/**************************************************************************** Copyright (c) 2010-2012 cocos2d-x.org Copyright (c) 2009-2010 Ricardo Quesada Copyright (c) 2009 Matt Oswald Copyright (c) 2011 Zynga 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 "CCSpriteBatchNode.h" #include #include "ccConfig.h" #include "CCSprite.h" #include "effects/CCGrid.h" #include "draw_nodes/CCDrawingPrimitives.h" #include "textures/CCTextureCache.h" #include "shaders/CCShaderCache.h" #include "shaders/CCGLProgram.h" #include "shaders/ccGLStateCache.h" #include "CCDirector.h" #include "support/TransformUtils.h" #include "support/CCProfiling.h" // external #include "kazmath/GL/matrix.h" NS_CC_BEGIN /* * creation with Texture2D */ SpriteBatchNode* SpriteBatchNode::createWithTexture(Texture2D* tex, int capacity/* = kDefaultSpriteBatchCapacity*/) { SpriteBatchNode *batchNode = new SpriteBatchNode(); batchNode->initWithTexture(tex, capacity); batchNode->autorelease(); return batchNode; } /* * creation with File Image */ SpriteBatchNode* SpriteBatchNode::create(const char *fileImage, int capacity/* = kDefaultSpriteBatchCapacity*/) { SpriteBatchNode *batchNode = new SpriteBatchNode(); batchNode->initWithFile(fileImage, capacity); batchNode->autorelease(); return batchNode; } /* * init with Texture2D */ bool SpriteBatchNode::initWithTexture(Texture2D *tex, int capacity) { CCASSERT(capacity>=0, "Capacity must be >= 0"); _blendFunc = BlendFunc::ALPHA_PREMULTIPLIED; _textureAtlas = new TextureAtlas(); if (0 == capacity) { capacity = kDefaultSpriteBatchCapacity; } _textureAtlas->initWithTexture(tex, capacity); updateBlendFunc(); // no lazy alloc in this node _children = new Array(); _children->initWithCapacity(capacity); _descendants = new Array(); _descendants->initWithCapacity(capacity); setShaderProgram(ShaderCache::getInstance()->programForKey(GLProgram::SHADER_NAME_POSITION_TEXTURE_COLOR)); return true; } bool SpriteBatchNode::init() { Texture2D * texture = new Texture2D(); texture->autorelease(); return this->initWithTexture(texture, 0); } /* * init with FileImage */ bool SpriteBatchNode::initWithFile(const char* fileImage, int capacity) { Texture2D *texture2D = TextureCache::getInstance()->addImage(fileImage); return initWithTexture(texture2D, capacity); } SpriteBatchNode::SpriteBatchNode() : _textureAtlas(NULL) , _descendants(NULL) { } SpriteBatchNode::~SpriteBatchNode() { CC_SAFE_RELEASE(_textureAtlas); CC_SAFE_RELEASE(_descendants); } // override visit // don't call visit on it's children void SpriteBatchNode::visit(void) { CC_PROFILER_START_CATEGORY(kProfilerCategoryBatchSprite, "CCSpriteBatchNode - visit"); // CAREFUL: // This visit is almost identical to CocosNode#visit // with the exception that it doesn't call visit on it's children // // The alternative is to have a void Sprite#visit, but // although this is less maintainable, is faster // if (! _visible) { return; } kmGLPushMatrix(); if (_grid && _grid->isActive()) { _grid->beforeDraw(); transformAncestors(); } sortAllChildren(); transform(); draw(); if (_grid && _grid->isActive()) { _grid->afterDraw(this); } kmGLPopMatrix(); setOrderOfArrival(0); CC_PROFILER_STOP_CATEGORY(kProfilerCategoryBatchSprite, "CCSpriteBatchNode - visit"); } void SpriteBatchNode::addChild(Node *child, int zOrder, int tag) { CCASSERT(child != NULL, "child should not be null"); CCASSERT(dynamic_cast(child) != NULL, "CCSpriteBatchNode only supports Sprites as children"); Sprite *pSprite = (Sprite*)(child); // check Sprite is using the same texture id CCASSERT(pSprite->getTexture()->getName() == _textureAtlas->getTexture()->getName(), "CCSprite is not using the same texture id"); Node::addChild(child, zOrder, tag); appendChild(pSprite); } void SpriteBatchNode::addChild(Node *child) { Node::addChild(child); } void SpriteBatchNode::addChild(Node *child, int zOrder) { Node::addChild(child, zOrder); } // override reorderChild void SpriteBatchNode::reorderChild(Node *child, int zOrder) { CCASSERT(child != NULL, "the child should not be null"); CCASSERT(_children->containsObject(child), "Child doesn't belong to Sprite"); if (zOrder == child->getZOrder()) { return; } //set the z-order and sort later Node::reorderChild(child, zOrder); } // override remove child void SpriteBatchNode::removeChild(Node *child, bool cleanup) { Sprite *pSprite = (Sprite*)(child); // explicit null handling if (pSprite == NULL) { return; } CCASSERT(_children->containsObject(pSprite), "sprite batch node should contain the child"); // cleanup before removing removeSpriteFromAtlas(pSprite); Node::removeChild(pSprite, cleanup); } void SpriteBatchNode::removeChildAtIndex(unsigned int uIndex, bool bDoCleanup) { removeChild((Sprite*)(_children->getObjectAtIndex(uIndex)), bDoCleanup); } void SpriteBatchNode::removeAllChildrenWithCleanup(bool bCleanup) { // Invalidate atlas index. issue #569 // useSelfRender should be performed on all descendants. issue #1216 arrayMakeObjectsPerformSelectorWithObject(_descendants, setBatchNode, NULL, Sprite*); Node::removeAllChildrenWithCleanup(bCleanup); _descendants->removeAllObjects(); _textureAtlas->removeAllQuads(); } #if CC_USE_ARRAY_VECTOR static bool objectComparisonLess(const RCPtr& pp1, const RCPtr& pp2) { Object *p1 = static_cast(pp1); Object *p2 = static_cast(pp2); Node *n1 = static_cast(p1); Node *n2 = static_cast(p2); return( n1->getZOrder() < n2->getZOrder() || ( n1->getZOrder() == n2->getZOrder() && n1->getOrderOfArrival() < n2->getOrderOfArrival() ) ); } #else static bool objectComparisonLess(Object* p1, Object* p2) { Node *n1 = static_cast(p1); Node *n2 = static_cast(p2); return( n1->getZOrder() < n2->getZOrder() || ( n1->getZOrder() == n2->getZOrder() && n1->getOrderOfArrival() < n2->getOrderOfArrival() ) ); } #endif //override sortAllChildren void SpriteBatchNode::sortAllChildren() { if (_reorderChildDirty) { #if 0 int i = 0,j = 0,length = _children->count(); // insertion sort for(i=1; i( _children->getObjectAtIndex(i) ); auto tempJ = static_cast( _children->getObjectAtIndex(j) ); //continue moving element downwards while zOrder is smaller or when zOrder is the same but mutatedIndex is smaller while(j>=0 && ( tempI->getZOrder() < tempJ->getZOrder() || ( tempI->getZOrder() == tempJ->getZOrder() && tempI->getOrderOfArrival() < tempJ->getOrderOfArrival() ) ) ) { _children->fastSetObject( tempJ, j+1 ); j = j-1; if(j>=0) tempJ = static_cast( _children->getObjectAtIndex(j) ); } _children->fastSetObject(tempI, j+1); } #else std::sort(std::begin(*_children), std::end(*_children), objectComparisonLess); #endif //sorted now check all children if (_children->count() > 0) { //first sort all children recursively based on zOrder arrayMakeObjectsPerformSelector(_children, sortAllChildren, Sprite*); int index=0; Object* pObj = NULL; //fast dispatch, give every child a new atlasIndex based on their relative zOrder (keep parent -> child relations intact) // and at the same time reorder descendants and the quads to the right index CCARRAY_FOREACH(_children, pObj) { Sprite* child = static_cast(pObj); updateAtlasIndex(child, &index); } } _reorderChildDirty=false; } } void SpriteBatchNode::updateAtlasIndex(Sprite* sprite, int* curIndex) { unsigned int count = 0; Array* array = sprite->getChildren(); if (array != NULL) { count = array->count(); } int oldIndex = 0; if( count == 0 ) { oldIndex = sprite->getAtlasIndex(); sprite->setAtlasIndex(*curIndex); sprite->setOrderOfArrival(0); if (oldIndex != *curIndex){ swap(oldIndex, *curIndex); } (*curIndex)++; } else { bool needNewIndex=true; if (static_cast(array->getObjectAtIndex(0) )->getZOrder() >= 0) { //all children are in front of the parent oldIndex = sprite->getAtlasIndex(); sprite->setAtlasIndex(*curIndex); sprite->setOrderOfArrival(0); if (oldIndex != *curIndex) { swap(oldIndex, *curIndex); } (*curIndex)++; needNewIndex = false; } Object* pObj = NULL; CCARRAY_FOREACH(array,pObj) { Sprite* child = static_cast(pObj); if (needNewIndex && child->getZOrder() >= 0) { oldIndex = sprite->getAtlasIndex(); sprite->setAtlasIndex(*curIndex); sprite->setOrderOfArrival(0); if (oldIndex != *curIndex) { this->swap(oldIndex, *curIndex); } (*curIndex)++; needNewIndex = false; } updateAtlasIndex(child, curIndex); } if (needNewIndex) {//all children have a zOrder < 0) oldIndex=sprite->getAtlasIndex(); sprite->setAtlasIndex(*curIndex); sprite->setOrderOfArrival(0); if (oldIndex!=*curIndex) { swap(oldIndex, *curIndex); } (*curIndex)++; } } } void SpriteBatchNode::swap(int oldIndex, int newIndex) { V3F_C4B_T2F_Quad* quads = _textureAtlas->getQuads(); //update the index of other swapped item static_cast( _descendants->getObjectAtIndex(newIndex) )->setAtlasIndex(oldIndex); std::swap( quads[oldIndex], quads[newIndex] ); _descendants->swap( oldIndex, newIndex ); } void SpriteBatchNode::reorderBatch(bool reorder) { _reorderChildDirty=reorder; } // draw void SpriteBatchNode::draw(void) { CC_PROFILER_START("CCSpriteBatchNode - draw"); // Optimization: Fast Dispatch if( _textureAtlas->getTotalQuads() == 0 ) { return; } CC_NODE_DRAW_SETUP(); arrayMakeObjectsPerformSelector(_children, updateTransform, Sprite*); GL::blendFunc( _blendFunc.src, _blendFunc.dst ); _textureAtlas->drawQuads(); CC_PROFILER_STOP("CCSpriteBatchNode - draw"); } void SpriteBatchNode::increaseAtlasCapacity(void) { // if we're going beyond the current TextureAtlas's capacity, // all the previously initialized sprites will need to redo their texture coords // this is likely computationally expensive unsigned int quantity = (_textureAtlas->getCapacity() + 1) * 4 / 3; CCLOG("cocos2d: SpriteBatchNode: resizing TextureAtlas capacity from [%lu] to [%lu].", (long)_textureAtlas->getCapacity(), (long)quantity); if (! _textureAtlas->resizeCapacity(quantity)) { // serious problems CCLOGWARN("cocos2d: WARNING: Not enough memory to resize the atlas"); CCASSERT(false, "Not enough memory to resize the atlas"); } } unsigned int SpriteBatchNode::rebuildIndexInOrder(Sprite *pobParent, unsigned int uIndex) { Array *children = pobParent->getChildren(); if (children && children->count() > 0) { Object* pObject = NULL; CCARRAY_FOREACH(children, pObject) { Sprite* child = static_cast(pObject); if (child && (child->getZOrder() < 0)) { uIndex = rebuildIndexInOrder(child, uIndex); } } } // ignore self (batch node) if (! pobParent->isEqual(this)) { pobParent->setAtlasIndex(uIndex); uIndex++; } if (children && children->count() > 0) { Object* pObject = NULL; CCARRAY_FOREACH(children, pObject) { Sprite* child = static_cast(pObject); if (child && (child->getZOrder() >= 0)) { uIndex = rebuildIndexInOrder(child, uIndex); } } } return uIndex; } unsigned int SpriteBatchNode::highestAtlasIndexInChild(Sprite *pSprite) { Array *children = pSprite->getChildren(); if (! children || children->count() == 0) { return pSprite->getAtlasIndex(); } else { return highestAtlasIndexInChild((Sprite*)(children->getLastObject())); } } unsigned int SpriteBatchNode::lowestAtlasIndexInChild(Sprite *pSprite) { Array *children = pSprite->getChildren(); if (! children || children->count() == 0) { return pSprite->getAtlasIndex(); } else { return lowestAtlasIndexInChild((Sprite*)(children->getObjectAtIndex(0))); } } unsigned int SpriteBatchNode::atlasIndexForChild(Sprite *sprite, int nZ) { Array *pBrothers = sprite->getParent()->getChildren(); unsigned int uChildIndex = pBrothers->getIndexOfObject(sprite); // ignore parent Z if parent is spriteSheet bool bIgnoreParent = (SpriteBatchNode*)(sprite->getParent()) == this; Sprite *pPrevious = NULL; if (uChildIndex > 0 && uChildIndex < UINT_MAX) { pPrevious = (Sprite*)(pBrothers->getObjectAtIndex(uChildIndex - 1)); } // first child of the sprite sheet if (bIgnoreParent) { if (uChildIndex == 0) { return 0; } return highestAtlasIndexInChild(pPrevious) + 1; } // parent is a Sprite, so, it must be taken into account // first child of an Sprite ? if (uChildIndex == 0) { Sprite *p = (Sprite*)(sprite->getParent()); // less than parent and brothers if (nZ < 0) { return p->getAtlasIndex(); } else { return p->getAtlasIndex() + 1; } } else { // previous & sprite belong to the same branch if ((pPrevious->getZOrder() < 0 && nZ < 0) || (pPrevious->getZOrder() >= 0 && nZ >= 0)) { return highestAtlasIndexInChild(pPrevious) + 1; } // else (previous < 0 and sprite >= 0 ) Sprite *p = (Sprite*)(sprite->getParent()); return p->getAtlasIndex() + 1; } // Should not happen. Error calculating Z on SpriteSheet CCASSERT(0, "should not run here"); return 0; } // add child helper void SpriteBatchNode::insertChild(Sprite *pSprite, unsigned int uIndex) { pSprite->setBatchNode(this); pSprite->setAtlasIndex(uIndex); pSprite->setDirty(true); if(_textureAtlas->getTotalQuads() == _textureAtlas->getCapacity()) { increaseAtlasCapacity(); } V3F_C4B_T2F_Quad quad = pSprite->getQuad(); _textureAtlas->insertQuad(&quad, uIndex); _descendants->insertObject(pSprite, uIndex); // update indices unsigned int i = uIndex+1; Sprite* child = nullptr; for(; i<_descendants->count(); i++){ child = static_cast(_descendants->getObjectAtIndex(i)); child->setAtlasIndex(child->getAtlasIndex() + 1); } // add children recursively Object* pObj = nullptr; CCARRAY_FOREACH(pSprite->getChildren(), pObj) { child = static_cast(pObj); unsigned int idx = atlasIndexForChild(child, child->getZOrder()); insertChild(child, idx); } } // addChild helper, faster than insertChild void SpriteBatchNode::appendChild(Sprite* sprite) { _reorderChildDirty=true; sprite->setBatchNode(this); sprite->setDirty(true); if(_textureAtlas->getTotalQuads() == _textureAtlas->getCapacity()) { increaseAtlasCapacity(); } _descendants->addObject(sprite); unsigned int index=_descendants->count()-1; sprite->setAtlasIndex(index); V3F_C4B_T2F_Quad quad = sprite->getQuad(); _textureAtlas->insertQuad(&quad, index); // add children recursively Object* pObj = nullptr; CCARRAY_FOREACH(sprite->getChildren(), pObj) { Sprite* child = static_cast(pObj); appendChild(child); } } void SpriteBatchNode::removeSpriteFromAtlas(Sprite *sprite) { // remove from TextureAtlas _textureAtlas->removeQuadAtIndex(sprite->getAtlasIndex()); // Cleanup sprite. It might be reused (issue #569) sprite->setBatchNode(NULL); unsigned int uIndex = _descendants->getIndexOfObject(sprite); if (uIndex != UINT_MAX) { _descendants->removeObjectAtIndex(uIndex); // update all sprites beyond this one unsigned int count = _descendants->count(); for(; uIndex < count; ++uIndex) { Sprite* s = (Sprite*)(_descendants->getObjectAtIndex(uIndex)); s->setAtlasIndex( s->getAtlasIndex() - 1 ); } } // remove children recursively Array *children = sprite->getChildren(); if (children && children->count() > 0) { Object* pObject = NULL; CCARRAY_FOREACH(children, pObject) { Sprite* child = static_cast(pObject); if (child) { removeSpriteFromAtlas(child); } } } } void SpriteBatchNode::updateBlendFunc(void) { if (! _textureAtlas->getTexture()->hasPremultipliedAlpha()) _blendFunc = BlendFunc::ALPHA_NON_PREMULTIPLIED; } // CocosNodeTexture protocol void SpriteBatchNode::setBlendFunc(const BlendFunc &blendFunc) { _blendFunc = blendFunc; } const BlendFunc& SpriteBatchNode::getBlendFunc(void) const { return _blendFunc; } Texture2D* SpriteBatchNode::getTexture(void) const { return _textureAtlas->getTexture(); } void SpriteBatchNode::setTexture(Texture2D *texture) { _textureAtlas->setTexture(texture); updateBlendFunc(); } // SpriteSheet Extension //implementation SpriteSheet (TMXTiledMapExtension) void SpriteBatchNode::insertQuadFromSprite(Sprite *sprite, int index) { CCASSERT( sprite != NULL, "Argument must be non-NULL"); CCASSERT( dynamic_cast(sprite), "CCSpriteBatchNode only supports Sprites as children"); // make needed room while(index >= _textureAtlas->getCapacity() || _textureAtlas->getCapacity() == _textureAtlas->getTotalQuads()) { this->increaseAtlasCapacity(); } // // update the quad directly. Don't add the sprite to the scene graph // sprite->setBatchNode(this); sprite->setAtlasIndex(index); V3F_C4B_T2F_Quad quad = sprite->getQuad(); _textureAtlas->insertQuad(&quad, index); // XXX: updateTransform will update the textureAtlas too, using updateQuad. // XXX: so, it should be AFTER the insertQuad sprite->setDirty(true); sprite->updateTransform(); } void SpriteBatchNode::updateQuadFromSprite(Sprite *sprite, int index) { CCASSERT(sprite != NULL, "Argument must be non-nil"); CCASSERT(dynamic_cast(sprite) != NULL, "CCSpriteBatchNode only supports Sprites as children"); // make needed room while (index >= _textureAtlas->getCapacity() || _textureAtlas->getCapacity() == _textureAtlas->getTotalQuads()) { this->increaseAtlasCapacity(); } // // update the quad directly. Don't add the sprite to the scene graph // sprite->setBatchNode(this); sprite->setAtlasIndex(index); sprite->setDirty(true); // UpdateTransform updates the textureAtlas quad sprite->updateTransform(); } SpriteBatchNode * SpriteBatchNode::addSpriteWithoutQuad(Sprite*child, int z, int aTag) { CCASSERT( child != NULL, "Argument must be non-NULL"); CCASSERT( dynamic_cast(child), "CCSpriteBatchNode only supports Sprites as children"); // quad index is Z child->setAtlasIndex(z); // XXX: optimize with a binary search int i=0; Object* pObject = NULL; CCARRAY_FOREACH(_descendants, pObject) { Sprite* child = static_cast(pObject); if (child && (child->getAtlasIndex() >= z)) { ++i; } } _descendants->insertObject(child, i); // IMPORTANT: Call super, and not self. Avoid adding it to the texture atlas array Node::addChild(child, z, aTag); //#issue 1262 don't use lazy sorting, tiles are added as quads not as sprites, so sprites need to be added in order reorderBatch(false); return this; } NS_CC_END