public CCParticleSystemQuad Clone()
{
var p = new CCParticleSystemQuad();
p.InitWithTotalParticles(m_uTotalParticles);
// angle
p.m_fAngle = m_fAngle;
p.m_fAngleVar = m_fAngleVar;
// duration
p.m_fDuration = m_fDuration;
// blend function
p.m_tBlendFunc = m_tBlendFunc;
// color
p.m_tStartColor = m_tStartColor;
p.m_tStartColorVar = m_tStartColorVar;
p.m_tEndColor = m_tEndColor;
p.m_tEndColorVar = m_tEndColorVar;
// particle size
p.m_fStartSize = m_fStartSize;
p.m_fStartSizeVar = m_fStartSizeVar;
p.m_fEndSize = m_fEndSize;
p.m_fEndSizeVar = m_fEndSizeVar;
// position
p.Position = Position;
p.m_tPosVar = m_tPosVar;
// Spinning
p.m_fStartSpin = m_fStartSpin;
p.m_fStartSpinVar = m_fStartSpinVar;
p.m_fEndSpin = m_fEndSpin;
p.m_fEndSpinVar = m_fEndSpinVar;
p.m_nEmitterMode = m_nEmitterMode;
p.modeA = modeA;
p.modeB = modeB;
// life span
p.m_fLife = m_fLife;
p.m_fLifeVar = m_fLifeVar;
// emission Rate
p.m_fEmissionRate = m_fEmissionRate;
p.m_bOpacityModifyRGB = m_bOpacityModifyRGB;
p.m_pTexture = m_pTexture;
p.AutoRemoveOnFinish = AutoRemoveOnFinish;
return(p);
}
public override void OnEnter()
{
base.OnEnter();
m_emitter = new CCParticleSystemQuad();
m_emitter.InitWithTotalParticles(1000);
//m_emitter.autorelease();
m_background.AddChild(m_emitter, 10);
////m_emitter.release();
CCSize s = CCDirector.SharedDirector.WinSize;
// duration
m_emitter.Duration = -1;
// gravity
m_emitter.Gravity = (new CCPoint(0, 0));
// angle
m_emitter.Angle = 0;
m_emitter.AngleVar = 360;
// radial
m_emitter.RadialAccel = (70);
m_emitter.RadialAccelVar = (10);
// tagential
m_emitter.TangentialAccel = (80);
m_emitter.TangentialAccelVar = (0);
// speed of particles
m_emitter.Speed = (50);
m_emitter.SpeedVar = (10);
// emitter position
m_emitter.Position = new CCPoint(s.Width / 2, s.Height / 2);
m_emitter.PosVar = new CCPoint(0, 0);
// life of particles
m_emitter.Life = 2.0f;
m_emitter.LifeVar = 0.3f;
// emits per frame
m_emitter.EmissionRate = m_emitter.TotalParticles / m_emitter.Life;
// color of particles
var startColor = new CCColor4F(0.5f, 0.5f, 0.5f, 1.0f);
m_emitter.StartColor = startColor;
var startColorVar = new CCColor4F(0.5f, 0.5f, 0.5f, 1.0f);
m_emitter.StartColorVar = startColorVar;
var endColor = new CCColor4F(0.1f, 0.1f, 0.1f, 0.2f);
m_emitter.EndColor = endColor;
var endColorVar = new CCColor4F(0.1f, 0.1f, 0.1f, 0.2f);
m_emitter.EndColorVar = endColorVar;
// size, in pixels
m_emitter.StartSize = 1.0f;
m_emitter.StartSizeVar = 1.0f;
m_emitter.EndSize = 32.0f;
m_emitter.EndSizeVar = 8.0f;
// texture
m_emitter.Texture = CCTextureCache.SharedTextureCache.AddImage(TestResource.s_fire);
// additive
m_emitter.BlendAdditive = false;
setEmitterPosition();
}
public override void OnEnter()
{
base.OnEnter();
m_emitter = new CCParticleSystemQuad();
m_emitter.InitWithTotalParticles(300);
//m_emitter.autorelease();
m_background.AddChild(m_emitter, 10);
////m_emitter.release(); // win32 : Remove this line
m_emitter.Texture = CCTextureCache.SharedTextureCache.AddImage(TestResource.s_stars2);
// duration
m_emitter.Duration = -1;
// gravity
m_emitter.Gravity = (new CCPoint(0, 0));
// angle
m_emitter.Angle = 90;
m_emitter.AngleVar = 360;
// speed of particles
m_emitter.Speed = (160);
m_emitter.SpeedVar = (20);
// radial
m_emitter.RadialAccel = (-120);
m_emitter.RadialAccelVar = (0);
// tagential
m_emitter.TangentialAccel = (30);
m_emitter.TangentialAccelVar = (0);
// emitter position
m_emitter.Position = new CCPoint(160, 240);
m_emitter.PosVar = new CCPoint(0, 0);
// life of particles
m_emitter.Life = 3;
m_emitter.LifeVar = 1;
// spin of particles
m_emitter.StartSpin = 0;
m_emitter.StartSpinVar = 0;
m_emitter.EndSpin = 0;
m_emitter.EndSpinVar = 2000;
// color of particles
var startColor = new CCColor4F(0.5f, 0.5f, 0.5f, 1.0f);
m_emitter.StartColor = startColor;
var startColorVar = new CCColor4F(0.5f, 0.5f, 0.5f, 1.0f);
m_emitter.StartColorVar = startColorVar;
var endColor = new CCColor4F(0.1f, 0.1f, 0.1f, 0.2f);
m_emitter.EndColor = endColor;
var endColorVar = new CCColor4F(0.1f, 0.1f, 0.1f, 0.2f);
m_emitter.EndColorVar = endColorVar;
// size, in pixels
m_emitter.StartSize = 30.0f;
m_emitter.StartSizeVar = 00.0f;
m_emitter.EndSize = CCParticleSystem.kParticleStartSizeEqualToEndSize;
// emits per second
m_emitter.EmissionRate = m_emitter.TotalParticles / m_emitter.Life;
// additive
m_emitter.BlendAdditive = false;
setEmitterPosition();
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
m_emitter = new CCParticleSystemQuad("Particles/TestPremultipliedAlpha");
AddChild(m_emitter, 10);
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
m_emitter = new CCParticleSystemQuad("Particles/BoilingFoam");
// Particle Designer "normal" blend func causes black halo on premul textures (ignores multiplication)
//this->emitter.blendFunc = (ccBlendFunc){ GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA };
// Cocos2d "normal" blend func for premul causes alpha to be ignored (oversaturates colors)
var tBlendFunc = new CCBlendFunc(CCOGLES.GL_ONE, CCOGLES.GL_ONE_MINUS_SRC_ALPHA);
m_emitter.BlendFunc = tBlendFunc;
//Debug.Assert(m_emitter.OpacityModifyRGB, "Particle texture does not have premultiplied alpha, test is useless");
// Toggle next line to see old behavior
// this->emitter.opacityModifyRGB = NO;
m_emitter.StartColor = new CCColor4F(1, 1, 1, 1);
m_emitter.EndColor = new CCColor4F(1, 1, 1, 0);
m_emitter.StartColorVar = new CCColor4F(0, 0, 0, 0);
m_emitter.EndColorVar = new CCColor4F(0, 0, 0, 0);
AddChild(m_emitter, 10);
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
m_pBatchNode = new CCParticleBatchNode("Images/stars-grayscale", 3000);
AddChild(m_pBatchNode, 1, 2);
for (int i = 0; i < 3; i++)
{
var particleSystem = new CCParticleSystemQuad();
particleSystem.InitWithTotalParticles(200);
particleSystem.Texture = (m_pBatchNode.Texture);
// duration
particleSystem.Duration = CCParticleSystem.kCCParticleDurationInfinity;
// radius mode
particleSystem.EmitterMode = CCEmitterMode.Radius;
// radius mode: 100 pixels from center
particleSystem.StartRadius = (100);
particleSystem.StartRadiusVar = (0);
particleSystem.EndRadius = (CCParticleSystem.kCCParticleStartRadiusEqualToEndRadius);
particleSystem.EndRadiusVar = (0); // not used when start == end
// radius mode: degrees per second
// 45 * 4 seconds of life = 180 degrees
particleSystem.RotatePerSecond = (45);
particleSystem.RotatePerSecondVar = (0);
// angle
particleSystem.Angle = (90);
particleSystem.AngleVar = (0);
// emitter position
particleSystem.PosVar = (CCPoint.Zero);
// life of particles
particleSystem.Life = (4);
particleSystem.LifeVar = (0);
// spin of particles
particleSystem.StartSpin = (0);
particleSystem.StartSpinVar = (0);
particleSystem.EndSpin = (0);
particleSystem.EndSpinVar = (0);
// color of particles
var color = new float[3] {0, 0, 0};
color[i] = 1;
var startColor = new CCColor4F(color[0], color[1], color[2], 1.0f);
particleSystem.StartColor = (startColor);
var startColorVar = new CCColor4F(0, 0, 0, 0);
particleSystem.StartColorVar = (startColorVar);
CCColor4F endColor = startColor;
particleSystem.EndColor = (endColor);
CCColor4F endColorVar = startColorVar;
particleSystem.EndColorVar = (endColorVar);
// size, in pixels
particleSystem.StartSize = (32);
particleSystem.StartSizeVar = (0);
particleSystem.EndSize = CCParticleSystem.kCCParticleStartSizeEqualToEndSize;
// emits per second
particleSystem.EmissionRate = (particleSystem.TotalParticles / particleSystem.Life);
// additive
particleSystem.Position = (new CCPoint(i * 10 + 120, 200));
m_pBatchNode.AddChild(particleSystem);
particleSystem.PositionType = CCPositionType.Free;
//[pBNode addChild:particleSystem z:10 tag:0);
}
Schedule(reorderSystem, 2.0f);
m_emitter = null;
}
private void removeSystem(float dt)
{
int nChildrenCount = m_pBatchNode.ChildrenCount;
if (nChildrenCount > 0)
{
CCLog.Log("remove random system");
int uRand = CCRandom.Next(nChildrenCount - 1);
m_pBatchNode.RemoveChild(m_pBatchNode.Children[uRand], true);
CCParticleSystemQuad particleSystem = new CCParticleSystemQuad("Particles/Spiral");
//add new
particleSystem.PositionType = CCPositionType.Grouped;
particleSystem.TotalParticles = (200);
particleSystem.Position = (new CCPoint(CCRandom.Next(300), CCRandom.Next(400)));
CCLog.Log("add a new system");
int randZ = CCRandom.Next(100);
particleSystem.Texture = m_pBatchNode.Texture;
m_pBatchNode.AddChild(particleSystem, randZ, -1);
}
}
public CCParticleSystemQuad Clone()
{
var p = new CCParticleSystemQuad(m_uTotalParticles);
// angle
p.m_fAngle = m_fAngle;
p.m_fAngleVar = m_fAngleVar;
// duration
p.m_fDuration = m_fDuration;
// blend function
p.m_tBlendFunc = m_tBlendFunc;
// color
p.m_tStartColor = m_tStartColor;
p.m_tStartColorVar = m_tStartColorVar;
p.m_tEndColor = m_tEndColor;
p.m_tEndColorVar = m_tEndColorVar;
// particle size
p.m_fStartSize = m_fStartSize;
p.m_fStartSizeVar = m_fStartSizeVar;
p.m_fEndSize = m_fEndSize;
p.m_fEndSizeVar = m_fEndSizeVar;
// position
p.Position = Position;
p.m_tPosVar = m_tPosVar;
// Spinning
p.m_fStartSpin = m_fStartSpin;
p.m_fStartSpinVar = m_fStartSpinVar;
p.m_fEndSpin = m_fEndSpin;
p.m_fEndSpinVar = m_fEndSpinVar;
p.m_nEmitterMode = m_nEmitterMode;
p.modeA = modeA;
p.modeB = modeB;
// life span
p.m_fLife = m_fLife;
p.m_fLifeVar = m_fLifeVar;
// emission Rate
p.m_fEmissionRate = m_fEmissionRate;
p.m_bOpacityModifyRGB = m_bOpacityModifyRGB;
p.m_pTexture = m_pTexture;
p.AutoRemoveOnFinish = AutoRemoveOnFinish;
return p;
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
CCParticleBatchNode batchNode = new CCParticleBatchNode("Images/fire", 3000);
AddChild(batchNode, 1, 2);
for (int i = 0; i < 5; i++)
{
CCParticleSystemQuad particleSystem = new CCParticleSystemQuad("Particles/SpinningPeas");
particleSystem.PositionType = CCPositionType.Grouped;
particleSystem.Position = (new CCPoint(i * 50, i * 50));
particleSystem.Texture = batchNode.Texture;
batchNode.AddChild(particleSystem);
}
m_emitter = null;
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
CCTextureCache.SharedTextureCache.AddImage("Images/particles");
for (int i = 0; i < 5; i++)
{
CCParticleSystemQuad particleSystem = new CCParticleSystemQuad("Particles/SpinningPeas");
particleSystem.Position = (new CCPoint(i * 50, i * 50));
particleSystem.PositionType = CCPositionType.Grouped;
AddChild(particleSystem);
}
m_emitter = null;
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
CCParticleSystemQuad emitter1 = new CCParticleSystemQuad("Particles/LavaFlow");
emitter1.StartColor = (new CCColor4F(1, 0, 0, 1));
CCParticleSystemQuad emitter2 = new CCParticleSystemQuad("Particles/LavaFlow");
emitter2.StartColor = (new CCColor4F(0, 1, 0, 1));
CCParticleSystemQuad emitter3 = new CCParticleSystemQuad("Particles/LavaFlow");
emitter3.StartColor = (new CCColor4F(0, 0, 1, 1));
CCSize s = CCDirector.SharedDirector.WinSize;
emitter1.Position = (new CCPoint(s.Width / 1.25f, s.Height / 1.25f));
emitter2.Position = (new CCPoint(s.Width / 2, s.Height / 2));
emitter3.Position = (new CCPoint(s.Width / 4, s.Height / 4));
emitter1.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
emitter2.Texture = emitter1.Texture;
emitter3.Texture = emitter1.Texture;
CCParticleBatchNode batch = new CCParticleBatchNode(emitter1.Texture);
batch.AddChild(emitter1, 0);
batch.AddChild(emitter2, 0);
batch.AddChild(emitter3, 0);
AddChild(batch, 10);
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
m_emitter = new CCParticleSystemQuad("Particles/LavaFlow");
m_emitter.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
CCParticleBatchNode batch = new CCParticleBatchNode(m_emitter.Texture);
batch.AddChild(m_emitter);
AddChild(batch, 10);
Schedule(switchRender, 2.0f);
CCLayer node = new CCLayer();
AddChild(node);
m_pParent1 = batch;
m_pParent2 = node;
}
public override void OnEnter()
{
base.OnEnter();
m_nOrder = 0;
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
CCParticleSystemQuad ignore = new CCParticleSystemQuad("Particles/SmallSun");
//ignore.TotalParticles = 200;
CCNode parent1 = new CCNode ();
CCParticleBatchNode parent2 = new CCParticleBatchNode(ignore.Texture);
ignore.UnscheduleUpdate();
for (int i = 0; i < 2; i++)
{
CCNode parent = (i == 0 ? parent1 : parent2);
CCParticleSystemQuad emitter1 = new CCParticleSystemQuad("Particles/SmallSun");
//emitter1.TotalParticles = 200;
emitter1.StartColor = (new CCColor4F(1, 0, 0, 1));
emitter1.BlendAdditive = (false);
CCParticleSystemQuad emitter2 = new CCParticleSystemQuad("Particles/SmallSun");
//emitter2.TotalParticles = 200;
emitter2.StartColor = (new CCColor4F(0, 1, 0, 1));
emitter2.BlendAdditive = (false);
CCParticleSystemQuad emitter3 = new CCParticleSystemQuad("Particles/SmallSun");
//emitter3.TotalParticles = 200;
emitter3.StartColor = (new CCColor4F(0, 0, 1, 1));
emitter3.BlendAdditive = (false);
CCSize s = CCDirector.SharedDirector.WinSize;
int neg = (i == 0 ? 1 : -1);
emitter1.Position = (new CCPoint(s.Width / 2 - 30, s.Height / 2 + 60 * neg));
emitter2.Position = (new CCPoint(s.Width / 2, s.Height / 2 + 60 * neg));
emitter3.Position = (new CCPoint(s.Width / 2 + 30, s.Height / 2 + 60 * neg));
parent.AddChild(emitter1, 0, 1);
parent.AddChild(emitter2, 0, 2);
parent.AddChild(emitter3, 0, 3);
AddChild(parent, 10, 1000 + i);
}
Schedule(reorderParticles, 1.0f);
}
public override void OnEnter()
{
base.OnEnter();
Color = new CCColor3B(0, 0, 0);
RemoveChild(m_background, true);
m_background = null;
var system = new CCParticleSystemQuad();
system.InitWithFile("Particles/SpinningPeas");
system.SetTextureWithRect(CCTextureCache.SharedTextureCache.AddImage("Images/particles"),
new CCRect(0, 0, 32, 32));
AddChild(system, 10);
m_emitter = system;
m_nIndex = 0;
Schedule(updateQuads, 2.0f);
}
public override void OnEnter()
{
base.OnEnter();
Color = new CCColor3B(0, 0, 0);
RemoveChild(m_background, true);
m_background = null;
m_emitter = new CCParticleSystemQuad();
m_emitter.InitWithTotalParticles(100);
AddChild(m_emitter, 10);
m_emitter.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
// duration
m_emitter.Duration = CCParticleSystem.kCCParticleDurationInfinity;
// radius mode
m_emitter.EmitterMode = CCEmitterMode.Radius;
// radius mode: start and end radius in pixels
m_emitter.StartRadius = (50);
m_emitter.StartRadiusVar = (0);
m_emitter.EndRadius = (CCParticleSystem.kCCParticleStartRadiusEqualToEndRadius);
m_emitter.EndRadiusVar = (0);
// radius mode: degrees per second
m_emitter.RotatePerSecond = (0);
m_emitter.RotatePerSecondVar = (0);
// angle
m_emitter.Angle = 90;
m_emitter.AngleVar = 0;
// emitter position
CCSize size = CCDirector.SharedDirector.WinSize;
m_emitter.Position = new CCPoint(size.Width / 2, size.Height / 2);
m_emitter.PosVar = new CCPoint(0, 0);
// life of particles
m_emitter.Life = 5;
m_emitter.LifeVar = 0;
// spin of particles
m_emitter.StartSpin = 0;
m_emitter.StartSpinVar = 0;
m_emitter.EndSpin = 0;
m_emitter.EndSpinVar = 0;
// color of particles
var startColor = new CCColor4F(0.5f, 0.5f, 0.5f, 1.0f);
m_emitter.StartColor = startColor;
var startColorVar = new CCColor4F(0.5f, 0.5f, 0.5f, 1.0f);
m_emitter.StartColorVar = startColorVar;
var endColor = new CCColor4F(0.1f, 0.1f, 0.1f, 0.2f);
m_emitter.EndColor = endColor;
var endColorVar = new CCColor4F(0.1f, 0.1f, 0.1f, 0.2f);
m_emitter.EndColorVar = endColorVar;
// size, in pixels
m_emitter.StartSize = 16;
m_emitter.StartSizeVar = 0;
m_emitter.EndSize = CCParticleSystem.kCCParticleStartSizeEqualToEndSize;
// emits per second
m_emitter.EmissionRate = m_emitter.TotalParticles / m_emitter.Life;
// additive
m_emitter.BlendAdditive = false;
CCRotateBy rot = new CCRotateBy (16, 360);
m_emitter.RunAction(new CCRepeatForever (rot));
}
public override void OnEnter()
{
base.OnEnter();
Color = new CCColor3B(0, 0, 0);
RemoveChild(m_background, true);
m_background = null;
m_emitter = new CCParticleSystemQuad();
string filename = "Particles/" + m_title;
m_emitter.InitWithFile(filename);
AddChild(m_emitter, 10);
m_emitter.BlendAdditive = true;
setEmitterPosition();
}
public override void OnEnter()
{
base.OnEnter();
Color = CCTypes.CCBlack;
RemoveChild(m_background, true);
m_background = null;
//adds the texture inside the plist to the texture cache
m_pBatchNode = new CCParticleBatchNode("Images/fire", 16000);
AddChild(m_pBatchNode, 1, 2);
for (int i = 0; i < 6; i++)
{
CCParticleSystemQuad particleSystem = new CCParticleSystemQuad("Particles/Spiral");
particleSystem.Texture = m_pBatchNode.Texture;
particleSystem.PositionType = CCPositionType.Grouped;
particleSystem.TotalParticles = (200);
particleSystem.Position = (new CCPoint(i * 15 + 100, i * 15 + 100));
int randZ = CCRandom.Next(100);
m_pBatchNode.AddChild(particleSystem, randZ, -1);
}
Schedule(removeSystem, 0.5f);
m_emitter = null;
}
public void createParticleSystem()
{
CCParticleSystem particleSystem = null;
/*
* Tests:
* 1: Point Particle System using 32-bit textures (PNG)
* 2: Point Particle System using 16-bit textures (PNG)
* 3: Point Particle System using 8-bit textures (PNG)
* 4: Point Particle System using 4-bit textures (PVRTC)
* 5: Quad Particle System using 32-bit textures (PNG)
* 6: Quad Particle System using 16-bit textures (PNG)
* 7: Quad Particle System using 8-bit textures (PNG)
* 8: Quad Particle System using 4-bit textures (PVRTC)
*/
RemoveChildByTag(PerformanceParticleTest.kTagParticleSystem, true);
// remove the "fire.png" from the TextureCache cache.
CCTexture2D texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
CCTextureCache.SharedTextureCache.RemoveTexture(texture);
particleSystem = new CCParticleSystemQuad();
switch (subtestNumber)
{
case 1:
CCTexture2D.DefaultAlphaPixelFormat = CCTexture2DPixelFormat.kCCTexture2DPixelFormat_RGBA8888;
particleSystem.InitWithTotalParticles(quantityParticles);
particleSystem.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
break;
case 2:
CCTexture2D.DefaultAlphaPixelFormat = CCTexture2DPixelFormat.kCCTexture2DPixelFormat_RGBA4444;
particleSystem.InitWithTotalParticles(quantityParticles);
particleSystem.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
break;
case 3:
CCTexture2D.DefaultAlphaPixelFormat = CCTexture2DPixelFormat.kCCTexture2DPixelFormat_A8;
particleSystem.InitWithTotalParticles(quantityParticles);
particleSystem.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
break;
// case 4:
// particleSystem->initWithTotalParticles(quantityParticles);
// ////---- particleSystem.texture = [[CCTextureCache sharedTextureCache] addImage:@"fire.pvr"];
// particleSystem->setTexture(CCTextureCache::sharedTextureCache()->addImage("Images/fire.png"));
// break;
case 4:
CCTexture2D.DefaultAlphaPixelFormat = CCTexture2DPixelFormat.kCCTexture2DPixelFormat_RGBA8888;
particleSystem.InitWithTotalParticles(quantityParticles);
particleSystem.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
break;
case 5:
CCTexture2D.DefaultAlphaPixelFormat = CCTexture2DPixelFormat.kCCTexture2DPixelFormat_RGBA4444;
particleSystem.InitWithTotalParticles(quantityParticles);
particleSystem.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
break;
case 6:
CCTexture2D.DefaultAlphaPixelFormat = CCTexture2DPixelFormat.kCCTexture2DPixelFormat_A8;
particleSystem.InitWithTotalParticles(quantityParticles);
particleSystem.Texture = CCTextureCache.SharedTextureCache.AddImage("Images/fire");
break;
// case 8:
// particleSystem->initWithTotalParticles(quantityParticles);
// ////---- particleSystem.texture = [[CCTextureCache sharedTextureCache] addImage:@"fire.pvr"];
// particleSystem->setTexture(CCTextureCache::sharedTextureCache()->addImage("Images/fire.png"));
// break;
default:
particleSystem = null;
CCLog.Log("Shall not happen!");
break;
}
AddChild(particleSystem, 0, PerformanceParticleTest.kTagParticleSystem);
doTest();
// restore the default pixel format
CCTexture2D.DefaultAlphaPixelFormat = CCTexture2DPixelFormat.kCCTexture2DPixelFormat_RGBA8888;
}
