#include "CCNodeLoader.h" #include "CCBSelectorResolver.h" #include "CCBMemberVariableAssigner.h" #include "CCBAnimationManager.h" #include "CCData.h" #include "CCNode+CCBRelativePositioning.h" using namespace std; NS_CC_EXT_BEGIN CCNodeLoader::CCNodeLoader() { m_pCustomProperties = new CCDictionary(); } CCNodeLoader::~CCNodeLoader() { CC_SAFE_RELEASE(m_pCustomProperties); } CCDictionary* CCNodeLoader::getCustomProperties() { return m_pCustomProperties; } CCNode * CCNodeLoader::loadCCNode(CCNode * pParent, CCBReader * pCCBReader) { CCNode * ccNode = this->createCCNode(pParent, pCCBReader); //this->parseProperties(ccNode, pParent, pCCBReader); return ccNode; } void CCNodeLoader::parseProperties(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { int numRegularProps = pCCBReader->readInt(false); int numExturaProps = pCCBReader->readInt(false); int propertyCount = numRegularProps + numExturaProps; for(int i = 0; i < propertyCount; i++) { bool isExtraProp = (i >= numRegularProps); int type = pCCBReader->readInt(false); std::string propertyName = pCCBReader->readCachedString(); // Check if the property can be set for this platform bool setProp = false; int platform = pCCBReader->readByte(); if(platform == kCCBPlatformAll) { setProp = true; } // Cocos2d-x is using touch event callback for all platforms, // it's different from cocos2d-iphone which uses mouse event for Mac port. // So we just need to touch event by using kCCBPlatformIOS. //#if (CC_TARGET_PLATFORM == CC_PLATFORM_IOS) || (CC_TARGET_PLATFORM == CC_PLATFORM_ANDROID) if(platform == kCCBPlatformIOS) { setProp = true; } // #elif (CC_TARGET_PLATFORM == CC_PLATFORM_MAC) // if(platform == kCCBPlatformMac) // { // setProp = true; // } // #endif // Forward properties for sub ccb files if (dynamic_cast(pNode) != NULL) { CCBFile *ccbNode = (CCBFile*)pNode; if (ccbNode->getCCBFileNode() && isExtraProp) { pNode = ccbNode->getCCBFileNode(); // Skip properties that doesn't have a value to override CCArray *extraPropsNames = (CCArray*)pNode->getUserObject(); CCObject* pObj = NULL; bool bFound = false; CCARRAY_FOREACH(extraPropsNames, pObj) { CCString* pStr = (CCString*)pObj; if (0 == pStr->compare(propertyName.c_str())) { bFound = true; break; } } setProp &= bFound; } } else if (isExtraProp && pNode == pCCBReader->getAnimationManager()->getRootNode()) { CCArray *extraPropsNames = (CCArray*)pNode->getUserObject(); if (! extraPropsNames) { extraPropsNames = CCArray::create(); pNode->setUserObject(extraPropsNames); } extraPropsNames->addObject(CCString::create(propertyName)); } switch(type) { case kCCBPropTypePosition: { CCPoint position = this->parsePropTypePosition(pNode, pParent, pCCBReader, propertyName.c_str()); if (setProp) { this->onHandlePropTypePosition(pNode, pParent, propertyName.c_str(), position, pCCBReader); } break; } case kCCBPropTypePoint: { CCPoint point = this->parsePropTypePoint(pNode, pParent, pCCBReader); if (setProp) { this->onHandlePropTypePoint(pNode, pParent, propertyName.c_str(), point, pCCBReader); } break; } case kCCBPropTypePointLock: { CCPoint pointLock = this->parsePropTypePointLock(pNode, pParent, pCCBReader); if (setProp) { this->onHandlePropTypePointLock(pNode, pParent, propertyName.c_str(), pointLock, pCCBReader); } break; } case kCCBPropTypeSize: { CCSize size = this->parsePropTypeSize(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeSize(pNode, pParent, propertyName.c_str(), size, pCCBReader); } break; } case kCCBPropTypeScaleLock: { float * scaleLock = this->parsePropTypeScaleLock(pNode, pParent, pCCBReader, propertyName.c_str()); if(setProp) { this->onHandlePropTypeScaleLock(pNode, pParent, propertyName.c_str(), scaleLock, pCCBReader); } CC_SAFE_DELETE_ARRAY(scaleLock); break; } case kCCBPropTypeFloat: { float f = this->parsePropTypeFloat(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeFloat(pNode, pParent, propertyName.c_str(), f, pCCBReader); } break; } case kCCBPropTypeDegrees: { float degrees = this->parsePropTypeDegrees(pNode, pParent, pCCBReader, propertyName.c_str()); if(setProp) { this->onHandlePropTypeDegrees(pNode, pParent, propertyName.c_str(), degrees, pCCBReader); } break; } case kCCBPropTypeFloatScale: { float floatScale = this->parsePropTypeFloatScale(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeFloatScale(pNode, pParent, propertyName.c_str(), floatScale, pCCBReader); } break; } case kCCBPropTypeInteger: { int integer = this->parsePropTypeInteger(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeInteger(pNode, pParent, propertyName.c_str(), integer, pCCBReader); } break; } case kCCBPropTypeIntegerLabeled: { int integerLabeled = this->parsePropTypeIntegerLabeled(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeIntegerLabeled(pNode, pParent, propertyName.c_str(), integerLabeled, pCCBReader); } break; } case kCCBPropTypeFloatVar: { float * floatVar = this->parsePropTypeFloatVar(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeFloatVar(pNode, pParent, propertyName.c_str(), floatVar, pCCBReader); } CC_SAFE_DELETE_ARRAY(floatVar); break; } case kCCBPropTypeCheck: { bool check = this->parsePropTypeCheck(pNode, pParent, pCCBReader, propertyName.c_str()); if(setProp) { this->onHandlePropTypeCheck(pNode, pParent, propertyName.c_str(), check, pCCBReader); } break; } case kCCBPropTypeSpriteFrame: { CCSpriteFrame * ccSpriteFrame = this->parsePropTypeSpriteFrame(pNode, pParent, pCCBReader, propertyName.c_str()); if(setProp) { this->onHandlePropTypeSpriteFrame(pNode, pParent, propertyName.c_str(), ccSpriteFrame, pCCBReader); } break; } case kCCBPropTypeAnimation: { CCAnimation * ccAnimation = this->parsePropTypeAnimation(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeAnimation(pNode, pParent, propertyName.c_str(), ccAnimation, pCCBReader); } break; } case kCCBPropTypeTexture: { CCTexture2D * ccTexture2D = this->parsePropTypeTexture(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeTexture(pNode, pParent, propertyName.c_str(), ccTexture2D, pCCBReader); } break; } case kCCBPropTypeByte: { unsigned char byte = this->parsePropTypeByte(pNode, pParent, pCCBReader, propertyName.c_str()); if(setProp) { this->onHandlePropTypeByte(pNode, pParent, propertyName.c_str(), byte, pCCBReader); } break; } case kCCBPropTypeColor3: { ccColor3B color3B = this->parsePropTypeColor3(pNode, pParent, pCCBReader, propertyName.c_str()); if(setProp) { this->onHandlePropTypeColor3(pNode, pParent, propertyName.c_str(), color3B, pCCBReader); } break; } case kCCBPropTypeColor4FVar: { ccColor4F * color4FVar = this->parsePropTypeColor4FVar(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeColor4FVar(pNode, pParent, propertyName.c_str(), color4FVar, pCCBReader); } CC_SAFE_DELETE_ARRAY(color4FVar); break; } case kCCBPropTypeFlip: { bool * flip = this->parsePropTypeFlip(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeFlip(pNode, pParent, propertyName.c_str(), flip, pCCBReader); } CC_SAFE_DELETE_ARRAY(flip); break; } case kCCBPropTypeBlendmode: { ccBlendFunc blendFunc = this->parsePropTypeBlendFunc(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeBlendFunc(pNode, pParent, propertyName.c_str(), blendFunc, pCCBReader); } break; } case kCCBPropTypeFntFile: { std::string fntFile = pCCBReader->getCCBRootPath() + this->parsePropTypeFntFile(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeFntFile(pNode, pParent, propertyName.c_str(), fntFile.c_str(), pCCBReader); } break; } case kCCBPropTypeFontTTF: { std::string fontTTF = this->parsePropTypeFontTTF(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeFontTTF(pNode, pParent, propertyName.c_str(), fontTTF.c_str(), pCCBReader); } break; } case kCCBPropTypeString: { std::string string = this->parsePropTypeString(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeString(pNode, pParent, propertyName.c_str(), string.c_str(), pCCBReader); } break; } case kCCBPropTypeText: { std::string text = this->parsePropTypeText(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeText(pNode, pParent, propertyName.c_str(), text.c_str(), pCCBReader); } break; } case kCCBPropTypeBlock: { BlockData * blockData = this->parsePropTypeBlock(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeBlock(pNode, pParent, propertyName.c_str(), blockData, pCCBReader); } CC_SAFE_DELETE(blockData); break; } case kCCBPropTypeBlockCCControl: { BlockCCControlData * blockCCControlData = this->parsePropTypeBlockCCControl(pNode, pParent, pCCBReader); if(setProp && blockCCControlData != NULL) { this->onHandlePropTypeBlockCCControl(pNode, pParent, propertyName.c_str(), blockCCControlData, pCCBReader); } CC_SAFE_DELETE(blockCCControlData); break; } case kCCBPropTypeCCBFile: { CCNode * ccbFileNode = this->parsePropTypeCCBFile(pNode, pParent, pCCBReader); if(setProp) { this->onHandlePropTypeCCBFile(pNode, pParent, propertyName.c_str(), ccbFileNode, pCCBReader); } break; } default: ASSERT_FAIL_UNEXPECTED_PROPERTYTYPE(type); break; } } } CCPoint CCNodeLoader::parsePropTypePosition(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader, const char *pPropertyName) { float x = pCCBReader->readFloat(); float y = pCCBReader->readFloat(); int type = pCCBReader->readInt(false); CCSize containerSize = pCCBReader->getAnimationManager()->getContainerSize(pParent); CCPoint pt = getAbsolutePosition(ccp(x,y), type, containerSize, pPropertyName); pNode->setPosition(getAbsolutePosition(pt, type, containerSize, pPropertyName));; if (pCCBReader->getAnimatedProperties()->find(pPropertyName) != pCCBReader->getAnimatedProperties()->end()) { CCArray *baseValue = CCArray::create(CCBValue::create(x), CCBValue::create(y), CCBValue::create(type), NULL); pCCBReader->getAnimationManager()->setBaseValue(baseValue, pNode, pPropertyName); } return pt; } CCPoint CCNodeLoader::parsePropTypePoint(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { float x = pCCBReader->readFloat(); float y = pCCBReader->readFloat(); return CCPoint(x, y); } CCPoint CCNodeLoader::parsePropTypePointLock(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { float x = pCCBReader->readFloat(); float y = pCCBReader->readFloat(); return CCPoint(x, y); } CCSize CCNodeLoader::parsePropTypeSize(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { float width = pCCBReader->readFloat(); float height = pCCBReader->readFloat(); int type = pCCBReader->readInt(false); CCSize containerSize = pCCBReader->getAnimationManager()->getContainerSize(pParent); switch (type) { case kCCBSizeTypeAbsolute: { /* Nothing. */ break; } case kCCBSizeTypeRelativeContainer: { width = containerSize.width - width; height = containerSize.height - height; break; } case kCCBSizeTypePercent: { width = (int)(containerSize.width * width / 100.0f); height = (int)(containerSize.height * height / 100.0f); break; } case kCCBSizeTypeHorizontalPercent: { width = (int)(containerSize.width * width / 100.0f); break; } case kCCBSizeTypeVerticalPercent: { height = (int)(containerSize.height * height / 100.0f); break; } case kCCBSizeTypeMultiplyResolution: { float resolutionScale = CCBReader::getResolutionScale(); width *= resolutionScale; height *= resolutionScale; break; } default: { CCLog("Unknown CCB type."); } break; } return CCSize(width, height); } float * CCNodeLoader::parsePropTypeScaleLock(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader, const char *pPropertyName) { float x = pCCBReader->readFloat(); float y = pCCBReader->readFloat(); int type = pCCBReader->readInt(false); setRelativeScale(pNode, x, y, type, pPropertyName); if (pCCBReader->getAnimatedProperties()->find(pPropertyName) != pCCBReader->getAnimatedProperties()->end()) { CCArray *baseValue = CCArray::create(CCBValue::create(x), CCBValue::create(y), CCBValue::create(type), NULL); pCCBReader->getAnimationManager()->setBaseValue(baseValue, pNode, pPropertyName); } if (type == kCCBScaleTypeMultiplyResolution) { x *= pCCBReader->getResolutionScale(); y *= pCCBReader->getResolutionScale(); } float * scaleLock = new float[2]; scaleLock[0] = x; scaleLock[1] = y; return scaleLock; } float CCNodeLoader::parsePropTypeFloat(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { return pCCBReader->readFloat(); } float CCNodeLoader::parsePropTypeDegrees(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader, const char *pPropertyName) { float ret = pCCBReader->readFloat(); if (pCCBReader->getAnimatedProperties()->find(pPropertyName) != pCCBReader->getAnimatedProperties()->end()) { CCBValue *value = CCBValue::create(ret); pCCBReader->getAnimationManager()->setBaseValue(value, pNode, pPropertyName); } return ret; } float CCNodeLoader::parsePropTypeFloatScale(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { float f = pCCBReader->readFloat(); int type = pCCBReader->readInt(false); if(type == kCCBScaleTypeMultiplyResolution) { f *= pCCBReader->getResolutionScale(); } return f; } int CCNodeLoader::parsePropTypeInteger(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { return pCCBReader->readInt(true); } int CCNodeLoader::parsePropTypeIntegerLabeled(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { return pCCBReader->readInt(true); } float * CCNodeLoader::parsePropTypeFloatVar(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { float f = pCCBReader->readFloat(); float fVar = pCCBReader->readFloat(); float * arr = new float[2]; arr[0] = f; arr[1] = fVar; return arr; } bool CCNodeLoader::parsePropTypeCheck(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader, const char *pPropertyName) { bool ret = pCCBReader->readBool(); if (pCCBReader->getAnimatedProperties()->find(pPropertyName) != pCCBReader->getAnimatedProperties()->end()) { CCBValue *value = CCBValue::create(ret); pCCBReader->getAnimationManager()->setBaseValue(value, pNode, pPropertyName); } return ret; } CCSpriteFrame * CCNodeLoader::parsePropTypeSpriteFrame(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader, const char *pPropertyName) { std::string spriteSheet = pCCBReader->readCachedString(); std::string spriteFile = pCCBReader->readCachedString(); CCSpriteFrame *spriteFrame = NULL; if (spriteFile.length() != 0) { if (spriteSheet.length() == 0) { spriteFile = pCCBReader->getCCBRootPath() + 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 { CCSpriteFrameCache * frameCache = CCSpriteFrameCache::sharedSpriteFrameCache(); spriteSheet = pCCBReader->getCCBRootPath() + spriteSheet; // Load the sprite sheet only if it is not loaded if (pCCBReader->getLoadedSpriteSheet().find(spriteSheet) == pCCBReader->getLoadedSpriteSheet().end()) { frameCache->addSpriteFramesWithFile(spriteSheet.c_str()); pCCBReader->getLoadedSpriteSheet().insert(spriteSheet); } spriteFrame = frameCache->spriteFrameByName(spriteFile.c_str()); } if (pCCBReader->getAnimatedProperties()->find(pPropertyName) != pCCBReader->getAnimatedProperties()->end()) { pCCBReader->getAnimationManager()->setBaseValue(spriteFrame, pNode, pPropertyName); } } return spriteFrame; } CCAnimation * CCNodeLoader::parsePropTypeAnimation(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { std::string animationFile = pCCBReader->getCCBRootPath() + pCCBReader->readCachedString(); std::string animation = pCCBReader->readCachedString(); CCAnimation * ccAnimation = NULL; // Support for stripping relative file paths, since ios doesn't currently // know what to do with them, since its pulling from bundle. // Eventually this should be handled by a client side asset manager // interface which figured out what resources to load. // TODO Does this problem exist in C++? animation = CCBReader::lastPathComponent(animation.c_str()); animationFile = CCBReader::lastPathComponent(animationFile.c_str()); if (animation.length() > 0) { CCAnimationCache * animationCache = CCAnimationCache::sharedAnimationCache(); animationCache->addAnimationsWithFile(animationFile.c_str()); ccAnimation = animationCache->animationByName(animation.c_str()); } return ccAnimation; } CCTexture2D * CCNodeLoader::parsePropTypeTexture(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { std::string spriteFile = pCCBReader->getCCBRootPath() + pCCBReader->readCachedString(); if (spriteFile.length() > 0) { return CCTextureCache::sharedTextureCache()->addImage(spriteFile.c_str()); } else { return NULL; } } unsigned char CCNodeLoader::parsePropTypeByte(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader, const char *pPropertyName) { unsigned char ret = pCCBReader->readByte(); if (pCCBReader->getAnimatedProperties()->find(pPropertyName) != pCCBReader->getAnimatedProperties()->end()) { pCCBReader->getAnimationManager()->setBaseValue(CCBValue::create(ret), pNode, pPropertyName); } return ret; } ccColor3B CCNodeLoader::parsePropTypeColor3(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader, const char *pPropertyName) { unsigned char red = pCCBReader->readByte(); unsigned char green = pCCBReader->readByte(); unsigned char blue = pCCBReader->readByte(); ccColor3B color = { red, green, blue }; if (pCCBReader->getAnimatedProperties()->find(pPropertyName) != pCCBReader->getAnimatedProperties()->end()) { ccColor3BWapper *value = ccColor3BWapper::create(color); pCCBReader->getAnimationManager()->setBaseValue(value, pNode, pPropertyName); } return color; } ccColor4F * CCNodeLoader::parsePropTypeColor4FVar(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { float red = pCCBReader->readFloat(); float green = pCCBReader->readFloat(); float blue = pCCBReader->readFloat(); float alpha = pCCBReader->readFloat(); float redVar = pCCBReader->readFloat(); float greenVar = pCCBReader->readFloat(); float blueVar = pCCBReader->readFloat(); float alphaVar = pCCBReader->readFloat(); ccColor4F * colors = new ccColor4F[2]; colors[0].r = red; colors[0].g = green; colors[0].b = blue; colors[0].a = alpha; colors[1].r = redVar; colors[1].g = greenVar; colors[1].b = blueVar; colors[1].a = alphaVar; return colors; } bool * CCNodeLoader::parsePropTypeFlip(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { bool flipX = pCCBReader->readBool(); bool flipY = pCCBReader->readBool(); bool * arr = new bool[2]; arr[0] = flipX; arr[1] = flipY; return arr; } ccBlendFunc CCNodeLoader::parsePropTypeBlendFunc(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { int source = pCCBReader->readInt(false); int destination = pCCBReader->readInt(false); ccBlendFunc blendFunc; blendFunc.src = source; blendFunc.dst = destination; return blendFunc; } std::string CCNodeLoader::parsePropTypeFntFile(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { return pCCBReader->readCachedString(); } std::string CCNodeLoader::parsePropTypeString(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { return pCCBReader->readCachedString(); } std::string CCNodeLoader::parsePropTypeText(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { return pCCBReader->readCachedString(); } std::string CCNodeLoader::parsePropTypeFontTTF(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { std::string fontTTF = pCCBReader->readCachedString(); // CCString * ttfEnding = CCString::create(".ttf"); // TODO Fix me if it is wrong /* If the fontTTF comes with the ".ttf" extension, prepend the absolute path. * System fonts come without the ".ttf" extension and do not need the path prepended. */ /* if(CCBReader::endsWith(CCBReader::toLowerCase(fontTTF), ttfEnding)){ fontTTF = CCBReader::concat(pCCBReader->getCCBRootPath(), fontTTF); } */ return fontTTF; } BlockData * CCNodeLoader::parsePropTypeBlock(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { std::string selectorName = pCCBReader->readCachedString(); int selectorTarget = pCCBReader->readInt(false); if(selectorTarget != kCCBTargetTypeNone) { CCObject * target = NULL; if(!pCCBReader->isJSControlled()) { if(selectorTarget == kCCBTargetTypeDocumentRoot) { target = pCCBReader->getAnimationManager()->getRootNode(); } else if(selectorTarget == kCCBTargetTypeOwner) { target = pCCBReader->getOwner(); } if(target != NULL) { if(selectorName.length() > 0) { SEL_MenuHandler selMenuHandler = 0; CCBSelectorResolver * targetAsCCBSelectorResolver = dynamic_cast(target); if(targetAsCCBSelectorResolver != NULL) { selMenuHandler = targetAsCCBSelectorResolver->onResolveCCBCCMenuItemSelector(target, selectorName.c_str()); } if(selMenuHandler == 0) { CCBSelectorResolver * ccbSelectorResolver = pCCBReader->getCCBSelectorResolver(); if(ccbSelectorResolver != NULL) { selMenuHandler = ccbSelectorResolver->onResolveCCBCCMenuItemSelector(target, selectorName.c_str()); } } if(selMenuHandler == 0) { CCLOG("Skipping selector '%s' since no CCBSelectorResolver is present.", selectorName.c_str()); } else { BlockData * blockData = new BlockData(); blockData->mSELMenuHandler = selMenuHandler; blockData->mTarget = target; return blockData; } } else { CCLOG("Unexpected empty selector."); } } else { CCLOG("Unexpected NULL target for selector."); } } else { if(selectorTarget == kCCBTargetTypeDocumentRoot) { pCCBReader->addDocumentCallbackNode(pNode); pCCBReader->addDocumentCallbackName(selectorName); } else { pCCBReader->addOwnerCallbackNode(pNode); pCCBReader->addOwnerCallbackName(selectorName); } } } return NULL; } BlockCCControlData * CCNodeLoader::parsePropTypeBlockCCControl(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { std::string selectorName = pCCBReader->readCachedString(); int selectorTarget = pCCBReader->readInt(false); int controlEvents = pCCBReader->readInt(false); if(selectorTarget != kCCBTargetTypeNone) { if(!pCCBReader->isJSControlled()) { CCObject * target = NULL; if(selectorTarget == kCCBTargetTypeDocumentRoot) { target = pCCBReader->getAnimationManager()->getRootNode(); } else if(selectorTarget == kCCBTargetTypeOwner) { target = pCCBReader->getOwner(); } if(target != NULL) { if(selectorName.length() > 0) { SEL_CCControlHandler selCCControlHandler = 0; CCBSelectorResolver * targetAsCCBSelectorResolver = dynamic_cast(target); if(targetAsCCBSelectorResolver != NULL) { selCCControlHandler = targetAsCCBSelectorResolver->onResolveCCBCCControlSelector(target, selectorName.c_str()); } if(selCCControlHandler == 0) { CCBSelectorResolver * ccbSelectorResolver = pCCBReader->getCCBSelectorResolver(); if(ccbSelectorResolver != NULL) { selCCControlHandler = ccbSelectorResolver->onResolveCCBCCControlSelector(target, selectorName.c_str()); } } if(selCCControlHandler == 0) { CCLOG("Skipping selector '%s' since no CCBSelectorResolver is present.", selectorName.c_str()); } else { BlockCCControlData * blockCCControlData = new BlockCCControlData(); blockCCControlData->mSELCCControlHandler = selCCControlHandler; blockCCControlData->mTarget = target; blockCCControlData->mControlEvents = controlEvents; return blockCCControlData; } } else { CCLOG("Unexpected empty selector."); } } else { CCLOG("Unexpected NULL target for selector."); } } else { if(selectorTarget == kCCBTargetTypeDocumentRoot) { pCCBReader->addDocumentCallbackNode(pNode); pCCBReader->addDocumentCallbackName(selectorName); } else { pCCBReader->addOwnerCallbackNode(pNode); pCCBReader->addOwnerCallbackName(selectorName); } } } return NULL; } CCNode * CCNodeLoader::parsePropTypeCCBFile(CCNode * pNode, CCNode * pParent, CCBReader * pCCBReader) { std::string ccbFileName = pCCBReader->getCCBRootPath() + pCCBReader->readCachedString(); /* Change path extension to .ccbi. */ std::string ccbFileWithoutPathExtension = CCBReader::deletePathExtension(ccbFileName.c_str()); ccbFileName = ccbFileWithoutPathExtension + ".ccbi"; // Load sub file const char *path = CCFileUtils::sharedFileUtils()->fullPathFromRelativePath(ccbFileName.c_str()); unsigned long size = 0; unsigned char * pBytes = CCFileUtils::sharedFileUtils()->getFileData(path, "rb", &size); CCBReader * ccbReader = new CCBReader(pCCBReader); ccbReader->autorelease(); ccbReader->getAnimationManager()->setRootContainerSize(pParent->getContentSize()); CCData *data = new CCData(pBytes, size); CC_SAFE_DELETE_ARRAY(pBytes); data->retain(); ccbReader->mData = data; ccbReader->mBytes = data->getBytes(); ccbReader->mCurrentByte = 0; ccbReader->mCurrentBit = 0; CC_SAFE_RETAIN(pCCBReader->mOwner); ccbReader->mOwner = pCCBReader->mOwner; // The assignments below are done in the CCBReader constructor. // ccbReader->mOwnerOutletNames = pCCBReader->mOwnerOutletNames; // ccbReader->mOwnerOutletNodes = pCCBReader->mOwnerOutletNodes; // ccbReader->mOwnerOutletNodes->retain(); // ccbReader->mOwnerCallbackNames = pCCBReader->mOwnerCallbackNames; // ccbReader->mOwnerCallbackNodes = pCCBReader->mOwnerCallbackNodes; // ccbReader->mOwnerCallbackNodes->retain(); data->release(); CCNode * ccbFileNode = ccbReader->readFileWithCleanUp(false, pCCBReader->getAnimationManagers()); if (ccbFileNode && ccbReader->getAnimationManager()->getAutoPlaySequenceId() != -1) { // Auto play animations ccbReader->getAnimationManager()->runAnimationsForSequenceIdTweenDuration(ccbReader->getAnimationManager()->getAutoPlaySequenceId(), 0); } return ccbFileNode; } void CCNodeLoader::onHandlePropTypePosition(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCPoint pPosition, CCBReader * pCCBReader) { if(strcmp(pPropertyName, PROPERTY_POSITION) == 0) { pNode->setPosition(pPosition); } else { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } } void CCNodeLoader::onHandlePropTypePoint(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCPoint pPoint, CCBReader * pCCBReader) { if(strcmp(pPropertyName, PROPERTY_ANCHORPOINT) == 0) { pNode->setAnchorPoint(pPoint); } else { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } } void CCNodeLoader::onHandlePropTypePointLock(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCPoint pPointLock, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeSize(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCSize pSize, CCBReader * pCCBReader) { if(strcmp(pPropertyName, PROPERTY_CONTENTSIZE) == 0) { pNode->setContentSize(pSize); } else { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } } void CCNodeLoader::onHandlePropTypeScaleLock(CCNode * pNode, CCNode * pParent, const char* pPropertyName, float * pScaleLock, CCBReader * pCCBReader) { if(strcmp(pPropertyName, PROPERTY_SCALE) == 0) { pNode->setScaleX(pScaleLock[0]); pNode->setScaleY(pScaleLock[1]); } else { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } } void CCNodeLoader::onHandlePropTypeFloat(CCNode * pNode, CCNode * pParent, const char* pPropertyName, float pFloat, CCBReader * pCCBReader) { // ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); // It may be a custom property, add it to custom property dictionary. m_pCustomProperties->setObject(CCBValue::create(pFloat), pPropertyName); } void CCNodeLoader::onHandlePropTypeDegrees(CCNode * pNode, CCNode * pParent, const char* pPropertyName, float pDegrees, CCBReader * pCCBReader) { if(strcmp(pPropertyName, PROPERTY_ROTATION) == 0) { pNode->setRotation(pDegrees); } else { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } } void CCNodeLoader::onHandlePropTypeFloatScale(CCNode * pNode, CCNode * pParent, const char* pPropertyName, float pFloatScale, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeInteger(CCNode * pNode, CCNode * pParent, const char* pPropertyName, int pInteger, CCBReader * pCCBReader) { if(strcmp(pPropertyName, PROPERTY_TAG) == 0) { pNode->setTag(pInteger); } else { // ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); // It may be a custom property, add it to custom property dictionary. m_pCustomProperties->setObject(CCBValue::create(pInteger), pPropertyName); } } void CCNodeLoader::onHandlePropTypeIntegerLabeled(CCNode * pNode, CCNode * pParent, const char* pPropertyName, int pIntegerLabeled, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeFloatVar(CCNode * pNode, CCNode * pParent, const char* pPropertyName, float * pFloatVar, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeCheck(CCNode * pNode, CCNode * pParent, const char* pPropertyName, bool pCheck, CCBReader * pCCBReader) { if(strcmp(pPropertyName, PROPERTY_VISIBLE) == 0) { pNode->setVisible(pCheck); } else if(strcmp(pPropertyName, PROPERTY_IGNOREANCHORPOINTFORPOSITION) == 0) { pNode->ignoreAnchorPointForPosition(pCheck); } else { //ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); // It may be a custom property, add it to custom property dictionary. m_pCustomProperties->setObject(CCBValue::create(pCheck), pPropertyName); } } void CCNodeLoader::onHandlePropTypeSpriteFrame(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCSpriteFrame * pCCSpriteFrame, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeAnimation(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCAnimation * pCCAnimation, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeTexture(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCTexture2D * pCCTexture2D, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeByte(CCNode * pNode, CCNode * pParent, const char* pPropertyName, unsigned char pByte, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeColor3(CCNode * pNode, CCNode * pParent, const char* pPropertyName, ccColor3B pCCColor3B, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeColor4FVar(CCNode * pNode, CCNode * pParent, const char* pPropertyName, ccColor4F * pCCColor4FVar, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeFlip(CCNode * pNode, CCNode * pParent, const char* pPropertyName, bool * pFlip, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeBlendFunc(CCNode * pNode, CCNode * pParent, const char* pPropertyName, ccBlendFunc pCCBlendFunc, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeFntFile(CCNode * pNode, CCNode * pParent, const char* pPropertyName, const char* pFntFile, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeString(CCNode * pNode, CCNode * pParent, const char* pPropertyName, const char * pString, CCBReader * pCCBReader) { // ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); // It may be a custom property, add it to custom property dictionary. m_pCustomProperties->setObject(CCBValue::create(pString), pPropertyName); } void CCNodeLoader::onHandlePropTypeText(CCNode * pNode, CCNode * pParent, const char* pPropertyName, const char * pText, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeFontTTF(CCNode * pNode, CCNode * pParent, const char* pPropertyName, const char * pFontTTF, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeBlock(CCNode * pNode, CCNode * pParent, const char* pPropertyName, BlockData * pBlockData, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeBlockCCControl(CCNode * pNode, CCNode * pParent, const char* pPropertyName, BlockCCControlData * pBlockCCControlData, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } void CCNodeLoader::onHandlePropTypeCCBFile(CCNode * pNode, CCNode * pParent, const char* pPropertyName, CCNode * pCCBFileNode, CCBReader * pCCBReader) { ASSERT_FAIL_UNEXPECTED_PROPERTY(pPropertyName); } NS_CC_EXT_END