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/****************************************************************************
Copyright ( c ) 2008 - 2010 Ricardo Quesada
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Copyright ( c ) 2010 - 2012 cocos2d - x . org
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Copyright ( c ) 2011 Zynga Inc .
2018-01-29 16:25:32 +08:00
Copyright ( c ) 2013 - 2016 Chukong Technologies Inc .
Copyright ( c ) 2017 - 2018 Xiamen Yaji Software Co . , Ltd .
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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 "2d/CCSprite.h"
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# include <algorithm>
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# include "2d/CCSpriteBatchNode.h"
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# include "2d/CCAnimationCache.h"
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# include "2d/CCSpriteFrame.h"
# include "2d/CCSpriteFrameCache.h"
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# include "renderer/CCTextureCache.h"
# include "renderer/CCTexture2D.h"
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# include "renderer/CCRenderer.h"
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# include "base/CCDirector.h"
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# include "base/ccUTF8.h"
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# include "2d/CCCamera.h"
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NS_CC_BEGIN
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// MARK: create, init, dealloc
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Sprite * Sprite : : createWithTexture ( Texture2D * texture )
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{
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Sprite * sprite = new ( std : : nothrow ) Sprite ( ) ;
if ( sprite & & sprite - > initWithTexture ( texture ) )
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{
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sprite - > autorelease ( ) ;
return sprite ;
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}
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CC_SAFE_DELETE ( sprite ) ;
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return nullptr ;
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}
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Sprite * Sprite : : createWithTexture ( Texture2D * texture , const Rect & rect , bool rotated )
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{
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Sprite * sprite = new ( std : : nothrow ) Sprite ( ) ;
if ( sprite & & sprite - > initWithTexture ( texture , rect , rotated ) )
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{
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sprite - > autorelease ( ) ;
return sprite ;
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}
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CC_SAFE_DELETE ( sprite ) ;
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return nullptr ;
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}
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Sprite * Sprite : : create ( const std : : string & filename )
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{
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Sprite * sprite = new ( std : : nothrow ) Sprite ( ) ;
if ( sprite & & sprite - > initWithFile ( filename ) )
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{
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sprite - > autorelease ( ) ;
return sprite ;
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}
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CC_SAFE_DELETE ( sprite ) ;
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return nullptr ;
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}
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Sprite * Sprite : : create ( const PolygonInfo & info )
{
Sprite * sprite = new ( std : : nothrow ) Sprite ( ) ;
if ( sprite & & sprite - > initWithPolygon ( info ) )
{
sprite - > autorelease ( ) ;
return sprite ;
}
CC_SAFE_DELETE ( sprite ) ;
return nullptr ;
}
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Sprite * Sprite : : create ( const std : : string & filename , const Rect & rect )
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{
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Sprite * sprite = new ( std : : nothrow ) Sprite ( ) ;
if ( sprite & & sprite - > initWithFile ( filename , rect ) )
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{
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sprite - > autorelease ( ) ;
return sprite ;
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}
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CC_SAFE_DELETE ( sprite ) ;
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return nullptr ;
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}
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Sprite * Sprite : : createWithSpriteFrame ( SpriteFrame * spriteFrame )
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{
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Sprite * sprite = new ( std : : nothrow ) Sprite ( ) ;
if ( sprite & & spriteFrame & & sprite - > initWithSpriteFrame ( spriteFrame ) )
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{
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sprite - > autorelease ( ) ;
return sprite ;
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}
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CC_SAFE_DELETE ( sprite ) ;
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return nullptr ;
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}
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Sprite * Sprite : : createWithSpriteFrameName ( const std : : string & spriteFrameName )
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{
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SpriteFrame * frame = SpriteFrameCache : : getInstance ( ) - > getSpriteFrameByName ( spriteFrameName ) ;
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# if COCOS2D_DEBUG > 0
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char msg [ 256 ] = { 0 } ;
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sprintf ( msg , " Invalid spriteFrameName: %s " , spriteFrameName . c_str ( ) ) ;
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CCASSERT ( frame ! = nullptr , msg ) ;
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# endif
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return createWithSpriteFrame ( frame ) ;
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}
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Sprite * Sprite : : create ( )
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{
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Sprite * sprite = new ( std : : nothrow ) Sprite ( ) ;
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if ( sprite & & sprite - > init ( ) )
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{
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sprite - > autorelease ( ) ;
return sprite ;
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}
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CC_SAFE_DELETE ( sprite ) ;
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return nullptr ;
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}
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bool Sprite : : init ( )
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{
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initWithTexture ( nullptr , Rect : : ZERO ) ;
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return true ;
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}
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bool Sprite : : initWithTexture ( Texture2D * texture )
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{
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CCASSERT ( texture ! = nullptr , " Invalid texture for sprite " ) ;
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Rect rect = Rect : : ZERO ;
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if ( texture ) {
rect . size = texture - > getContentSize ( ) ;
}
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return initWithTexture ( texture , rect , false ) ;
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}
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bool Sprite : : initWithTexture ( Texture2D * texture , const Rect & rect )
{
return initWithTexture ( texture , rect , false ) ;
}
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bool Sprite : : initWithFile ( const std : : string & filename )
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{
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if ( filename . empty ( ) )
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{
CCLOG ( " Call Sprite::initWithFile with blank resource filename. " ) ;
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return false ;
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}
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_fileName = filename ;
_fileType = 0 ;
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Texture2D * texture = _director - > getTextureCache ( ) - > addImage ( filename ) ;
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if ( texture )
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{
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Rect rect = Rect : : ZERO ;
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rect . size = texture - > getContentSize ( ) ;
return initWithTexture ( texture , rect ) ;
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}
// don't release here.
// when load texture failed, it's better to get a "transparent" sprite then a crashed program
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// this->release();
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return false ;
}
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bool Sprite : : initWithFile ( const std : : string & filename , const Rect & rect )
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{
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CCASSERT ( ! filename . empty ( ) , " Invalid filename " ) ;
if ( filename . empty ( ) )
{
return false ;
}
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_fileName = filename ;
_fileType = 0 ;
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Texture2D * texture = _director - > getTextureCache ( ) - > addImage ( filename ) ;
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if ( texture )
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{
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return initWithTexture ( texture , rect ) ;
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}
// don't release here.
// when load texture failed, it's better to get a "transparent" sprite then a crashed program
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// this->release();
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return false ;
}
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bool Sprite : : initWithSpriteFrameName ( const std : : string & spriteFrameName )
{
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CCASSERT ( ! spriteFrameName . empty ( ) , " Invalid spriteFrameName " ) ;
if ( spriteFrameName . empty ( ) )
{
return false ;
}
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_fileName = spriteFrameName ;
_fileType = 1 ;
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SpriteFrame * frame = SpriteFrameCache : : getInstance ( ) - > getSpriteFrameByName ( spriteFrameName ) ;
return initWithSpriteFrame ( frame ) ;
}
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bool Sprite : : initWithSpriteFrame ( SpriteFrame * spriteFrame )
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{
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CCASSERT ( spriteFrame ! = nullptr , " spriteFrame can't be nullptr! " ) ;
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if ( spriteFrame = = nullptr )
{
return false ;
}
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bool ret = initWithTexture ( spriteFrame - > getTexture ( ) , spriteFrame - > getRect ( ) , spriteFrame - > isRotated ( ) ) ;
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setSpriteFrame ( spriteFrame ) ;
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return ret ;
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}
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bool Sprite : : initWithPolygon ( const cocos2d : : PolygonInfo & info )
{
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bool ret = false ;
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Texture2D * texture = _director - > getTextureCache ( ) - > addImage ( info . getFilename ( ) ) ;
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if ( texture & & initWithTexture ( texture ) )
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{
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_polyInfo = info ;
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_renderMode = RenderMode : : POLYGON ;
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Node : : setContentSize ( _polyInfo . getRect ( ) . size / _director - > getContentScaleFactor ( ) ) ;
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ret = true ;
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}
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return ret ;
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}
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// designated initializer
bool Sprite : : initWithTexture ( Texture2D * texture , const Rect & rect , bool rotated )
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{
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bool result = false ;
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if ( Node : : init ( ) )
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{
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_batchNode = nullptr ;
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_recursiveDirty = false ;
setDirty ( false ) ;
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_opacityModifyRGB = true ;
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_blendFunc = BlendFunc : : ALPHA_PREMULTIPLIED ;
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_flippedX = _flippedY = false ;
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// default transform anchor: center
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setAnchorPoint ( Vec2 : : ANCHOR_MIDDLE ) ;
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// zwoptex default values
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_offsetPosition . setZero ( ) ;
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// clean the Quad
memset ( & _quad , 0 , sizeof ( _quad ) ) ;
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// Atlas: Color
_quad . bl . colors = Color4B : : WHITE ;
_quad . br . colors = Color4B : : WHITE ;
_quad . tl . colors = Color4B : : WHITE ;
_quad . tr . colors = Color4B : : WHITE ;
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// update texture (calls updateBlendFunc)
setTexture ( texture ) ;
setTextureRect ( rect , rotated , rect . size ) ;
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// by default use "Self Render".
// if the sprite is added to a batchnode, then it will automatically switch to "batchnode Render"
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setBatchNode ( nullptr ) ;
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result = true ;
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}
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_recursiveDirty = true ;
setDirty ( true ) ;
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return result ;
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}
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Sprite : : Sprite ( void )
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: _batchNode ( nullptr )
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, _textureAtlas ( nullptr )
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, _shouldBeHidden ( false )
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, _texture ( nullptr )
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, _spriteFrame ( nullptr )
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, _insideBounds ( true )
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, _centerRectNormalized ( 0 , 0 , 1 , 1 )
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, _renderMode ( Sprite : : RenderMode : : QUAD )
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, _trianglesVertex ( nullptr )
, _trianglesIndex ( nullptr )
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, _stretchFactor ( Vec2 : : ONE )
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, _originalContentSize ( Size : : ZERO )
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, _stretchEnabled ( true )
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{
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# if CC_SPRITE_DEBUG_DRAW
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_debugDrawNode = DrawNode : : create ( ) ;
addChild ( _debugDrawNode ) ;
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# endif //CC_SPRITE_DEBUG_DRAW
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}
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Sprite : : ~ Sprite ( )
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{
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CC_SAFE_FREE ( _trianglesVertex ) ;
CC_SAFE_FREE ( _trianglesIndex ) ;
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CC_SAFE_RELEASE ( _spriteFrame ) ;
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CC_SAFE_RELEASE ( _texture ) ;
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}
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/*
* Texture methods
*/
/*
* This array is the data of a white image with 2 by 2 dimension .
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* It ' s used for creating a default texture when sprite ' s texture is set to nullptr .
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* Supposing codes as follows :
*
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* auto sp = new ( std : : nothrow ) Sprite ( ) ;
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* sp - > init ( ) ; // Texture was set to nullptr, in order to make opacity and color to work correctly, we need to create a 2x2 white texture.
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*
* The test is in " TestCpp/SpriteTest/Sprite without texture " .
*/
static unsigned char cc_2x2_white_image [ ] = {
// RGBA8888
0xFF , 0xFF , 0xFF , 0xFF ,
0xFF , 0xFF , 0xFF , 0xFF ,
0xFF , 0xFF , 0xFF , 0xFF ,
0xFF , 0xFF , 0xFF , 0xFF
} ;
# define CC_2x2_WHITE_IMAGE_KEY " / cc_2x2_white_image"
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// MARK: texture
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void Sprite : : setTexture ( const std : : string & filename )
{
Texture2D * texture = Director : : getInstance ( ) - > getTextureCache ( ) - > addImage ( filename ) ;
setTexture ( texture ) ;
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_unflippedOffsetPositionFromCenter = Vec2 : : ZERO ;
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Rect rect = Rect : : ZERO ;
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if ( texture )
rect . size = texture - > getContentSize ( ) ;
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setTextureRect ( rect ) ;
}
void Sprite : : setTexture ( Texture2D * texture )
{
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if ( _glProgramState = = nullptr )
{
setGLProgramState ( GLProgramState : : getOrCreateWithGLProgramName ( GLProgram : : SHADER_NAME_POSITION_TEXTURE_COLOR_NO_MVP , texture ) ) ;
}
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// If batchnode, then texture id should be the same
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CCASSERT ( ! _batchNode | | ( texture & & texture - > getName ( ) = = _batchNode - > getTexture ( ) - > getName ( ) ) , " CCSprite: Batched sprites should use the same texture as the batchnode " ) ;
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// accept texture==nil as argument
CCASSERT ( ! texture | | dynamic_cast < Texture2D * > ( texture ) , " setTexture expects a Texture2D. Invalid argument " ) ;
if ( texture = = nullptr )
{
// Gets the texture by key firstly.
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texture = _director - > getTextureCache ( ) - > getTextureForKey ( CC_2x2_WHITE_IMAGE_KEY ) ;
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// If texture wasn't in cache, create it from RAW data.
if ( texture = = nullptr )
{
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Image * image = new ( std : : nothrow ) Image ( ) ;
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bool CC_UNUSED isOK = image - > initWithRawData ( cc_2x2_white_image , sizeof ( cc_2x2_white_image ) , 2 , 2 , 8 ) ;
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CCASSERT ( isOK , " The 2x2 empty texture was created unsuccessfully. " ) ;
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texture = _director - > getTextureCache ( ) - > addImage ( image , CC_2x2_WHITE_IMAGE_KEY ) ;
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CC_SAFE_RELEASE ( image ) ;
}
}
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if ( ( _renderMode ! = RenderMode : : QUAD_BATCHNODE ) & & ( _texture ! = texture ) )
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{
CC_SAFE_RETAIN ( texture ) ;
CC_SAFE_RELEASE ( _texture ) ;
_texture = texture ;
updateBlendFunc ( ) ;
}
}
Texture2D * Sprite : : getTexture ( ) const
{
return _texture ;
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}
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void Sprite : : setTextureRect ( const Rect & rect )
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{
setTextureRect ( rect , false , rect . size ) ;
}
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void Sprite : : setTextureRect ( const Rect & rect , bool rotated , const Size & untrimmedSize )
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{
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_rectRotated = rotated ;
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Node : : setContentSize ( untrimmedSize ) ;
_originalContentSize = untrimmedSize ;
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setVertexRect ( rect ) ;
updateStretchFactor ( ) ;
updatePoly ( ) ;
}
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void Sprite : : updatePoly ( )
{
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// There are 3 cases:
//
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// A) a non 9-sliced, non stretched
// contentsize doesn't not affect the stretching, since there is no stretching
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// this was the original behavior, and we keep it for backwards compatibility reasons
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// When non-stretching is enabled, we have to change the offset in order to "fill the empty" space at the
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// left-top of the texture
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// B) non 9-sliced, stretched
// the texture is stretched to the content size
// C) 9-sliced, stretched
// the sprite is 9-sliced and stretched.
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if ( _renderMode = = RenderMode : : QUAD | | _renderMode = = RenderMode : : QUAD_BATCHNODE ) {
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Rect copyRect ;
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if ( _stretchEnabled ) {
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// case B)
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copyRect = Rect ( 0 , 0 , _rect . size . width * _stretchFactor . x , _rect . size . height * _stretchFactor . y ) ;
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} else {
// case A)
// modify origin to put the sprite in the correct offset
copyRect = Rect ( ( _contentSize . width - _originalContentSize . width ) / 2.0f ,
( _contentSize . height - _originalContentSize . height ) / 2.0f ,
_rect . size . width ,
_rect . size . height ) ;
}
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setTextureCoords ( _rect , & _quad ) ;
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setVertexCoords ( copyRect , & _quad ) ;
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_polyInfo . setQuad ( & _quad ) ;
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} else if ( _renderMode = = RenderMode : : SLICE9 ) {
// case C)
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// How the texture is split
//
// u,v: are the texture coordinates
// w,h: are the width and heights
//
// w0 w1 w2
// v2 +----+------+--+
// | | | |
// | | | |
// | 6 | 7 | 8| h2
// | | | |
// v1 +----+------+--|
// | | | |
// | 3 | 4 | 5| h1
// v0 +----+------+--|
// | | | |
// | 0 | 1 | 2| h0
// | | | |
// +----+------+--+
// u0 u1 u2
//
//
// and when the texture is rotated, it will get transformed.
// not only the rects have a different position, but also u,v
// points to the bottom-left and not top-right of the texture
// so some swaping/origin/reordering needs to be done in order
// to support rotated slice-9 correctly
//
// w0 w1 w2
// v2 +------+----+--------+
// | | | |
// | 0 | 3 | 6 | h2
// v1 +------+----+--------+
// | | | |
// | 1 | 4 | 7 | h1
// | | | |
// v0 +------+----+--------+
// | 2 | 5 | 8 | h0
// +------+----+--------+
// u0 u1 u2
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// center rect
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float cx1 = _centerRectNormalized . origin . x ;
float cy1 = _centerRectNormalized . origin . y ;
float cx2 = _centerRectNormalized . origin . x + _centerRectNormalized . size . width ;
float cy2 = _centerRectNormalized . origin . y + _centerRectNormalized . size . height ;
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// "O"riginal rect
const float oox = _rect . origin . x ;
const float ooy = _rect . origin . y ;
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float osw = _rect . size . width ;
float osh = _rect . size . height ;
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if ( _rectRotated ) {
std : : swap ( cx1 , cy1 ) ;
std : : swap ( cx2 , cy2 ) ;
// when the texture is rotated, then the centerRect starts from the "bottom" (left)
// but when it is not rotated, it starts from the top, so invert it
cy2 = 1 - cy2 ;
cy1 = 1 - cy1 ;
std : : swap ( cy1 , cy2 ) ;
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std : : swap ( osw , osh ) ;
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}
//
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// textCoords Data: Y must be inverted.
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//
const float w0 = osw * cx1 ;
const float w1 = osw * ( cx2 - cx1 ) ;
const float w2 = osw * ( 1 - cx2 ) ;
const float h0 = osh * cy1 ;
const float h1 = osh * ( cy2 - cy1 ) ;
const float h2 = osh * ( 1 - cy2 ) ;
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const float u0 = oox ;
const float u1 = u0 + w0 ;
const float u2 = u1 + w1 ;
const float v2 = ooy ;
const float v1 = v2 + h2 ;
const float v0 = v1 + h1 ;
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const Rect texRects_normal [ 9 ] = {
Rect ( u0 , v0 , w0 , h0 ) , // bottom-left
Rect ( u1 , v0 , w1 , h0 ) , // bottom
Rect ( u2 , v0 , w2 , h0 ) , // bottom-right
Rect ( u0 , v1 , w0 , h1 ) , // left
Rect ( u1 , v1 , w1 , h1 ) , // center
Rect ( u2 , v1 , w2 , h1 ) , // right
Rect ( u0 , v2 , w0 , h2 ) , // top-left
Rect ( u1 , v2 , w1 , h2 ) , // top
Rect ( u2 , v2 , w2 , h2 ) , // top-right
} ;
// swap width and height because setTextureCoords()
// will expects the hight and width to be swapped
const Rect texRects_rotated [ 9 ] = {
Rect ( u0 , v2 , h2 , w0 ) , // top-left
Rect ( u0 , v1 , h1 , w0 ) , // left
Rect ( u0 , v0 , h0 , w0 ) , // bottom-left
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Rect ( u1 , v2 , h2 , w1 ) , // top
Rect ( u1 , v1 , h1 , w1 ) , // center
Rect ( u1 , v0 , h0 , w1 ) , // bottom
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Rect ( u2 , v2 , h2 , w2 ) , // top-right
Rect ( u2 , v1 , h1 , w2 ) , // right
Rect ( u2 , v0 , h0 , w2 ) , // bottom-right
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} ;
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const Rect * texRects = _rectRotated ? texRects_rotated : texRects_normal ;
//
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// vertex Data.
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//
// reset center rect since it is altered when when the texture
// is rotated
cx1 = _centerRectNormalized . origin . x ;
cy1 = _centerRectNormalized . origin . y ;
cx2 = _centerRectNormalized . origin . x + _centerRectNormalized . size . width ;
cy2 = _centerRectNormalized . origin . y + _centerRectNormalized . size . height ;
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if ( _rectRotated )
std : : swap ( osw , osh ) ;
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// sizes
float x0_s = osw * cx1 ;
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float x1_s = osw * ( cx2 - cx1 ) * _stretchFactor . x ;
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float x2_s = osw * ( 1 - cx2 ) ;
float y0_s = osh * cy1 ;
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float y1_s = osh * ( cy2 - cy1 ) * _stretchFactor . y ;
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float y2_s = osh * ( 1 - cy2 ) ;
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// avoid negative size:
if ( _contentSize . width < x0_s + x2_s ) {
x2_s = x0_s = _contentSize . width / 2 ;
}
if ( _contentSize . height < y0_s + y2_s ) {
y2_s = y0_s = _contentSize . height / 2 ;
}
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// is it flipped?
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// swap sizes to calculate offset correctly
if ( _flippedX )
std : : swap ( x0_s , x2_s ) ;
if ( _flippedY )
std : : swap ( y0_s , y2_s ) ;
// origins
float x0 = 0 ;
float x1 = x0 + x0_s ;
float x2 = x1 + x1_s ;
float y0 = 0 ;
float y1 = y0 + y0_s ;
float y2 = y1 + y1_s ;
// swap origin, but restore size to its original value
if ( _flippedX ) {
std : : swap ( x0 , x2 ) ;
std : : swap ( x0_s , x2_s ) ;
}
if ( _flippedY ) {
std : : swap ( y0 , y2 ) ;
std : : swap ( y0_s , y2_s ) ;
}
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const Rect verticesRects [ 9 ] = {
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Rect ( x0 , y0 , x0_s , y0_s ) , // bottom-left
Rect ( x1 , y0 , x1_s , y0_s ) , // bottom
Rect ( x2 , y0 , x2_s , y0_s ) , // bottom-right
Rect ( x0 , y1 , x0_s , y1_s ) , // left
Rect ( x1 , y1 , x1_s , y1_s ) , // center
Rect ( x2 , y1 , x2_s , y1_s ) , // right
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Rect ( x0 , y2 , x0_s , y2_s ) , // top-left
Rect ( x1 , y2 , x1_s , y2_s ) , // top
Rect ( x2 , y2 , x2_s , y2_s ) , // top-right
} ;
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// needed in order to get color from "_quad"
V3F_C4B_T2F_Quad tmpQuad = _quad ;
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for ( int i = 0 ; i < 9 ; + + i ) {
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setTextureCoords ( texRects [ i ] , & tmpQuad ) ;
setVertexCoords ( verticesRects [ i ] , & tmpQuad ) ;
populateTriangle ( i , tmpQuad ) ;
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}
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TrianglesCommand : : Triangles triangles ;
triangles . verts = _trianglesVertex ;
triangles . vertCount = 16 ;
triangles . indices = _trianglesIndex ;
triangles . indexCount = 6 * 9 ; // 9 quads, each needs 6 vertices
// probably we can update the _trianglesCommand directly
// to avoid memcpy'ing stuff
_polyInfo . setTriangles ( triangles ) ;
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}
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}
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void Sprite : : setCenterRectNormalized ( const cocos2d : : Rect & rectTopLeft )
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{
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if ( _renderMode ! = RenderMode : : QUAD & & _renderMode ! = RenderMode : : SLICE9 ) {
CCLOGWARN ( " Warning: Sprite::setCenterRectNormalized() only works with QUAD and SLICE9 render modes " ) ;
return ;
}
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// FIMXE: Rect is has origin on top-left (like text coordinate).
// but all the logic has been done using bottom-left as origin. So it is easier to invert Y
// here, than in the rest of the places... but it is not as clean.
Rect rect ( rectTopLeft . origin . x , 1 - rectTopLeft . origin . y - rectTopLeft . size . height , rectTopLeft . size . width , rectTopLeft . size . height ) ;
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if ( ! _centerRectNormalized . equals ( rect ) ) {
_centerRectNormalized = rect ;
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// convert it to 1-slice when the centerRect is not present.
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if ( rect . equals ( Rect ( 0 , 0 , 1 , 1 ) ) ) {
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_renderMode = RenderMode : : QUAD ;
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free ( _trianglesVertex ) ;
free ( _trianglesIndex ) ;
_trianglesVertex = nullptr ;
_trianglesIndex = nullptr ;
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}
else
{
// convert it to 9-slice if it isn't already
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if ( _renderMode ! = RenderMode : : SLICE9 ) {
_renderMode = RenderMode : : SLICE9 ;
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// 9 quads + 7 exterior points = 16
_trianglesVertex = ( V3F_C4B_T2F * ) malloc ( sizeof ( * _trianglesVertex ) * ( 9 + 3 + 4 ) ) ;
// 9 quads, each needs 6 vertices = 54
_trianglesIndex = ( unsigned short * ) malloc ( sizeof ( * _trianglesIndex ) * 6 * 9 ) ;
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// populate indices in CCW direction
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for ( int i = 0 ; i < 9 ; + + i ) {
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_trianglesIndex [ i * 6 + 0 ] = ( i * 4 / 3 ) + 4 ;
_trianglesIndex [ i * 6 + 1 ] = ( i * 4 / 3 ) + 0 ;
_trianglesIndex [ i * 6 + 2 ] = ( i * 4 / 3 ) + 5 ;
_trianglesIndex [ i * 6 + 3 ] = ( i * 4 / 3 ) + 1 ;
_trianglesIndex [ i * 6 + 4 ] = ( i * 4 / 3 ) + 5 ;
_trianglesIndex [ i * 6 + 5 ] = ( i * 4 / 3 ) + 0 ;
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}
}
}
updateStretchFactor ( ) ;
updatePoly ( ) ;
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updateColor ( ) ;
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}
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}
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void Sprite : : setCenterRect ( const cocos2d : : Rect & rectInPoints )
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{
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if ( _renderMode ! = RenderMode : : QUAD & & _renderMode ! = RenderMode : : SLICE9 ) {
CCLOGWARN ( " Warning: Sprite::setCenterRect() only works with QUAD and SLICE9 render modes " ) ;
return ;
}
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if ( ! _originalContentSize . equals ( Size : : ZERO ) )
{
Rect rect = rectInPoints ;
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const float x = rect . origin . x / _rect . size . width ;
const float y = rect . origin . y / _rect . size . height ;
const float w = rect . size . width / _rect . size . width ;
const float h = rect . size . height / _rect . size . height ;
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setCenterRectNormalized ( Rect ( x , y , w , h ) ) ;
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}
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}
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Rect Sprite : : getCenterRectNormalized ( ) const
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{
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// FIXME: _centerRectNormalized is in bottom-left coords, but should converted to top-left
Rect ret ( _centerRectNormalized . origin . x ,
1 - _centerRectNormalized . origin . y - _centerRectNormalized . size . height ,
_centerRectNormalized . size . width ,
_centerRectNormalized . size . height ) ;
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return ret ;
}
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Rect Sprite : : getCenterRect ( ) const
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{
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Rect rect = getCenterRectNormalized ( ) ;
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rect . origin . x * = _rect . size . width ;
rect . origin . y * = _rect . size . height ;
rect . size . width * = _rect . size . width ;
rect . size . height * = _rect . size . height ;
return rect ;
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}
// override this method to generate "double scale" sprites
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void Sprite : : setVertexRect ( const Rect & rect )
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{
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_rect = rect ;
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}
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void Sprite : : setTextureCoords ( const Rect & rectInPoints )
{
setTextureCoords ( rectInPoints , & _quad ) ;
}
void Sprite : : setTextureCoords ( const Rect & rectInPoints , V3F_C4B_T2F_Quad * outQuad )
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{
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Texture2D * tex = ( _renderMode = = RenderMode : : QUAD_BATCHNODE ) ? _textureAtlas - > getTexture ( ) : _texture ;
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if ( tex = = nullptr )
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{
return ;
}
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const auto rectInPixels = CC_RECT_POINTS_TO_PIXELS ( rectInPoints ) ;
const float atlasWidth = ( float ) tex - > getPixelsWide ( ) ;
const float atlasHeight = ( float ) tex - > getPixelsHigh ( ) ;
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float rw = rectInPixels . size . width ;
float rh = rectInPixels . size . height ;
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// if the rect is rotated, it means that the frame is rotated 90 degrees (clockwise) and:
// - rectInpoints: origin will be the bottom-left of the frame (and not the top-right)
// - size: represents the unrotated texture size
//
// so what we have to do is:
// - swap texture width and height
// - take into account the origin
// - flip X instead of Y when flipY is enabled
// - flip Y instead of X when flipX is enabled
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if ( _rectRotated )
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std : : swap ( rw , rh ) ;
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# if CC_FIX_ARTIFACTS_BY_STRECHING_TEXEL
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float left = ( 2 * rectInPixels . origin . x + 1 ) / ( 2 * atlasWidth ) ;
float right = left + ( rw * 2 - 2 ) / ( 2 * atlasWidth ) ;
float top = ( 2 * rectInPixels . origin . y + 1 ) / ( 2 * atlasHeight ) ;
float bottom = top + ( rh * 2 - 2 ) / ( 2 * atlasHeight ) ;
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# else
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float left = rectInPixels . origin . x / atlasWidth ;
float right = ( rectInPixels . origin . x + rw ) / atlasWidth ;
float top = rectInPixels . origin . y / atlasHeight ;
float bottom = ( rectInPixels . origin . y + rh ) / atlasHeight ;
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# endif // CC_FIX_ARTIFACTS_BY_STRECHING_TEXEL
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if ( ( ! _rectRotated & & _flippedX ) | | ( _rectRotated & & _flippedY ) )
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{
std : : swap ( left , right ) ;
}
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if ( ( ! _rectRotated & & _flippedY ) | | ( _rectRotated & & _flippedX ) )
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{
std : : swap ( top , bottom ) ;
}
if ( _rectRotated )
{
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outQuad - > bl . texCoords . u = left ;
outQuad - > bl . texCoords . v = top ;
outQuad - > br . texCoords . u = left ;
outQuad - > br . texCoords . v = bottom ;
outQuad - > tl . texCoords . u = right ;
outQuad - > tl . texCoords . v = top ;
outQuad - > tr . texCoords . u = right ;
outQuad - > tr . texCoords . v = bottom ;
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}
else
{
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outQuad - > bl . texCoords . u = left ;
outQuad - > bl . texCoords . v = bottom ;
outQuad - > br . texCoords . u = right ;
outQuad - > br . texCoords . v = bottom ;
outQuad - > tl . texCoords . u = left ;
outQuad - > tl . texCoords . v = top ;
outQuad - > tr . texCoords . u = right ;
outQuad - > tr . texCoords . v = top ;
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}
}
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void Sprite : : setVertexCoords ( const Rect & rect , V3F_C4B_T2F_Quad * outQuad )
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{
float relativeOffsetX = _unflippedOffsetPositionFromCenter . x ;
float relativeOffsetY = _unflippedOffsetPositionFromCenter . y ;
// issue #732
if ( _flippedX )
{
relativeOffsetX = - relativeOffsetX ;
}
if ( _flippedY )
{
relativeOffsetY = - relativeOffsetY ;
}
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_offsetPosition . x = relativeOffsetX + ( _originalContentSize . width - _rect . size . width ) / 2 ;
_offsetPosition . y = relativeOffsetY + ( _originalContentSize . height - _rect . size . height ) / 2 ;
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// FIXME: Stretching should be applied to the "offset" as well
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// but probably it should be calculated in the caller function. It will be tidier
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if ( _renderMode = = RenderMode : : QUAD ) {
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_offsetPosition . x * = _stretchFactor . x ;
_offsetPosition . y * = _stretchFactor . y ;
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}
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// rendering using batch node
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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{
// update dirty_, don't update recursiveDirty_
setDirty ( true ) ;
}
else
{
// self rendering
// Atlas: Vertex
const float x1 = 0.0f + _offsetPosition . x + rect . origin . x ;
const float y1 = 0.0f + _offsetPosition . y + rect . origin . y ;
const float x2 = x1 + rect . size . width ;
const float y2 = y1 + rect . size . height ;
// Don't update Z.
outQuad - > bl . vertices . set ( x1 , y1 , 0.0f ) ;
outQuad - > br . vertices . set ( x2 , y1 , 0.0f ) ;
outQuad - > tl . vertices . set ( x1 , y2 , 0.0f ) ;
outQuad - > tr . vertices . set ( x2 , y2 , 0.0f ) ;
}
}
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void Sprite : : populateTriangle ( int quadIndex , const V3F_C4B_T2F_Quad & quad )
{
CCASSERT ( quadIndex < 9 , " Invalid quadIndex " ) ;
// convert Quad intro Triangle since it takes less memory
// Triangles are ordered like the following:
// Numbers: Quad Index
// Letters: triangles' vertices
//
// M-----N-----O-----P
// | | | |
// | 6 | 7 | 8 |
// | | | |
// I-----J-----K-----L
// | | | |
// | 3 | 4 | 5 |
// | | | |
// E-----F-----G-----H
// | | | |
// | 0 | 1 | 2 |
// | | | |
// A-----B-----C-----D
//
// So, if QuadIndex == 4, then it should update vertices J,K,F,G
// Optimization: I don't need to copy all the vertices all the time. just the 4 "quads" from the corners.
if ( quadIndex = = 0 | | quadIndex = = 2 | | quadIndex = = 6 | | quadIndex = = 8 )
{
if ( _flippedX ) {
if ( quadIndex % 3 = = 0 )
quadIndex + = 2 ;
else
quadIndex - = 2 ;
}
if ( _flippedY ) {
if ( quadIndex < = 2 )
quadIndex + = 6 ;
else
quadIndex - = 6 ;
}
const int index_bl = quadIndex * 4 / 3 ;
const int index_br = index_bl + 1 ;
const int index_tl = index_bl + 4 ;
const int index_tr = index_bl + 5 ;
_trianglesVertex [ index_tr ] = quad . tr ;
_trianglesVertex [ index_br ] = quad . br ;
_trianglesVertex [ index_tl ] = quad . tl ;
_trianglesVertex [ index_bl ] = quad . bl ;
}
}
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// MARK: visit, draw, transform
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void Sprite : : updateTransform ( void )
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{
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CCASSERT ( _renderMode = = RenderMode : : QUAD_BATCHNODE , " updateTransform is only valid when Sprite is being rendered using an SpriteBatchNode " ) ;
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// recalculate matrix only if it is dirty
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if ( isDirty ( ) ) {
// If it is not visible, or one of its ancestors is not visible, then do nothing:
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if ( ! _visible | | ( _parent & & _parent ! = _batchNode & & static_cast < Sprite * > ( _parent ) - > _shouldBeHidden ) )
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{
Optimize Vec3
small function Vec3 move to Vec3.inl
Added:
add(float xx, float yy, float zz);
setZero();
Change all code:
_vec3 = Vec3(x, y, z); -> _vec3.set(x, y, z);
Vec3 vec3 = Vec3(x, y, z); -> Vec3 vec3(x, y, z);
_vec3 += Vec3(x, y, z); -> _vec3.add(x, y, z);
_vec3 = Vec3::ZERO; -> _vec3.setZero();
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_quad . br . vertices . setZero ( ) ;
_quad . tl . vertices . setZero ( ) ;
_quad . tr . vertices . setZero ( ) ;
_quad . bl . vertices . setZero ( ) ;
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_shouldBeHidden = true ;
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}
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else
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{
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_shouldBeHidden = false ;
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if ( ! _parent | | _parent = = _batchNode )
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{
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_transformToBatch = getNodeToParentTransform ( ) ;
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}
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else
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{
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CCASSERT ( dynamic_cast < Sprite * > ( _parent ) , " Logic error in Sprite. Parent must be a Sprite " ) ;
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const Mat4 & nodeToParent = getNodeToParentTransform ( ) ;
Mat4 & parentTransform = static_cast < Sprite * > ( _parent ) - > _transformToBatch ;
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_transformToBatch = parentTransform * nodeToParent ;
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}
//
// calculate the Quad based on the Affine Matrix
//
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Size & size = _rect . size ;
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float x1 = _offsetPosition . x ;
float y1 = _offsetPosition . y ;
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float x2 = x1 + size . width ;
float y2 = y1 + size . height ;
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float x = _transformToBatch . m [ 12 ] ;
float y = _transformToBatch . m [ 13 ] ;
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float cr = _transformToBatch . m [ 0 ] ;
float sr = _transformToBatch . m [ 1 ] ;
float cr2 = _transformToBatch . m [ 5 ] ;
float sr2 = - _transformToBatch . m [ 4 ] ;
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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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_quad . bl . vertices . set ( SPRITE_RENDER_IN_SUBPIXEL ( ax ) , SPRITE_RENDER_IN_SUBPIXEL ( ay ) , _positionZ ) ;
_quad . br . vertices . set ( SPRITE_RENDER_IN_SUBPIXEL ( bx ) , SPRITE_RENDER_IN_SUBPIXEL ( by ) , _positionZ ) ;
_quad . tl . vertices . set ( SPRITE_RENDER_IN_SUBPIXEL ( dx ) , SPRITE_RENDER_IN_SUBPIXEL ( dy ) , _positionZ ) ;
_quad . tr . vertices . set ( SPRITE_RENDER_IN_SUBPIXEL ( cx ) , SPRITE_RENDER_IN_SUBPIXEL ( cy ) , _positionZ ) ;
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setTextureCoords ( _rect ) ;
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}
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// MARMALADE CHANGE: ADDED CHECK FOR nullptr, TO PERMIT SPRITES WITH NO BATCH NODE / TEXTURE ATLAS
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if ( _textureAtlas )
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{
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_textureAtlas - > updateQuad ( & _quad , _atlasIndex ) ;
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}
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_recursiveDirty = false ;
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setDirty ( false ) ;
}
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// MARMALADE CHANGED
// recursively iterate over children
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/* if( _hasChildren )
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{
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// MARMALADE: CHANGED TO USE Node*
// NOTE THAT WE HAVE ALSO DEFINED virtual Node::updateTransform()
arrayMakeObjectsPerformSelector ( _children , updateTransform , Sprite * ) ;
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} */
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Node : : updateTransform ( ) ;
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}
// draw
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void Sprite : : draw ( Renderer * renderer , const Mat4 & transform , uint32_t flags )
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{
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if ( _texture = = nullptr )
{
return ;
}
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# if CC_USE_CULLING
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// Don't calculate the culling if the transform was not updated
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auto visitingCamera = Camera : : getVisitingCamera ( ) ;
auto defaultCamera = Camera : : getDefaultCamera ( ) ;
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if ( visitingCamera = = nullptr ) {
_insideBounds = true ;
}
else if ( visitingCamera = = defaultCamera ) {
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_insideBounds = ( ( flags & FLAGS_TRANSFORM_DIRTY ) | | visitingCamera - > isViewProjectionUpdated ( ) ) ? renderer - > checkVisibility ( transform , _contentSize ) : _insideBounds ;
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}
else
{
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// XXX: this always return true since
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_insideBounds = renderer - > checkVisibility ( transform , _contentSize ) ;
}
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if ( _insideBounds )
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# endif
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{
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_trianglesCommand . init ( _globalZOrder ,
_texture ,
getGLProgramState ( ) ,
_blendFunc ,
_polyInfo . triangles ,
transform ,
flags ) ;
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renderer - > addCommand ( & _trianglesCommand ) ;
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# if CC_SPRITE_DEBUG_DRAW
_debugDrawNode - > clear ( ) ;
auto count = _polyInfo . triangles . indexCount / 3 ;
auto indices = _polyInfo . triangles . indices ;
auto verts = _polyInfo . triangles . verts ;
for ( ssize_t i = 0 ; i < count ; i + + )
{
//draw 3 lines
Vec3 from = verts [ indices [ i * 3 ] ] . vertices ;
Vec3 to = verts [ indices [ i * 3 + 1 ] ] . vertices ;
_debugDrawNode - > drawLine ( Vec2 ( from . x , from . y ) , Vec2 ( to . x , to . y ) , Color4F : : WHITE ) ;
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from = verts [ indices [ i * 3 + 1 ] ] . vertices ;
to = verts [ indices [ i * 3 + 2 ] ] . vertices ;
_debugDrawNode - > drawLine ( Vec2 ( from . x , from . y ) , Vec2 ( to . x , to . y ) , Color4F : : WHITE ) ;
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from = verts [ indices [ i * 3 + 2 ] ] . vertices ;
to = verts [ indices [ i * 3 ] ] . vertices ;
_debugDrawNode - > drawLine ( Vec2 ( from . x , from . y ) , Vec2 ( to . x , to . y ) , Color4F : : WHITE ) ;
}
# endif //CC_SPRITE_DEBUG_DRAW
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}
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}
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// MARK: visit, draw, transform
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void Sprite : : addChild ( Node * child , int zOrder , int tag )
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{
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CCASSERT ( child ! = nullptr , " Argument must be non-nullptr " ) ;
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if ( child = = nullptr )
{
return ;
}
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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{
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Sprite * childSprite = dynamic_cast < Sprite * > ( child ) ;
CCASSERT ( childSprite , " CCSprite only supports Sprites as children when using SpriteBatchNode " ) ;
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CCASSERT ( childSprite - > getTexture ( ) - > getName ( ) = = _textureAtlas - > getTexture ( ) - > getName ( ) , " childSprite's texture name should be equal to _textureAtlas's texture name! " ) ;
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//put it in descendants array of batch node
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_batchNode - > appendChild ( childSprite ) ;
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if ( ! _reorderChildDirty )
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{
setReorderChildDirtyRecursively ( ) ;
}
}
//CCNode already sets isReorderChildDirty_ so this needs to be after batchNode check
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Node : : addChild ( child , zOrder , tag ) ;
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}
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void Sprite : : addChild ( Node * child , int zOrder , const std : : string & name )
{
CCASSERT ( child ! = nullptr , " Argument must be non-nullptr " ) ;
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if ( child = = nullptr )
{
return ;
}
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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{
Sprite * childSprite = dynamic_cast < Sprite * > ( child ) ;
CCASSERT ( childSprite , " CCSprite only supports Sprites as children when using SpriteBatchNode " ) ;
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CCASSERT ( childSprite - > getTexture ( ) - > getName ( ) = = _textureAtlas - > getTexture ( ) - > getName ( ) ,
" childSprite's texture name should be equal to _textureAtlas's texture name. " ) ;
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//put it in descendants array of batch node
_batchNode - > appendChild ( childSprite ) ;
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if ( ! _reorderChildDirty )
{
setReorderChildDirtyRecursively ( ) ;
}
}
//CCNode already sets isReorderChildDirty_ so this needs to be after batchNode check
Node : : addChild ( child , zOrder , name ) ;
}
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void Sprite : : reorderChild ( Node * child , int zOrder )
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{
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CCASSERT ( child ! = nullptr , " child must be non null " ) ;
CCASSERT ( _children . contains ( child ) , " child does not belong to this " ) ;
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if ( ( _renderMode = = RenderMode : : QUAD_BATCHNODE ) & & ! _reorderChildDirty )
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{
setReorderChildDirtyRecursively ( ) ;
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_batchNode - > reorderBatch ( true ) ;
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}
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Node : : reorderChild ( child , zOrder ) ;
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}
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void Sprite : : removeChild ( Node * child , bool cleanup )
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{
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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{
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_batchNode - > removeSpriteFromAtlas ( ( Sprite * ) ( child ) ) ;
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}
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Node : : removeChild ( child , cleanup ) ;
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}
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void Sprite : : removeAllChildrenWithCleanup ( bool cleanup )
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{
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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{
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for ( const auto & child : _children ) {
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Sprite * sprite = dynamic_cast < Sprite * > ( child ) ;
if ( sprite )
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{
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_batchNode - > removeSpriteFromAtlas ( sprite ) ;
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}
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}
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}
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Node : : removeAllChildrenWithCleanup ( cleanup ) ;
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}
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void Sprite : : sortAllChildren ( )
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{
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if ( _reorderChildDirty )
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{
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sortNodes ( _children ) ;
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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{
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for ( const auto & child : _children )
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child - > sortAllChildren ( ) ;
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}
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_reorderChildDirty = false ;
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}
}
//
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// Node property overloads
// used only when parent is SpriteBatchNode
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//
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void Sprite : : setReorderChildDirtyRecursively ( void )
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{
//only set parents flag the first time
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if ( ! _reorderChildDirty )
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{
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_reorderChildDirty = true ;
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Node * node = static_cast < Node * > ( _parent ) ;
while ( node & & node ! = _batchNode )
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{
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static_cast < Sprite * > ( node ) - > setReorderChildDirtyRecursively ( ) ;
node = node - > getParent ( ) ;
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}
}
}
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void Sprite : : setDirtyRecursively ( bool bValue )
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{
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_recursiveDirty = bValue ;
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setDirty ( bValue ) ;
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for ( const auto & child : _children ) {
Sprite * sp = dynamic_cast < Sprite * > ( child ) ;
if ( sp )
{
sp - > setDirtyRecursively ( true ) ;
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}
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}
}
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// FIXME: HACK: optimization
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# define SET_DIRTY_RECURSIVELY() { \
if ( ! _recursiveDirty ) { \
_recursiveDirty = true ; \
setDirty ( true ) ; \
if ( ! _children . empty ( ) ) \
setDirtyRecursively ( true ) ; \
} \
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}
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void Sprite : : setPosition ( const Vec2 & pos )
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{
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Node : : setPosition ( pos ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setPosition ( float x , float y )
{
Node : : setPosition ( x , y ) ;
SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setRotation ( float rotation )
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{
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Node : : setRotation ( rotation ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setRotationSkewX ( float fRotationX )
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{
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Node : : setRotationSkewX ( fRotationX ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setRotationSkewY ( float fRotationY )
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{
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Node : : setRotationSkewY ( fRotationY ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setSkewX ( float sx )
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{
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Node : : setSkewX ( sx ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setSkewY ( float sy )
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{
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Node : : setSkewY ( sy ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setScaleX ( float scaleX )
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{
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Node : : setScaleX ( scaleX ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setScaleY ( float scaleY )
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{
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Node : : setScaleY ( scaleY ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setScale ( float fScale )
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{
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Node : : setScale ( fScale ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setScale ( float scaleX , float scaleY )
{
Node : : setScale ( scaleX , scaleY ) ;
SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setPositionZ ( float fVertexZ )
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{
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Node : : setPositionZ ( fVertexZ ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setAnchorPoint ( const Vec2 & anchor )
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{
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Node : : setAnchorPoint ( anchor ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setIgnoreAnchorPointForPosition ( bool value )
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{
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CCASSERT ( _renderMode ! = RenderMode : : QUAD_BATCHNODE , " setIgnoreAnchorPointForPosition is invalid in Sprite " ) ;
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Node : : setIgnoreAnchorPointForPosition ( value ) ;
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}
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void Sprite : : setVisible ( bool bVisible )
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{
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Node : : setVisible ( bVisible ) ;
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SET_DIRTY_RECURSIVELY ( ) ;
}
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void Sprite : : setContentSize ( const Size & size )
{
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE | | _renderMode = = RenderMode : : POLYGON )
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CCLOGWARN ( " Sprite::setContentSize() doesn't stretch the sprite when using QUAD_BATCHNODE or POLYGON render modes " ) ;
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Node : : setContentSize ( size ) ;
updateStretchFactor ( ) ;
updatePoly ( ) ;
}
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void Sprite : : setStretchEnabled ( bool enabled )
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{
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if ( _stretchEnabled ! = enabled ) {
_stretchEnabled = enabled ;
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// disabled centerrect / number of slices if disabled
if ( ! enabled )
setCenterRectNormalized ( Rect ( 0 , 0 , 1 , 1 ) ) ;
updateStretchFactor ( ) ;
updatePoly ( ) ;
}
}
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void Sprite : : setStrechEnabled ( bool enabled )
{
setStretchEnabled ( enabled ) ;
}
bool Sprite : : isStretchEnabled ( ) const
{
return _stretchEnabled ;
}
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bool Sprite : : isStrechEnabled ( ) const
{
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return isStretchEnabled ( ) ;
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}
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void Sprite : : updateStretchFactor ( )
{
const Size size = getContentSize ( ) ;
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if ( _renderMode = = RenderMode : : QUAD )
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{
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// If stretch is disabled, calculate the stretch anyway
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// since it is needed to calculate the offset
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const float x_factor = size . width / _originalContentSize . width ;
const float y_factor = size . height / _originalContentSize . height ;
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_stretchFactor = Vec2 ( std : : max ( 0.0f , x_factor ) ,
std : : max ( 0.0f , y_factor ) ) ;
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}
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else if ( _renderMode = = RenderMode : : SLICE9 )
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{
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const float x1 = _rect . size . width * _centerRectNormalized . origin . x ;
const float x2 = _rect . size . width * _centerRectNormalized . size . width ;
const float x3 = _rect . size . width * ( 1 - _centerRectNormalized . origin . x - _centerRectNormalized . size . width ) ;
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const float y1 = _rect . size . height * _centerRectNormalized . origin . y ;
const float y2 = _rect . size . height * _centerRectNormalized . size . height ;
const float y3 = _rect . size . height * ( 1 - _centerRectNormalized . origin . y - _centerRectNormalized . size . height ) ;
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// adjustedSize = the new _rect size
const float adjustedWidth = size . width - ( _originalContentSize . width - _rect . size . width ) ;
const float adjustedHeight = size . height - ( _originalContentSize . height - _rect . size . height ) ;
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const float x_factor = ( adjustedWidth - x1 - x3 ) / x2 ;
const float y_factor = ( adjustedHeight - y1 - y3 ) / y2 ;
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_stretchFactor = Vec2 ( std : : max ( 0.0f , x_factor ) ,
std : : max ( 0.0f , y_factor ) ) ;
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}
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// else:
// Do nothing if renderMode is Polygon
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}
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void Sprite : : setFlippedX ( bool flippedX )
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{
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if ( _flippedX ! = flippedX )
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{
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_flippedX = flippedX ;
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flipX ( ) ;
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}
}
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bool Sprite : : isFlippedX ( void ) const
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{
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return _flippedX ;
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}
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void Sprite : : setFlippedY ( bool flippedY )
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{
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if ( _flippedY ! = flippedY )
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{
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_flippedY = flippedY ;
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flipY ( ) ;
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}
}
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bool Sprite : : isFlippedY ( void ) const
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{
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return _flippedY ;
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}
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void Sprite : : flipX ( ) {
if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
{
setDirty ( true ) ;
}
else if ( _renderMode = = RenderMode : : POLYGON )
{
for ( ssize_t i = 0 ; i < _polyInfo . triangles . vertCount ; i + + ) {
auto & v = _polyInfo . triangles . verts [ i ] . vertices ;
v . x = _contentSize . width - v . x ;
}
}
else
{
// RenderMode:: Quad or Slice9
updatePoly ( ) ;
}
}
void Sprite : : flipY ( ) {
if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
{
setDirty ( true ) ;
}
else if ( _renderMode = = RenderMode : : POLYGON )
{
for ( ssize_t i = 0 ; i < _polyInfo . triangles . vertCount ; i + + ) {
auto & v = _polyInfo . triangles . verts [ i ] . vertices ;
v . y = _contentSize . height - v . y ;
}
}
else
{
// RenderMode:: Quad or Slice9
updatePoly ( ) ;
}
}
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//
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// MARK: RGBA protocol
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//
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void Sprite : : updateColor ( void )
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{
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Color4B color4 ( _displayedColor . r , _displayedColor . g , _displayedColor . b , _displayedOpacity ) ;
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// special opacity for premultiplied textures
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if ( _opacityModifyRGB )
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{
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color4 . r * = _displayedOpacity / 255.0f ;
color4 . g * = _displayedOpacity / 255.0f ;
color4 . b * = _displayedOpacity / 255.0f ;
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}
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for ( ssize_t i = 0 ; i < _polyInfo . triangles . vertCount ; i + + ) {
_polyInfo . triangles . verts [ i ] . colors = color4 ;
}
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// related to issue #17116
// when switching from Quad to Slice9, the color will be obtained from _quad
// so it is important to update _quad colors as well.
_quad . bl . colors = _quad . tl . colors = _quad . br . colors = _quad . tr . colors = color4 ;
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// renders using batch node
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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{
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if ( _atlasIndex ! = INDEX_NOT_INITIALIZED )
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{
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_textureAtlas - > updateQuad ( & _quad , _atlasIndex ) ;
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}
else
{
// no need to set it recursively
// update dirty_, don't update recursiveDirty_
setDirty ( true ) ;
}
}
// self render
// do nothing
}
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void Sprite : : setOpacityModifyRGB ( bool modify )
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{
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if ( _opacityModifyRGB ! = modify )
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{
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_opacityModifyRGB = modify ;
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updateColor ( ) ;
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}
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}
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bool Sprite : : isOpacityModifyRGB ( void ) const
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{
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return _opacityModifyRGB ;
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}
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// MARK: Frames
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void Sprite : : setSpriteFrame ( const std : : string & spriteFrameName )
{
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CCASSERT ( ! spriteFrameName . empty ( ) , " spriteFrameName must not be empty " ) ;
if ( spriteFrameName . empty ( ) )
{
return ;
}
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SpriteFrameCache * cache = SpriteFrameCache : : getInstance ( ) ;
SpriteFrame * spriteFrame = cache - > getSpriteFrameByName ( spriteFrameName ) ;
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CCASSERT ( spriteFrame , std : : string ( " Invalid spriteFrameName : " ) . append ( spriteFrameName ) . c_str ( ) ) ;
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setSpriteFrame ( spriteFrame ) ;
}
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void Sprite : : setSpriteFrame ( SpriteFrame * spriteFrame )
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{
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// retain the sprite frame
// do not removed by SpriteFrameCache::removeUnusedSpriteFrames
if ( _spriteFrame ! = spriteFrame )
{
CC_SAFE_RELEASE ( _spriteFrame ) ;
_spriteFrame = spriteFrame ;
spriteFrame - > retain ( ) ;
}
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_unflippedOffsetPositionFromCenter = spriteFrame - > getOffset ( ) ;
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Texture2D * texture = spriteFrame - > getTexture ( ) ;
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// update texture before updating texture rect
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if ( texture ! = _texture )
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{
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setTexture ( texture ) ;
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}
// update rect
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_rectRotated = spriteFrame - > isRotated ( ) ;
setTextureRect ( spriteFrame - > getRect ( ) , _rectRotated , spriteFrame - > getOriginalSize ( ) ) ;
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if ( spriteFrame - > hasPolygonInfo ( ) )
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{
_polyInfo = spriteFrame - > getPolygonInfo ( ) ;
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_renderMode = RenderMode : : POLYGON ;
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if ( _flippedX ) flipX ( ) ;
if ( _flippedY ) flipY ( ) ;
updateColor ( ) ;
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}
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if ( spriteFrame - > hasAnchorPoint ( ) )
{
setAnchorPoint ( spriteFrame - > getAnchorPoint ( ) ) ;
}
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if ( spriteFrame - > hasCenterRect ( ) )
{
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setCenterRect ( spriteFrame - > getCenterRect ( ) ) ;
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}
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}
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void Sprite : : setDisplayFrameWithAnimationName ( const std : : string & animationName , ssize_t frameIndex )
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{
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CCASSERT ( ! animationName . empty ( ) , " CCSprite#setDisplayFrameWithAnimationName. animationName must not be nullptr " ) ;
if ( animationName . empty ( ) )
{
return ;
}
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Animation * a = AnimationCache : : getInstance ( ) - > getAnimation ( animationName ) ;
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CCASSERT ( a , " CCSprite#setDisplayFrameWithAnimationName: Frame not found " ) ;
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AnimationFrame * frame = a - > getFrames ( ) . at ( frameIndex ) ;
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CCASSERT ( frame , " CCSprite#setDisplayFrame. Invalid frame " ) ;
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setSpriteFrame ( frame - > getSpriteFrame ( ) ) ;
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}
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bool Sprite : : isFrameDisplayed ( SpriteFrame * frame ) const
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{
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Rect r = frame - > getRect ( ) ;
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return ( r . equals ( _rect ) & &
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frame - > getTexture ( ) - > getName ( ) = = _texture - > getName ( ) & &
frame - > getOffset ( ) . equals ( _unflippedOffsetPositionFromCenter ) ) ;
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}
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SpriteFrame * Sprite : : getSpriteFrame ( ) const
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{
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if ( nullptr ! = this - > _spriteFrame )
{
return this - > _spriteFrame ;
}
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return SpriteFrame : : createWithTexture ( _texture ,
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CC_RECT_POINTS_TO_PIXELS ( _rect ) ,
_rectRotated ,
CC_POINT_POINTS_TO_PIXELS ( _unflippedOffsetPositionFromCenter ) ,
CC_SIZE_POINTS_TO_PIXELS ( _originalContentSize ) ) ;
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}
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SpriteBatchNode * Sprite : : getBatchNode ( ) const
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{
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return _batchNode ;
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}
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void Sprite : : setBatchNode ( SpriteBatchNode * spriteBatchNode )
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{
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_batchNode = spriteBatchNode ; // weak reference
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// self render
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if ( ! _batchNode ) {
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if ( _renderMode ! = RenderMode : : SLICE9 ) {
_renderMode = RenderMode : : QUAD ;
}
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_atlasIndex = INDEX_NOT_INITIALIZED ;
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setTextureAtlas ( nullptr ) ;
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_recursiveDirty = false ;
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setDirty ( false ) ;
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float x1 = _offsetPosition . x ;
float y1 = _offsetPosition . y ;
float x2 = x1 + _rect . size . width ;
float y2 = y1 + _rect . size . height ;
Optimize Vec3
small function Vec3 move to Vec3.inl
Added:
add(float xx, float yy, float zz);
setZero();
Change all code:
_vec3 = Vec3(x, y, z); -> _vec3.set(x, y, z);
Vec3 vec3 = Vec3(x, y, z); -> Vec3 vec3(x, y, z);
_vec3 += Vec3(x, y, z); -> _vec3.add(x, y, z);
_vec3 = Vec3::ZERO; -> _vec3.setZero();
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_quad . bl . vertices . set ( x1 , y1 , 0 ) ;
_quad . br . vertices . set ( x2 , y1 , 0 ) ;
_quad . tl . vertices . set ( x1 , y2 , 0 ) ;
_quad . tr . vertices . set ( x2 , y2 , 0 ) ;
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} else {
// using batch
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_renderMode = RenderMode : : QUAD_BATCHNODE ;
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_transformToBatch = Mat4 : : IDENTITY ;
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setTextureAtlas ( _batchNode - > getTextureAtlas ( ) ) ; // weak ref
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}
}
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// MARK: Texture protocol
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void Sprite : : updateBlendFunc ( void )
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{
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CCASSERT ( _renderMode ! = RenderMode : : QUAD_BATCHNODE , " CCSprite: updateBlendFunc doesn't work when the sprite is rendered using a SpriteBatchNode " ) ;
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// it is possible to have an untextured sprite
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if ( ! _texture | | ! _texture - > hasPremultipliedAlpha ( ) )
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{
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_blendFunc = BlendFunc : : ALPHA_NON_PREMULTIPLIED ;
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setOpacityModifyRGB ( false ) ;
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}
else
{
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_blendFunc = BlendFunc : : ALPHA_PREMULTIPLIED ;
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setOpacityModifyRGB ( true ) ;
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}
}
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std : : string Sprite : : getDescription ( ) const
{
int texture_id = - 1 ;
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if ( _renderMode = = RenderMode : : QUAD_BATCHNODE )
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texture_id = _batchNode - > getTextureAtlas ( ) - > getTexture ( ) - > getName ( ) ;
else
texture_id = _texture - > getName ( ) ;
return StringUtils : : format ( " <Sprite | Tag = %d, TextureID = %d> " , _tag , texture_id ) ;
}
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const PolygonInfo & Sprite : : getPolygonInfo ( ) const
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{
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return _polyInfo ;
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}
void Sprite : : setPolygonInfo ( const PolygonInfo & info )
{
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_polyInfo = info ;
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_renderMode = RenderMode : : POLYGON ;
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}
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NS_CC_END