axmol/extensions/CCBReader/CCBAnimationManager.cpp

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#include "CCBAnimationManager.h"
#include "CCBSequence.h"
#include "CCBSequenceProperty.h"
#include "CCBReader.h"
#include "CCBKeyframe.h"
#include "CCNode+CCBRelativePositioning.h"
#include <string>
#include <set>
using namespace cocos2d;
using namespace std;
NS_CC_EXT_BEGIN
// Implementation of CCBAinmationManager
CCBAnimationManager::CCBAnimationManager()
: mSequences(NULL)
, mNodeSequences(NULL)
, mBaseValues(NULL)
, mAutoPlaySequenceId(0)
, mRootNode(NULL)
, mRootContainerSize(CCSizeZero)
, mDelegate(NULL)
, mRunningSequence(NULL)
{
init();
}
bool CCBAnimationManager::init()
{
mSequences = new CCArray();
mNodeSequences = new CCDictionary();
mBaseValues = new CCDictionary();
return true;
}
CCBAnimationManager::~CCBAnimationManager()
{
CCDictElement *pElement = NULL;
CCDICT_FOREACH(mNodeSequences, pElement)
{
CCNode *node = (CCNode*)pElement->getIntKey();
node->release();
}
CCDICT_FOREACH(mBaseValues, pElement)
{
CCNode *node = (CCNode*)pElement->getIntKey();
node->release();
}
mNodeSequences->release();
mBaseValues->release();
mSequences->release();
setRootNode(NULL);
setDelegate(NULL);
}
CCArray* CCBAnimationManager::getSequences()
{
return mSequences;
}
int CCBAnimationManager::getAutoPlaySequenceId()
{
return mAutoPlaySequenceId;
}
void CCBAnimationManager::setAutoPlaySequenceId(int autoPlaySequenceId)
{
mAutoPlaySequenceId = autoPlaySequenceId;
}
CCNode* CCBAnimationManager::getRootNode()
{
return mRootNode;
}
void CCBAnimationManager::setRootNode(CCNode *pRootNode)
{
CC_SAFE_RELEASE(mRootNode);
mRootNode = pRootNode;
CC_SAFE_RETAIN(mRootNode);
}
const CCSize& CCBAnimationManager::getRootContainerSize()
{
return mRootContainerSize;
}
void CCBAnimationManager::setRootContainerSize(const CCSize &rootContainerSize)
{
mRootContainerSize.setSize(rootContainerSize.width, rootContainerSize.height);
}
CCBAnimationManagerDelegate* CCBAnimationManager::getDelegate()
{
return mDelegate;
}
void CCBAnimationManager::setDelegate(CCBAnimationManagerDelegate *pDelegate)
{
CC_SAFE_RELEASE(dynamic_cast<CCObject*>(mDelegate));
mDelegate = pDelegate;
CC_SAFE_RETAIN(dynamic_cast<CCObject*>(mDelegate));
}
const char* CCBAnimationManager::getRunningSequenceName()
{
return mRunningSequence->getName();
}
const CCSize& CCBAnimationManager::getContainerSize(CCNode *pNode)
{
if (pNode)
{
return pNode->getContentSize();
}
else
{
return mRootContainerSize;
}
}
// refer to CCBReader::readNodeGraph() for data structure of pSeq
void CCBAnimationManager::addNode(CCNode *pNode, CCDictionary *pSeq)
{
pNode->retain();
mNodeSequences->setObject(pSeq, (int)pNode);
}
void CCBAnimationManager::setBaseValue(CCObject *pValue, CCNode *pNode, const char *pPropName)
{
CCDictionary *props = (CCDictionary*)mBaseValues->objectForKey((int)pNode);
if (! props)
{
props = CCDictionary::create();
mBaseValues->setObject(props, (int)pNode);
pNode->retain();
}
props->setObject(pValue, pPropName);
}
CCObject* CCBAnimationManager::getBaseValue(CCNode *pNode, const char* pPropName)
{
CCDictionary *props = (CCDictionary*)mBaseValues->objectForKey((int)pNode);
return props->objectForKey(pPropName);
}
int CCBAnimationManager::getSequenceId(const char* pSequenceName)
{
CCObject *pElement = NULL;
string seqName(pSequenceName);
CCARRAY_FOREACH(mSequences, pElement)
{
CCBSequence *seq = (CCBSequence*)pElement;
if (seqName.compare(seq->getName()) == 0)
{
return seq->getSequenceId();
}
}
return -1;
}
CCBSequence* CCBAnimationManager::getSequence(int nSequenceId)
{
CCObject *pElement = NULL;
CCARRAY_FOREACH(mSequences, pElement)
{
CCBSequence *seq = (CCBSequence*)pElement;
if (seq->getSequenceId() == nSequenceId)
{
return seq;
}
}
return NULL;
}
// Refer to CCBReader::readKeyframe() for the real type of value
CCActionInterval* CCBAnimationManager::getAction(CCBKeyframe *pKeyframe0, CCBKeyframe *pKeyframe1, const char *pPropName, CCNode *pNode)
{
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float duration = pKeyframe1->getTime() - (pKeyframe0 ? pKeyframe0->getTime() : 0);
if (strcmp(pPropName, "rotation") == 0)
{
CCBValue *value = (CCBValue*)pKeyframe1->getValue();
return CCBRotateTo::create(duration, value->getFloatValue());
}
else if (strcmp(pPropName, "opacity") == 0)
{
CCBValue *value = (CCBValue*)pKeyframe1->getValue();
return CCFadeTo::create(duration, value->getByteValue());
}
else if (strcmp(pPropName, "color") == 0)
{
ccColor3BWapper* color = (ccColor3BWapper*)pKeyframe1->getValue();
ccColor3B c = color->getColor();
return CCTintTo::create(duration, c.r, c.g, c.b);
}
else if (strcmp(pPropName, "visible") == 0)
{
CCBValue *value = (CCBValue*)pKeyframe1->getValue();
if (value->getBoolValue())
{
return CCSequence::createWithTwoActions(CCDelayTime::create(duration), CCShow::create());
}
else
{
return CCSequence::createWithTwoActions(CCDelayTime::create(duration), CCHide::create());
}
}
else if (strcmp(pPropName, "displayFrame") == 0)
{
return CCSequence::createWithTwoActions(CCDelayTime::create(duration),
CCBSetSpriteFrame::create((CCSpriteFrame *)pKeyframe1->getValue()));
}
else if (strcmp(pPropName, "position") == 0)
{
// Get position type
CCArray *array = (CCArray*)getBaseValue(pNode, pPropName);
int type = ((CCBValue*)array->objectAtIndex(2))->getIntValue();
// Get relative position
CCArray *value = (CCArray*)pKeyframe1->getValue();
float x = ((CCBValue*)value->objectAtIndex(0))->getFloatValue();
float y = ((CCBValue*)value->objectAtIndex(1))->getFloatValue();
CCSize containerSize = getContainerSize(pNode->getParent());
CCPoint absPos = getAbsolutePosition(ccp(x,y), type, containerSize, pPropName);
return CCMoveTo::create(duration, absPos);
}
else if (strcmp(pPropName, "scale") == 0)
{
// Get position type
CCArray *array = (CCArray*)getBaseValue(pNode, pPropName);
int type = ((CCBValue*)array->objectAtIndex(2))->getIntValue();
// Get relative scale
CCArray *value = (CCArray*)pKeyframe1->getValue();
float x = ((CCBValue*)value->objectAtIndex(0))->getFloatValue();
float y = ((CCBValue*)value->objectAtIndex(1))->getFloatValue();
if (type == kCCBScaleTypeMultiplyResolution)
{
float resolutionScale = CCBReader::getResolutionScale();
x *= resolutionScale;
y *= resolutionScale;
}
return CCScaleTo::create(duration, x, y);
}
else
{
CCLog("CCBReader: Failed to create animation for property: %s", pPropName);
}
return NULL;
}
void CCBAnimationManager::setAnimatedProperty(const char *pPropName, CCNode *pNode, CCObject *pValue, float fTweenDuraion)
{
if (fTweenDuraion > 0)
{
// Create a fake keyframe to generate the action from
CCBKeyframe *kf1 = new CCBKeyframe();
kf1->autorelease();
kf1->setValue(pValue);
kf1->setTime(fTweenDuraion);
kf1->setEasingType(kCCBKeyframeEasingLinear);
// Animate
CCActionInterval *tweenAction = getAction(NULL, kf1, pPropName, pNode);
pNode->runAction(tweenAction);
}
else
{
// Just set the value
if (strcmp(pPropName, "position") == 0)
{
// Get position type
CCArray *array = (CCArray*)getBaseValue(pNode, pPropName);
int type = ((CCBValue*)array->objectAtIndex(2))->getIntValue();
// Get relative position
CCArray *value = (CCArray*)pValue;
float x = ((CCBValue*)value->objectAtIndex(0))->getFloatValue();
float y = ((CCBValue*)value->objectAtIndex(1))->getFloatValue();
pNode->setPosition(getAbsolutePosition(ccp(x,y), type, getContainerSize(pNode->getParent()), pPropName));
}
else if (strcmp(pPropName, "scale") == 0)
{
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// Get scale type
CCArray *array = (CCArray*)getBaseValue(pNode, pPropName);
int type = ((CCBValue*)array->objectAtIndex(2))->getIntValue();
// Get relative scale
CCArray *value = (CCArray*)pValue;
float x = ((CCBValue*)value->objectAtIndex(0))->getFloatValue();
float y = ((CCBValue*)value->objectAtIndex(1))->getFloatValue();
setRelativeScale(pNode, x, y, type, pPropName);
}
else
{
// [node setValue:value forKey:name];
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// TODO only handle rotation, opacity, displayFrame, color
if (strcmp(pPropName, "rotation") == 0)
{
float rotate = ((CCBValue*)pValue)->getFloatValue();
pNode->setRotation(rotate);
}
else if (strcmp(pPropName, "opacity") == 0)
{
int opacity = ((CCBValue*)pValue)->getByteValue();
(dynamic_cast<CCRGBAProtocol*>(pNode))->setOpacity(opacity);
}
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else if (strcmp(pPropName, "displayFrame") == 0)
{
((CCSprite*)pNode)->setDisplayFrame((CCSpriteFrame*)pValue);
}
else if (strcmp(pPropName, "color") == 0)
{
ccColor3BWapper *color = (ccColor3BWapper*)pValue;
((CCSprite*)pNode)->setColor(color->getColor());
}
else
{
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CCLog("unsupported property name is %s", pPropName);
CCAssert(false, "unsupported property now");
}
}
}
}
void CCBAnimationManager::setFirstFrame(CCNode *pNode, CCBSequenceProperty *pSeqProp, float fTweenDuration)
{
CCArray *keyframes = pSeqProp->getKeyframes();
if (keyframes->count() == 0)
{
// Use base value (no animation)
CCObject *baseValue = getBaseValue(pNode, pSeqProp->getName());
CCAssert(baseValue, "No baseValue found for property");
setAnimatedProperty(pSeqProp->getName(), pNode, baseValue, fTweenDuration);
}
else
{
// Use first keyframe
CCBKeyframe *keyframe = (CCBKeyframe*)keyframes->objectAtIndex(0);
setAnimatedProperty(pSeqProp->getName(), pNode, keyframe->getValue(), fTweenDuration);
}
}
CCActionInterval* CCBAnimationManager::getEaseAction(CCActionInterval *pAction, int nEasingType, float fEasingOpt)
{
if (nEasingType == kCCBKeyframeEasingLinear || nEasingType == kCCBKeyframeEasingInstant)
{
return pAction;
}
else if (nEasingType == kCCBKeyframeEasingCubicIn)
{
return CCEaseIn::create(pAction, fEasingOpt);
}
else if (nEasingType == kCCBKeyframeEasingCubicOut)
{
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return CCEaseOut::create(pAction, fEasingOpt);
}
else if (nEasingType == kCCBKeyframeEasingCubicInOut)
{
return CCEaseInOut::create(pAction, fEasingOpt);
}
else if (nEasingType == kCCBKeyframeEasingBackIn)
{
return CCEaseBackIn::create(pAction);
}
else if (nEasingType == kCCBKeyframeEasingBackOut)
{
return CCEaseBackOut::create(pAction);
}
else if (nEasingType == kCCBKeyframeEasingBackInOut)
{
return CCEaseBackInOut::create(pAction);
}
else if (nEasingType == kCCBKeyframeEasingBounceIn)
{
return CCEaseBounceIn::create(pAction);
}
else if (nEasingType == kCCBKeyframeEasingBounceOut)
{
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return CCEaseBounceOut::create(pAction);
}
else if (nEasingType == kCCBKeyframeEasingBounceInOut)
{
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return CCEaseBounceInOut::create(pAction);
}
else if (nEasingType == kCCBKeyframeEasingElasticIn)
{
return CCEaseElasticIn::create(pAction, fEasingOpt);
}
else if (nEasingType == kCCBKeyframeEasingElasticOut)
{
return CCEaseElasticOut::create(pAction, fEasingOpt);
}
else if (nEasingType == kCCBKeyframeEasingElasticInOut)
{
return CCEaseElasticInOut::create(pAction, fEasingOpt);
}
else
{
CCLog("CCBReader: Unkown easing type %d", nEasingType);
return pAction;
}
}
void CCBAnimationManager::runAction(CCNode *pNode, CCBSequenceProperty *pSeqProp, float fTweenDuration)
{
CCArray *keyframes = pSeqProp->getKeyframes();
int numKeyframes = keyframes->count();
if (numKeyframes > 1)
{
// Make an animation!
CCArray *actions = CCArray::create();
CCBKeyframe *keyframeFirst = (CCBKeyframe*)keyframes->objectAtIndex(0);
float timeFirst = keyframeFirst->getTime() + fTweenDuration;
if (timeFirst > 0)
{
actions->addObject(CCDelayTime::create(timeFirst));
}
for (int i = 0; i < numKeyframes - 1; ++i)
{
CCBKeyframe *kf0 = (CCBKeyframe*)keyframes->objectAtIndex(i);
CCBKeyframe *kf1 = (CCBKeyframe*)keyframes->objectAtIndex(i+1);
CCActionInterval *action = getAction(kf0, kf1, pSeqProp->getName(), pNode);
if (action)
{
// Apply easing
action = getEaseAction(action, kf0->getEasingType(), kf0->getEasingOpt());
actions->addObject(action);
}
}
CCFiniteTimeAction *seq = CCSequence::create(actions);
pNode->runAction(seq);
}
}
void CCBAnimationManager::runAnimations(int nSeqId, float fTweenDuration)
{
CCAssert(nSeqId != -1, "Sequence id couldn't be found");
mRootNode->stopAllActions();
CCDictElement* pElement = NULL;
CCDICT_FOREACH(mNodeSequences, pElement)
{
CCNode *node = (CCNode*)pElement->getIntKey();
node->stopAllActions();
// Refer to CCBReader::readKeyframe() for the real type of value
CCDictionary *seqs = (CCDictionary*)pElement->getObject();
CCDictionary *seqNodeProps = (CCDictionary*)seqs->objectForKey(nSeqId);
set<string> seqNodePropNames;
if (seqNodeProps)
{
// Reset nodes that have sequence node properties, and run actions on them
CCDictElement* pElement1 = NULL;
CCDICT_FOREACH(seqNodeProps, pElement1)
{
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const char *propName = pElement1->getStrKey();
CCBSequenceProperty *seqProp = (CCBSequenceProperty*)seqNodeProps->objectForKey(propName);
seqNodePropNames.insert(propName);
setFirstFrame(node, seqProp, fTweenDuration);
runAction(node, seqProp, fTweenDuration);
}
}
// Reset the nodes that may have been changed by other timelines
CCDictionary *nodeBaseValues = (CCDictionary*)mBaseValues->objectForKey(pElement->getIntKey());
if (nodeBaseValues)
{
CCDictElement* pElement2 = NULL;
CCDICT_FOREACH(nodeBaseValues, pElement2)
{
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if (seqNodePropNames.find(pElement2->getStrKey()) == seqNodePropNames.end())
{
CCObject *value = pElement2->getObject();
if (value)
{
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setAnimatedProperty(pElement2->getStrKey(), node, value, fTweenDuration);
}
}
}
}
}
// Make callback at end of sequence
CCBSequence *seq = getSequence(nSeqId);
CCAction *completeAction = CCSequence::createWithTwoActions(CCDelayTime::create(seq->getDuration() + fTweenDuration),
CCCallFunc::create(this, callfunc_selector(CCBAnimationManager::sequenceCompleted)));
mRootNode->runAction(completeAction);
// Set the running scene
mRunningSequence = getSequence(nSeqId);
}
void CCBAnimationManager::runAnimations(const char *pName, float fTweenDuration)
{
int seqId = getSequenceId(pName);
runAnimations(seqId, fTweenDuration);
}
void CCBAnimationManager::runAnimations(const char *pName)
{
runAnimations(pName, 0);
}
void CCBAnimationManager::debug()
{
}
void CCBAnimationManager::sequenceCompleted()
{
if (mDelegate)
{
mDelegate->completedAnimationSequenceNamed(mRunningSequence->getName());
}
int nextSeqId = mRunningSequence->getChainedSequenceId();
mRunningSequence = NULL;
if (nextSeqId != -1)
{
runAnimations(nextSeqId, 0);
}
}
/************************************************************
CCBSetSpriteFrame
************************************************************/
CCBSetSpriteFrame* CCBSetSpriteFrame::create(CCSpriteFrame *pSpriteFrame)
{
CCBSetSpriteFrame *ret = new CCBSetSpriteFrame();
if (ret)
{
if (ret->initWithSpriteFrame(pSpriteFrame))
{
ret->autorelease();
}
else
{
CC_SAFE_DELETE(ret);
}
}
return ret;
}
bool CCBSetSpriteFrame::initWithSpriteFrame(CCSpriteFrame *pSpriteFrame)
{
mSpriteFrame = pSpriteFrame;
CC_SAFE_RETAIN(mSpriteFrame);
return true;
}
CCBSetSpriteFrame::~CCBSetSpriteFrame()
{
CC_SAFE_RELEASE_NULL(mSpriteFrame);
}
CCObject* CCBSetSpriteFrame::copyWithZone(CCZone *pZone)
{
CCZone *pNewZone = NULL;
CCBSetSpriteFrame *pRet = NULL;
if (pZone && pZone->m_pCopyObject) {
pRet = (CCBSetSpriteFrame*) (pZone->m_pCopyObject);
} else {
pRet = new CCBSetSpriteFrame();
pZone = pNewZone = new CCZone(pRet);
}
pRet->initWithSpriteFrame(mSpriteFrame);
CCActionInstant::copyWithZone(pZone);
CC_SAFE_DELETE(pNewZone);
return pRet;
}
void CCBSetSpriteFrame::update(float time)
{
((CCSprite*)m_pTarget)->setDisplayFrame(mSpriteFrame);
}
/************************************************************
CCBRotateTo
************************************************************/
CCBRotateTo* CCBRotateTo::create(float fDuration, float fAngle)
{
CCBRotateTo *ret = new CCBRotateTo();
if (ret)
{
if (ret->initWithDuration(fDuration, fAngle))
{
ret->autorelease();
}
else
{
CC_SAFE_DELETE(ret);
}
}
return ret;
}
bool CCBRotateTo::initWithDuration(float fDuration, float fAngle)
{
if (CCActionInterval::initWithDuration(fDuration))
{
mDstAngle = fAngle;
return true;
}
else
{
return false;
}
}
CCObject* CCBRotateTo::copyWithZone(CCZone *pZone)
{
CCZone *pNewZone = NULL;
CCBRotateTo *pRet = NULL;
if (pZone && pZone->m_pCopyObject) {
pRet = (CCBRotateTo*) (pZone->m_pCopyObject);
} else {
pRet = new CCBRotateTo();
pZone = pNewZone = new CCZone(pRet);
}
pRet->initWithDuration(m_fDuration, mDstAngle);
CCActionInterval::copyWithZone(pZone);
CC_SAFE_DELETE(pNewZone);
return pRet;
}
void CCBRotateTo::startWithTarget(CCNode *pNode)
{
CCActionInterval::startWithTarget(pNode);
mStartAngle = m_pTarget->getRotation();
mDiffAngle = mDstAngle - mStartAngle;
}
void CCBRotateTo::update(float time)
{
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m_pTarget->setRotation(mStartAngle + (mDiffAngle * time))
;
}
NS_CC_EXT_END