readInt(false); CCDictionary *seqNodeProps = CCDictionary::create(); int numProps = readInt(false); for (int j = 0; j < numProps; ++j) { CCBSequenceProperty *seqProp = new CCBSequenceProperty(); seqProp->autorelease(); seqProp->setName(readCachedString().c_str()); seqProp->setType(readInt(false)); mAnimatedProps->insert(seqProp->getName()); int numKeyframes = readInt(false); for (int k = 0; k < numKeyframes; ++k) { CCBKeyframe *keyframe = readKeyframe(seqProp->getType()); seqProp->getKeyframes()->addObject(keyframe); } seqNodeProps->setObject(seqProp, seqProp->getName()); } seqs->setObject(seqNodeProps, seqId); } if (seqs->count() > 0) { mActionManager->addNode(node, seqs); } // Read properties ccNodeLoader->parseProperties(node, pParent, this); bool isCCBFileNode = (NULL == dynamic_cast(node)) ? false : true; // Handle sub ccb files (remove middle node) if (isCCBFileNode) { CCBFile *ccbFileNode = (CCBFile*)node; CCNode *embeddedNode = ccbFileNode->getCCBFileNode(); embeddedNode->setPosition(ccbFileNode->getPosition()); embeddedNode->setRotation(ccbFileNode->getRotation()); embeddedNode->setScaleX(ccbFileNode->getScaleX()); embeddedNode->setScaleY(ccbFileNode->getScaleY()); embeddedNode->setTag(ccbFileNode->getTag()); embeddedNode->setVisible(true); //embeddedNode->ignoreAnchorPointForPosition(ccbFileNode->isIgnoreAnchorPointForPosition()); mActionManager->moveAnimationsFromNode(ccbFileNode, embeddedNode); ccbFileNode->setCCBFileNode(NULL); node = embeddedNode; } #ifdef CCB_ENABLE_JAVASCRIPT /* if (memberVarAssignmentType && memberVarAssignmentName && ![memberVarAssignmentName isEqualToString:@""]) { [[JSCocoa sharedController] setObject:node withName:memberVarAssignmentName]; }*/ #else if (memberVarAssignmentType != kCCBTargetTypeNone) { if(!jsControlled) { CCObject * target = NULL; if(memberVarAssignmentType == kCCBTargetTypeDocumentRoot) { target = mActionManager->getRootNode(); } else if(memberVarAssignmentType == kCCBTargetTypeOwner) { target = this->mOwner; } if(target != NULL) { CCBMemberVariableAssigner * targetAsCCBMemberVariableAssigner = dynamic_cast(target); bool assigned = false; if (memberVarAssignmentType != kCCBTargetTypeNone) { if(targetAsCCBMemberVariableAssigner != NULL) { assigned = targetAsCCBMemberVariableAssigner->onAssignCCBMemberVariable(target, memberVarAssignmentName.c_str(), node); } if(!assigned && this->mCCBMemberVariableAssigner != NULL) { assigned = this->mCCBMemberVariableAssigner->onAssignCCBMemberVariable(target, memberVarAssignmentName.c_str(), node); } } } } else { if(memberVarAssignmentType == kCCBTargetTypeDocumentRoot) { mActionManager->addDocumentOutletName(memberVarAssignmentName); mActionManager->addDocumentOutletNode(node); } else { mOwnerOutletNames.push_back(memberVarAssignmentName); mOwnerOutletNodes->addObject(node); } } } // Assign custom properties. if (ccNodeLoader->getCustomProperties()->count() > 0) { bool customAssigned = false; if(!jsControlled) { CCObject * target = node; if(target != NULL) { CCBMemberVariableAssigner * targetAsCCBMemberVariableAssigner = dynamic_cast(target); if(targetAsCCBMemberVariableAssigner != NULL) { CCDictionary* pCustomPropeties = ccNodeLoader->getCustomProperties(); CCDictElement* pElement; CCDICT_FOREACH(pCustomPropeties, pElement) { customAssigned = targetAsCCBMemberVariableAssigner->onAssignCCBCustomProperty(target, pElement->getStrKey(), (CCBValue*)pElement->getObject()); if(!customAssigned && this->mCCBMemberVariableAssigner != NULL) { customAssigned = this->mCCBMemberVariableAssigner->onAssignCCBCustomProperty(target, pElement->getStrKey(), (CCBValue*)pElement->getObject()); } } } } } } #endif // CCB_ENABLE_JAVASCRIPT delete mAnimatedProps; mAnimatedProps = NULL; /* Read and add children. */ int numChildren = this->readInt(false); for(int i = 0; i < numChildren; i++) { CCNode * child = this->readNodeGraph(node); node->addChild(child); } // FIX ISSUE #1860: "onNodeLoaded will be called twice if ccb was added as a CCBFile". // If it's a sub-ccb node, skip notification to CCNodeLoaderListener since it will be // notified at LINE #734: CCNode * child = this->readNodeGraph(node); if (!isCCBFileNode) { // Call onNodeLoaded CCNodeLoaderListener * nodeAsCCNodeLoaderListener = dynamic_cast(node); if(nodeAsCCNodeLoaderListener != NULL) { nodeAsCCNodeLoaderListener->onNodeLoaded(node, ccNodeLoader); } else if(this->mCCNodeLoaderListener != NULL) { this->mCCNodeLoaderListener->onNodeLoaded(node, ccNodeLoader); } } return node; } CCBKeyframe* CCBReader::readKeyframe(int type) { CCBKeyframe *keyframe = new CCBKeyframe(); keyframe->autorelease(); keyframe->setTime(readFloat()); int easingType = readInt(false); float easingOpt = 0; CCObject *value = NULL; if (easingType == kCCBKeyframeEasingCubicIn || easingType == kCCBKeyframeEasingCubicOut || easingType == kCCBKeyframeEasingCubicInOut || easingType == kCCBKeyframeEasingElasticIn || easingType == kCCBKeyframeEasingElasticOut || easingType == kCCBKeyframeEasingElasticInOut) { easingOpt = readFloat(); } keyframe->setEasingType(easingType); keyframe->setEasingOpt(easingOpt); if (type == kCCBPropTypeCheck) { value = CCBValue::create(readBool()); } else if (type == kCCBPropTypeByte) { value = CCBValue::create(readByte()); } else if (type == kCCBPropTypeColor3) { int r = readByte(); int g = readByte(); int b = readByte(); ccColor3B c = ccc3(r,g,b); value = ccColor3BWapper::create(c); } else if (type == kCCBPropTypeDegrees) { value = CCBValue::create(readFloat()); } else if (type == kCCBPropTypeScaleLock || type == kCCBPropTypePosition || type == kCCBPropTypeFloatXY) { float a = readFloat(); float b = readFloat(); value = CCArray::create(CCBValue::create(a), CCBValue::create(b), NULL); } else if (type == kCCBPropTypeSpriteFrame) { std::string spriteSheet = readCachedString(); std::string spriteFile = readCachedString(); CCSpriteFrame* spriteFrame; if (spriteSheet.length() == 0) { spriteFile = mCCBRootPath + spriteFile; CCTexture2D *texture = CCTextureCache::sharedTextureCache()->addImage(spriteFile.c_str()); CCRect bounds = CCRectMake(0, 0, texture->getContentSize().width, texture->getContentSize().height); spriteFrame = CCSpriteFrame::createWithTexture(texture, bounds); } else { spriteSheet = mCCBRootPath + spriteSheet; CCSpriteFrameCache* frameCache = CCSpriteFrameCache::sharedSpriteFrameCache(); // Load the sprite sheet only if it is not loaded if (mLoadedSpriteSheets.find(spriteSheet) == mLoadedSpriteSheets.end()) { frameCache->addSpriteFramesWithFile(spriteSheet.c_str()); mLoadedSpriteSheets.insert(spriteSheet); } spriteFrame = frameCache->spriteFrameByName(spriteFile.c_str()); } value = spriteFrame; } keyframe->setValue(value); return keyframe; } bool CCBReader::readCallbackKeyframesForSeq(CCBSequence* seq) { int numKeyframes = readInt(false); if(!numKeyframes) return true; CCBSequenceProperty* channel = new CCBSequenceProperty(); channel->autorelease(); for(int i = 0; i < numKeyframes; ++i) { float time = readFloat(); std::string callbackName = readCachedString(); int callbackType = readInt(false); CCArray* value = CCArray::create(); value->addObject(CCString::create(callbackName)); value->addObject(CCString::createWithFormat("%d", callbackType)); CCBKeyframe* keyframe = new CCBKeyframe(); keyframe->autorelease(); keyframe->setTime(time); keyframe->setValue(value); if(jsControlled) { string callbackIdentifier; mActionManager->getKeyframeCallbacks()->addObject(CCString::createWithFormat("%d:%s",callbackType, callbackName.c_str())); } channel->getKeyframes()->addObject(keyframe); } seq->setCallbackChannel(channel); return true; } bool CCBReader::readSoundKeyframesForSeq(CCBSequence* seq) { int numKeyframes = readInt(false); if(!numKeyframes) return true; CCBSequenceProperty* channel = new CCBSequenceProperty(); channel->autorelease(); for(int i = 0; i < numKeyframes; ++i) { float time = readFloat(); std::string soundFile = readCachedString(); float pitch = readFloat(); float pan = readFloat(); float gain = readFloat(); CCArray* value = CCArray::create(); value->addObject(CCString::create(soundFile)); value->addObject(CCString::createWithFormat("%f", pitch)); value->addObject(CCString::createWithFormat("%f", pan)); value->addObject(CCString::createWithFormat("%f", gain)); CCBKeyframe* keyframe = new CCBKeyframe(); keyframe->setTime(time); keyframe->setValue(value); channel->getKeyframes()->addObject(keyframe); keyframe->release(); } seq->setSoundChannel(channel); return true; } CCNode * CCBReader::readNodeGraph() { return this->readNodeGraph(NULL); } bool CCBReader::readSequences() { CCArray *sequences = mActionManager->getSequences(); int numSeqs = readInt(false); for (int i = 0; i < numSeqs; i++) { CCBSequence *seq = new CCBSequence(); seq->autorelease(); seq->setDuration(readFloat()); seq->setName(readCachedString().c_str()); seq->setSequenceId(readInt(false)); seq->setChainedSequenceId(readInt(true)); if(!readCallbackKeyframesForSeq(seq)) return false; if(!readSoundKeyframesForSeq(seq)) return false; sequences->addObject(seq); } mActionManager->setAutoPlaySequenceId(readInt(true)); return true; } std::string CCBReader::lastPathComponent(const char* pPath) { std::string path(pPath); size_t slashPos = path.find_last_of("/"); if(slashPos != std::string::npos) { return path.substr(slashPos + 1, path.length() - slashPos); } return path; } std::string CCBReader::deletePathExtension(const char* pPath) { std::string path(pPath); size_t dotPos = path.find_last_of("."); if(dotPos != std::string::npos) { return path.substr(0, dotPos); } return path; } std::string CCBReader::toLowerCase(const char* pString) { std::string copy(pString); std::transform(copy.begin(), copy.end(), copy.begin(), ::tolower); return copy; } bool CCBReader::endsWith(const char* pString, const char* pEnding) { std::string string(pString); std::string ending(pEnding); if(string.length() >= ending.length()) { return (string.compare(string.length() - ending.length(), ending.length(), ending) == 0); } else { return false; } } bool CCBReader::isJSControlled() { return jsControlled; } void CCBReader::addOwnerCallbackName(std::string name) { mOwnerCallbackNames.push_back(name); } void CCBReader::addOwnerCallbackNode(CCNode *node) { mOwnerCallbackNodes->addObject(node); } void CCBReader::addDocumentCallbackName(std::string name) { mActionManager->addDocumentCallbackName(name); } void CCBReader::addDocumentCallbackNode(CCNode *node) { mActionManager->addDocumentCallbackNode(node); } CCArray* CCBReader::getOwnerCallbackNames() { CCArray* pRet = CCArray::createWithCapacity(mOwnerCallbackNames.size()); std::vector::iterator it = mOwnerCallbackNames.begin(); for (; it != mOwnerCallbackNames.end(); ++it) { pRet->addObject(CCString::create(*it)); } return pRet; } CCArray* CCBReader::getOwnerCallbackNodes() { return mOwnerCallbackNodes; } CCArray* CCBReader::getOwnerOutletNames() { CCArray* pRet = CCArray::createWithCapacity(mOwnerOutletNames.size()); std::vector::iterator it = mOwnerOutletNames.begin(); for (; it != mOwnerOutletNames.end(); ++it) { pRet->addObject(CCString::create(*it)); } return pRet; } CCArray* CCBReader::getOwnerOutletNodes() { return mOwnerOutletNodes; } CCArray* CCBReader::getNodesWithAnimationManagers() { return mNodesWithAnimationManagers; } CCArray* CCBReader::getAnimationManagersForNodes() { return mAnimationManagersForNodes; } void CCBReader::addOwnerOutletName(std::string name) { mOwnerOutletNames.push_back(name); } void CCBReader::addOwnerOutletNode(CCNode *node) { if (NULL != node) return; mOwnerOutletNodes->addObject(node); } /************************************************************************ Static functions ************************************************************************/ static float __ccbResolutionScale = 1.0f; float CCBReader::getResolutionScale() { return __ccbResolutionScale; } void CCBReader::setResolutionScale(float scale) { __ccbResolutionScale = scale; } NS_CC_EXT_END;