virtual void keyPressed(const KeyEventUnrecPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindow->closeWindow();
}
switch(e->getKey())
{
case KeyEvent::KEY_SPACE:
TheAnimationGroup->pause(!TheAnimationGroup->isPaused());
break;
case KeyEvent::KEY_ENTER:
TheAnimationGroup->attachUpdateProducer(TutorialWindow->editEventProducer());
TheAnimationGroup->start();
break;
case KeyEvent::KEY_MINUS:
TheAnimationGroup->setScale(osgMax(TheAnimationGroup->getScale()-0.1f, 0.0f));
break;
case KeyEvent::KEY_PLUS:
case KeyEvent::KEY_EQUALS:
TheAnimationGroup->setScale(osgMax(TheAnimationGroup->getScale()+0.1f, 0.0f));
break;
}
}
virtual void keyPressed(const KeyEventUnrecPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindow->closeWindow();
}
switch(e->getKey())
{
case KeyEvent::KEY_SPACE:
TheAnimation->pause(!TheAnimation->isPaused());
break;
case KeyEvent::KEY_ENTER:
TheAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheAnimation->start();
break;
case KeyEvent::KEY_1:
dynamic_pointer_cast<FieldAnimation>(TheAnimation)->setInterpolationType(Animator::STEP_INTERPOLATION);
break;
case KeyEvent::KEY_2:
dynamic_pointer_cast<FieldAnimation>(TheAnimation)->setInterpolationType(Animator::LINEAR_INTERPOLATION);
break;
case KeyEvent::KEY_3:
dynamic_pointer_cast<FieldAnimation>(TheAnimation)->setInterpolationType(Animator::CUBIC_INTERPOLATION);
break;
}
}
void setupAnimation(void)
{
//Color Keyframe Sequence
KeyframeColorSequenceUnrecPtr ColorKeyframes = KeyframeColorSequenceColor3f::create();
ColorKeyframes->addKeyframe(Color4f(1.0f,0.0f,0.0f,1.0f),0.0f);
ColorKeyframes->addKeyframe(Color4f(0.0f,1.0f,0.0f,1.0f),2.0f);
ColorKeyframes->addKeyframe(Color4f(0.0f,0.0f,1.0f,1.0f),4.0f);
ColorKeyframes->addKeyframe(Color4f(1.0f,0.0f,0.0f,1.0f),6.0f);
//Animator
KeyframeAnimatorUnrecPtr TheAnimator = KeyframeAnimator::create();
TheAnimator->setKeyframeSequence(ColorKeyframes);
//Animation
TheAnimation = FieldAnimation::create();
TheAnimation->setAnimator(TheAnimator);
TheAnimation->setInterpolationType(Animator::LINEAR_INTERPOLATION);
TheAnimation->setCycling(-1);
TheAnimation->setAnimatedMultiField(TutorialBackground, std::string("color"), 1);
//Animation Listener
TheAnimation->addAnimationListener(&TheAnimationListener);
TheAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheAnimation->start();
}
void setupAnimation(void)
{
//Read animation data from XML file
FCFileType::FCPtrStore NewContainers;
NewContainers = FCFileHandler::the()->read(BoostPath("./Data/15TestAnimations.xml"));
FCFileType::FCPtrStore::iterator Itor;
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
if( (*Itor)->getType().isDerivedFrom(Animation::getClassType()))
{
//Set the animation to the one we just read in
TheAnimation = (dynamic_pointer_cast<Animation>(*Itor));
}
else if( (*Itor)->getType() == (SimpleMaterial::getClassType()))
{
//Set torus material
TheTorusMaterial = (dynamic_pointer_cast<SimpleMaterial>(*Itor));
//Attach torus material to torus geometry
TorusGeometry->setMaterial(TheTorusMaterial);
}
}
TheAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheAnimation->start();
}
void initAnimations(FieldContainerUnrecPtr AnimatedObject, std::string AnimatedField)
{
//Main Animation
TheAnimation = createColorAnimation(AnimatedObject, AnimatedField);
TheAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheAnimation->start();
}
void setupAnimation(void)
{
std::vector<BoostPath> _ImagePaths;
_ImagePaths.push_back(BoostPath("./Data/Anim001.jpg"));
_ImagePaths.push_back(BoostPath("./Data/Anim002.jpg"));
_ImagePaths.push_back(BoostPath("./Data/Anim003.jpg"));
_ImagePaths.push_back(BoostPath("./Data/Anim004.jpg"));
_ImagePaths.push_back(BoostPath("./Data/Anim005.jpg"));
//Make the textures
for(UInt32 i(0) ; i<_ImagePaths.size(); ++i)
{
ImageUnrecPtr AnimFrameImage = ImageFileHandler::the()->read(_ImagePaths[i].string().c_str());
_Images.push_back(AnimFrameImage);
}
TextureObjChunkUnrecPtr AnimFrameTexture = TextureObjChunk::create();
AnimFrameTexture->setImage(_Images.front());
//Box Material
MaterialChunkUnrecPtr TheMaterialChunk = MaterialChunk::create();
TheMaterialChunk->setAmbient(Color4f(0.4,0.4,0.4,1.0));
TheMaterialChunk->setDiffuse(Color4f(0.8,0.8,0.8,1.0));
TheMaterialChunk->setSpecular(Color4f(1.0,1.0,1.0,1.0));
TheBoxMaterial = ChunkMaterial::create();
TheBoxMaterial->addChunk(AnimFrameTexture);
//Texture Keyframe Sequence
KeyframeFCPtrSequenceUnrecPtr TextureKeyframes = KeyframeFCPtrSequenceImage::create();
for(UInt32 i(0) ; i<_Images.size(); ++i)
{
TextureKeyframes->addKeyframe(_Images[i],static_cast<Real32>(i)*0.5f);
}
//Animator
TutorialTextureAnimator = KeyframeAnimator::create();
TutorialTextureAnimator->setKeyframeSequence(TextureKeyframes);
//Animation
TutorialTextureAnimation = FieldAnimation::create();
TutorialTextureAnimation->setAnimator(TutorialTextureAnimator);
TutorialTextureAnimation->setInterpolationType(Animator::STEP_INTERPOLATION);
TutorialTextureAnimation->setCycling(-1);
TutorialTextureAnimation->setAnimatedField(AnimFrameTexture,TextureObjChunk::ImageFieldId);
//Animation Listener
TutorialTextureAnimation->addAnimationListener(&TutorialTextureAnimationListener);
TutorialTextureAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TutorialTextureAnimation->start();
}
void setupAnimation(void)
{
//Number Keyframe Sequence
KeyframeNumberSequenceReal32UnrecPtr XTransKeyframes = KeyframeNumberSequenceReal32::create();
XTransKeyframes->addKeyframe(1.0,0.0f);
XTransKeyframes->addKeyframe(5.0,2.0f);
XTransKeyframes->addKeyframe(-5.0,4.0f);
XTransKeyframes->addKeyframe(1.0,6.0f);
KeyframeNumberSequenceReal32UnrecPtr YRotKeyframes = KeyframeNumberSequenceReal32::create();
YRotKeyframes->addKeyframe(0.0,0.0f);
YRotKeyframes->addKeyframe(45.0,2.0f);
YRotKeyframes->addKeyframe(0.0,4.0f);
KeyframeNumberSequenceReal32UnrecPtr ZScaleKeyframes = KeyframeNumberSequenceReal32::create();
ZScaleKeyframes->addKeyframe(1.0,0.0f);
ZScaleKeyframes->addKeyframe(2.0,2.0f);
ZScaleKeyframes->addKeyframe(3.0,4.0f);
ZScaleKeyframes->addKeyframe(1.0,6.0f);
//Animator
TransformAnimatorUnrecPtr TheAnimator = TransformAnimator::create();
TheAnimator->setXTranslationSequence(XTransKeyframes);
TheAnimator->setXRotationSequence(YRotKeyframes);
TheAnimator->setYRotationSequence(YRotKeyframes);
//TheAnimator->setZRotationSequence(YRotKeyframes);
TheAnimator->setZScaleSequence(ZScaleKeyframes);
//Animation
TheAnimation = FieldAnimation::create();
TheAnimation->setAnimator(TheAnimator);
TheAnimation->setInterpolationType(Animator::LINEAR_INTERPOLATION);
TheAnimation->setCycling(2);
TheAnimation->setAnimatedField(TorusNodeTrans, std::string("matrix"));
//Animation Listener
TheAnimation->addAnimationListener(&TheAnimationListener);
TheAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheAnimation->start();
}
void setupAnimation(void)
{
//Color Keyframe Sequence
ColorKeyframes = KeyframeColorSequenceColor3f::create();
ColorKeyframes->addKeyframe(Color4f(1.0f,0.0f,0.0f,1.0f),0.0f);
ColorKeyframes->addKeyframe(Color4f(0.0f,1.0f,0.0f,1.0f),2.0f);
ColorKeyframes->addKeyframe(Color4f(0.0f,0.0f,1.0f,1.0f),4.0f);
ColorKeyframes->addKeyframe(Color4f(1.0f,0.0f,0.0f,1.0f),6.0f);
//Color Animator
KeyframeAnimatorUnrecPtr TheColorAnimator = KeyframeAnimator::create();
TheColorAnimator->setKeyframeSequence(ColorKeyframes);
//Color Animation
FieldAnimationUnrecPtr TheColorAnimation = FieldAnimation::create();
TheColorAnimation->setAnimator(TheColorAnimator);
TheColorAnimation->setInterpolationType(Animator::LINEAR_INTERPOLATION);
TheColorAnimation->setCycling(2);
TheColorAnimation->setAnimatedField(TheTorusMaterial, std::string("diffuse"));
//Vector Keyframe Sequence
VectorKeyframes = KeyframeVectorSequenceVec3f::create();
VectorKeyframes->addKeyframe(Vec3f(0.0f,0.0f,0.0f),0.0f);
VectorKeyframes->addKeyframe(Vec3f(0.0f,1.0f,0.0f),1.0f);
VectorKeyframes->addKeyframe(Vec3f(1.0f,1.0f,0.0f),2.0f);
VectorKeyframes->addKeyframe(Vec3f(1.0f,0.0f,0.0f),3.0f);
VectorKeyframes->addKeyframe(Vec3f(0.0f,0.0f,0.0f),4.0f);
//Vector Animator
KeyframeAnimatorUnrecPtr TheVectorAnimator = KeyframeAnimator::create();
TheVectorAnimator->setKeyframeSequence(VectorKeyframes);
//Vector Animation
FieldAnimationUnrecPtr TheVectorAnimation = FieldAnimation::create();
TheVectorAnimation->setAnimator(TheVectorAnimator);
TheVectorAnimation->setInterpolationType(Animator::LINEAR_INTERPOLATION);
TheVectorAnimation->setCycling(2);
//TheVectorAnimation->setAnimatedField(getFieldContainer("Transform",std::string("TorusNodeVectorCore")), std::string("matrix"));
//Transformation Keyframe Sequence
TransformationKeyframes = KeyframeTransformationSequenceMatrix4f::create();
Matrix TempMat;
TempMat.setTransform(Vec3f(0.0f,0.0f,0.0f), Quaternion(Vec3f(0.0f,1.0f,0.0f), 3.14159f*0.0f));
TransformationKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(0.0f,1.0f,0.0f), Quaternion(Vec3f(0.0f,1.0f,0.0f), 3.14159f*0.5f));
TransformationKeyframes->addKeyframe(TempMat,1.0f);
TempMat.setTransform(Vec3f(1.0f,1.0f,0.0f), Quaternion(Vec3f(0.0f,1.0f,0.0f), 3.14159f*1.0f));
TransformationKeyframes->addKeyframe(TempMat,2.0f);
TempMat.setTransform(Vec3f(1.0f,0.0f,0.0f), Quaternion(Vec3f(0.0f,1.0f,0.0f), 3.14159f*1.5f));
TransformationKeyframes->addKeyframe(TempMat,3.0f);
TempMat.setTransform(Vec3f(0.0f,0.0f,0.0f), Quaternion(Vec3f(0.0f,1.0f,0.0f), 3.14159f*2.0f));
TransformationKeyframes->addKeyframe(TempMat,4.0f);
//Transformation Animator
KeyframeAnimatorUnrecPtr TheTransformationAnimator = KeyframeAnimator::create();
TheTransformationAnimator->setKeyframeSequence(TransformationKeyframes);
//Transformation Animation
FieldAnimationUnrecPtr TheTransformationAnimation = FieldAnimation::create();
TheTransformationAnimation->setAnimator(TheTransformationAnimator);
TheTransformationAnimation->setInterpolationType(Animator::LINEAR_INTERPOLATION);
TheTransformationAnimation->setCycling(2);
TheTransformationAnimation->setAnimatedField(TorusNodeTrans, std::string("matrix"));
TheAnimationGroup = AnimationGroup::create();
TheAnimationGroup->pushToAnimations(TheColorAnimation);
TheAnimationGroup->pushToAnimations(TheTransformationAnimation);
TheAnimationGroup->attachUpdateProducer(TutorialWindow->editEventProducer());
TheAnimationGroup->start();
}
void setupAnimation(JointUnrecPtr TheJoint, JointUnrecPtr TheChildJoint)
{
//Create an animation for TheJoint
//TheJoint Transformation keyframes (we'll animate TheJoint's translation)
Matrix transform = TheJoint->getJointTransformation();
KeyframeTransformationSequenceUnrecPtr TheJointTranformationKeyframes = KeyframeTransformationSequenceMatrix4f::create();
transform.setTranslate(0.0f,0.0f,0.0f);
TheJointTranformationKeyframes->addKeyframe(transform, 0.0f);
transform.setTranslate(2.0f,0.0f,0.0f);
TheJointTranformationKeyframes->addKeyframe(transform, 2.0f);
transform.setTranslate(1.0f,0.0f,0.0f);
TheJointTranformationKeyframes->addKeyframe(transform, 4.0f);
transform.setTranslate(3.0f,0.0f,0.0f);
TheJointTranformationKeyframes->addKeyframe(transform, 6.0f);
transform = TheJoint->getJointTransformation();
transform.setTranslate(0.0f,0.0f,0.0f);
TheJointTranformationKeyframes->addKeyframe(transform, 8.0f);
//TheJoint Animator
AnimatorUnrecPtr TheJointAnimator = KeyframeAnimator::create();
dynamic_pointer_cast<KeyframeAnimator>(TheJointAnimator)->setKeyframeSequence(TheJointTranformationKeyframes);
//TheJoint Animation
TheJointAnimation = FieldAnimation::create();
dynamic_pointer_cast<FieldAnimation>(TheJointAnimation)->setAnimator(TheJointAnimator);
dynamic_pointer_cast<FieldAnimation>(TheJointAnimation)->setInterpolationType(Animator::CUBIC_INTERPOLATION);
dynamic_pointer_cast<FieldAnimation>(TheJointAnimation)->setCycling(-1);
dynamic_pointer_cast<FieldAnimation>(TheJointAnimation)->setAnimatedField(TheJoint, std::string("JointTransformation"));
TheJointAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheJointAnimation->start();
//Create an animation for TheChildJoint
//TheChildJoint Transformation keyframes (we'll animate TheChildJoint's rotation)
transform = TheChildJoint->getJointTransformation();
KeyframeTransformationSequenceUnrecPtr TheChildJointTransformationKeyframes = KeyframeTransformationSequenceMatrix4f::create();
TheChildJointTransformationKeyframes->addKeyframe(transform, 0.0f);
transform.setRotate(Quaternion(Vec3f(0.0,1.0,0.0),0.0));
TheChildJointTransformationKeyframes->addKeyframe(transform, 2.0f);
transform.setRotate(Quaternion(Vec3f(0.0,1.0,0.0),0.5*Pi));
TheChildJointTransformationKeyframes->addKeyframe(transform, 4.0f);
transform.setRotate(Quaternion(Vec3f(0.0,1.0,0.0),Pi));
TheChildJointTransformationKeyframes->addKeyframe(transform, 6.0f);
transform.setRotate(Quaternion(Vec3f(0.0,1.0,0.0),1.5*Pi));
TheChildJointTransformationKeyframes->addKeyframe(transform, 8.0f);
transform.setRotate(Quaternion(Vec3f(0.0,1.0,0.0),2.0*Pi));
TheChildJointTransformationKeyframes->addKeyframe(transform, 10.0f);
//TheChildJoint Animator
AnimatorUnrecPtr TheChildJointAnimator = KeyframeAnimator::create();
dynamic_pointer_cast<KeyframeAnimator>(TheChildJointAnimator)->setKeyframeSequence(TheChildJointTransformationKeyframes);
//TheChildJoint Animation
TheChildJointAnimation = FieldAnimation::create();
dynamic_pointer_cast<FieldAnimation>(TheChildJointAnimation)->setAnimator(TheChildJointAnimator);
dynamic_pointer_cast<FieldAnimation>(TheChildJointAnimation)->setInterpolationType(Animator::CUBIC_INTERPOLATION);
dynamic_pointer_cast<FieldAnimation>(TheChildJointAnimation)->setCycling(-1);
dynamic_pointer_cast<FieldAnimation>(TheChildJointAnimation)->setAnimatedField(TheChildJoint, std::string("JointTransformation"));
TheChildJointAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheChildJointAnimation->start();
}
void setupAnimation(void)
{
Matrix TempMat;
//We create an animation and an animator for each joint we wish to animate
//Left Elbow
KeyframeTransformationSequenceUnrecPtr LeftElbowKeyframes = KeyframeTransformationSequenceMatrix4f::create();
//Make keyframes
TempMat.setTransform(Vec3f(2.0,0.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
LeftElbowKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(2.0,0.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),1.57f));
LeftElbowKeyframes->addKeyframe(TempMat,3.0f);
TempMat.setTransform(Vec3f(2.0,0.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
LeftElbowKeyframes->addKeyframe(TempMat,6.0f);
//Left Elbow Animator
KeyframeAnimatorUnrecPtr LeftElbowAnimator = KeyframeAnimator::create();
LeftElbowAnimator->setKeyframeSequence(LeftElbowKeyframes);
//Right Elbow
KeyframeTransformationSequenceUnrecPtr RightElbowKeyframes = KeyframeTransformationSequenceMatrix4f::create();
//Make keyframes
TempMat.setTransform(Vec3f(-2.0,0.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
RightElbowKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(-2.0,0.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),-1.57f));
RightElbowKeyframes->addKeyframe(TempMat,3.0f);
TempMat.setTransform(Vec3f(-2.0,0.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
RightElbowKeyframes->addKeyframe(TempMat,6.0f);
//Right Elbow Animator
KeyframeAnimatorUnrecPtr RightElbowAnimator = KeyframeAnimator::create();
RightElbowAnimator->setKeyframeSequence(RightElbowKeyframes);
//Left Shoulder
KeyframeTransformationSequenceUnrecPtr LeftShoulderKeyframes = KeyframeTransformationSequenceMatrix4f::create();
//Make keyframes
TempMat.setTransform(Vec3f(1.0,-0.5,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
LeftShoulderKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(1.0,-0.5,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.4f));
LeftShoulderKeyframes->addKeyframe(TempMat,3.0f);
TempMat.setTransform(Vec3f(1.0,-0.5,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
LeftShoulderKeyframes->addKeyframe(TempMat,6.0f);
//Left Shoulder Animator
KeyframeAnimatorUnrecPtr LeftShoulderAnimator = KeyframeAnimator::create();
LeftShoulderAnimator->setKeyframeSequence(LeftShoulderKeyframes);
//Right Shoulder
KeyframeTransformationSequenceUnrecPtr RightShoulderKeyframes = KeyframeTransformationSequenceMatrix4f::create();
//Make keyframes
TempMat.setTransform(Vec3f(-1.0,-0.5,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
RightShoulderKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(-1.0,-0.5,0.0),Quaternion(Vec3f(0.0,0.0,1.0),-0.4f));
RightShoulderKeyframes->addKeyframe(TempMat,3.0f);
TempMat.setTransform(Vec3f(-1.0,-0.5,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
RightShoulderKeyframes->addKeyframe(TempMat,6.0f);
//Right Shoulder Animator
KeyframeAnimatorUnrecPtr RightShoulderAnimator = KeyframeAnimator::create();
RightShoulderAnimator->setKeyframeSequence(RightShoulderKeyframes);
//Left Hip
KeyframeTransformationSequenceUnrecPtr LeftHipKeyframes = KeyframeTransformationSequenceMatrix4f::create();
//Make keyframes
TempMat.setTransform(Vec3f(1.0,-1.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
LeftHipKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(1.0,-1.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.4f));
LeftHipKeyframes->addKeyframe(TempMat,3.0f);
TempMat.setTransform(Vec3f(1.0,-1.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
LeftHipKeyframes->addKeyframe(TempMat,6.0f);
//Left Hip Animator
KeyframeAnimatorUnrecPtr LeftHipAnimator = KeyframeAnimator::create();
LeftHipAnimator->setKeyframeSequence(LeftHipKeyframes);
//Right Hip
KeyframeTransformationSequenceUnrecPtr RightHipKeyframes = KeyframeTransformationSequenceMatrix4f::create();
//Make keyframes
TempMat.setTransform(Vec3f(-1.0,-1.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
RightHipKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(-1.0,-1.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),-0.4f));
RightHipKeyframes->addKeyframe(TempMat,3.0f);
TempMat.setTransform(Vec3f(-1.0,-1.0,0.0),Quaternion(Vec3f(0.0,0.0,1.0),0.0f));
RightHipKeyframes->addKeyframe(TempMat,6.0f);
//Right Hip Animator
KeyframeAnimatorUnrecPtr RightHipAnimator = KeyframeAnimator::create();
RightHipAnimator->setKeyframeSequence(RightHipKeyframes);
//Clavicle
KeyframeTransformationSequenceUnrecPtr ClavicleKeyframes = KeyframeTransformationSequenceMatrix4f::create();
//Make keyframes
TempMat.setTransform(Vec3f(0.0,5.0,0.0));
ClavicleKeyframes->addKeyframe(TempMat,0.0f);
TempMat.setTransform(Vec3f(0.0,3.0,0.0));
ClavicleKeyframes->addKeyframe(TempMat,2.0f);
TempMat.setTransform(Vec3f(0.0,3.0,0.0));
ClavicleKeyframes->addKeyframe(TempMat,4.0f);
TempMat.setTransform(Vec3f(0.0,5.0,0.0));
ClavicleKeyframes->addKeyframe(TempMat,6.0f);
//Clavicle Animator
KeyframeAnimatorUnrecPtr ClavicleAnimator = KeyframeAnimator::create();
ClavicleAnimator->setKeyframeSequence(ClavicleKeyframes);
//Skeleton Animation
TheSkeletonAnimation = SkeletonAnimation::create();
//Add the animators we just made to the skeleton animation
TheSkeletonAnimation->addTransformationAnimator(LeftElbowAnimator, LeftElbow); //Here we tell the skeleton animation the it should use the animator LeftElbowAnimator to animate the joint LeftElbow
TheSkeletonAnimation->addTransformationAnimator(RightElbowAnimator, RightElbow);
TheSkeletonAnimation->addTransformationAnimator(LeftShoulderAnimator, LeftShoulder);
TheSkeletonAnimation->addTransformationAnimator(RightShoulderAnimator, RightShoulder);
TheSkeletonAnimation->addTransformationAnimator(LeftHipAnimator, LeftHip);
TheSkeletonAnimation->addTransformationAnimator(RightHipAnimator, RightHip);
TheSkeletonAnimation->addTransformationAnimator(ClavicleAnimator, Clavicle);
TheSkeletonAnimation->setSkeleton(ExampleSkeleton);
TheSkeletonAnimation->attachUpdateProducer(TutorialWindow->editEventProducer());
TheSkeletonAnimation->start();
}
// Initialize GLUT & OpenSG and set up the rootNode
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);
//Make Torus Node
NodeUnrecPtr TorusNode = makeTorus(.5, 2, 32, 32);
//Make Main Scene Node
NodeUnrecPtr scene = makeCoredNode<Group>();
setName(scene, "scene");
rootNode = Node::create();
setName(rootNode, "rootNode");
ComponentTransformUnrecPtr Trans;
Trans = ComponentTransform::create();
rootNode->setCore(Trans);
// add the torus as a child
rootNode->addChild(scene);
//Setup Physics Scene
physicsWorld = PhysicsWorld::create();
physicsWorld->setWorldContactSurfaceLayer(0.005);
physicsWorld->setAutoDisableFlag(1);
physicsWorld->setAutoDisableTime(0.75);
physicsWorld->setWorldContactMaxCorrectingVel(100.0);
physicsWorld->setGravity(Vec3f(0.0, 0.0, -9.81));
//physicsSpace = PhysicsSimpleSpace::create();
//physicsSpace = PhysicsQuadTreeSpace::create();
//physicsSpace = PhysicsHashSpace::create();
physicsSpace = PhysicsSweepAndPruneSpace::create();
CollisionContactParametersUnrecPtr DefaultCollisionParams = CollisionContactParameters::createEmpty();
DefaultCollisionParams->setMode(dContactApprox1 | dContactBounce);
DefaultCollisionParams->setMu(0.3);
DefaultCollisionParams->setMu2(0.0);
DefaultCollisionParams->setBounce(0.2);
DefaultCollisionParams->setBounceSpeedThreshold(0.1);
DefaultCollisionParams->setSoftCFM(0.1);
DefaultCollisionParams->setSoftERP(0.2);
DefaultCollisionParams->setMotion1(0.0);
DefaultCollisionParams->setMotion2(0.0);
DefaultCollisionParams->setMotionN(0.0);
DefaultCollisionParams->setSlip1(0.0);
DefaultCollisionParams->setSlip2(0.0);
physicsSpace->setDefaultCollisionParameters(DefaultCollisionParams);
physHandler = PhysicsHandler::create();
physHandler->setWorld(physicsWorld);
physHandler->pushToSpaces(physicsSpace);
physHandler->setUpdateNode(rootNode);
physHandler->attachUpdateProducer(TutorialWindow->editEventProducer());
rootNode->addAttachment(physHandler);
rootNode->addAttachment(physicsWorld);
rootNode->addAttachment(physicsSpace);
/************************************************************************/
/* create spaces, geoms and bodys */
/************************************************************************/
//create a group for our space
GroupUnrecPtr spaceGroup;
spaceGroupNode = makeCoredNode<Group>(&spaceGroup);
//create the ground plane
GeometryUnrecPtr plane;
NodeUnrecPtr planeNode = makeBox(30.0, 30.0, 1.0, 1, 1, 1);
plane = dynamic_cast<Geometry*>(planeNode->getCore());
//and its Material
SimpleMaterialUnrecPtr plane_mat = SimpleMaterial::create();
plane_mat->setAmbient(Color3f(0.7,0.7,0.7));
plane_mat->setDiffuse(Color3f(0.9,0.6,1.0));
plane->setMaterial(plane_mat);
//create Physical Attachments
PhysicsBoxGeomUnrecPtr planeGeom = PhysicsBoxGeom::create();
planeGeom->setLengths(Vec3f(30.0, 30.0, 1.0));
//add geoms to space for collision
planeGeom->setSpace(physicsSpace);
//add Attachments to nodes...
spaceGroupNode->addAttachment(physicsSpace);
spaceGroupNode->addChild(planeNode);
planeNode->addAttachment(planeGeom);
scene->addChild(spaceGroupNode);
//Create Statistics Foreground
SimpleStatisticsForegroundUnrecPtr PhysicsStatForeground = SimpleStatisticsForeground::create();
PhysicsStatForeground->setSize(25);
PhysicsStatForeground->setColor(Color4f(0,1,0,0.7));
PhysicsStatForeground->addElement(PhysicsHandler::statPhysicsTime,
"Physics time: %.3f s");
PhysicsStatForeground->addElement(PhysicsHandler::statCollisionTime,
"Collision time: %.3f s");
PhysicsStatForeground->addElement(PhysicsHandler::statSimulationTime,
"Simulation time: %.3f s");
PhysicsStatForeground->addElement(PhysicsHandler::statNCollisions,
"%d collisions");
PhysicsStatForeground->addElement(PhysicsHandler::statNCollisionTests,
"%d collision tests");
PhysicsStatForeground->addElement(PhysicsHandler::statNPhysicsSteps,
"%d simulation steps per frame");
// tell the manager what to manage
mgr->setRoot (rootNode);
mgr->getWindow()->getPort(0)->addForeground(PhysicsStatForeground);
physHandler->setStatistics(PhysicsStatForeground->getCollector());
// show the whole rootNode
mgr->showAll();
Vec2f WinSize(TutorialWindow->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindow->getDesktopSize() - WinSize) *0.5);
TutorialWindow->openWindow(WinPos,
WinSize,
"05Explosion");
//Enter main Loop
TutorialWindow->mainLoop();
osgExit();
return 0;
}
