int main(int argc, char **argv)
{
preloadSharedObject("OSGImageFileIO");
// OSG init
osgInit(argc,argv);
{
// Set up Window
WindowEventProducerRecPtr TutorialWindow = createNativeWindow();
TutorialWindow->initWindow();
// Create the SimpleSceneManager helper
SimpleSceneManager sceneManager;
TutorialWindow->setDisplayCallback(boost::bind(display, &sceneManager));
TutorialWindow->setReshapeCallback(boost::bind(reshape, _1, &sceneManager));
// Tell the Manager what to manage
sceneManager.setWindow(TutorialWindow);
//Attach to events
TutorialWindow->connectMousePressed(boost::bind(mousePressed, _1, &sceneManager));
TutorialWindow->connectMouseReleased(boost::bind(mouseReleased, _1, &sceneManager));
TutorialWindow->connectMouseMoved(boost::bind(mouseMoved, _1, &sceneManager));
TutorialWindow->connectMouseDragged(boost::bind(mouseDragged, _1, &sceneManager));
TutorialWindow->connectMouseWheelMoved(boost::bind(mouseWheelMoved, _1, &sceneManager));
// Creating the Particle System Material
// Here, the image is loaded. The entire image sequence is conatined in one image,
// which reduces texture memory overhead and runs faster.
TextureObjChunkRefPtr QuadTextureChunk = TextureObjChunk::create();
ImageRefPtr LoadedImage = ImageFileHandler::the()->read("Data/Explosion.png");
QuadTextureChunk->setImage(LoadedImage);
TextureEnvChunkRefPtr QuadTextureEnvChunk = TextureEnvChunk::create();
QuadTextureEnvChunk->setEnvMode(GL_MODULATE);
BlendChunkRefPtr PSBlendChunk = BlendChunk::create();
PSBlendChunk->setSrcFactor(GL_SRC_ALPHA);
PSBlendChunk->setDestFactor(GL_ONE_MINUS_SRC_ALPHA);
MaterialChunkRefPtr PSMaterialChunk = MaterialChunk::create();
PSMaterialChunk->setLit(false);
ChunkMaterialRefPtr PSMaterial = ChunkMaterial::create();
PSMaterial->addChunk(QuadTextureChunk);
PSMaterial->addChunk(QuadTextureEnvChunk);
PSMaterial->addChunk(PSMaterialChunk);
PSMaterial->addChunk(PSBlendChunk);
//Particle System
ParticleSystemRecPtr ExplosionParticleSystem = ParticleSystem::create();
ExplosionParticleSystem->attachUpdateProducer(TutorialWindow);
//Age Particle Function. Controls which image is shown when, based on the age of a particle.
AgeParticleFunctionRecPtr AgeFunc = AgeParticleFunction::create();
AgeFunc->setSequenceTime(0.07f); // image changes every 0.1 seconds.
AgeFunc->setSequenceOrder(AgeParticleFunction::CUSTOM); // using the custom sequence below.
/*
Here, a custom sequence for the image ordering is assembled. The image sequence will be shown in
the order specified here. Once the end of the sequence is reached, the sequence repeats.
*/
UInt32 NumImages(25);
for(UInt32 i(0) ; i<NumImages ; ++i)
{
AgeFunc->editMFCustomSequence()->push_back(i);
}
//Particle System Drawer -
QuadSequenceParticleSystemDrawerRecPtr ExplosionParticleSystemDrawer = QuadSequenceParticleSystemDrawer::create();
// image dimensions (in pixels) are required if there is a border on the images.
ExplosionParticleSystemDrawer->setImageDimensions(Vec2us(320,320));
// The "dimensions" of the sequence contained in the image. For this image,
// there are 3 images in the "x" direction, and two in the "y" direction, for a
// total of 6.
ExplosionParticleSystemDrawer->setSequenceDimensions(Vec2b(5,5));
// width of the border on each side of the image, in pixels.
ExplosionParticleSystemDrawer->setBorderOffsets(Vec2b(0,0));
// this is the age function we just created above.
ExplosionParticleSystemDrawer->setSequenceFunction(AgeFunc);
RateParticleGeneratorRecPtr ExplosionParticleGenerator = RateParticleGenerator::create();
//Attach the function objects to the Generator
ExplosionParticleGenerator->setPositionDistribution(createPositionDistribution());
ExplosionParticleGenerator->setLifespanDistribution(createLifespanDistribution());
ExplosionParticleGenerator->setVelocityDistribution(createVelocityDistribution());
ExplosionParticleGenerator->setAccelerationDistribution(createAccelerationDistribution());
ExplosionParticleGenerator->setSizeDistribution(createSizeDistribution());
ExplosionParticleGenerator->setGenerationRate(100.0f);
//Particle System Node
ParticleSystemCoreRefPtr ExplosionParticleCore = ParticleSystemCore::create();
ExplosionParticleCore->setSystem(ExplosionParticleSystem);
ExplosionParticleCore->setDrawer(ExplosionParticleSystemDrawer);
ExplosionParticleCore->setMaterial(PSMaterial);
ExplosionParticleCore->setSortingMode(ParticleSystemCore::BACK_TO_FRONT);
NodeRefPtr ExplosionParticleNode = Node::create();
ExplosionParticleNode->setCore(ExplosionParticleCore);
ExplosionParticleSystem->addParticle(Pnt3f(10.0,0.0,0.0),
Vec3f(0.0,1.0,0.0),
Color4f(1.0,1.0,1.0,1.0),
Vec3f(1.0,1.0,1.0),
0.01,
Vec3f(0.0,0.0,0.0),
Vec3f(0.0,0.0,0.0));
ExplosionParticleSystem->addParticle(Pnt3f(-10.0,0.0,0.0),
Vec3f(0.0,1.0,0.0),
Color4f(1.0,1.0,1.0,1.0),
Vec3f(1.0,1.0,1.0),
0.01,
Vec3f(0.0,0.0,0.0),
Vec3f(0.0,0.0,0.0));
ExplosionParticleSystem->pushToGenerators(ExplosionParticleGenerator);
AgeSizeParticleAffectorRecPtr ExampleAgeSizeParticleAffector = AgeSizeParticleAffector::create();
//Age and size
ExampleAgeSizeParticleAffector->editMFAges()->push_back(0.0);
ExampleAgeSizeParticleAffector->editMFSizes()->push_back(Vec3f(0.2,0.2,0.2));
ExampleAgeSizeParticleAffector->editMFAges()->push_back(1.0);
ExampleAgeSizeParticleAffector->editMFSizes()->push_back(Vec3f(4.0,4.0,4.0));
ExampleAgeSizeParticleAffector->editMFAges()->push_back(1.8);
ExampleAgeSizeParticleAffector->editMFSizes()->push_back(Vec3f(2.2,2.2,0.1));
//Age Fade Affector
AgeFadeParticleAffectorRecPtr ExampleAgeFadeParticleAffector = AgeFadeParticleAffector::create();
//Age and size
ExampleAgeFadeParticleAffector->setStartAlpha(0.0f);
ExampleAgeFadeParticleAffector->setFadeInTime(0.5f);
ExampleAgeFadeParticleAffector->setFadeToAlpha(1.0f);
ExampleAgeFadeParticleAffector->setFadeOutTime(0.5f);
ExampleAgeFadeParticleAffector->setEndAlpha(0.0f);
ExplosionParticleSystem->pushToAffectors(ExampleAgeFadeParticleAffector);
//Smoke Particle System
VortexParticleAffectorRecPtr SmokeVortexAffector = VortexParticleAffector::create();
SmokeVortexAffector->setMagnitude(0.2);
SmokeVortexAffector->setVortexAxis(Vec3f(0.0,1.0,0.0)); // field rotates around y axis
NodeRefPtr VortexBeacon = makeCoredNode<Group>();
SmokeVortexAffector->setBeacon(VortexBeacon); // set to 'emulate' from (0,0,0)
SmokeVortexAffector->setMaxDistance(-1.0); // particles affected regardless of distance
SmokeVortexAffector->setAttenuation(0.25); // strength of uniform field dimishes by dist^attenuation
AgeFadeParticleAffectorRecPtr SmokeAgeFadeParticleAffector = AgeFadeParticleAffector::create();
//Age and size
SmokeAgeFadeParticleAffector->setStartAlpha(0.0f);
SmokeAgeFadeParticleAffector->setFadeInTime(0.2f);
SmokeAgeFadeParticleAffector->setFadeToAlpha(1.0f);
SmokeAgeFadeParticleAffector->setFadeOutTime(3.5f);
SmokeAgeFadeParticleAffector->setEndAlpha(0.0f);
RateParticleGeneratorRecPtr SmokeParticleGenerator = RateParticleGenerator::create();
SmokeParticleGenerator->setSizeDistribution(createSmokeSizeDistribution());
SmokeParticleGenerator->setPositionDistribution(createSmokePositionDistribution());
SmokeParticleGenerator->setLifespanDistribution(createSmokeLifespanDistribution());
SmokeParticleGenerator->setVelocityDistribution(createSmokeVelocityDistribution());
SmokeParticleGenerator->setColorDistribution(createSmokeColorDistribution());
SmokeParticleGenerator->setGenerationRate(80.0f);
ParticleSystemRecPtr SmokeParticleSystem = ParticleSystem::create();
SmokeParticleSystem->pushToGenerators(SmokeParticleGenerator);
SmokeParticleSystem->attachUpdateProducer(TutorialWindow);
SmokeParticleSystem->pushToAffectors(SmokeAgeFadeParticleAffector);
SmokeParticleSystem->pushToAffectors(SmokeVortexAffector);
TextureObjChunkRefPtr SmokeTextureObjChunk = TextureObjChunk::create();
ImageRefPtr SmokeImage = ImageFileHandler::the()->read("Data/Smoke.png");
SmokeTextureObjChunk->setImage(SmokeImage);
ChunkMaterialRefPtr SmokeMaterial = ChunkMaterial::create();
SmokeMaterial->addChunk(SmokeTextureObjChunk);
SmokeMaterial->addChunk(QuadTextureEnvChunk);
SmokeMaterial->addChunk(PSMaterialChunk);
SmokeMaterial->addChunk(PSBlendChunk);
SmokeMaterial->setSortKey(-1.0f);
QuadParticleSystemDrawerRecPtr SmokeParticleSystemDrawer = QuadParticleSystemDrawer::create();
ParticleSystemCoreRefPtr SmokeParticleCore = ParticleSystemCore::create();
SmokeParticleCore->setSystem(SmokeParticleSystem);
SmokeParticleCore->setDrawer(SmokeParticleSystemDrawer);
SmokeParticleCore->setMaterial(SmokeMaterial);
SmokeParticleCore->setSortingMode(ParticleSystemCore::BACK_TO_FRONT);
NodeRefPtr SmokeParticleNode = Node::create();
SmokeParticleNode->setCore(SmokeParticleCore);
// Make Main Scene Node and add the Torus
NodeRefPtr scene = makeCoredNode<Group>();
scene->addChild(ExplosionParticleNode);
scene->addChild(SmokeParticleNode);
scene->addChild(VortexBeacon);
TutorialWindow->connectKeyTyped(boost::bind(keyTyped, _1,
&sceneManager,
AgeFunc.get()));
sceneManager.setRoot(scene);
// Show the whole Scene
sceneManager.showAll();
//Open Window
Vec2f WinSize(TutorialWindow->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindow->getDesktopSize() - WinSize) *0.5);
TutorialWindow->openWindow(WinPos,
WinSize,
"06Explosion");
//Enter main Loop
TutorialWindow->mainLoop();
}
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindow = createNativeWindow();
TutorialWindow->initWindow();
TutorialWindow->setDisplayCallback(display);
TutorialWindow->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindow->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindow->addMouseListener(&TheTutorialMouseListener);
TutorialWindow->addMouseMotionListener(&TheTutorialMouseMotionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(TutorialWindow);
//Particle System Material
LineChunkRefPtr PSLineChunk = LineChunk::create();
PSLineChunk->setWidth(1.0f);
BlendChunkRefPtr PSBlendChunk = BlendChunk::create();
PSBlendChunk->setSrcFactor(GL_SRC_ALPHA);
PSBlendChunk->setDestFactor(GL_ONE_MINUS_SRC_ALPHA);
MaterialChunkRefPtr PSMaterialChunk = MaterialChunk::create();
PSMaterialChunk->setAmbient(Color4f(0.3f,0.3f,0.3f,1.0f));
PSMaterialChunk->setDiffuse(Color4f(0.7f,0.7f,0.7f,1.0f));
PSMaterialChunk->setSpecular(Color4f(0.9f,0.9f,0.9f,1.0f));
PSMaterialChunk->setColorMaterial(GL_AMBIENT_AND_DIFFUSE);
PSMaterialChunk->setLit(false);
ChunkMaterialRefPtr PSMaterial = ChunkMaterial::create();
PSMaterial->addChunk(PSLineChunk);
PSMaterial->addChunk(PSMaterialChunk);
PSMaterial->addChunk(PSBlendChunk);
//Particle System
ParticleSystemRefPtr ExampleParticleSystem = ParticleSystem::create();
ExampleParticleSystem->attachUpdateListener(TutorialWindow);
//Create the particles
UInt32 NumParticlesToGenerate(2500);
Distribution3DRefPtr PositionDistribution = createPositionDistribution();
Distribution3DRefPtr NormalDistribution = createNormalDistribution();
Distribution3DRefPtr ColorDistribution = createColorDistribution();
Distribution3DRefPtr SizeDistribution = createSizeDistribution();
Distribution1DRefPtr LifespanDistribution = createLifespanDistribution();
Distribution3DRefPtr VelocityDistribution = createVelocityDistribution();
Distribution3DRefPtr AccelerationDistribution = createAccelerationDistribution();
Pnt3f PositionReturnValue;
Vec3f NormalReturnValue = Vec3f(0.0,0.0f,1.0f);
Color4f ColorReturnValue = Color4f(1.0,1.0f,1.0f, 1.0f);
Vec3f SizeReturnValue;
Time LifespanReturnValue = -1;
Vec3f VelocityReturnValue;
Vec3f AccelerationReturnValue;
for(UInt32 i(0) ; i< NumParticlesToGenerate ; ++i)
{
if(PositionDistribution != NULL)
{
PositionReturnValue.setValue(PositionDistribution->generate().getValues());
}
if(ColorDistribution != NULL)
{
Vec3f ColorRGB = ColorDistribution->generate();
ColorReturnValue.setValuesRGBA(ColorRGB[0],ColorRGB[1],ColorRGB[2],1.0f);
}
if(SizeDistribution != NULL)
{
SizeReturnValue = SizeDistribution->generate();
}
if(LifespanDistribution != NULL)
{
LifespanReturnValue = LifespanDistribution->generate();
}
if(VelocityDistribution != NULL)
{
VelocityReturnValue = VelocityDistribution->generate();
}
ExampleParticleSystem->addParticle(PositionReturnValue,
NormalReturnValue,
ColorReturnValue,
SizeReturnValue,
LifespanReturnValue,
VelocityReturnValue,
AccelerationReturnValue
);
}
//Particle System Drawer
LineParticleSystemDrawerRefPtr ExampleParticleSystemDrawer = LineParticleSystemDrawer::create();
ExampleParticleSystemDrawer->setLineDirectionSource(LineParticleSystemDrawer::DIRECTION_VELOCITY);
ExampleParticleSystemDrawer->setLineLengthSource(LineParticleSystemDrawer::LENGTH_SIZE_X);
ExampleParticleSystemDrawer->setEndPointFading(Vec2f(0.0f,1.0f));
//Particle System Node
ParticleSystemCoreRefPtr ParticleNodeCore = ParticleSystemCore::create();
ParticleNodeCore->setSystem(ExampleParticleSystem);
ParticleNodeCore->setDrawer(ExampleParticleSystemDrawer);
ParticleNodeCore->setMaterial(PSMaterial);
NodeRefPtr ParticleNode = Node::create();
ParticleNode->setCore(ParticleNodeCore);
// Make Main Scene Node and add the Torus
NodeRefPtr scene = Node::create();
scene->setCore(Group::create());
scene->addChild(ParticleNode);
mgr->setRoot(scene);
// Show the whole Scene
mgr->showAll();
//Open Window
Vec2f WinSize(TutorialWindow->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindow->getDesktopSize() - WinSize) *0.5);
TutorialWindow->openWindow(WinPos,
WinSize,
"02DynamicDistribution");
//Enter main Loop
TutorialWindow->mainLoop();
osgExit();
return 0;
}
