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/*
* Copyright ( C ) 2009 Matt Oswald
* Copyright ( c ) 2009 - 2010 Ricardo Quesada
* Copyright ( c ) 2010 - 2012 cocos2d - x . org
* Copyright ( c ) 2011 Zynga Inc .
* Copyright ( c ) 2011 Marco Tillemans
* Copyright ( c ) 2013 - 2016 Chukong Technologies Inc .
* Copyright ( c ) 2017 - 2018 Xiamen Yaji Software Co . , Ltd .
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* Copyright ( c ) 2020 - 2021 C4games . com .
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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 .
*
*/
# include "2d/CCParticleBatchNode.h"
# include <stddef.h> // offsetof
# include "base/ccTypes.h"
# include "2d/CCGrid.h"
# include "2d/CCParticleSystem.h"
# include "renderer/CCTextureCache.h"
# include "renderer/CCQuadCommand.h"
# include "renderer/CCRenderer.h"
# include "renderer/CCTextureAtlas.h"
# include "base/CCProfiling.h"
# include "base/ccUTF8.h"
# include "base/ccUtils.h"
# include "renderer/ccShaders.h"
# include "renderer/backend/ProgramState.h"
NS_CC_BEGIN
ParticleBatchNode : : ParticleBatchNode ( )
{
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auto & pipelinePS = _customCommand . getPipelineDescriptor ( ) . programState ;
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auto * program = backend : : Program : : getBuiltinProgram ( backend : : ProgramType : : POSITION_TEXTURE_COLOR ) ;
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//!!! ParticleBatchNode private programState don't want affect by Node::_programState, so store at _customCommand
//!!! support etc1 with alpha?
pipelinePS = new ( std : : nothrow ) backend : : ProgramState ( program ) ;
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_mvpMatrixLocaiton = pipelinePS - > getUniformLocation ( " u_MVPMatrix " ) ;
_textureLocation = pipelinePS - > getUniformLocation ( " u_texture " ) ;
auto layout = pipelinePS - > getVertexLayout ( ) ;
const auto & attributeInfo = pipelinePS - > getProgram ( ) - > getActiveAttributes ( ) ;
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auto iter = attributeInfo . find ( " a_position " ) ;
if ( iter ! = attributeInfo . end ( ) )
{
layout - > setAttribute ( " a_position " , iter - > second . location , backend : : VertexFormat : : FLOAT3 , 0 , false ) ;
}
iter = attributeInfo . find ( " a_texCoord " ) ;
if ( iter ! = attributeInfo . end ( ) )
{
layout - > setAttribute ( " a_texCoord " , iter - > second . location , backend : : VertexFormat : : FLOAT2 , offsetof ( V3F_C4B_T2F , texCoords ) , false ) ;
}
iter = attributeInfo . find ( " a_color " ) ;
if ( iter ! = attributeInfo . end ( ) )
{
layout - > setAttribute ( " a_color " , iter - > second . location , backend : : VertexFormat : : UBYTE4 , offsetof ( V3F_C4B_T2F , colors ) , true ) ;
}
layout - > setLayout ( sizeof ( V3F_C4B_T2F ) ) ;
_customCommand . setDrawType ( CustomCommand : : DrawType : : ELEMENT ) ;
_customCommand . setPrimitiveType ( CustomCommand : : PrimitiveType : : TRIANGLE ) ;
}
ParticleBatchNode : : ~ ParticleBatchNode ( )
{
CC_SAFE_RELEASE ( _textureAtlas ) ;
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CC_SAFE_RELEASE ( _customCommand . getPipelineDescriptor ( ) . programState ) ;
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}
/*
* creation with Texture2D
*/
ParticleBatchNode * ParticleBatchNode : : createWithTexture ( Texture2D * tex , int capacity /* = kParticleDefaultCapacity*/ )
{
ParticleBatchNode * p = new ( std : : nothrow ) ParticleBatchNode ( ) ;
if ( p & & p - > initWithTexture ( tex , capacity ) )
{
p - > autorelease ( ) ;
return p ;
}
CC_SAFE_DELETE ( p ) ;
return nullptr ;
}
/*
* creation with File Image
*/
ParticleBatchNode * ParticleBatchNode : : create ( const std : : string & imageFile , int capacity /* = kParticleDefaultCapacity*/ )
{
ParticleBatchNode * p = new ( std : : nothrow ) ParticleBatchNode ( ) ;
if ( p & & p - > initWithFile ( imageFile , capacity ) )
{
p - > autorelease ( ) ;
return p ;
}
CC_SAFE_DELETE ( p ) ;
return nullptr ;
}
/*
* init with Texture2D
*/
bool ParticleBatchNode : : initWithTexture ( Texture2D * tex , int capacity )
{
_textureAtlas = new ( std : : nothrow ) TextureAtlas ( ) ;
_textureAtlas - > initWithTexture ( tex , capacity ) ;
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updateProgramStateTexture ( ) ;
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_children . reserve ( capacity ) ;
_blendFunc = BlendFunc : : ALPHA_PREMULTIPLIED ;
return true ;
}
/*
* init with FileImage
*/
bool ParticleBatchNode : : initWithFile ( const std : : string & fileImage , int capacity )
{
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Texture2D * tex = _director - > getTextureCache ( ) - > addImage ( fileImage ) ;
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return initWithTexture ( tex , capacity ) ;
}
// ParticleBatchNode - composition
// override visit.
// Don't call visit on it's children
void ParticleBatchNode : : visit ( Renderer * renderer , const Mat4 & parentTransform , uint32_t parentFlags )
{
// CAREFUL:
// This visit is almost identical to Node#visit
// with the exception that it doesn't call visit on it's children
//
// The alternative is to have a void Sprite#visit, but
// although this is less maintainable, is faster
//
if ( ! _visible )
{
return ;
}
uint32_t flags = processParentFlags ( parentTransform , parentFlags ) ;
if ( isVisitableByVisitingCamera ( ) )
{
// IMPORTANT:d
// To ease the migration to v3.0, we still support the Mat4 stack,
// but it is deprecated and your code should not rely on it
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_director - > pushMatrix ( MATRIX_STACK_TYPE : : MATRIX_STACK_MODELVIEW ) ;
_director - > loadMatrix ( MATRIX_STACK_TYPE : : MATRIX_STACK_MODELVIEW , _modelViewTransform ) ;
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draw ( renderer , _modelViewTransform , flags ) ;
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_director - > popMatrix ( MATRIX_STACK_TYPE : : MATRIX_STACK_MODELVIEW ) ;
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}
}
// override addChild:
void ParticleBatchNode : : addChild ( Node * aChild , int zOrder , int tag )
{
CCASSERT ( aChild ! = nullptr , " Argument must be non-nullptr " ) ;
CCASSERT ( dynamic_cast < ParticleSystem * > ( aChild ) ! = nullptr , " CCParticleBatchNode only supports QuadParticleSystems as children " ) ;
ParticleSystem * child = static_cast < ParticleSystem * > ( aChild ) ;
CCASSERT ( child - > getTexture ( ) - > getBackendTexture ( ) = = _textureAtlas - > getTexture ( ) - > getBackendTexture ( ) , " CCParticleSystem is not using the same texture id " ) ;
addChildByTagOrName ( child , zOrder , tag , " " , true ) ;
}
void ParticleBatchNode : : addChild ( Node * aChild , int zOrder , const std : : string & name )
{
CCASSERT ( aChild ! = nullptr , " Argument must be non-nullptr " ) ;
CCASSERT ( dynamic_cast < ParticleSystem * > ( aChild ) ! = nullptr , " CCParticleBatchNode only supports QuadParticleSystems as children " ) ;
ParticleSystem * child = static_cast < ParticleSystem * > ( aChild ) ;
CCASSERT ( child - > getTexture ( ) - > getBackendTexture ( ) = = _textureAtlas - > getTexture ( ) - > getBackendTexture ( ) , " CCParticleSystem is not using the same texture id " ) ;
addChildByTagOrName ( child , zOrder , 0 , name , false ) ;
}
void ParticleBatchNode : : addChildByTagOrName ( ParticleSystem * child , int zOrder , int tag , const std : : string & name , bool setTag )
{
// If this is the 1st children, then copy blending function
if ( _children . empty ( ) )
{
setBlendFunc ( child - > getBlendFunc ( ) ) ;
}
CCASSERT ( _blendFunc . src = = child - > getBlendFunc ( ) . src & & _blendFunc . dst = = child - > getBlendFunc ( ) . dst , " Can't add a ParticleSystem that uses a different blending function " ) ;
//no lazy sorting, so don't call super addChild, call helper instead
int pos = 0 ;
if ( setTag )
pos = addChildHelper ( child , zOrder , tag , " " , true ) ;
else
pos = addChildHelper ( child , zOrder , 0 , name , false ) ;
//get new atlasIndex
int atlasIndex = 0 ;
if ( pos ! = 0 )
{
ParticleSystem * p = static_cast < ParticleSystem * > ( _children . at ( pos - 1 ) ) ;
atlasIndex = p - > getAtlasIndex ( ) + p - > getTotalParticles ( ) ;
}
else
{
atlasIndex = 0 ;
}
insertChild ( child , atlasIndex ) ;
// update quad info
child - > setBatchNode ( this ) ;
}
// don't use lazy sorting, reordering the particle systems quads afterwards would be too complex
// FIXME: research whether lazy sorting + freeing current quads and calloc a new block with size of capacity would be faster
// FIXME: or possibly using vertexZ for reordering, that would be fastest
// this helper is almost equivalent to Node's addChild, but doesn't make use of the lazy sorting
int ParticleBatchNode : : addChildHelper ( ParticleSystem * child , int z , int aTag , const std : : string & name , bool setTag )
{
CCASSERT ( child ! = nullptr , " Argument must be non-nil " ) ;
CCASSERT ( child - > getParent ( ) = = nullptr , " child already added. It can't be added again " ) ;
_children . reserve ( 4 ) ;
//don't use a lazy insert
auto pos = searchNewPositionInChildrenForZ ( z ) ;
_children . insert ( pos , child ) ;
if ( setTag )
child - > setTag ( aTag ) ;
else
child - > setName ( name ) ;
child - > setLocalZOrder ( z ) ;
child - > setParent ( this ) ;
if ( _running )
{
child - > onEnter ( ) ;
child - > onEnterTransitionDidFinish ( ) ;
}
return pos ;
}
// Reorder will be done in this function, no "lazy" reorder to particles
void ParticleBatchNode : : reorderChild ( Node * aChild , int zOrder )
{
CCASSERT ( aChild ! = nullptr , " Child must be non-nullptr " ) ;
CCASSERT ( dynamic_cast < ParticleSystem * > ( aChild ) ! = nullptr , " CCParticleBatchNode only supports QuadParticleSystems as children " ) ;
CCASSERT ( _children . contains ( aChild ) , " Child doesn't belong to batch " ) ;
ParticleSystem * child = static_cast < ParticleSystem * > ( aChild ) ;
if ( zOrder = = child - > getLocalZOrder ( ) )
{
return ;
}
// no reordering if only 1 child
if ( ! _children . empty ( ) )
{
int newIndex = 0 , oldIndex = 0 ;
getCurrentIndex ( & oldIndex , & newIndex , child , zOrder ) ;
if ( oldIndex ! = newIndex )
{
// reorder _children->array
child - > retain ( ) ;
_children . erase ( oldIndex ) ;
_children . insert ( newIndex , child ) ;
child - > release ( ) ;
// save old altasIndex
int oldAtlasIndex = child - > getAtlasIndex ( ) ;
// update atlas index
updateAllAtlasIndexes ( ) ;
// Find new AtlasIndex
int newAtlasIndex = 0 ;
for ( const auto & iter : _children )
{
auto node = static_cast < ParticleSystem * > ( iter ) ;
if ( node = = child )
{
newAtlasIndex = child - > getAtlasIndex ( ) ;
break ;
}
}
// reorder textureAtlas quads
_textureAtlas - > moveQuadsFromIndex ( oldAtlasIndex , child - > getTotalParticles ( ) , newAtlasIndex ) ;
child - > updateWithNoTime ( ) ;
}
}
child - > setLocalZOrder ( zOrder ) ;
}
void ParticleBatchNode : : getCurrentIndex ( int * oldIndex , int * newIndex , Node * child , int z )
{
bool foundCurrentIdx = false ;
bool foundNewIdx = false ;
int minusOne = 0 ;
auto count = _children . size ( ) ;
for ( int i = 0 ; i < count ; i + + )
{
Node * pNode = _children . at ( i ) ;
// new index
if ( pNode - > getLocalZOrder ( ) > z & & ! foundNewIdx )
{
* newIndex = i ;
foundNewIdx = true ;
if ( foundCurrentIdx & & foundNewIdx )
{
break ;
}
}
// current index
if ( child = = pNode )
{
* oldIndex = i ;
foundCurrentIdx = true ;
if ( ! foundNewIdx )
{
minusOne = - 1 ;
}
if ( foundCurrentIdx & & foundNewIdx )
{
break ;
}
}
}
if ( ! foundNewIdx )
{
* newIndex = static_cast < int > ( count ) ;
}
* newIndex + = minusOne ;
}
int ParticleBatchNode : : searchNewPositionInChildrenForZ ( int z )
{
auto count = _children . size ( ) ;
for ( int i = 0 ; i < count ; i + + )
{
Node * child = _children . at ( i ) ;
if ( child - > getLocalZOrder ( ) > z )
{
return i ;
}
}
return static_cast < int > ( count ) ;
}
// override removeChild:
void ParticleBatchNode : : removeChild ( Node * aChild , bool cleanup )
{
// explicit nil handling
if ( aChild = = nullptr )
return ;
CCASSERT ( dynamic_cast < ParticleSystem * > ( aChild ) ! = nullptr , " CCParticleBatchNode only supports QuadParticleSystems as children " ) ;
CCASSERT ( _children . contains ( aChild ) , " CCParticleBatchNode doesn't contain the sprite. Can't remove it " ) ;
ParticleSystem * child = static_cast < ParticleSystem * > ( aChild ) ;
// remove child helper
_textureAtlas - > removeQuadsAtIndex ( child - > getAtlasIndex ( ) , child - > getTotalParticles ( ) ) ;
// after memmove of data, empty the quads at the end of array
_textureAtlas - > fillWithEmptyQuadsFromIndex ( _textureAtlas - > getTotalQuads ( ) , child - > getTotalParticles ( ) ) ;
// particle could be reused for self rendering
child - > setBatchNode ( nullptr ) ;
Node : : removeChild ( child , cleanup ) ;
updateAllAtlasIndexes ( ) ;
}
void ParticleBatchNode : : removeChildAtIndex ( int index , bool doCleanup )
{
removeChild ( _children . at ( index ) , doCleanup ) ;
}
void ParticleBatchNode : : removeAllChildrenWithCleanup ( bool doCleanup )
{
for ( const auto & child : _children )
static_cast < ParticleSystem * > ( child ) - > setBatchNode ( nullptr ) ;
Node : : removeAllChildrenWithCleanup ( doCleanup ) ;
_textureAtlas - > removeAllQuads ( ) ;
}
void ParticleBatchNode : : draw ( Renderer * renderer , const Mat4 & transform , uint32_t flags )
{
CC_PROFILER_START ( " CCParticleBatchNode - draw " ) ;
if ( _textureAtlas - > getTotalQuads ( ) = = 0 )
return ;
_customCommand . init ( _globalZOrder , _blendFunc ) ;
// Texture is set in TextureAtlas.
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const cocos2d : : Mat4 & projectionMat = _director - > getMatrix ( MATRIX_STACK_TYPE : : MATRIX_STACK_PROJECTION ) ;
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Mat4 finalMat = projectionMat * transform ;
auto programState = _customCommand . getPipelineDescriptor ( ) . programState ;
programState - > setUniform ( _mvpMatrixLocaiton , finalMat . m , sizeof ( finalMat . m ) ) ;
if ( _textureAtlas - > isDirty ( ) )
{
const auto & quads = _textureAtlas - > getQuads ( ) ;
unsigned int capacity = ( unsigned int ) _textureAtlas - > getCapacity ( ) ;
const auto & indices = _textureAtlas - > getIndices ( ) ;
_customCommand . createVertexBuffer ( ( unsigned int ) ( sizeof ( quads [ 0 ] ) ) , capacity , CustomCommand : : BufferUsage : : STATIC ) ;
_customCommand . updateVertexBuffer ( quads , sizeof ( quads [ 0 ] ) * capacity ) ;
_customCommand . createIndexBuffer ( CustomCommand : : IndexFormat : : U_SHORT , capacity * 6 , CustomCommand : : BufferUsage : : STATIC ) ;
_customCommand . updateIndexBuffer ( indices , sizeof ( indices [ 0 ] ) * capacity * 6 ) ;
}
renderer - > addCommand ( & _customCommand ) ;
CC_PROFILER_STOP ( " CCParticleBatchNode - draw " ) ;
}
void ParticleBatchNode : : increaseAtlasCapacityTo ( ssize_t quantity )
{
CCLOG ( " cocos2d: ParticleBatchNode: resizing TextureAtlas capacity from [%lu] to [%lu]. " ,
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( int32_t ) _textureAtlas - > getCapacity ( ) ,
( int32_t ) quantity ) ;
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if ( ! _textureAtlas - > resizeCapacity ( quantity ) ) {
// serious problems
CCLOGWARN ( " cocos2d: WARNING: Not enough memory to resize the atlas " ) ;
CCASSERT ( false , " XXX: ParticleBatchNode #increaseAtlasCapacity SHALL handle this assert " ) ;
}
}
//sets a 0'd quad into the quads array
void ParticleBatchNode : : disableParticle ( int particleIndex )
{
V3F_C4B_T2F_Quad * quad = & ( ( _textureAtlas - > getQuads ( ) ) [ particleIndex ] ) ;
quad - > br . vertices . x = quad - > br . vertices . y = quad - > tr . vertices . x = quad - > tr . vertices . y = quad - > tl . vertices . x = quad - > tl . vertices . y = quad - > bl . vertices . x = quad - > bl . vertices . y = 0.0f ;
}
// ParticleBatchNode - add / remove / reorder helper methods
// add child helper
void ParticleBatchNode : : insertChild ( ParticleSystem * system , int index )
{
system - > setAtlasIndex ( index ) ;
if ( _textureAtlas - > getTotalQuads ( ) + system - > getTotalParticles ( ) > _textureAtlas - > getCapacity ( ) )
{
increaseAtlasCapacityTo ( _textureAtlas - > getTotalQuads ( ) + system - > getTotalParticles ( ) ) ;
// after a realloc empty quads of textureAtlas can be filled with gibberish (realloc doesn't perform calloc), insert empty quads to prevent it
_textureAtlas - > fillWithEmptyQuadsFromIndex ( _textureAtlas - > getCapacity ( ) - system - > getTotalParticles ( ) , system - > getTotalParticles ( ) ) ;
}
// make room for quads, not necessary for last child
if ( system - > getAtlasIndex ( ) + system - > getTotalParticles ( ) ! = _textureAtlas - > getTotalQuads ( ) )
{
_textureAtlas - > moveQuadsFromIndex ( index , index + system - > getTotalParticles ( ) ) ;
}
// increase totalParticles here for new particles, update method of particle-system will fill the quads
_textureAtlas - > increaseTotalQuadsWith ( system - > getTotalParticles ( ) ) ;
updateAllAtlasIndexes ( ) ;
}
//rebuild atlas indexes
void ParticleBatchNode : : updateAllAtlasIndexes ( )
{
int index = 0 ;
for ( const auto & child : _children ) {
ParticleSystem * partiSys = static_cast < ParticleSystem * > ( child ) ;
partiSys - > setAtlasIndex ( index ) ;
index + = partiSys - > getTotalParticles ( ) ;
}
}
// ParticleBatchNode - CocosNodeTexture protocol
void ParticleBatchNode : : updateBlendFunc ( )
{
if ( ! _textureAtlas - > getTexture ( ) - > hasPremultipliedAlpha ( ) )
_blendFunc = BlendFunc : : ALPHA_NON_PREMULTIPLIED ;
}
void ParticleBatchNode : : setTexture ( Texture2D * texture )
{
_textureAtlas - > setTexture ( texture ) ;
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updateProgramStateTexture ( ) ;
}
void ParticleBatchNode : : updateProgramStateTexture ( )
{
auto texture = _textureAtlas - > getTexture ( ) ;
if ( ! texture )
return ;
auto programState = _customCommand . getPipelineDescriptor ( ) . programState ;
programState - > setTexture ( texture - > getBackendTexture ( ) ) ;
// If the new texture has No premultiplied alpha, AND the blendFunc hasn't been changed, then update it
if ( ! texture - > hasPremultipliedAlpha ( ) & & ( _blendFunc . src = = CC_BLEND_SRC & & _blendFunc . dst = = CC_BLEND_DST ) )
_blendFunc = BlendFunc : : ALPHA_NON_PREMULTIPLIED ;
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}
Texture2D * ParticleBatchNode : : getTexture ( ) const
{
return _textureAtlas - > getTexture ( ) ;
}
void ParticleBatchNode : : setBlendFunc ( const BlendFunc & blendFunc )
{
_blendFunc = blendFunc ;
}
// returns the blending function used for the texture
const BlendFunc & ParticleBatchNode : : getBlendFunc ( ) const
{
return _blendFunc ;
}
NS_CC_END