axmol/cocos2dx/sprite_nodes/CCSprite.cpp

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/****************************************************************************
Copyright (c) 2010-2011 cocos2d-x.org
Copyright (c) 2008-2010 Ricardo Quesada
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.
****************************************************************************/
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#include "CCSpriteBatchNode.h"
#include "CCAnimation.h"
#include "CCAnimationCache.h"
#include "ccConfig.h"
#include "CCSprite.h"
#include "CCSpriteFrame.h"
#include "CCSpriteFrameCache.h"
#include "CCTextureCache.h"
#include "CCPointExtension.h"
#include "CCDrawingPrimitives.h"
#include "CCGeometry.h"
#include "CCTexture2D.h"
#include "CCAffineTransform.h"
#include <string.h>
using namespace std;
namespace cocos2d {
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#if CC_SPRITEBATCHNODE_RENDER_SUBPIXEL
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#define RENDER_IN_SUBPIXEL
#else
#define RENDER_IN_SUBPIXEL(__A__) ( (int)(__A__))
#endif
// XXX: Optmization
struct transformValues_ {
CCPoint pos; // position x and y
CCPoint scale; // scale x and y
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float rotation;
CCPoint skew; // skew x and y
CCPoint ap; // anchor point in pixels
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bool visible;
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};
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CCSprite* CCSprite::spriteWithBatchNode(CCSpriteBatchNode *batchNode, const CCRect& rect)
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{
CCSprite *pobSprite = new CCSprite();
if (pobSprite && pobSprite->initWithBatchNode(batchNode, rect))
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{
pobSprite->autorelease();
return pobSprite;
}
CC_SAFE_DELETE(pobSprite);
return NULL;
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}
bool CCSprite::initWithBatchNode(CCSpriteBatchNode *batchNode, const CCRect& rect)
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{
if (initWithTexture(batchNode->getTexture(), rect))
{
useBatchNode(batchNode);
return true;
}
return false;
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}
bool CCSprite::initWithBatchNodeRectInPixels(CCSpriteBatchNode *batchNode, const CCRect& rect)
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{
if (initWithTexture(batchNode->getTexture()))
{
setTextureRectInPixels(rect, false, rect.size);
useBatchNode(batchNode);
return true;
}
return false;
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}
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CCSprite* CCSprite::spriteWithTexture(CCTexture2D *pTexture)
{
CCSprite *pobSprite = new CCSprite();
if (pobSprite && pobSprite->initWithTexture(pTexture))
{
pobSprite->autorelease();
return pobSprite;
}
CC_SAFE_DELETE(pobSprite);
return NULL;
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}
CCSprite* CCSprite::spriteWithTexture(CCTexture2D *pTexture, const CCRect& rect)
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{
CCSprite *pobSprite = new CCSprite();
if (pobSprite && pobSprite->initWithTexture(pTexture, rect))
{
pobSprite->autorelease();
return pobSprite;
}
CC_SAFE_DELETE(pobSprite);
return NULL;
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}
CCSprite* CCSprite::spriteWithTexture(CCTexture2D *pTexture, const CCRect& rect, const CCPoint& offset)
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{
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CC_UNUSED_PARAM(pTexture);
CC_UNUSED_PARAM(rect);
CC_UNUSED_PARAM(offset);
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// not implement
assert(0);
return NULL;
}
CCSprite* CCSprite::spriteWithFile(const char *pszFileName)
{
CCSprite *pobSprite = new CCSprite();
if (pobSprite && pobSprite->initWithFile(pszFileName))
{
pobSprite->autorelease();
return pobSprite;
}
CC_SAFE_DELETE(pobSprite);
return NULL;
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}
CCSprite* CCSprite::spriteWithFile(const char *pszFileName, const CCRect& rect)
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{
CCSprite *pobSprite = new CCSprite();
if (pobSprite && pobSprite->initWithFile(pszFileName, rect))
{
pobSprite->autorelease();
return pobSprite;
}
CC_SAFE_DELETE(pobSprite);
return NULL;
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}
CCSprite* CCSprite::spriteWithSpriteFrame(CCSpriteFrame *pSpriteFrame)
{
CCSprite *pobSprite = new CCSprite();
if (pobSprite && pobSprite->initWithSpriteFrame(pSpriteFrame))
{
pobSprite->autorelease();
return pobSprite;
}
CC_SAFE_DELETE(pobSprite);
return NULL;
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}
CCSprite* CCSprite::spriteWithSpriteFrameName(const char *pszSpriteFrameName)
{
CCSpriteFrame *pFrame = CCSpriteFrameCache::sharedSpriteFrameCache()->spriteFrameByName(pszSpriteFrameName);
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char msg[256] = {0};
sprintf(msg, "Invalid spriteFrameName: %s", pszSpriteFrameName);
CCAssert(pFrame != NULL, msg);
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return spriteWithSpriteFrame(pFrame);
}
bool CCSprite::init(void)
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{
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m_bDirty = m_bRecursiveDirty = false;
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// by default use "Self Render".
// if the sprite is added to an batchnode, then it will automatically switch to "SpriteSheet Render"
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useSelfRender();
m_bOpacityModifyRGB = true;
m_nOpacity = 255;
m_sColor = m_sColorUnmodified = ccWHITE;
m_sBlendFunc.src = CC_BLEND_SRC;
m_sBlendFunc.dst = CC_BLEND_DST;
// update texture (calls updateBlendFunc)
setTexture(NULL);
// clean the Quad
memset(&m_sQuad, 0, sizeof(m_sQuad));
m_bFlipX = m_bFlipY = false;
// default transform anchor: center
setAnchorPoint(ccp(0.5f, 0.5f));
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// zwoptex default values
m_obOffsetPositionInPixels = CCPointZero;
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m_eHonorParentTransform = CC_HONOR_PARENT_TRANSFORM_ALL;
m_bHasChildren = false;
// Atlas: Color
ccColor4B tmpColor = { 255, 255, 255, 255 };
m_sQuad.bl.colors = tmpColor;
m_sQuad.br.colors = tmpColor;
m_sQuad.tl.colors = tmpColor;
m_sQuad.tr.colors = tmpColor;
// Atlas: Vertex
// updated in "useSelfRender"
// Atlas: TexCoords
setTextureRectInPixels(CCRectZero, false, CCSizeZero);
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return true;
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}
bool CCSprite::initWithTexture(CCTexture2D *pTexture, const CCRect& rect)
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{
assert(pTexture != NULL);
// IMPORTANT: [self init] and not [super init];
init();
setTexture(pTexture);
setTextureRect(rect);
return true;
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}
bool CCSprite::initWithTexture(CCTexture2D *pTexture)
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{
assert(pTexture != NULL);
CCRect rect = CCRectZero;
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rect.size = pTexture->getContentSize();
return initWithTexture(pTexture, rect);
}
bool CCSprite::initWithFile(const char *pszFilename)
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{
assert(pszFilename != NULL);
CCTexture2D *pTexture = CCTextureCache::sharedTextureCache()->addImage(pszFilename);
if (pTexture)
{
CCRect rect = CCRectZero;
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rect.size = pTexture->getContentSize();
return initWithTexture(pTexture, rect);
}
// don't release here.
// when load texture failed, it's better to get a "transparent" sprite then a crashed program
// this->release();
return false;
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}
bool CCSprite::initWithFile(const char *pszFilename, const CCRect& rect)
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{
assert(pszFilename != NULL);
CCTexture2D *pTexture = CCTextureCache::sharedTextureCache()->addImage(pszFilename);
if (pTexture)
{
return initWithTexture(pTexture, rect);
}
// don't release here.
// when load texture failed, it's better to get a "transparent" sprite then a crashed program
// this->release();
return false;
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}
bool CCSprite::initWithSpriteFrame(CCSpriteFrame *pSpriteFrame)
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{
assert(pSpriteFrame != NULL);
bool bRet = initWithTexture(pSpriteFrame->getTexture(), pSpriteFrame->getRect());
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setDisplayFrame(pSpriteFrame);
return bRet;
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}
bool CCSprite::initWithSpriteFrameName(const char *pszSpriteFrameName)
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{
assert(pszSpriteFrameName != NULL);
CCSpriteFrame *pFrame = CCSpriteFrameCache::sharedSpriteFrameCache()->spriteFrameByName(pszSpriteFrameName);
return initWithSpriteFrame(pFrame);
}
// XXX: deprecated
/*
CCSprite* CCSprite::initWithCGImage(CGImageRef pImage)
{
// todo
// because it is deprecated, so we do not impelment it
return NULL;
}
*/
/*
CCSprite* CCSprite::initWithCGImage(CGImageRef pImage, const char *pszKey)
{
assert(pImage != NULL);
// XXX: possible bug. See issue #349. New API should be added
CCTexture2D *pTexture = CCTextureCache::sharedTextureCache()->addCGImage(pImage, pszKey);
const CCSize& size = pTexture->getContentSize();
CCRect rect = CCRectMake(0 ,0, size.width, size.height);
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return initWithTexture(texture, rect);
}
*/
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CCSprite::CCSprite()
: m_pobTexture(NULL)
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{
}
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CCSprite::~CCSprite(void)
{
CC_SAFE_RELEASE(m_pobTexture);
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}
void CCSprite::useSelfRender(void)
{
m_uAtlasIndex = CCSpriteIndexNotInitialized;
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m_bUsesBatchNode = false;
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m_pobTextureAtlas = NULL;
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m_pobBatchNode = NULL;
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m_bDirty = m_bRecursiveDirty = false;
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float x1 = 0 + m_obOffsetPositionInPixels.x;
float y1 = 0 + m_obOffsetPositionInPixels.y;
float x2 = x1 + m_obRectInPixels.size.width;
float y2 = y1 + m_obRectInPixels.size.height;
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m_sQuad.bl.vertices = vertex3(x1, y1, 0);
m_sQuad.br.vertices = vertex3(x2, y1, 0);
m_sQuad.tl.vertices = vertex3(x1, y2, 0);
m_sQuad.tr.vertices = vertex3(x2, y2, 0);
}
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void CCSprite::useBatchNode(CCSpriteBatchNode *batchNode)
{
m_bUsesBatchNode = true;
m_pobTextureAtlas = batchNode->getTextureAtlas(); // weak ref
m_pobBatchNode = batchNode;
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}
void CCSprite::setTextureRect(const CCRect& rect)
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{
CCRect rectInPixels = CC_RECT_POINTS_TO_PIXELS(rect);
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setTextureRectInPixels(rectInPixels, false, rectInPixels.size);
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}
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void CCSprite::setTextureRectInPixels(const CCRect& rect, bool rotated, const CCSize& size)
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{
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m_obRectInPixels = rect;
m_obRect = CC_RECT_PIXELS_TO_POINTS(rect);
m_bRectRotated = rotated;
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setContentSizeInPixels(size);
updateTextureCoords(m_obRectInPixels);
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CCPoint relativeOffsetInPixels = m_obUnflippedOffsetPositionFromCenter;
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// issue #732
if (m_bFlipX)
{
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relativeOffsetInPixels.x = -relativeOffsetInPixels.x;
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}
if (m_bFlipY)
{
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relativeOffsetInPixels.y = -relativeOffsetInPixels.y;
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}
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m_obOffsetPositionInPixels.x = relativeOffsetInPixels.x + (m_tContentSizeInPixels.width - m_obRectInPixels.size.width) / 2;
m_obOffsetPositionInPixels.y = relativeOffsetInPixels.y + (m_tContentSizeInPixels.height - m_obRectInPixels.size.height) / 2;
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// rendering using batch node
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if (m_bUsesBatchNode)
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{
// update dirty_, don't update recursiveDirty_
m_bDirty = true;
}
else
{
// self rendering
// Atlas: Vertex
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float x1 = 0 + m_obOffsetPositionInPixels.x;
float y1 = 0 + m_obOffsetPositionInPixels.y;
float x2 = x1 + m_obRectInPixels.size.width;
float y2 = y1 + m_obRectInPixels.size.height;
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// Don't update Z.
m_sQuad.bl.vertices = vertex3(x1, y1, 0);
m_sQuad.br.vertices = vertex3(x2, y1, 0);
m_sQuad.tl.vertices = vertex3(x1, y2, 0);
m_sQuad.tr.vertices = vertex3(x2, y2, 0);
}
}
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void CCSprite::updateTextureCoords(const CCRect& rect)
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{
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CCTexture2D *tex = m_bUsesBatchNode ? m_pobTextureAtlas->getTexture() : m_pobTexture;
if (! tex)
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{
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return;
}
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float atlasWidth = (float)tex->getPixelsWide();
float atlasHeight = (float)tex->getPixelsHigh();
float left, right, top, bottom;
if (m_bRectRotated)
{
#if CC_FIX_ARTIFACTS_BY_STRECHING_TEXEL
left = (2*rect.origin.x+1)/(2*atlasWidth);
right = left+(rect.size.height*2-2)/(2*atlasWidth);
top = (2*rect.origin.y+1)/(2*atlasHeight);
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bottom = top+(rect.size.width*2-2)/(2*atlasHeight);
#else
left = rect.origin.x/atlasWidth;
right = left+(rect.size.height/atlasWidth);
top = rect.origin.y/atlasHeight;
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bottom = top+(rect.size.width/atlasHeight);
#endif // CC_FIX_ARTIFACTS_BY_STRECHING_TEXEL
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if (m_bFlipX)
{
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CC_SWAP(top, bottom, float);
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}
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if (m_bFlipY)
{
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CC_SWAP(left, right, float);
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}
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m_sQuad.bl.texCoords.u = left;
m_sQuad.bl.texCoords.v = top;
m_sQuad.br.texCoords.u = left;
m_sQuad.br.texCoords.v = bottom;
m_sQuad.tl.texCoords.u = right;
m_sQuad.tl.texCoords.v = top;
m_sQuad.tr.texCoords.u = right;
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m_sQuad.tr.texCoords.v = bottom;
}
else
{
#if CC_FIX_ARTIFACTS_BY_STRECHING_TEXEL
left = (2*rect.origin.x+1)/(2*atlasWidth);
right = left + (rect.size.width*2-2)/(2*atlasWidth);
top = (2*rect.origin.y+1)/(2*atlasHeight);
bottom = top + (rect.size.height*2-2)/(2*atlasHeight);
#else
left = rect.origin.x/atlasWidth;
right = left + rect.size.width/atlasWidth;
top = rect.origin.y/atlasHeight;
bottom = top + rect.size.height/atlasHeight;
#endif // ! CC_FIX_ARTIFACTS_BY_STRECHING_TEXEL
if(m_bFlipX)
{
CC_SWAP(left,right,float);
}
if(m_bFlipY)
{
CC_SWAP(top,bottom,float);
}
m_sQuad.bl.texCoords.u = left;
m_sQuad.bl.texCoords.v = bottom;
m_sQuad.br.texCoords.u = right;
m_sQuad.br.texCoords.v = bottom;
m_sQuad.tl.texCoords.u = left;
m_sQuad.tl.texCoords.v = top;
m_sQuad.tr.texCoords.u = right;
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m_sQuad.tr.texCoords.v = top;
}
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}
void CCSprite::updateTransform(void)
{
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assert(m_bUsesBatchNode);
// optimization. Quick return if not dirty
if (! m_bDirty)
{
return;
}
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CCAffineTransform matrix;
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// Optimization: if it is not visible, then do nothing
if (! m_bIsVisible)
{
m_sQuad.br.vertices = m_sQuad.tl.vertices = m_sQuad.tr.vertices = m_sQuad.bl.vertices = vertex3(0,0,0);
m_pobTextureAtlas->updateQuad(&m_sQuad, m_uAtlasIndex);
m_bDirty = m_bRecursiveDirty = false;
return;
}
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// Optimization: If parent is batchnode, or parent is nil
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// build Affine transform manually
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if (! m_pParent || m_pParent == m_pobBatchNode)
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{
float radians = -CC_DEGREES_TO_RADIANS(m_fRotation);
float c = cosf(radians);
float s = sinf(radians);
matrix = CCAffineTransformMake(c * m_fScaleX, s * m_fScaleX,
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-s * m_fScaleY, c * m_fScaleY,
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m_tPositionInPixels.x, m_tPositionInPixels.y);
if( m_fSkewX || m_fSkewY )
{
CCAffineTransform skewMatrix = CCAffineTransformMake(1.0f, tanf(CC_DEGREES_TO_RADIANS(m_fSkewY)),
tanf(CC_DEGREES_TO_RADIANS(m_fSkewX)), 1.0f,
0.0f, 0.0f);
matrix = CCAffineTransformConcat(skewMatrix, matrix);
}
matrix = CCAffineTransformTranslate(matrix, -m_tAnchorPointInPixels.x, -m_tAnchorPointInPixels.y);
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} else // parent_ != batchNode_
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{
// else do affine transformation according to the HonorParentTransform
matrix = CCAffineTransformIdentity;
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ccHonorParentTransform prevHonor = CC_HONOR_PARENT_TRANSFORM_ALL;
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for (CCNode *p = this; p && p != m_pobBatchNode; p = p->getParent())
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{
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// Might happen. Issue #1053
// how to implement, we can not use dynamic
// CCAssert( [p isKindOfClass:[CCSprite class]], @"CCSprite should be a CCSprite subclass. Probably you initialized an sprite with a batchnode, but you didn't add it to the batch node." );
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struct transformValues_ tv;
((CCSprite*)p)->getTransformValues(&tv);
// If any of the parents are not visible, then don't draw this node
if (! tv.visible)
{
m_sQuad.br.vertices = m_sQuad.tl.vertices = m_sQuad.tr.vertices = m_sQuad.bl.vertices = vertex3(0,0,0);
m_pobTextureAtlas->updateQuad(&m_sQuad, m_uAtlasIndex);
m_bDirty = m_bRecursiveDirty = false;
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return;
}
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CCAffineTransform newMatrix = CCAffineTransformIdentity;
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// 2nd: Translate, Skew, Rotate, Scale
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if( prevHonor & CC_HONOR_PARENT_TRANSFORM_TRANSLATE )
{
newMatrix = CCAffineTransformTranslate(newMatrix, tv.pos.x, tv.pos.y);
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}
if( prevHonor & CC_HONOR_PARENT_TRANSFORM_ROTATE )
{
newMatrix = CCAffineTransformRotate(newMatrix, -CC_DEGREES_TO_RADIANS(tv.rotation));
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}
if ( prevHonor & CC_HONOR_PARENT_TRANSFORM_SKEW )
{
CCAffineTransform skew = CCAffineTransformMake(1.0f, tanf(CC_DEGREES_TO_RADIANS(tv.skew.y)), tanf(CC_DEGREES_TO_RADIANS(tv.skew.x)), 1.0f, 0.0f, 0.0f);
// apply the skew to the transform
newMatrix = CCAffineTransformConcat(skew, newMatrix);
}
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if( prevHonor & CC_HONOR_PARENT_TRANSFORM_SCALE )
{
newMatrix = CCAffineTransformScale(newMatrix, tv.scale.x, tv.scale.y);
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}
// 3rd: Translate anchor point
newMatrix = CCAffineTransformTranslate(newMatrix, -tv.ap.x, -tv.ap.y);
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// 4th: Matrix multiplication
matrix = CCAffineTransformConcat( matrix, newMatrix);
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prevHonor = ((CCSprite*)p)->getHornorParentTransform();
}
}
//
// calculate the Quad based on the Affine Matrix
//
CCSize size = m_obRectInPixels.size;
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float x1 = m_obOffsetPositionInPixels.x;
float y1 = m_obOffsetPositionInPixels.y;
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float x2 = x1 + size.width;
float y2 = y1 + size.height;
float x = matrix.tx;
float y = matrix.ty;
float cr = matrix.a;
float sr = matrix.b;
float cr2 = matrix.d;
float sr2 = -matrix.c;
float ax = x1 * cr - y1 * sr2 + x;
float ay = x1 * sr + y1 * cr2 + y;
float bx = x2 * cr - y1 * sr2 + x;
float by = x2 * sr + y1 * cr2 + y;
float cx = x2 * cr - y2 * sr2 + x;
float cy = x2 * sr + y2 * cr2 + y;
float dx = x1 * cr - y2 * sr2 + x;
float dy = x1 * sr + y2 * cr2 + y;
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m_sQuad.bl.vertices = vertex3((float)RENDER_IN_SUBPIXEL(ax), (float)RENDER_IN_SUBPIXEL(ay), m_fVertexZ);
m_sQuad.br.vertices = vertex3((float)RENDER_IN_SUBPIXEL(bx), (float)RENDER_IN_SUBPIXEL(by), m_fVertexZ);
m_sQuad.tl.vertices = vertex3((float)RENDER_IN_SUBPIXEL(dx), (float)RENDER_IN_SUBPIXEL(dy), m_fVertexZ);
m_sQuad.tr.vertices = vertex3((float)RENDER_IN_SUBPIXEL(cx), (float)RENDER_IN_SUBPIXEL(cy), m_fVertexZ);
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m_pobTextureAtlas->updateQuad(&m_sQuad, m_uAtlasIndex);
m_bDirty = m_bRecursiveDirty = false;
}
// XXX: Optimization: instead of calling 5 times the parent sprite to obtain: position, scale.x, scale.y, anchorpoint and rotation,
// this fuction return the 5 values in 1 single call
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void CCSprite::getTransformValues(struct transformValues_ *tv)
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{
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tv->pos = m_tPositionInPixels;
tv->scale.x = m_fScaleX;
tv->scale.y = m_fScaleY;
tv->rotation = m_fRotation;
tv->skew.x = m_fSkewX;
tv->skew.y = m_fSkewY;
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tv->ap = m_tAnchorPointInPixels;
tv->visible = m_bIsVisible;
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}
// draw
void CCSprite::draw(void)
{
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CCNode::draw();
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assert(! m_bUsesBatchNode);
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// Default GL states: GL_TEXTURE_2D, GL_VERTEX_ARRAY, GL_COLOR_ARRAY, GL_TEXTURE_COORD_ARRAY
// Needed states: GL_TEXTURE_2D, GL_VERTEX_ARRAY, GL_COLOR_ARRAY, GL_TEXTURE_COORD_ARRAY
// Unneeded states: -
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bool newBlend = m_sBlendFunc.src != CC_BLEND_SRC || m_sBlendFunc.dst != CC_BLEND_DST;
if (newBlend)
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{
glBlendFunc(m_sBlendFunc.src, m_sBlendFunc.dst);
}
#define kQuadSize sizeof(m_sQuad.bl)
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if (m_pobTexture)
{
glBindTexture(GL_TEXTURE_2D, m_pobTexture->getName());
}
else
{
glBindTexture(GL_TEXTURE_2D, 0);
}
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long offset = (long)&m_sQuad;
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// vertex
int diff = offsetof(ccV3F_C4B_T2F, vertices);
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glVertexPointer(3, GL_FLOAT, kQuadSize, (void*)(offset + diff));
// color
diff = offsetof( ccV3F_C4B_T2F, colors);
glColorPointer(4, GL_UNSIGNED_BYTE, kQuadSize, (void*)(offset + diff));
// tex coords
diff = offsetof( ccV3F_C4B_T2F, texCoords);
glTexCoordPointer(2, GL_FLOAT, kQuadSize, (void*)(offset + diff));
glDrawArrays(GL_TRIANGLE_STRIP, 0, 4);
if( newBlend )
{
glBlendFunc(CC_BLEND_SRC, CC_BLEND_DST);
}
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#if CC_SPRITE_DEBUG_DRAW == 1
// draw bounding box
CCSize s = m_tContentSize;
CCPoint vertices[4] = {
ccp(0,0), ccp(s.width,0),
ccp(s.width,s.height), ccp(0,s.height)
};
ccDrawPoly(vertices, 4, true);
#elif CC_SPRITE_DEBUG_DRAW == 2
// draw texture box
const CCSize& s = m_obRect.size;
const CCPoint& offsetPix = getOffsetPositionInPixels();
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CCPoint vertices[4] = {
ccp(offsetPix.x,offsetPix.y), ccp(offsetPix.x+s.width,offsetPix.y),
ccp(offsetPix.x+s.width,offsetPix.y+s.height), ccp(offsetPix.x,offsetPix.y+s.height)
};
ccDrawPoly(vertices, 4, true);
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#endif // CC_SPRITE_DEBUG_DRAW
}
// CCNode overrides
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void CCSprite::addChild(CCNode* pChild)
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{
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CCNode::addChild(pChild);
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}
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void CCSprite::addChild(CCNode *pChild, int zOrder)
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{
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CCNode::addChild(pChild, zOrder);
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}
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void CCSprite::addChild(CCNode *pChild, int zOrder, int tag)
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{
assert(pChild != NULL);
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CCNode::addChild(pChild, zOrder, tag);
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if (m_bUsesBatchNode)
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{
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assert(((CCSprite*)pChild)->getTexture()->getName() == m_pobTextureAtlas->getTexture()->getName());
unsigned int index = m_pobBatchNode->atlasIndexForChild((CCSprite*)(pChild), zOrder);
m_pobBatchNode->insertChild((CCSprite*)(pChild), index);
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}
m_bHasChildren = true;
}
void CCSprite::reorderChild(CCNode *pChild, int zOrder)
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{
assert(pChild != NULL);
assert(m_pChildren->containsObject(pChild));
if (zOrder == pChild->getZOrder())
{
return;
}
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if (m_bUsesBatchNode)
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{
// XXX: Instead of removing/adding, it is more efficient to reorder manually
pChild->retain();
removeChild(pChild, false);
addChild(pChild, zOrder);
pChild->release();
}
else
{
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CCNode::reorderChild(pChild, zOrder);
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}
}
void CCSprite::removeChild(CCNode *pChild, bool bCleanup)
{
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if (m_bUsesBatchNode)
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{
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m_pobBatchNode->removeSpriteFromAtlas((CCSprite*)(pChild));
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}
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CCNode::removeChild(pChild, bCleanup);
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}
void CCSprite::removeAllChildrenWithCleanup(bool bCleanup)
{
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if (m_bUsesBatchNode)
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{
CCObject* pObject = NULL;
CCARRAY_FOREACH(m_pChildren, pObject)
{
CCSprite* pChild = (CCSprite*) pObject;
if (pChild)
{
m_pobBatchNode->removeSpriteFromAtlas(pChild);
}
}
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}
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CCNode::removeAllChildrenWithCleanup(bCleanup);
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m_bHasChildren = false;
}
//
// CCNode property overloads
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// used only when parent is CCSpriteBatchNode
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//
void CCSprite::setDirtyRecursively(bool bValue)
{
m_bDirty = m_bRecursiveDirty = bValue;
// recursively set dirty
if (m_bHasChildren)
{
CCObject* pObject = NULL;
CCARRAY_FOREACH(m_pChildren, pObject)
{
CCSprite* pChild = (CCSprite*) pObject;
if (pChild)
{
pChild->setDirtyRecursively(true);
}
}
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}
}
// XXX HACK: optimization
#define SET_DIRTY_RECURSIVELY() { \
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if (m_bUsesBatchNode && ! m_bRecursiveDirty) { \
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m_bDirty = m_bRecursiveDirty = true; \
if ( m_bHasChildren) \
setDirtyRecursively(true); \
} \
}
void CCSprite::setPosition(const CCPoint& pos)
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{
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CCNode::setPosition(pos);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setPositionInPixels(const CCPoint& pos)
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{
CCNode::setPositionInPixels(pos);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setRotation(float fRotation)
{
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CCNode::setRotation(fRotation);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setSkewX(float sx)
{
CCNode::setSkewX(sx);
SET_DIRTY_RECURSIVELY();
}
void CCSprite::setSkewY(float sy)
{
CCNode::setSkewY(sy);
SET_DIRTY_RECURSIVELY();
}
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void CCSprite::setScaleX(float fScaleX)
{
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CCNode::setScaleX(fScaleX);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setScaleY(float fScaleY)
{
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CCNode::setScaleY(fScaleY);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setScale(float fScale)
{
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CCNode::setScale(fScale);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setVertexZ(float fVertexZ)
{
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CCNode::setVertexZ(fVertexZ);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setAnchorPoint(const CCPoint& anchor)
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{
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CCNode::setAnchorPoint(anchor);
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SET_DIRTY_RECURSIVELY();
}
void CCSprite::setIsRelativeAnchorPoint(bool bRelative)
{
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assert(! m_bUsesBatchNode);
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CCNode::setIsRelativeAnchorPoint(bRelative);
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}
void CCSprite::setIsVisible(bool bVisible)
{
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CCNode::setIsVisible(bVisible);
SET_DIRTY_RECURSIVELY();
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}
void CCSprite::setFlipX(bool bFlipX)
{
if (m_bFlipX != bFlipX)
{
m_bFlipX = bFlipX;
setTextureRectInPixels(m_obRectInPixels, m_bRectRotated, m_tContentSizeInPixels);
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}
}
bool CCSprite::isFlipX(void)
{
return m_bFlipX;
}
void CCSprite::setFlipY(bool bFlipY)
{
if (m_bFlipY != bFlipY)
{
m_bFlipY = bFlipY;
setTextureRectInPixels(m_obRectInPixels, m_bRectRotated, m_tContentSizeInPixels);
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}
}
bool CCSprite::isFlipY(void)
{
return m_bFlipY;
}
//
// RGBA protocol
//
void CCSprite::updateColor(void)
{
ccColor4B color4 = { m_sColor.r, m_sColor.g, m_sColor.b, m_nOpacity };
m_sQuad.bl.colors = color4;
m_sQuad.br.colors = color4;
m_sQuad.tl.colors = color4;
m_sQuad.tr.colors = color4;
// renders using Sprite Manager
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if (m_bUsesBatchNode)
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{
if (m_uAtlasIndex != CCSpriteIndexNotInitialized)
{
m_pobTextureAtlas->updateQuad(&m_sQuad, m_uAtlasIndex);
}
else
{
// no need to set it recursively
// update dirty_, don't update recursiveDirty_
m_bDirty = true;
}
}
// self render
// do nothing
}
GLubyte CCSprite::getOpacity(void)
{
return m_nOpacity;
}
void CCSprite::setOpacity(GLubyte opacity)
{
m_nOpacity = opacity;
// special opacity for premultiplied textures
if (m_bOpacityModifyRGB)
{
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setColor(m_sColorUnmodified);
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}
updateColor();
}
const ccColor3B& CCSprite::getColor(void)
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{
if (m_bOpacityModifyRGB)
{
return m_sColorUnmodified;
}
return m_sColor;
}
void CCSprite::setColor(const ccColor3B& color3)
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{
m_sColor = m_sColorUnmodified = color3;
if (m_bOpacityModifyRGB)
{
m_sColor.r = color3.r * m_nOpacity/255;
m_sColor.g = color3.g * m_nOpacity/255;
m_sColor.b = color3.b * m_nOpacity/255;
}
updateColor();
}
void CCSprite::setIsOpacityModifyRGB(bool bValue)
{
ccColor3B oldColor = m_sColor;
m_bOpacityModifyRGB = bValue;
m_sColor = oldColor;
}
bool CCSprite::getIsOpacityModifyRGB(void)
{
return m_bOpacityModifyRGB;
}
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// Frames
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void CCSprite::setDisplayFrame(CCSpriteFrame *pNewFrame)
{
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m_obUnflippedOffsetPositionFromCenter = pNewFrame->getOffsetInPixels();
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CCTexture2D *pNewTexture = pNewFrame->getTexture();
// update texture before updating texture rect
if (pNewTexture != m_pobTexture)
{
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setTexture(pNewTexture);
}
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// update rect
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m_bRectRotated = pNewFrame->isRotated();
setTextureRectInPixels(pNewFrame->getRectInPixels(), pNewFrame->isRotated(), pNewFrame->getOriginalSizeInPixels());
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}
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void CCSprite::setDisplayFrameWithAnimationName(const char *animationName, int frameIndex)
{
assert(animationName);
CCAnimation *a = CCAnimationCache::sharedAnimationCache()->animationByName(animationName);
assert(a);
CCSpriteFrame *frame = a->getFrames()->getObjectAtIndex(frameIndex);
assert(frame);
setDisplayFrame(frame);
}
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bool CCSprite::isFrameDisplayed(CCSpriteFrame *pFrame)
{
CCRect r = pFrame->getRect();
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return (CCRect::CCRectEqualToRect(r, m_obRect) &&
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pFrame->getTexture()->getName() == m_pobTexture->getName());
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}
CCSpriteFrame* CCSprite::displayedFrame(void)
{
return CCSpriteFrame::frameWithTexture(m_pobTexture,
m_obRectInPixels,
m_bRectRotated,
m_obUnflippedOffsetPositionFromCenter,
m_tContentSizeInPixels);
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}
// Texture protocol
void CCSprite::updateBlendFunc(void)
{
// CCSprite: updateBlendFunc doesn't work when the sprite is rendered using a CCSpriteSheet
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assert (! m_bUsesBatchNode);
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// it's possible to have an untextured sprite
if (! m_pobTexture || ! m_pobTexture->getHasPremultipliedAlpha())
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{
m_sBlendFunc.src = GL_SRC_ALPHA;
m_sBlendFunc.dst = GL_ONE_MINUS_SRC_ALPHA;
setIsOpacityModifyRGB(false);
}
else
{
m_sBlendFunc.src = CC_BLEND_SRC;
m_sBlendFunc.dst = CC_BLEND_DST;
setIsOpacityModifyRGB(true);
}
}
void CCSprite::setTexture(CCTexture2D *texture)
{
// CCSprite: setTexture doesn't work when the sprite is rendered using a CCSpriteSheet
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assert(! m_bUsesBatchNode);
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// we can not use RTTI, so we do not known the type of object
// accept texture==nil as argument
/*assert((! texture) || dynamic_cast<CCTexture2D*>(texture));*/
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CC_SAFE_RELEASE(m_pobTexture);
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m_pobTexture = texture;
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if (texture)
{
texture->retain();
}
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updateBlendFunc();
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}
CCTexture2D* CCSprite::getTexture(void)
{
return m_pobTexture;
}
}//namespace cocos2d