virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindowEventProducer->closeWindow();
}
switch(e->getKey())
{
case KeyEvent::KEY_S:
{
buildSphere();
}
break;
case KeyEvent::KEY_B:
{
buildBox();
}
break;
case KeyEvent::KEY_Z:
{
//SceneFileHandler::the().write(rootNode, "scene.osb");
}
break;
case KeyEvent::KEY_T:
{
buildTriMesh();
}
break;
}
}
virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_CONTROL)
{
TutorialWindowEventProducer->closeWindow();
}
}
virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindowEventProducer->closeWindow();
}
switch(e->getKey())
{
case KeyEvent::KEY_T:
break;
}
}
virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_CONTROL)
{
TutorialWindowEventProducer->closeWindow();
}
if(e->getKey() == KeyEvent::KEY_T)
{
std::cout << "toggling" << std::endl;
//TheAnimcationAdvancer->stop();
}
}
virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_CONTROL)
{
TutorialWindowEventProducer->closeWindow();
}
switch(e->getKey())
{
case KeyEvent::KEY_S:
statFlag = !statFlag;
mgr->setStatistics(statFlag);
break;
case KeyEvent::KEY_EQUALS:
{
Vec3f Translation;
Quaternion Rotation;
Vec3f Scale;
Quaternion ScaleOrient;
Matrix ThePointLightMat = ThePointLightBeaconTransform->getMatrix();
ThePointLightMat.getTransform(Translation,Rotation,Scale,ScaleOrient);
Translation = Translation + Vec3f(0.0,10.0,0.0);
ThePointLightMat.setTranslate(Translation);
beginEditCP(ThePointLightBeaconTransform);
ThePointLightBeaconTransform->setMatrix(ThePointLightMat);
endEditCP(ThePointLightBeaconTransform);
}
break;
case KeyEvent::KEY_MINUS:
{
Vec3f Translation;
Quaternion Rotation;
Vec3f Scale;
Quaternion ScaleOrient;
Matrix ThePointLightMat = ThePointLightBeaconTransform->getMatrix();
ThePointLightMat.getTransform(Translation,Rotation,Scale,ScaleOrient);
Translation = Translation + Vec3f(0.0,-10.0,0.0);
ThePointLightMat.setTranslate(Translation);
beginEditCP(ThePointLightBeaconTransform);
ThePointLightBeaconTransform->setMatrix(ThePointLightMat);
endEditCP(ThePointLightBeaconTransform);
}
break;
case KeyEvent::KEY_T:
beginEditCP(TheBlinnMat, BlinnMaterial::DiffuseTextureFieldMask);
endEditCP(TheBlinnMat, BlinnMaterial::DiffuseTextureFieldMask);
break;
}
}
virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindowEventProducer->closeWindow();
}
float TranslateAmount(0.05f);
float RotateAmount(0.1f);
switch(e->getKey())
{
default:
break;
}
}
// Initialize GLUT & OpenSG and set up the scene
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
//Add Window Listener
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(TutorialWindowEventProducer->getWindow());
Path FBOFilePath;
if(argc < 2)
{
FWARNING(("No FBO file given!\n"));
FBOFilePath = Path("./Data/01LoadFBO.xml");
}
else
{
FBOFilePath = Path(std::string(argv[1]));
}
std::cout << "Loading xml File: " << FBOFilePath << std::endl;
FCFileType::FCPtrStore NewContainers;
NewContainers = FCFileHandler::the()->read(FBOFilePath);
FCFileType::FCPtrStore::iterator Itor;
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
if( (*Itor)->getType() == FBOViewport::getClassType())
{
TheFBOViewport = FBOViewport::Ptr::dcast(*Itor);
}
}
ChunkMaterialPtr BoxMaterial = ChunkMaterial::create();
GeometryPtr BoxGeoCore = makeBoxGeo(1.0,1.0,1.0,2,2,2);
beginEditCP(BoxGeoCore, Geometry::MaterialFieldMask);
BoxGeoCore->setMaterial(BoxMaterial);
endEditCP(BoxGeoCore, Geometry::MaterialFieldMask);
NodePtr BoxGeoNode = Node::create();
beginEditCP(BoxGeoNode, Node::CoreFieldMask);
BoxGeoNode->setCore(BoxGeoCore);
endEditCP(BoxGeoNode, Node::CoreFieldMask);
NodePtr SceneNode = Node::create();
beginEditCP(SceneNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
SceneNode->setCore(Group::create());
SceneNode->addChild(BoxGeoNode);
endEditCP(SceneNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
// tell the manager what to manage
mgr->setRoot (SceneNode);
// show the whole scene
mgr->showAll();
if(TheFBOViewport != NullFC)
{
//Add the texture chunk of the FBO to the Material for the box
beginEditCP(BoxMaterial, ChunkMaterial::ChunksFieldMask);
BoxMaterial->addChunk(TheFBOViewport->editTextures(0));
endEditCP(BoxMaterial, ChunkMaterial::ChunksFieldMask);
//Add The FBO Viewport the the Window
beginEditCP(TheFBOViewport, FBOViewport::ParentFieldMask);
TheFBOViewport->setParent(TutorialWindowEventProducer->getWindow());
endEditCP(TheFBOViewport, FBOViewport::ParentFieldMask);
beginEditCP(TutorialWindowEventProducer->getWindow());
ViewportPtr vp = TutorialWindowEventProducer->getWindow()->getPort(0);
addRefCP(vp);
TutorialWindowEventProducer->getWindow()->subPort(0);
//Put the FBO Vieport in front, so it is rendered first
TutorialWindowEventProducer->getWindow()->addPort(TheFBOViewport);
TutorialWindowEventProducer->getWindow()->addPort(vp );
endEditCP (TutorialWindowEventProducer->getWindow());
}
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"07LoadFBO");
//Main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
// Initialize OpenSG and set up the scene
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
//Add Window Listener
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
//Print key command info
std::cout << "\n\nKEY COMMANDS:" << std::endl;
std::cout << "space Play/Pause the animation" << std::endl;
std::cout << "B Show/Hide the bind pose skeleton" << std::endl;
std::cout << "SHIFT-B Show/Hide the bind pose mesh" << std::endl;
std::cout << "P Show/Hide the current pose skeleton" << std::endl;
std::cout << "SHIFT-P Show/Hide the current pose mesh" << std::endl;
std::cout << "O Toggle override status of TheSecondAnimation" << std::endl;
std::cout << "CTRL-Q Exit\n\n" << std::endl;
//Import scene from XML
ChunkMaterialPtr ExampleMaterial;
std::vector<SkeletonPtr> SkeletonPtrs;
std::vector<SkeletonBlendedGeometryPtr> SkeletonBlendedGeometryPtrs;
std::vector<GeometryPtr> GeometryPtrs;
//Skeleton materaial
LineChunkPtr SkelLineChunk = LineChunk::create();
beginEditCP(SkelLineChunk);
SkelLineChunk->setWidth(0.0f);
SkelLineChunk->setSmooth(true);
endEditCP(SkelLineChunk);
ChunkMaterialPtr SkelMaterial = ChunkMaterial::create();
beginEditCP(SkelMaterial, ChunkMaterial::ChunksFieldMask);
SkelMaterial->addChunk(SkelLineChunk);
endEditCP(SkelMaterial, ChunkMaterial::ChunksFieldMask);
//LOAD FIRST ANIMATION
FCFileType::FCPtrStore NewContainers;
NewContainers = FCFileHandler::the()->read(BoostPath("./Data/23WalkingAnimation.xml"));
FCFileType::FCPtrStore::iterator Itor;
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
if( (*Itor)->getType() == (ChunkMaterial::getClassType()))
{
//Set ExampleMaterial to the ChunkMaterial we just read in
ExampleMaterial = (ChunkMaterial::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Skeleton::getClassType()))
{
//Add the Skeleton we just read in to SkeletonPtrs
SkeletonPtrs.push_back(Skeleton::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (SkeletonBlendedGeometry::getClassType()))
{
//Add the SkeletonBlendedGeometry we just read in to SkeletonBlendedGeometryPtrs
SkeletonBlendedGeometryPtrs.push_back(SkeletonBlendedGeometry::Ptr::dcast(*Itor));
}
if( (*Itor)->getType().isDerivedFrom(SkeletonAnimation::getClassType()))
{
//Set TheWalkingAnimation to the SkeletonAnimation we just read in
TheWalkingAnimation = (SkeletonAnimation::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Geometry::getClassType()))
{
//Add the Geometry we just read in to GeometryPtrs
GeometryPtrs.push_back(Geometry::Ptr::dcast(*Itor));
}
}
//LOAD SECOND ANIMATION
NewContainers = FCFileHandler::the()->read(BoostPath("./Data/23SamAnimation.xml"));
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
//Import only the skeletonAnimation from the second XML file; we've already imported the skeleton and the geometry
if( (*Itor)->getType().isDerivedFrom(SkeletonAnimation::getClassType()))
{
TheSecondAnimation = (SkeletonAnimation::Ptr::dcast(*Itor));
}
}
//Blend the two animations
TheSkeletonBlendedAnimation = SkeletonBlendedAnimation::create();
beginEditCP(TheSkeletonBlendedAnimation);
TheSkeletonBlendedAnimation->addAnimationBlending(TheWalkingAnimation, BlendWalking, false);
TheSkeletonBlendedAnimation->addAnimationBlending(TheSecondAnimation, BlendTouchScreen, false);
endEditCP(TheSkeletonBlendedAnimation);
//Create unbound geometry Node (to show the mesh in its bind pose)
for (int i(0); i < GeometryPtrs.size(); ++i)
{
NodePtr UnboundGeometry = Node::create();
beginEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
UnboundGeometry->setCore(GeometryPtrs[i]);
UnboundGeometry->setTravMask(0); //By default, we don't show the mesh in its bind pose.
endEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
UnboundGeometries.push_back(UnboundGeometry);
}
//Create skeleton nodes
for (int i(0); i < SkeletonPtrs.size(); ++i)
{
//SkeletonDrawer
SkeletonDrawablePtr ExampleSkeletonDrawable = osg::SkeletonDrawable::create();
beginEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask);
ExampleSkeletonDrawable->setSkeleton(SkeletonPtrs[i]);
ExampleSkeletonDrawable->setMaterial(SkelMaterial);
ExampleSkeletonDrawable->setDrawPose(true); //By default we draw the current skeleton
ExampleSkeletonDrawable->setPoseColor(Color4f(1.0, 0.0, 1.0, 1.0)); //Set color of current skeleton
ExampleSkeletonDrawable->setDrawBindPose(false); //By default we don't draw the bind pose skeleton
ExampleSkeletonDrawable->setBindPoseColor(Color4f(1.0, 1.0, 0.0, 1.0)); //Set color of bind pose skeleton
endEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask);
//Skeleton Node
NodePtr SkeletonNode = osg::Node::create();
beginEditCP(SkeletonNode, Node::CoreFieldMask);
SkeletonNode->setCore(ExampleSkeletonDrawable);
endEditCP(SkeletonNode, Node::CoreFieldMask);
SkeletonNodes.push_back(SkeletonNode);
}
//Create skeleton blended geometry nodes
for (int i(0); i < SkeletonBlendedGeometryPtrs.size(); ++i)
{
NodePtr MeshNode = osg::Node::create();
beginEditCP(MeshNode, Node::CoreFieldMask);
MeshNode->setCore(SkeletonBlendedGeometryPtrs[i]);
endEditCP(MeshNode, Node::CoreFieldMask);
MeshNodes.push_back(MeshNode);
}
//Setup scene
NodePtr EmptyScene = osg::Node::create();
beginEditCP(EmptyScene, Node::CoreFieldMask);
EmptyScene->setCore(Group::create());
endEditCP (EmptyScene, Node::CoreFieldMask);
mgr->setRoot(EmptyScene);
//User Interface
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
// Create the DefaultBoundedRangeModelPtr and
// set its values
DefaultBoundedRangeModelPtr UpperAnimationSliderRangeModel = DefaultBoundedRangeModel::create();
UpperAnimationSliderRangeModel->setMinimum(0);
UpperAnimationSliderRangeModel->setMaximum(100);
UpperAnimationSliderRangeModel->setValue(BlendWalking * 100);
UpperAnimationSliderRangeModel->setExtent(0);
//Create the upper animation blend amount slider
LabelPtr TempLabel;
SliderPtr UpperAnimationSlider = Slider::create();
beginEditCP(UpperAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
//Label the slider
TempLabel = Label::Ptr::dcast(UpperAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("0.0"); endEditCP(TempLabel, Label::TextFieldMask);
UpperAnimationSlider->getLabelMap()[0] = TempLabel;
TempLabel = Label::Ptr::dcast(UpperAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("1.0"); endEditCP(TempLabel, Label::TextFieldMask);
UpperAnimationSlider->getLabelMap()[100] = TempLabel;
//Customize the slider
UpperAnimationSlider->setPreferredSize(Vec2f(100, 300));
UpperAnimationSlider->setSnapToTicks(false);
UpperAnimationSlider->setMajorTickSpacing(10);
UpperAnimationSlider->setMinorTickSpacing(5);
UpperAnimationSlider->setOrientation(Slider::VERTICAL_ORIENTATION);
UpperAnimationSlider->setInverted(true);
UpperAnimationSlider->setDrawLabels(true);
UpperAnimationSlider->setRangeModel(UpperAnimationSliderRangeModel);
endEditCP(UpperAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
DefaultBoundedRangeModelPtr LowerAnimationSliderRangeModel = DefaultBoundedRangeModel::create();
LowerAnimationSliderRangeModel->setMinimum(0);
LowerAnimationSliderRangeModel->setMaximum(100);
LowerAnimationSliderRangeModel->setValue(BlendTouchScreen * 100);
LowerAnimationSliderRangeModel->setExtent(0);
//Create the lower animation blend amount slider
SliderPtr LowerAnimationSlider = Slider::create();
beginEditCP(LowerAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
//Label the slider
TempLabel = Label::Ptr::dcast(LowerAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("0.0"); endEditCP(TempLabel, Label::TextFieldMask);
LowerAnimationSlider->getLabelMap()[0] = TempLabel;
TempLabel = Label::Ptr::dcast(LowerAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("1.0"); endEditCP(TempLabel, Label::TextFieldMask);
LowerAnimationSlider->getLabelMap()[100] = TempLabel;
//Customize the slider
LowerAnimationSlider->setPreferredSize(Vec2f(100, 300));
LowerAnimationSlider->setSnapToTicks(false);
LowerAnimationSlider->setMajorTickSpacing(10);
LowerAnimationSlider->setMinorTickSpacing(5);
LowerAnimationSlider->setOrientation(Slider::VERTICAL_ORIENTATION);
LowerAnimationSlider->setInverted(true);
LowerAnimationSlider->setDrawLabels(true);
LowerAnimationSlider->setRangeModel(LowerAnimationSliderRangeModel);
endEditCP(LowerAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
// Create Background to be used with the MainFrame
ColorLayerPtr MainFrameBackground = osg::ColorLayer::create();
beginEditCP(MainFrameBackground, ColorLayer::ColorFieldMask);
MainFrameBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainFrameBackground, ColorLayer::ColorFieldMask);
// Create The Main InternalWindow
// Create Background to be used with the Main InternalWindow
ColorLayerPtr MainInternalWindowBackground = osg::ColorLayer::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
LayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
//GL Viewport
ComponentPtr TheGLViewport = createGLPanel();
InternalWindowPtr MainInternalWindow = osg::InternalWindow::create();
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->getChildren().push_back(UpperAnimationSlider);
MainInternalWindow->getChildren().push_back(LowerAnimationSlider);
MainInternalWindow->getChildren().push_back(TheGLViewport);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(1.0f,1.0f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
//Attach the Slider Listeners
BlendAmountSliderChangeListener UpperAnimationSliderListener(TheSkeletonBlendedAnimation, 0, UpperAnimationSlider);
UpperAnimationSlider->addChangeListener(&UpperAnimationSliderListener);
BlendAmountSliderChangeListener LowerAnimationSliderListener(TheSkeletonBlendedAnimation, 1, LowerAnimationSlider);
LowerAnimationSlider->addChangeListener(&LowerAnimationSliderListener);
//Animation Advancer
TheAnimationAdvancer = ElapsedTimeAnimationAdvancer::create();
beginEditCP(TheAnimationAdvancer);
ElapsedTimeAnimationAdvancer::Ptr::dcast(TheAnimationAdvancer)->setStartTime( 0.0 );
beginEditCP(TheAnimationAdvancer);
//Create the Documentation
SimpleScreenDoc TheSimpleScreenDoc(&sceneManager, TutorialWindow);
// Show the whole Scene
mgr->showAll();
TheAnimationAdvancer->start();
//Show window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"23BlendXMLAnimations");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
virtual void keyPressed(const KeyEventPtr e)
{
//Exit
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindowEventProducer->closeWindow();
}
//Toggle animation
if(e->getKey() == KeyEvent::KEY_SPACE)
{
if(animationPaused)
animationPaused = false;
else
animationPaused = true;
}
//Toggle bind pose
if(e->getKey() == KeyEvent::KEY_B)
{
if(e->getModifiers() & KeyEvent::KEY_MODIFIER_SHIFT)
{
//Toggle mesh
for(int i(0); i < UnboundGeometries.size(); ++i)
{
if(UnboundGeometries[i]->getTravMask() == 0)
{
beginEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
UnboundGeometries[i]->setTravMask(1);
endEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
}
else
{
beginEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
UnboundGeometries[i]->setTravMask(0);
endEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
}
}
}
else
{
//Toggle skeleton
for(int i(0); i < SkeletonNodes.size(); ++i)
{
if(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->getDrawBindPose() == false)
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawBindPose(true);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
}
else
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawBindPose(false);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
}
}
}
}
//Toggle current pose
if(e->getKey() == KeyEvent::KEY_P)
{
if(e->getModifiers() & KeyEvent::KEY_MODIFIER_SHIFT)
{
//Toggle mesh
for(int i(0); i < MeshNodes.size(); ++i)
{
if(MeshNodes[i]->getTravMask() == 0)
{
beginEditCP(MeshNodes[i], Node::TravMaskFieldMask);
MeshNodes[i]->setTravMask(1);
endEditCP(MeshNodes[i], Node::TravMaskFieldMask);
}
else
{
beginEditCP(MeshNodes[i], Node::TravMaskFieldMask);
MeshNodes[i]->setTravMask(0);
endEditCP(MeshNodes[i], Node::TravMaskFieldMask);
}
}
}
else
{
//Toggle skeleton
for(int i(0); i < SkeletonNodes.size(); ++i)
{
if(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->getDrawPose() == false)
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawPose(true);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
}
else
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawPose(false);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
}
}
}
}
//Toggle override status on second animation
if(e->getKey() == KeyEvent::KEY_O)
{
if(TheSkeletonBlendedAnimation->getOverrideStatus(1))
{
TheSkeletonBlendedAnimation->setOverrideStatus(1, false);
}
else
{
TheSkeletonBlendedAnimation->setOverrideStatus(1, true);
}
}
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
// Make Torus Node (creates Torus in background of scene)
NodePtr TorusGeometryNode = makeTorus(.5, 2, 16, 16);
// Make Main Scene Node and add the Torus
NodePtr scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(TorusGeometryNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
//Create the Image
Path ImagePath("./Data/TutorialImage.jpg");
ImagePtr TheImage = ImageFileHandler::the().read(ImagePath.string().c_str());
//Create the texture
TextureChunkPtr TheTextureChunk = TextureChunk::create();
beginEditCP(TheTextureChunk);
TheTextureChunk->setImage(TheImage);
TheTextureChunk->setMinFilter(GL_NEAREST);
TheTextureChunk->setMagFilter(GL_NEAREST);
TheTextureChunk->setWrapS(GL_CLAMP_TO_EDGE);
TheTextureChunk->setWrapR(GL_CLAMP_TO_EDGE);
TheTextureChunk->setScale(false);
TheTextureChunk->setNPOTMatrixScale(true);
TheTextureChunk->setEnvMode(GL_REPLACE);
endEditCP(TheTextureChunk);
//Create a Texture Source
TextureSourceTextureFilterPtr TutorialTextureSourceTextureFilter = TextureSourceTextureFilter::create();
beginEditCP(TutorialTextureSourceTextureFilter, TextureSourceTextureFilter::TextureFieldMask);
TutorialTextureSourceTextureFilter->setTexture(TheTextureChunk);
endEditCP(TutorialTextureSourceTextureFilter, TextureSourceTextureFilter::TextureFieldMask);
//Create a Grayscale filter
std::string GrayScaleFragProg = "uniform sampler2D Slot0Texture; void main() { gl_FragColor = vec4(vec3( dot(vec3(0.3,0.59,0.11), texture2D(Slot0Texture,gl_TexCoord[0].st).rgb)), 1.0); }";
//Create a shader Filter
ShaderTextureFilterPtr GrayscaleTextureFilter = ShaderTextureFilter::create();
GrayscaleTextureFilter->attachSource(TutorialTextureSourceTextureFilter, 0, 0);
GrayscaleTextureFilter->setFragmentSource(GrayScaleFragProg);
//Create a Color Mult filter
std::string ColorMultFragProg = "uniform sampler2D Slot0Texture; void main() { gl_FragColor = vec4(vec3(1.0,0.0,0.0) * texture2D(Slot0Texture,gl_TexCoord[0].st).rgb, 1.0); }";
//Create a shader Filter
ShaderTextureFilterPtr ColorMultTextureFilter = ShaderTextureFilter::create();
ColorMultTextureFilter->attachSource(GrayscaleTextureFilter,0,0);
ColorMultTextureFilter->setFragmentSource(ColorMultFragProg);
////Create a Blur filter
//std::string BlurFragProg = "";
//BlurFragProg +=
//"uniform sampler2D Slot0Texture;"
//"void main()"
//"{"
//" vec2 offsets[9];"
//" offsets[0] = vec2(-0.000625,0.00111111111);"
//" offsets[1] = vec2(0.0,0.00111111111);"
//" offsets[2] = vec2(0.000625,0.00111111111);"
//" offsets[3] = vec2(-0.000625,0.0);"
//" offsets[4] = vec2(0.0,0.0);"
//" offsets[5] = vec2(0.0,0.0);"
//" offsets[6] = vec2(-0.000625,-0.00111111111);"
//" offsets[7] = vec2(0.0,-0.00111111111);"
//" offsets[8] = vec2(0.000625,-0.00111111111);"
//" vec4 kernel[9];"
////" kernel[0] = vec4(0.0);"
////" kernel[1] = vec4(0.0);"
////" kernel[2] = vec4(0.0);"
////" kernel[3] = vec4(0.0);"
////" kernel[4] = vec4(1.0);"
////" kernel[5] = vec4(0.0);"
////" kernel[6] = vec4(0.0);"
////" kernel[7] = vec4(0.0);"
////" kernel[8] = vec4(0.0);"
//" kernel[0] = vec4(0.0);"
//" kernel[1] = vec4(0.15);"
//" kernel[2] = vec4(0.0);"
//" kernel[3] = vec4(0.15);"
//" kernel[4] = vec4(0.4);"
//" kernel[5] = vec4(0.15);"
//" kernel[6] = vec4(0.0);"
//" kernel[7] = vec4(0.15);"
//" kernel[8] = vec4(0.0);"
//" vec4 sum = vec4(0.0);"
//" int i;"
//" for(i = 0 ; i < 9 ; i++)"
//" {"
//" sum += kernel[i] * texture2D(Slot0Texture,gl_TexCoord[0].st + offsets[i]);"
//" }"
//" gl_FragColor = sum;"
//"}";
////Create a shader Filter
//ShaderTextureFilterPtr BlurTextureFilter = ShaderTextureFilter::create();
//BlurTextureFilter->attachSource(ColorMultTextureFilter);
//BlurTextureFilter->setFragmentSource(BlurFragProg);
// Create the ImageProcessed Foreground Object
ImageProcessedForegroundPtr TutorialImageProcessedForeground = ImageProcessedForeground::create();
beginEditCP(TutorialImageProcessedForeground, ImageProcessedForeground::FilterFieldMask | ImageProcessedForeground::OutputSlotFieldMask);
TutorialImageProcessedForeground->setFilter(ColorMultTextureFilter);
TutorialImageProcessedForeground->setOutputSlot(0);
endEditCP(TutorialImageProcessedForeground, ImageProcessedForeground::FilterFieldMask | ImageProcessedForeground::OutputSlotFieldMask);
mgr->setRoot(scene);
// Add the ImageProcessed Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialImageProcessedForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// Show the whole Scene
mgr->showAll();
//Open Window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"02SimpleImagePipeline");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
// Make Torus Node (creates Torus in background of scene)
NodePtr TorusGeometryNode = makeTorus(.5, 2, 16, 16);
// Make Main Scene Node and add the Torus
NodePtr scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(TorusGeometryNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
//Create InventoryItems
ExampleInventory = Inventory::create();
GenericInventoryItemPtr ExampleItem1 = GenericInventoryItem::create();
GenericInventoryItemPtr ExampleItem2 = GenericInventoryItem::create();
GenericInventoryItemPtr ExampleItem3 = GenericInventoryItem::create();
GenericInventoryItemPtr ExampleItem4 = GenericInventoryItem::create();
GenericInventoryItemPtr ExampleItem5 = GenericInventoryItem::create();
GenericInventoryItemPtr ExampleItem6 = GenericInventoryItem::create();
GenericInventoryItemPtr ExampleItem7 = GenericInventoryItem::create();
beginEditCP(ExampleItem1, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleItem1->setName(std::string("David K"));
ExampleItem1->setDetails(std::string("Major: Human Computer Interaction \nDegree: PhD \nDepartment: Computer Science \nCollege: LAS"));
endEditCP(ExampleItem1, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
beginEditCP(ExampleItem2, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleItem2->setName(std::string("Eve W"));
ExampleItem2->setDetails(std::string("Department: Genetics Development and Cell Biology\n\nCollege: Agriculture"));
endEditCP(ExampleItem2, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
beginEditCP(ExampleItem3, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleItem3->setName(std::string("Will S"));
ExampleItem3->setDetails(std::string("Major: Art And Design\nDegree: BFA\nDepartment: Art and Design\nCollege: Design"));
endEditCP(ExampleItem3, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
beginEditCP(ExampleItem4, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleItem4->setName(std::string("Eric L"));
ExampleItem4->setDetails(std::string("Major: Software Engineering\nDegree: BS\nDepartment: Software Engineering\nCollege: Engineering"));
endEditCP(ExampleItem4, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
beginEditCP(ExampleItem5, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleItem5->setName(std::string("Jeffery F"));
ExampleItem5->setDetails(std::string("Major: Integrated Studio Arts\nDegree: BFA\nDepartment: Art and Design\nCollege: Design"));
endEditCP(ExampleItem5, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
beginEditCP(ExampleItem6, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleItem6->setName(std::string("Tao L"));
ExampleItem6->setDetails(std::string("Major: Computer Engineering\nDegree: PhD\nDepartment: Computer Engineering\nCollege: Engineering"));
endEditCP(ExampleItem6, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
beginEditCP(ExampleItem7, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleItem7->setName(std::string("Daniel G"));
ExampleItem7->setDetails(std::string("Major: Computer Engineering\nDegree: BS\nDepartment: Computer Engineering\nCollege: Engineering"));
endEditCP(ExampleItem7, InventoryItem::NameFieldMask | GenericInventoryItem::DetailsFieldMask);
ExampleInventory->addItem(ExampleItem1);
ExampleInventory->addItem(ExampleItem2);
ExampleInventory->addItem(ExampleItem3);
ExampleInventory->addItem(ExampleItem4);
ExampleInventory->addItem(ExampleItem5);
ExampleInventory->addItem(ExampleItem6);
ExampleInventory->addItem(ExampleItem7);
/******************************************************
Create a List. A List has several
parts to it:
-ListModel: Contains the data which is to be
displayed in the List. Data is added
as shown below
-ListCellRenderer: Creates the Components to
be used within the List (the default
setting is to create Labels using
the desired text).
-ListSelectionModel: Determines how
the List may be selected.
To add values to the list:
First, create SFStrings and use the
.setValue("Value") function to set their
values. Then, use the .pushBack(&SFStringName)
to add them to the List.
Next, create the CellRenderer and ListSelectionModel
defaults.
Finally, actually create the List. Set
its Model, CellRenderer, and SelectionModel
as shown below. Finally, choose the
type of display for the List (choices outlined
below).
******************************************************/
// Add data to it
ExampleListModel = InventoryListModel::create();
beginEditCP(ExampleListModel, InventoryListModel::CurrentInventoryFieldMask);
ExampleListModel->setCurrentInventory(ExampleInventory);
endEditCP(ExampleListModel, InventoryListModel::CurrentInventoryFieldMask);
/******************************************************
Create ListCellRenderer and
ListSelectionModel. Most
often the defauls will be used.
Note: the ListSelectionModel was
created above and is referenced
by the ActionListeners.
******************************************************/
/******************************************************
Create List itself and assign its
Model, CellRenderer, and SelectionModel
to it.
-setOrientation(ENUM): Determine the
Layout of the cells (Horizontal
or Vertical). Takes List::VERTICAL_ORIENTATION
and List::HORIZONTAL_ORIENTATION arguments.
******************************************************/
ExampleList = List::create();
beginEditCP(ExampleList, List::PreferredSizeFieldMask | List::OrientationFieldMask | List::ModelFieldMask);
ExampleList->setPreferredSize(Vec2f(200, 300));
ExampleList->setOrientation(List::VERTICAL_ORIENTATION);
//ExampleList->setOrientation(List::HORIZONTAL_ORIENTATION);
ExampleList->setModel(ExampleListModel);
endEditCP(ExampleList, List::PreferredSizeFieldMask | List::OrientationFieldMask | List::ModelFieldMask);
ExampleList->setSelectionModel(ExampleListSelectionModel);
InventoryListListener TheInventoryListListener;
ExampleList->getSelectionModel()->addListSelectionListener(&TheInventoryListListener);
// Create The Main InternalWindow
// Create Background to be used with the Main InternalWindow
ColorLayerPtr MainInternalWindowBackground = osg::ColorLayer::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
/******************************************************
Determine the SelectionModel
-SINGLE_SELECTION lets you select ONE item
via a single mouse click
-SINGLE_INTERVAL_SELECTION lets you select
one interval via mouse and SHIFT key
-MULTIPLE_INTERVAL_SELECTION lets you select
via mouse, and SHIFT and CONTRL keys
Note: this tutorial is currently set up
to allow for this to be changed via
TogggleButtons with ActionListeners attached
to them so this code is commented out.
******************************************************/
//SelectionModel.setMode(DefaultListSelectionModel::SINGLE_SELECTION);
//SelectionModel.setMode(DefaultListSelectionModel::SINGLE_INTERVAL_SELECTION);
//SelectionModel.setMode(DefaultListSelectionModel::MULTIPLE_INTERVAL_SELECTION);
// Create a ScrollPanel for easier viewing of the List (see 27ScrollPanel)
ScrollPanelPtr ExampleScrollPanel = ScrollPanel::create();
beginEditCP(ExampleScrollPanel, ScrollPanel::PreferredSizeFieldMask | ScrollPanel::HorizontalResizePolicyFieldMask | ScrollPanel::BackgroundFieldMask);
ExampleScrollPanel->setPreferredSize(Vec2f(200,100));
ExampleScrollPanel->setBackgrounds(MainInternalWindowBackground);
ExampleScrollPanel->setHorizontalResizePolicy(ScrollPanel::RESIZE_TO_VIEW);
//ExampleScrollPanel->setVerticalResizePolicy(ScrollPanel::RESIZE_TO_VIEW);
endEditCP(ExampleScrollPanel, ScrollPanel::PreferredSizeFieldMask | ScrollPanel::HorizontalResizePolicyFieldMask | ScrollPanel::BackgroundFieldMask);
ExampleScrollPanel->setViewComponent(ExampleList);
// Create MainFramelayout
FlowLayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
beginEditCP(MainInternalWindowLayout, FlowLayout::OrientationFieldMask | FlowLayout::MajorAxisAlignmentFieldMask | FlowLayout::MinorAxisAlignmentFieldMask);
MainInternalWindowLayout->setOrientation(FlowLayout::HORIZONTAL_ORIENTATION);
MainInternalWindowLayout->setMajorAxisAlignment(0.5f);
MainInternalWindowLayout->setMinorAxisAlignment(0.5f);
endEditCP(MainInternalWindowLayout, FlowLayout::OrientationFieldMask | FlowLayout::MajorAxisAlignmentFieldMask | FlowLayout::MinorAxisAlignmentFieldMask);
DetailsWindow = osg::TextArea::create();
beginEditCP(DetailsWindow, TextArea::PreferredSizeFieldMask);
DetailsWindow->setPreferredSize(Pnt2f(200,100));
DetailsWindow->setMinSize(Vec2f(200,100));
endEditCP(DetailsWindow, TextArea::PreferredSizeFieldMask);
InternalWindowPtr MainInternalWindow = osg::InternalWindow::create();
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->getChildren().push_back(ExampleScrollPanel);
MainInternalWindow->getChildren().push_back(DetailsWindow);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(0.7f,0.5f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
mgr->setRoot(scene);
// Add the UI Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// Show the whole Scene
mgr->showAll();
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"09Inventory");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
//Add Window Listener
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
//Print key command info
std::cout << "\n\nKEY COMMANDS:" << std::endl;
std::cout << "space Play/Pause the animation" << std::endl;
std::cout << "G Show/Hide the grid" << std::endl;
std::cout << "A Show/Hide the axes" << std::endl;
std::cout << "B Show/Hide the bind pose skeleton" << std::endl;
std::cout << "SHIFT-B Show/Hide the bind pose mesh" << std::endl;
std::cout << "P Show/Hide the current pose skeleton" << std::endl;
std::cout << "SHIFT-P Show/Hide the current pose mesh" << std::endl;
std::cout << "CTRL-Q Exit\n\n" << std::endl;
//Setup axes
LineChunkPtr AxesLineChunk = LineChunk::create();
beginEditCP(AxesLineChunk);
AxesLineChunk->setWidth(0.0f);
AxesLineChunk->setSmooth(true);
endEditCP(AxesLineChunk);
//Axes material
ChunkMaterialPtr AxesMaterial = ChunkMaterial::create();
beginEditCP(AxesMaterial, ChunkMaterial::ChunksFieldMask);
AxesMaterial->addChunk(AxesLineChunk);
endEditCP(AxesMaterial, ChunkMaterial::ChunksFieldMask);
//Grid material
ChunkMaterialPtr gridMaterial = ChunkMaterial::create();
beginEditCP(gridMaterial, ChunkMaterial::ChunksFieldMask);
gridMaterial->addChunk(AxesLineChunk);
endEditCP(gridMaterial, ChunkMaterial::ChunksFieldMask);
//Axes should render as lines
GeoPTypesPtr axesType = GeoPTypesUI8::create();
beginEditCP(axesType, GeoPTypesUI8::GeoPropDataFieldMask);
{
axesType->addValue(GL_LINES);
}
endEditCP (axesType, GeoPTypesUI8::GeoPropDataFieldMask);
//Grid type
GeoPTypesPtr gridType = GeoPTypesUI8::create();
beginEditCP(gridType, GeoPTypesUI8::GeoPropDataFieldMask);
{
gridType->addValue(GL_LINES);
}
endEditCP (gridType, GeoPTypesUI8::GeoPropDataFieldMask);
//Axes lens
GeoPLengthsPtr axesLens = GeoPLengthsUI32::create();
beginEditCP(axesLens, GeoPLengthsUI32::GeoPropDataFieldMask);
{
axesLens->addValue(6);
}
endEditCP (axesLens, GeoPLengthsUI32::GeoPropDataFieldMask);
//Grid lens
GeoPLengthsPtr gridLens = GeoPLengthsUI32::create();
beginEditCP(gridLens, GeoPLengthsUI32::GeoPropDataFieldMask);
{
gridLens->addValue(84);
}
endEditCP (gridLens, GeoPLengthsUI32::GeoPropDataFieldMask);
//Axes points
GeoPositions3fPtr axesPnts = GeoPositions3f::create();
beginEditCP(axesPnts, GeoPositions3f::GeoPropDataFieldMask);
{
// X-Axis
axesPnts->addValue(Pnt3f(0, 0, 0));
axesPnts->addValue(Pnt3f(15, 0, 0));
// Y-Axis
axesPnts->addValue(Pnt3f(0, 0, 0));
axesPnts->addValue(Pnt3f(0, 15, 0));
// Z-Axis
axesPnts->addValue(Pnt3f(0, 0, 0));
axesPnts->addValue(Pnt3f(0, 0, 15));
}
endEditCP (axesPnts, GeoPositions3f::GeoPropDataFieldMask);
//Grid points
GeoPositions3fPtr gridPnts = GeoPositions3f::create();
beginEditCP(gridPnts, GeoPositions3f::GeoPropDataFieldMask);
{
float height = 0;
gridPnts->addValue(Pnt3f(-10, height, 0));
if(height == 0)
gridPnts->addValue(Pnt3f(0, height, 0));
else
gridPnts->addValue(Pnt3f(10, height, 0));
gridPnts->addValue(Pnt3f(-10, height, 1));
gridPnts->addValue(Pnt3f(10, height, 1));
gridPnts->addValue(Pnt3f(-10, height, 2));
gridPnts->addValue(Pnt3f(10, height, 2));
gridPnts->addValue(Pnt3f(-10, height, 3));
gridPnts->addValue(Pnt3f(10, height, 3));
gridPnts->addValue(Pnt3f(-10, height, 4));
gridPnts->addValue(Pnt3f(10, height, 4));
gridPnts->addValue(Pnt3f(-10, height, 5));
gridPnts->addValue(Pnt3f(10, height, 5));
gridPnts->addValue(Pnt3f(-10, height, 6));
gridPnts->addValue(Pnt3f(10, height, 6));
gridPnts->addValue(Pnt3f(-10, height, 7));
gridPnts->addValue(Pnt3f(10, height, 7));
gridPnts->addValue(Pnt3f(-10, height, 8));
gridPnts->addValue(Pnt3f(10, height, 8));
gridPnts->addValue(Pnt3f(-10, height, 9));
gridPnts->addValue(Pnt3f(10, height, 9));
gridPnts->addValue(Pnt3f(-10, height, 10));
gridPnts->addValue(Pnt3f(10, height, 10));
gridPnts->addValue(Pnt3f(-10, height, -1));
gridPnts->addValue(Pnt3f(10, height, -1));
gridPnts->addValue(Pnt3f(-10, height, -2));
gridPnts->addValue(Pnt3f(10, height, -2));
gridPnts->addValue(Pnt3f(-10, height, -3));
gridPnts->addValue(Pnt3f(10, height, -3));
gridPnts->addValue(Pnt3f(-10, height, -4));
gridPnts->addValue(Pnt3f(10, height, -4));
gridPnts->addValue(Pnt3f(-10, height, -5));
gridPnts->addValue(Pnt3f(10, height, -5));
gridPnts->addValue(Pnt3f(-10, height, -6));
gridPnts->addValue(Pnt3f(10, height, -6));
gridPnts->addValue(Pnt3f(-10, height, -7));
gridPnts->addValue(Pnt3f(10, height, -7));
gridPnts->addValue(Pnt3f(-10, height, -8));
gridPnts->addValue(Pnt3f(10, height, -8));
gridPnts->addValue(Pnt3f(-10, height, -9));
gridPnts->addValue(Pnt3f(10, height, -9));
gridPnts->addValue(Pnt3f(-10, height, -10));
gridPnts->addValue(Pnt3f(10, height, -10));
gridPnts->addValue(Pnt3f(0, height, -10));
if(height == 0)
gridPnts->addValue(Pnt3f(0, height, 0));
else
gridPnts->addValue(Pnt3f(0, height, 10));
gridPnts->addValue(Pnt3f(1, height, -10));
gridPnts->addValue(Pnt3f(1, height, 10));
gridPnts->addValue(Pnt3f(2, height, -10));
gridPnts->addValue(Pnt3f(2, height, 10));
gridPnts->addValue(Pnt3f(3, height, -10));
gridPnts->addValue(Pnt3f(3, height, 10));
gridPnts->addValue(Pnt3f(4, height, -10));
gridPnts->addValue(Pnt3f(4, height, 10));
gridPnts->addValue(Pnt3f(5, height, -10));
gridPnts->addValue(Pnt3f(5, height, 10));
gridPnts->addValue(Pnt3f(6, height, -10));
gridPnts->addValue(Pnt3f(6, height, 10));
gridPnts->addValue(Pnt3f(7, height, -10));
gridPnts->addValue(Pnt3f(7, height, 10));
gridPnts->addValue(Pnt3f(8, height, -10));
gridPnts->addValue(Pnt3f(8, height, 10));
gridPnts->addValue(Pnt3f(9, height, -10));
gridPnts->addValue(Pnt3f(9, height, 10));
gridPnts->addValue(Pnt3f(10, height, -10));
gridPnts->addValue(Pnt3f(10, height, 10));
gridPnts->addValue(Pnt3f(-1, height, -10));
gridPnts->addValue(Pnt3f(-1, height, 10));
gridPnts->addValue(Pnt3f(-2, height, -10));
gridPnts->addValue(Pnt3f(-2, height, 10));
gridPnts->addValue(Pnt3f(-3, height, -10));
gridPnts->addValue(Pnt3f(-3, height, 10));
gridPnts->addValue(Pnt3f(-4, height, -10));
gridPnts->addValue(Pnt3f(-4, height, 10));
gridPnts->addValue(Pnt3f(-5, height, -10));
gridPnts->addValue(Pnt3f(-5, height, 10));
gridPnts->addValue(Pnt3f(-6, height, -10));
gridPnts->addValue(Pnt3f(-6, height, 10));
gridPnts->addValue(Pnt3f(-7, height, -10));
gridPnts->addValue(Pnt3f(-7, height, 10));
gridPnts->addValue(Pnt3f(-8, height, -10));
gridPnts->addValue(Pnt3f(-8, height, 10));
gridPnts->addValue(Pnt3f(-9, height, -10));
gridPnts->addValue(Pnt3f(-9, height, 10));
gridPnts->addValue(Pnt3f(-10, height, -10));
gridPnts->addValue(Pnt3f(-10, height, 10));
}
endEditCP (gridPnts, GeoPositions3f::GeoPropDataFieldMask);
//Axes normals
GeoNormals3fPtr axesNorms = GeoNormals3f::create();
beginEditCP(axesNorms, GeoNormals3f::GeoPropDataFieldMask);
axesNorms->addValue(Vec3f( 0.0,0.0,1.0));
axesNorms->addValue(Vec3f( 0.0,0.0,1.0));
axesNorms->addValue(Vec3f( 0.0,0.0,1.0));
axesNorms->addValue(Vec3f( 0.0,0.0,1.0));
axesNorms->addValue(Vec3f( 1.0,0.0,0.0));
axesNorms->addValue(Vec3f( 1.0,0.0,0.0));
endEditCP(axesNorms, GeoNormals3f::GeoPropDataFieldMask);
//Grid normals
GeoNormals3fPtr gridNorms = GeoNormals3f::create();
beginEditCP(gridNorms, GeoNormals3f::GeoPropDataFieldMask);
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
gridNorms->addValue(Vec3f( 0.0,0.0,1.0));
endEditCP(gridNorms, GeoNormals3f::GeoPropDataFieldMask);
//Axes colors
GeoColors3fPtr axesColors = GeoColors3f::create();
beginEditCP(axesColors, GeoColors3f::GeoPropDataFieldMask);
//X-Axis = Red
axesColors->addValue(Color3f( 1.0,0.0,0.0));
axesColors->addValue(Color3f( 1.0,0.0,0.0));
//Y-Axis = Green
axesColors->addValue(Color3f( 0.0,1.0,0.0));
axesColors->addValue(Color3f( 0.0,1.0,0.0));
//Z-Axis = Blue
axesColors->addValue(Color3f( 0.0,0.0,1.0));
axesColors->addValue(Color3f( 0.0,0.0,1.0));
endEditCP(axesColors, GeoColors3f::GeoPropDataFieldMask);
//Grid gridColors
GeoColors3fPtr gridColors = GeoColors3f::create();
beginEditCP(gridColors, GeoColors3f::GeoPropDataFieldMask);
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
gridColors->addValue(Color3f( 0.5,0.5,0.5));
endEditCP(gridColors, GeoColors3f::GeoPropDataFieldMask);
//Create axes geometry
GeometryPtr axesGeo = Geometry::create();
beginEditCP(axesGeo, Geometry::TypesFieldMask |
Geometry::LengthsFieldMask |
Geometry::PositionsFieldMask |
Geometry::NormalsFieldMask |
Geometry::MaterialFieldMask |
Geometry::ColorsFieldMask);
{
axesGeo->setTypes (axesType);
axesGeo->setLengths (axesLens);
axesGeo->setPositions(axesPnts);
axesGeo->setNormals(axesNorms);
axesGeo->setColors(axesColors);
// assign a material to the geometry to make it visible. The details
// of materials are defined later.
axesGeo->setMaterial(AxesMaterial);
}
endEditCP (axesGeo, Geometry::TypesFieldMask |
Geometry::LengthsFieldMask |
Geometry::PositionsFieldMask |
Geometry::NormalsFieldMask |
Geometry::MaterialFieldMask |
Geometry::ColorsFieldMask );
//Create grid geometry
GeometryPtr gridGeo = Geometry::create();
beginEditCP(gridGeo, Geometry::TypesFieldMask |
Geometry::LengthsFieldMask |
Geometry::PositionsFieldMask |
Geometry::NormalsFieldMask |
Geometry::MaterialFieldMask |
Geometry::ColorsFieldMask);
{
gridGeo->setTypes (gridType);
gridGeo->setLengths (gridLens);
gridGeo->setPositions(gridPnts);
gridGeo->setNormals(gridNorms);
gridGeo->setColors(gridColors);
// assign a material to the geometry to make it visible. The details
// of materials are defined later.
gridGeo->setMaterial(AxesMaterial);
}
endEditCP (gridGeo, Geometry::TypesFieldMask |
Geometry::LengthsFieldMask |
Geometry::PositionsFieldMask |
Geometry::NormalsFieldMask |
Geometry::MaterialFieldMask |
Geometry::ColorsFieldMask );
//Create unbound geometry Node
Axes = osg::Node::create();
beginEditCP(Axes, Node::CoreFieldMask);
Axes->setCore(axesGeo);
endEditCP(Axes, Node::CoreFieldMask);
//Create unbound geometry Node
Grid = osg::Node::create();
beginEditCP(Grid, Node::CoreFieldMask);
Grid->setCore(gridGeo);
endEditCP(Grid, Node::CoreFieldMask);
//Import scene from an XML file
ChunkMaterialPtr ExampleMaterial;
std::vector<SkeletonPtr> SkeletonPtrs;
std::vector<SkeletonBlendedGeometryPtr> SkeletonBlendedGeometryPtrs;
std::vector<GeometryPtr> GeometryPtrs;
FCFileType::FCPtrStore NewContainers;
NewContainers = FCFileHandler::the()->read(Path("./Data/21SceneFromMaya.xml"));
FCFileType::FCPtrStore::iterator Itor;
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
if( (*Itor)->getType() == (ChunkMaterial::getClassType()))
{
//Set ExampleMaterial to the ChunkMaterial we just read in
ExampleMaterial = (ChunkMaterial::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Skeleton::getClassType()))
{
//Add the skeleton we just read in to SkeletonPtrs
SkeletonPtrs.push_back(Skeleton::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (SkeletonBlendedGeometry::getClassType()))
{
//Add the SkeletonBlendedGeometry we just read in to SkeletonBlendedGeometryPtrs
SkeletonBlendedGeometryPtrs.push_back(SkeletonBlendedGeometry::Ptr::dcast(*Itor));
}
if( (*Itor)->getType().isDerivedFrom(SkeletonAnimation::getClassType()))
{
//Set TheSkeletonAnimation to the Animation we just read in
TheSkeletonAnimation = (Animation::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Geometry::getClassType()))
{
//Add the Geometry we just read in to GeometryPtrs
GeometryPtrs.push_back(Geometry::Ptr::dcast(*Itor));
}
}
//Create unbound geometry Node (to show the mesh in its bind pose)
for (int i(0); i < GeometryPtrs.size(); ++i)
{
NodePtr UnboundGeometry = Node::create();
beginEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
UnboundGeometry->setCore(GeometryPtrs[i]);
UnboundGeometry->setTravMask(0);
endEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
UnboundGeometries.push_back(UnboundGeometry);
}
//Create skeleton nodes
for (int i(0); i < SkeletonPtrs.size(); ++i)
{
//SkeletonDrawer
SkeletonDrawablePtr ExampleSkeletonDrawable = osg::SkeletonDrawable::create();
beginEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask);
ExampleSkeletonDrawable->setSkeleton(SkeletonPtrs[i]);
ExampleSkeletonDrawable->setMaterial(AxesMaterial);
ExampleSkeletonDrawable->setDrawPose(true); //By default we draw the current skeleton
ExampleSkeletonDrawable->setPoseColor(Color4f(1.0, 0.0, 1.0, 1.0)); //Set color of current skeleton
ExampleSkeletonDrawable->setDrawBindPose(false); //By default we don't draw the bind pose skeleton
ExampleSkeletonDrawable->setBindPoseColor(Color4f(1.0, 1.0, 0.0, 1.0)); //Set color of bind pose skeleton
endEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask);
//Skeleton Node
NodePtr SkeletonNode = osg::Node::create();
beginEditCP(SkeletonNode, Node::CoreFieldMask);
SkeletonNode->setCore(ExampleSkeletonDrawable);
endEditCP(SkeletonNode, Node::CoreFieldMask);
SkeletonNodes.push_back(SkeletonNode);
}
//Create skeleton blended geometry nodes
for (int i(0); i < SkeletonBlendedGeometryPtrs.size(); ++i)
{
NodePtr MeshNode = osg::Node::create();
beginEditCP(MeshNode, Node::CoreFieldMask);
MeshNode->setCore(SkeletonBlendedGeometryPtrs[i]);
endEditCP(MeshNode, Node::CoreFieldMask);
MeshNodes.push_back(MeshNode);
}
//Create Animation Advancer
TheAnimationAdvancer = osg::ElapsedTimeAnimationAdvancer::create();
osg::beginEditCP(TheAnimationAdvancer);
osg::ElapsedTimeAnimationAdvancer::Ptr::dcast(TheAnimationAdvancer)->setStartTime( 0.0 );
osg::beginEditCP(TheAnimationAdvancer);
//Add nodes to scene
NodePtr scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(Axes);
scene->addChild(Grid);
//Add all imported skeletons to scene
for (int i(0); i < SkeletonNodes.size(); ++i)
{
scene->addChild(SkeletonNodes[i]);
}
//Add all imported geometries to scene
for (int i(0); i < UnboundGeometries.size(); ++i)
{
scene->addChild(UnboundGeometries[i]);
}
//Add all imported SkeletonBlendedGeometries to scene
for (int i(0); i < MeshNodes.size(); ++i)
{
scene->addChild(MeshNodes[i]);
}
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
mgr->setRoot(scene);
//By default the animation is not paused
animationPaused = false;
// Show the whole Scene
mgr->showAll();
TheAnimationAdvancer->start();
//Show window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"21LoadXMLSceneFromMaya");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialUpdateListener TheUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheUpdateListener);
// Create the SceneManager
mgr = new SceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
// Make Torus Node (creates Torus in background of scene)
NodePtr TorusGeometryNode = makeTorus(.5, 2, 16, 16);
// Make Torus Node (creates Torus in background of scene)
NodePtr BoxGeometryNode = makeBox(0.5,0.5,0.5,50,2,2);
//Set the Camera Beacon Node
Matrix Offset;
//Offset.setTranslate(0.0f,2.5f,6.0f);
Offset.setTranslate(0.0f,0.0,6.0f);
CameraBeaconTransform = Transform::create();
beginEditCP(CameraBeaconTransform, Transform::MatrixFieldMask);
CameraBeaconTransform->setMatrix(Offset);
endEditCP(CameraBeaconTransform, Transform::MatrixFieldMask);
NodePtr CameraBeaconNode = Node::create();
beginEditCP(CameraBeaconNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
CameraBeaconNode->setCore(CameraBeaconTransform);
endEditCP(CameraBeaconNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
//Set the Box Transform Node
BoxTransform = Transform::create();
NodePtr BoxNode = Node::create();
beginEditCP(BoxNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
BoxNode->setCore(BoxTransform);
BoxNode->addChild(BoxGeometryNode);
BoxNode->addChild(CameraBeaconNode);
endEditCP(BoxNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
// Make Main Scene Node and add the Torus
NodePtr scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(TorusGeometryNode);
scene->addChild(BoxNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
//Set the Root node to the Scene Manager
mgr->setRoot(scene);
//The perspective decoratee camera
CameraPtr PCamera = PerspectiveCamera::create();
beginEditCP(PerspectiveCameraPtr::dcast(PCamera));
PerspectiveCameraPtr::dcast(PCamera)->setBeacon(CameraBeaconNode);
PerspectiveCameraPtr::dcast(PCamera)->setFov (deg2rad(60.f));
PerspectiveCameraPtr::dcast(PCamera)->setNear (0.1f);
PerspectiveCameraPtr::dcast(PCamera)->setFar (10000.f);
endEditCP(PerspectiveCameraPtr::dcast(PCamera));
//Create the Rubber band Camera
Vec3f PositionCoefficients(0.1,1.5,1.5);
Vec3f OrientationCoefficients(0.1,2.5,2.5);
RubberCamera = RubberBandCamera::create();
beginEditCP(RubberCamera, RubberBandCamera::DecorateeFieldMask | RubberBandCamera::BeaconFieldMask | RubberBandCamera::PositionCoefficientsFieldMask | RubberBandCamera::OrientationCoefficientsFieldMask);
RubberCamera->setDecoratee(PCamera);
RubberCamera->setBeacon(CameraBeaconNode);
RubberCamera->setPositionCoefficients(PositionCoefficients);
RubberCamera->setOrientationCoefficients(OrientationCoefficients);
endEditCP(RubberCamera, RubberBandCamera::DecorateeFieldMask | RubberBandCamera::BeaconFieldMask | RubberBandCamera::PositionCoefficientsFieldMask | RubberBandCamera::OrientationCoefficientsFieldMask);
RubberCamera->setToBeacon();
mgr->setCamera(RubberCamera);
// Show the whole Scene
//mgr->showAll();
//Open Window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"01RubberBandCamera");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
virtual void keyPressed(const KeyEventPtr e)
{
//Exit
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindowEventProducer->closeWindow();
}
//Toggle animation
if(e->getKey() == KeyEvent::KEY_SPACE)
{
if(animationPaused)
animationPaused = false;
else
animationPaused = true;
}
//Toggle bind pose
if(e->getKey() == KeyEvent::KEY_B)
{
if(e->getModifiers() & KeyEvent::KEY_MODIFIER_SHIFT)
{
//Toggle mesh
if(UnboundGeometry->getTravMask() == 0)
{
beginEditCP(UnboundGeometry, Node::TravMaskFieldMask);
UnboundGeometry->setTravMask(1);
endEditCP(UnboundGeometry, Node::TravMaskFieldMask);
}
else
{
beginEditCP(UnboundGeometry, Node::TravMaskFieldMask);
UnboundGeometry->setTravMask(0);
endEditCP(UnboundGeometry, Node::TravMaskFieldMask);
}
}
else
{
//Toggle skeleton
if(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore())->getDrawBindPose() == false)
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore())->setDrawBindPose(true);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
}
else
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore())->setDrawBindPose(false);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
}
}
}
//Toggle current pose
if(e->getKey() == KeyEvent::KEY_P)
{
if(e->getModifiers() & KeyEvent::KEY_MODIFIER_SHIFT)
{
//Toggle mesh
if(MeshNode->getTravMask() == 0)
{
beginEditCP(MeshNode, Node::TravMaskFieldMask);
MeshNode->setTravMask(1);
endEditCP(MeshNode, Node::TravMaskFieldMask);
}
else
{
beginEditCP(MeshNode, Node::TravMaskFieldMask);
MeshNode->setTravMask(0);
endEditCP(MeshNode, Node::TravMaskFieldMask);
}
}
else
{
//Toggle skeleton
if(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore())->getDrawPose() == false)
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore())->setDrawPose(true);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawPoseFieldMask);
}
else
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore())->setDrawPose(false);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNode->getCore()), SkeletonDrawable::DrawPoseFieldMask);
}
}
}
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
//Add Window Listener
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
//Print key command info
std::cout << "\n\nKEY COMMANDS:" << std::endl;
std::cout << "space Play/Pause the animation" << std::endl;
std::cout << "B Show/Hide the bind pose skeleton" << std::endl;
std::cout << "SHIFT-B Show/Hide the bind pose mesh" << std::endl;
std::cout << "P Show/Hide the current pose skeleton" << std::endl;
std::cout << "SHIFT-P Show/Hide the current pose mesh" << std::endl;
std::cout << "CTRL-Q Exit\n\n" << std::endl;
//Import scene from XML
ChunkMaterialPtr ExampleMaterial;
SkeletonPtr ExampleSkeleton;
SkeletonBlendedGeometryPtr TheNewSkeletonGeometry;
GeometryPtr ExampleGeometry;
FCFileType::FCPtrStore NewContainers;
NewContainers = FCFileHandler::the()->read(Path("./Data/20BlendedGeometry.xml"));
FCFileType::FCPtrStore::iterator Itor;
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
if( (*Itor)->getType() == (ChunkMaterial::getClassType()))
{
//Set ExampleMaterial to the ChunkMaterial we just read in
ExampleMaterial = (ChunkMaterial::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Skeleton::getClassType()))
{
//Set ExampleSkeleton to the Skeleton we just read in
ExampleSkeleton = (Skeleton::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Geometry::getClassType()))
{
//Set ExampleGeometry to the geometry we just read in
ExampleGeometry = (Geometry::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (SkeletonBlendedGeometry::getClassType()))
{
//Set TheNewSkeletonGeometry to the SkeletonBlendedGeometry we just read in
TheNewSkeletonGeometry = (SkeletonBlendedGeometry::Ptr::dcast(*Itor));
}
if( (*Itor)->getType().isDerivedFrom(Animation::getClassType()))
{
//Set TheSkeletonAnimation to the Animation we just read in
TheSkeletonAnimation = (Animation::Ptr::dcast(*Itor));
}
}
//UnboundGeometry
UnboundGeometry = Node::create();
beginEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
UnboundGeometry->setCore(ExampleGeometry);
UnboundGeometry->setTravMask(0);
endEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
//SkeletonDrawer
SkeletonDrawablePtr ExampleSkeletonDrawable = osg::SkeletonDrawable::create();
beginEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask);
ExampleSkeletonDrawable->setSkeleton(ExampleSkeleton);
ExampleSkeletonDrawable->setMaterial(ExampleMaterial);
ExampleSkeletonDrawable->setDrawBindPose(false); //By default, we don't draw the skeleton's bind pose
ExampleSkeletonDrawable->setBindPoseColor(Color4f(0.0, 1.0, 0.0, 1.0)); //When drawn, the skeleton's bind pose renders in green
ExampleSkeletonDrawable->setDrawPose(true); //By default, we do draw the skeleton's current pose
ExampleSkeletonDrawable->setPoseColor(Color4f(0.0, 0.0, 1.0, 1.0)); //The skeleton's current pose renders in blue
endEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask);
//Skeleton Node
SkeletonNode = osg::Node::create();
beginEditCP(SkeletonNode, Node::CoreFieldMask);
SkeletonNode->setCore(ExampleSkeletonDrawable);
endEditCP(SkeletonNode, Node::CoreFieldMask);
//Skeleton Blended Geometry Node
MeshNode = osg::Node::create();
beginEditCP(MeshNode, Node::CoreFieldMask);
MeshNode->setCore(TheNewSkeletonGeometry);
endEditCP(MeshNode, Node::CoreFieldMask);
//Animation Advancer
TheAnimationAdvancer = osg::ElapsedTimeAnimationAdvancer::create();
osg::beginEditCP(TheAnimationAdvancer);
osg::ElapsedTimeAnimationAdvancer::Ptr::dcast(TheAnimationAdvancer)->setStartTime( 0.0 );
osg::beginEditCP(TheAnimationAdvancer);
//Create scene
NodePtr scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(UnboundGeometry);
scene->addChild(SkeletonNode);
scene->addChild(MeshNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
mgr->setRoot(scene);
// Show the whole Scene
mgr->showAll();
TheAnimationAdvancer->start();
//Show window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"20LoadXMLBlendedGeometry");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
// Make Torus Node (creates Torus in background of scene)
NodePtr TorusGeometryNode = makeTorus(.5, 2, 16, 16);
// Make Main Scene Node and add the Torus
NodePtr scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(TorusGeometryNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
/******************************************************
Create an Button Component and
a simple Font.
See 17Label_Font for more
information about Fonts.
******************************************************/
ButtonPtr ExampleButton = osg::Button::create();
UIFontPtr ExampleFont = osg::UIFont::create();
beginEditCP(ExampleFont, UIFont::SizeFieldMask);
ExampleFont->setSize(16);
endEditCP(ExampleFont, UIFont::SizeFieldMask);
/******************************************************
Edit the Button's characteristics.
Note: the first 4 functions can
be used with any Component and
are not specific to Button.
-setMinSize(Vec2f): Determine the
Minimum Size of the Component.
Some Layouts will automatically
resize Components; this prevents
the Size from going below a
certain value.
-setMaxSize(Vec2f): Determine the
Maximum Size of the Component.
-setPreferredSize(Vec2f): Determine
the Preferred Size of the Component.
This is what the Component will
be displayed at unless changed by
another Component (such as a
Layout).
-setToolTipText("Text"): Determine
what text is displayed while
Mouse is hovering above Component.
The word Text will be displayed
in this case.
Functions specfic to Button:
-setText("DesiredText"): Determine
the Button's text. It will read
DesiredText in this case.
-setFont(FontName): Determine the
Font to be used on the Button.
-setTextColor(Color4f): Determine the
Color for the text.
-setRolloverTextColor(Color4f): Determine
what the text Color will be when
the Mouse Cursor is above the
Button.
-setActiveTextColor(Color4f): Determine
what the text Color will be when
the Button is pressed (denoted by
Active).
-setAlignment(Vec2f):
Determine the Vertical Alignment
of the text. The value is
in [0.0, 1.0].
******************************************************/
beginEditCP(ExampleButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
ExampleButton->setMinSize(Vec2f(50, 25));
ExampleButton->setMaxSize(Vec2f(200, 100));
ExampleButton->setPreferredSize(Vec2f(100, 50));
ExampleButton->setToolTipText("Button 1 ToolTip");
ExampleButton->setText("Button 1");
ExampleButton->setFont(ExampleFont);
ExampleButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
ExampleButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
ExampleButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
ExampleButton->setAlignment(Vec2f(1.0,0.0));
endEditCP(ExampleButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
// Create an ActionListener and assign it to ExampleButton
// This Class is defined above, and will cause the output
// window to display "Button 1 Action" when pressed
ExampleButtonActionListener TheExampleButtonActionListener;
ExampleButton->addActionListener(&TheExampleButtonActionListener);
/******************************************************
Create a ToggleButton and determine its
characteristics. ToggleButton inherits
off of Button, so all characteristsics
used above can be used with ToggleButtons
as well.
The only difference is that when pressed,
ToggleButton remains pressed until pressed
again.
-setSelected(bool): Determine whether the
ToggleButton is Selected (true) or
deselected (false).
******************************************************/
ToggleButtonPtr ExampleToggleButton = osg::ToggleButton::create();
beginEditCP(ExampleToggleButton, ToggleButton::SelectedFieldMask | ToggleButton::TextFieldMask | ToggleButton::ToolTipTextFieldMask);
ExampleToggleButton->setSelected(false);
ExampleToggleButton->setText("ToggleMe");
ExampleToggleButton->setToolTipText("Toggle Button ToolTip");
endEditCP(ExampleToggleButton, ToggleButton::SelectedFieldMask | ToggleButton::TextFieldMask | ToggleButton::ToolTipTextFieldMask);
//Button with Image
ButtonPtr ExampleDrawObjectButton = osg::Button::create();
beginEditCP(ExampleDrawObjectButton, Button::DrawObjectToTextAlignmentFieldMask | Button::TextFieldMask);
ExampleDrawObjectButton->setDrawObjectToTextAlignment(Button::ALIGN_DRAW_OBJECT_RIGHT_OF_TEXT);
ExampleDrawObjectButton->setText("Icon");
endEditCP(ExampleDrawObjectButton, Button::DrawObjectToTextAlignmentFieldMask | Button::TextFieldMask);
ExampleDrawObjectButton->setImage(std::string("Data/Icon.png"));
ExampleDrawObjectButton->setActiveImage(std::string("Data/Icon.png"));
ExampleDrawObjectButton->setFocusedImage(std::string("Data/Icon.png"));
ExampleDrawObjectButton->setRolloverImage(std::string("Data/Icon.png"));
ExampleDrawObjectButton->setDisabledImage(std::string("Data/Icon.png"));
// Create The Main InternalWindow
// Create Background to be used with the Main InternalWindow
ColorLayerPtr MainInternalWindowBackground = osg::ColorLayer::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
InternalWindowPtr MainInternalWindow = osg::InternalWindow::create();
LayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->getChildren().push_back(ExampleButton);
MainInternalWindow->getChildren().push_back(ExampleToggleButton);
MainInternalWindow->getChildren().push_back(ExampleDrawObjectButton);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
mgr->setRoot(scene);
// Add the UI Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// Show the whole Scene
mgr->showAll();
//Open Window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"01RubberBandCamera");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
// Initialize GLUT & OpenSG and set up the rootNode
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(TutorialWindowEventProducer->getWindow());
//Make Torus Node
TriGeometryBase = makeTorus(.55, 1.5, 16, 16);
//Make Main Scene Node
NodePtr scene = makeCoredNode<Group>();
setName(scene, "scene");
rootNode = Node::create();
setName(rootNode, "rootNode");
ComponentTransformPtr Trans;
Trans = ComponentTransform::create();
beginEditCP(rootNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
rootNode->setCore(Trans);
// add the torus as a child
rootNode->addChild(scene);
endEditCP (rootNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
//Setup Physics Scene
physicsWorld = PhysicsWorld::create();
beginEditCP(physicsWorld, PhysicsWorld::WorldContactSurfaceLayerFieldMask |
PhysicsWorld::AutoDisableFlagFieldMask |
PhysicsWorld::AutoDisableTimeFieldMask |
PhysicsWorld::WorldContactMaxCorrectingVelFieldMask |
PhysicsWorld::GravityFieldMask);
physicsWorld->setWorldContactSurfaceLayer(0.005);
physicsWorld->setAutoDisableFlag(1);
physicsWorld->setAutoDisableTime(0.75);
physicsWorld->setWorldContactMaxCorrectingVel(100.0);
physicsWorld->setGravity(Vec3f(0.0, 0.0, -9.81));
endEditCP(physicsWorld, PhysicsWorld::WorldContactSurfaceLayerFieldMask |
PhysicsWorld::AutoDisableFlagFieldMask |
PhysicsWorld::AutoDisableTimeFieldMask |
PhysicsWorld::WorldContactMaxCorrectingVelFieldMask |
PhysicsWorld::GravityFieldMask);
//Create the Collision Space
physicsSpace = PhysicsHashSpace::create();
//Setup the default collision parameters
CollisionContactParametersPtr DefaultCollisionParams = CollisionContactParameters::createEmpty();
beginEditCP(DefaultCollisionParams);
DefaultCollisionParams->setMode(dContactApprox1);
DefaultCollisionParams->setMu(0.3);
DefaultCollisionParams->setMu2(0.0);
DefaultCollisionParams->setBounce(0.0);
DefaultCollisionParams->setBounceSpeedThreshold(0.0);
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);
endEditCP(DefaultCollisionParams);
beginEditCP(physicsSpace, PhysicsSpace::DefaultCollisionParametersFieldMask);
physicsSpace->setDefaultCollisionParameters(DefaultCollisionParams);
endEditCP(physicsSpace, PhysicsSpace::DefaultCollisionParametersFieldMask);
//Bouncy Sphere collision parameters
CollisionContactParametersPtr BouncySphereCollisionParams = CollisionContactParameters::createEmpty();
beginEditCP(BouncySphereCollisionParams);
BouncySphereCollisionParams->setMode(dContactApprox1 | dContactBounce);
BouncySphereCollisionParams->setMu(0.3);
BouncySphereCollisionParams->setMu2(0.0);
BouncySphereCollisionParams->setBounce(0.8);
BouncySphereCollisionParams->setBounceSpeedThreshold(0.1);
BouncySphereCollisionParams->setSoftCFM(0.1);
BouncySphereCollisionParams->setSoftERP(0.2);
BouncySphereCollisionParams->setMotion1(0.0);
BouncySphereCollisionParams->setMotion2(0.0);
BouncySphereCollisionParams->setMotionN(0.0);
BouncySphereCollisionParams->setSlip1(0.0);
BouncySphereCollisionParams->setSlip2(0.0);
endEditCP(BouncySphereCollisionParams);
physicsSpace->addCollisionContactCategory(SphereCategory, TerrainCategory, BouncySphereCollisionParams);
physicsSpace->addCollisionContactCategory(SphereCategory, BoxCategory, BouncySphereCollisionParams);
physicsSpace->addCollisionContactCategory(SphereCategory, SphereCategory, BouncySphereCollisionParams);
physicsSpace->addCollisionContactCategory(SphereCategory, TriCategory, BouncySphereCollisionParams);
//Soft Box collision parameters
CollisionContactParametersPtr SlickBoxParams = CollisionContactParameters::createEmpty();
beginEditCP(SlickBoxParams);
SlickBoxParams->setMode(dContactApprox1);
SlickBoxParams->setMu(0.01);
SlickBoxParams->setMu2(0.0);
SlickBoxParams->setBounce(0.0);
SlickBoxParams->setBounceSpeedThreshold(0.0);
SlickBoxParams->setSoftCFM(0.0);
SlickBoxParams->setSoftERP(0.2);
SlickBoxParams->setMotion1(0.0);
SlickBoxParams->setMotion2(0.0);
SlickBoxParams->setMotionN(0.0);
SlickBoxParams->setSlip1(0.0);
SlickBoxParams->setSlip2(0.0);
endEditCP(SlickBoxParams);
physicsSpace->addCollisionContactCategory(BoxCategory, TerrainCategory, SlickBoxParams);
physicsSpace->addCollisionContactCategory(BoxCategory, BoxCategory, SlickBoxParams);
//physicsSpace->addCollisionContactCategory(BoxCategory, SphereCategory, SlickBoxParams);
physicsSpace->addCollisionContactCategory(BoxCategory, TriCategory, SlickBoxParams);
TutorialCollisionListener BoxColListener(Path("./Data/click.wav"));
physicsSpace->addCollisionListener(&BoxColListener,BoxCategory, 2.0);
TutorialCollisionListener SphereColListener(Path("./Data/pop.wav"));
physicsSpace->addCollisionListener(&SphereColListener,SphereCategory, 2.0);
physHandler = PhysicsHandler::create();
beginEditCP(physHandler, PhysicsHandler::WorldFieldMask | PhysicsHandler::SpacesFieldMask | PhysicsHandler::StepSizeFieldMask | PhysicsHandler::UpdateNodeFieldMask);
physHandler->setWorld(physicsWorld);
physHandler->getSpaces().push_back(physicsSpace);
physHandler->setStepSize(0.001);
physHandler->setUpdateNode(rootNode);
endEditCP(physHandler, PhysicsHandler::WorldFieldMask | PhysicsHandler::SpacesFieldMask | PhysicsHandler::StepSizeFieldMask | PhysicsHandler::UpdateNodeFieldMask);
physHandler->attachUpdateProducer(TutorialWindowEventProducer);
beginEditCP(rootNode, Node::AttachmentsFieldMask);
rootNode->addAttachment(physHandler);
rootNode->addAttachment(physicsWorld);
rootNode->addAttachment(physicsSpace);
endEditCP(rootNode, Node::AttachmentsFieldMask);
/************************************************************************/
/* create spaces, geoms and bodys */
/************************************************************************/
//create a group for our space
GroupPtr spaceGroup;
spaceGroupNode = makeCoredNode<Group>(&spaceGroup);
//create the ground plane
GeometryPtr plane;
NodePtr planeNode = makeBox(30.0, 30.0, 1.0, 1, 1, 1);
plane = GeometryPtr::dcast(planeNode->getCore());
//and its Material
SimpleMaterialPtr plane_mat = SimpleMaterial::create();
beginEditCP(plane_mat);
plane_mat->setAmbient(Color3f(0.7,0.7,0.7));
plane_mat->setDiffuse(Color3f(0.9,0.6,1.0));
endEditCP(plane_mat);
beginEditCP(plane, Geometry::MaterialFieldMask);
plane->setMaterial(plane_mat);
endEditCP(plane);
//create Physical Attachments
PhysicsBoxGeomPtr planeGeom = PhysicsBoxGeom::create();
beginEditCP(planeGeom, PhysicsBoxGeom::LengthsFieldMask | PhysicsBoxGeom::SpaceFieldMask | PhysicsBoxGeom::CategoryBitsFieldMask);
planeGeom->setLengths(Vec3f(30.0, 30.0, 1.0));
//add geoms to space for collision
planeGeom->setSpace(physicsSpace);
//Set the Geoms Category - this will be used by the collision space
//for determining if collision tests should occur
//and for selecting the collision contact parameters when a collision does occur
planeGeom->setCategoryBits(TerrainCategory);
endEditCP(planeGeom, PhysicsBoxGeom::LengthsFieldMask | PhysicsBoxGeom::SpaceFieldMask | PhysicsBoxGeom::CategoryBitsFieldMask);
//add Attachments to nodes...
beginEditCP(spaceGroupNode, Node::AttachmentsFieldMask | Node::ChildrenFieldMask);
spaceGroupNode->addAttachment(physicsSpace);
spaceGroupNode->addChild(planeNode);
endEditCP(spaceGroupNode, Node::AttachmentsFieldMask | Node::ChildrenFieldMask);
beginEditCP(planeNode, Node::AttachmentsFieldMask);
planeNode->addAttachment(planeGeom);
endEditCP(planeNode, Node::AttachmentsFieldMask);
beginEditCP(scene, Node::ChildrenFieldMask);
scene->addChild(spaceGroupNode);
endEditCP(scene, Node::ChildrenFieldMask);
//Create Statistics Foreground
SimpleStatisticsForegroundPtr PhysicsStatForeground = SimpleStatisticsForeground::create();
beginEditCP(PhysicsStatForeground);
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");
endEditCP(PhysicsStatForeground);
// tell the manager what to manage
mgr->setRoot (rootNode);
beginEditCP(mgr->getWindow()->getPort(0), Viewport::ForegroundsFieldMask);
mgr->getWindow()->getPort(0)->getForegrounds().push_back(PhysicsStatForeground);
endEditCP(mgr->getWindow()->getPort(0), Viewport::ForegroundsFieldMask);
physHandler->setStatistics(&PhysicsStatForeground->getCollector());
// show the whole rootNode
mgr->showAll();
//Attach the Sound Manager to the update and the camera
SoundManager::the()->attachUpdateProducer(TutorialWindowEventProducer);
SoundManager::the()->setCamera(mgr->getCamera());
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"21Collisions");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
//Create Start and stop buttons for the caption
ButtonPtr StartButton = osg::Button::create();
ButtonPtr StopButton = osg::Button::create();
ButtonPtr PauseButton = osg::Button::create();
UIFontPtr ButtonFont = osg::UIFont::create();
beginEditCP(ButtonFont, UIFont::SizeFieldMask);
ButtonFont->setSize(16);
endEditCP(ButtonFont, UIFont::SizeFieldMask);
beginEditCP(StartButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
StartButton->setMinSize(Vec2f(50, 25));
StartButton->setMaxSize(Vec2f(200, 100));
StartButton->setPreferredSize(Vec2f(100, 50));
StartButton->setToolTipText("This will start playing the caption!");
StartButton->setText("START");
StartButton->setFont(ButtonFont);
StartButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StartButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
StartButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StartButton->setAlignment(Vec2f(0.25,0.5));
endEditCP(StartButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
beginEditCP(StopButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
StopButton->setMinSize(Vec2f(50, 25));
StopButton->setMaxSize(Vec2f(200, 100));
StopButton->setPreferredSize(Vec2f(100, 50));
StopButton->setToolTipText("This will stop the caption and reset it!");
StopButton->setText("STOP");
StopButton->setFont(ButtonFont);
StopButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StopButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
StopButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StopButton->setAlignment(Vec2f(0.75,0.5));
endEditCP(StopButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
beginEditCP(PauseButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
PauseButton->setMinSize(Vec2f(50, 25));
PauseButton->setMaxSize(Vec2f(200, 100));
PauseButton->setPreferredSize(Vec2f(100, 50));
PauseButton->setToolTipText("This will Pause the caption!");
PauseButton->setText("PAUSE");
PauseButton->setFont(ButtonFont);
PauseButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
PauseButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
PauseButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
PauseButton->setAlignment(Vec2f(0.5,0.5));
endEditCP(PauseButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
StartButtonActionListener TheStartButtonActionListener;
StartButton->addActionListener(&TheStartButtonActionListener);
StopButtonActionListener TheStopButtonActionListener;
StopButton->addActionListener(&TheStopButtonActionListener);
PauseButtonActionListener ThePauseButtonActionListener;
PauseButton->addActionListener(&ThePauseButtonActionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
// Make Torus Node (creates Torus in background of scene)
NodePtr TorusGeometryNode = makeTorus(.5, 2, 16, 16);
// Make Main Scene Node and add the Torus
scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(TorusGeometryNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
LayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
PanelPtr CaptionContainer = osg::Panel::create();
beginEditCP(CaptionContainer, Panel::PreferredSizeFieldMask | Panel::LayoutFieldMask);
CaptionContainer->setPreferredSize(Pnt2f(250.0,30.0));
CaptionContainer->setLayout(MainInternalWindowLayout);
endEditCP(CaptionContainer, Panel::PreferredSizeFieldMask | Panel::LayoutFieldMask);
//Initialize the Sound Manager
SoundManager::the()->attachUpdateProducer(TutorialWindowEventProducer);
TutorialSound = SoundManager::the()->createSound();
beginEditCP(TutorialSound, Sound::FileFieldMask | Sound::VolumeFieldMask | Sound::StreamingFieldMask | Sound::LoopingFieldMask);
TutorialSound->setFile(Path("./Data/captionSoundFile.ogg"));
TutorialSound->setVolume(1.0);
TutorialSound->setStreaming(true);
TutorialSound->setLooping(0);
endEditCP(TutorialSound, Sound::FileFieldMask | Sound::VolumeFieldMask | Sound::StreamingFieldMask | Sound::LoopingFieldMask);
// Create the Caption
TutorialCaption = osg::Caption::create();
//Add the segments of text to be displayed
TutorialCaption->captionSegment("Listeners can be used for a variety",1.7,3.4);
TutorialCaption->captionSegment("of different applications.",3.4,4.7);
TutorialCaption->captionSegment("In this tutorial we will",5.0,6.35);
TutorialCaption->captionSegment("simply be changing the background though.",6.35,8.0);
TutorialCaption->captionSegment("First we will change the",8.8,10.2);
TutorialCaption->captionSegment("torus on screen to a sphere.",10.2,11.75);
TutorialCaption->captionSegment("By timing things correctly we can make",12.7,14.6);
TutorialCaption->captionSegment("the changes right as the word is spoken.",14.6,16.75);
TutorialCaption->captionSegment("Such as changing the sphere to a cube",17.3,20.0);
TutorialCaption->captionSegment("but personally I would prefer",20.33,21.65);
TutorialCaption->captionSegment("the background to be blank.",21.65,22.8);
TutorialCaption->captionSegment("Much better!",23.8,25.0);
//Add the tutorial Caption Listener to the Caption that was set up for the tutorial
TutorialCaptionListener TheCaptionListener;
TutorialCaption->addCaptionListener(&TheCaptionListener);
//Create the Caption component Generator
TutorialCapGen = DefaultCaptionComponentGenerator::create();
TutorialCaption->attachWindowEventProducer(TutorialWindowEventProducer);
beginEditCP(TutorialCaption, Caption::ParentContainerFieldMask | Caption::ComponentGeneratorFieldMask | Caption::CaptionDialogSoundFieldMask);
TutorialCaption->setParentContainer(CaptionContainer);
TutorialCaption->setComponentGenerator(TutorialCapGen);
TutorialCaption->setCaptionDialogSound(TutorialSound);
endEditCP(TutorialCaption, Caption::ParentContainerFieldMask | Caption::ComponentGeneratorFieldMask | Caption::CaptionDialogSoundFieldMask);
//Create and modify the Label prototype that will be used for the caption
LabelPtr LabelPrototype = Label::create();
LabelPrototype->setAlignment(Pnt2f(0.5f,0.5f));
LabelPrototype->setPreferredSize(Pnt2f(250.0,30.0));
//Add the prototype to the Generator for use
beginEditCP(TutorialCapGen, DefaultCaptionComponentGenerator::CaptionSegmentPrototypeFieldMask);
TutorialCapGen->setCaptionSegmentPrototype(LabelPrototype);
endEditCP(TutorialCapGen, DefaultCaptionComponentGenerator::CaptionSegmentPrototypeFieldMask);
// Create The Main InternalWindow
// Create Background to be used with the Main InternalWindow
ColorLayerPtr MainInternalWindowBackground = osg::ColorLayer::create();
MainInternalWindow = osg::InternalWindow::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
MainInternalWindow->getChildren().push_back(CaptionContainer);
MainInternalWindow->getChildren().push_back(StartButton);
MainInternalWindow->getChildren().push_back(StopButton);
MainInternalWindow->getChildren().push_back(PauseButton);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
mgr->setRoot(scene);
// Add the UI Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// Show the whole Scene
mgr->showAll();
SoundManager::the()->setCamera(mgr->getCamera());
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"05Caption");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
// Initialize GLUT & OpenSG and set up the scene
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
//Add Window Listener
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(TutorialWindowEventProducer->getWindow());
////////////////
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
/******************************************************
Create an Button Component and
a simple Font.
See 17Label_Font for more
information about Fonts.
******************************************************/
ButtonPtr ExampleButton = osg::Button::create();
UIFontPtr ExampleFont = osg::UIFont::create();
beginEditCP(ExampleButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
ExampleButton->setMinSize(Vec2f(50, 25));
ExampleButton->setMaxSize(Vec2f(200, 100));
ExampleButton->setPreferredSize(Vec2f(100, 50));
ExampleButton->setToolTipText("Click to start/pause");
ExampleButton->setText("start/pause");
ExampleButton->setFont(ExampleFont);
ExampleButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
ExampleButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
ExampleButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
ExampleButton->setAlignment(Vec2f(.5,0.5));
endEditCP(ExampleButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
// Create an ActionListener and assign it to ExampleButton
// This Class is defined above, and will cause the output
// window to display "Button 1 Action" when pressed
ExampleButtonActionListener TheExampleButtonActionListener;
ExampleButton->addActionListener(&TheExampleButtonActionListener);
//////////////////
//Torus Material
TheTorusMaterial = SimpleMaterial::create();
beginEditCP(TheTorusMaterial);
SimpleMaterialPtr::dcast(TheTorusMaterial)->setAmbient(Color3f(0.3,0.3,0.3));
SimpleMaterialPtr::dcast(TheTorusMaterial)->setDiffuse(Color3f(0.7,0.7,0.7));
SimpleMaterialPtr::dcast(TheTorusMaterial)->setSpecular(Color3f(1.0,1.0,1.0));
endEditCP(TheTorusMaterial);
//Torus Geometry
GeometryPtr TorusGeometry = makeTorusGeo(.5, 2, 32, 32);
beginEditCP(TorusGeometry);
TorusGeometry->setMaterial(TheTorusMaterial);
endEditCP (TorusGeometry);
NodePtr TorusGeometryNode = Node::create();
beginEditCP(TorusGeometryNode, Node::CoreFieldMask);
TorusGeometryNode->setCore(TorusGeometry);
endEditCP (TorusGeometryNode, Node::CoreFieldMask);
//Make Torus Node
NodePtr TorusNode = Node::create();
TransformPtr TorusNodeTrans;
TorusNodeTrans = Transform::create();
setName(TorusNodeTrans, std::string("TorusNodeTransformationCore"));
beginEditCP(TorusNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
TorusNode->setCore(TorusNodeTrans);
TorusNode->addChild(TorusGeometryNode);
endEditCP (TorusNode, Node::CoreFieldMask | Node::ChildrenFieldMask);
//Make Main Scene Node
NodePtr scene = Node::create();
ComponentTransformPtr Trans;
Trans = ComponentTransform::create();
setName(Trans, std::string("MainTransformationCore"));
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
{
scene->setCore(Trans);
// add the torus as a child
scene->addChild(TorusNode);
}
endEditCP (scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
setupAnimation();
// Create Background to be used with the Main InternalWindow
ColorLayerPtr MainInternalWindowBackground = osg::ColorLayer::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
InternalWindowPtr MainInternalWindow = osg::InternalWindow::create();
LayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->getChildren().push_back(ExampleButton);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
mgr->setRoot(scene);
// Add the UI Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// show the whole scene
mgr->showAll();
TheAnimationAdvancer->start();
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"24AnimationAction");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialUpdateListener TheUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheUpdateListener);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
// Make Main Scene Node and add the Torus
NodePtr scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
//Create a FBO Source
FBOSourceTextureFilterPtr TutorialFBOSourceTextureFilter = FBOSourceTextureFilter::create();
beginEditCP(TutorialFBOSourceTextureFilter, FBOSourceTextureFilter::FBOFieldMask | FBOSourceTextureFilter::FBOSizeFieldMask);
TutorialFBOSourceTextureFilter->setFBO(createSceneFBO());
TutorialFBOSourceTextureFilter->setFBOSize(Vec2f(-1.0,-1.0));
endEditCP(TutorialFBOSourceTextureFilter, FBOSourceTextureFilter::FBOFieldMask | FBOSourceTextureFilter::FBOSizeFieldMask);
//Create a HDR filter
std::string HDRFragProg = "";
HDRFragProg +=
"uniform sampler2D Slot0Texture;"
"uniform float Exposure;"
"uniform float MaxLuminance;"
"uniform float Gamma;"
"void main()"
"{"
" vec3 Color = texture2D(Slot0Texture,gl_TexCoord[0].st).rgb;"
//" float Intensity = dot(vec3(0.3,0.59,0.11),Color);"
" float TonePercent = Exposure * ((Exposure/MaxLuminance + 1.0)/(Exposure + 1.0));"
//Apply Tone Mapping And Gamma Correction
" Color = pow(Color * TonePercent, vec3(Gamma));"
" gl_FragColor = vec4(Color, 1.0);"
"}";
//Create a shader Filter
HDRTextureFilter = ShaderTextureFilter::create();
HDRTextureFilter->attachSource(TutorialFBOSourceTextureFilter, 0, 0);
HDRTextureFilter->setFragmentSource(HDRFragProg);
HDRTextureFilter->setUniformParameter("Exposure", Exposure);
HDRTextureFilter->setUniformParameter("MaxLuminance", MaxLuminance);
HDRTextureFilter->setUniformParameter("Gamma", Gamma);
// Create the ImageProcessed Foreground Object
ImageProcessedForegroundPtr TutorialImageProcessedForeground = ImageProcessedForeground::create();
beginEditCP(TutorialImageProcessedForeground, ImageProcessedForeground::FilterFieldMask | ImageProcessedForeground::OutputSlotFieldMask);
TutorialImageProcessedForeground->setFilter(HDRTextureFilter);
TutorialImageProcessedForeground->setOutputSlot(0);
endEditCP(TutorialImageProcessedForeground, ImageProcessedForeground::FilterFieldMask | ImageProcessedForeground::OutputSlotFieldMask);
mgr->setRoot(scene);
// Add the ImageProcessed Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialImageProcessedForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// Show the whole Scene
mgr->showAll();
//Open Window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"03ScenePostProcessing");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_CONTROL)
{
TutorialWindowEventProducer->closeWindow();
}
switch(e->getKey())
{
case KeyEvent::KEY_UP:
{
Color4f Col(TheLight->getDiffuse());
Col += Color4f(0.2,0.2,0.2,0.0);
std::cout << "Diffuse Color : " << Col << std::endl;
beginEditCP(TheLight);
TheLight->setAmbient(Col*0.1);
TheLight->setDiffuse(Col);
TheLight->setSpecular(Col);
endEditCP(TheLight);
MaxLuminance = Col.red();
std::cout << "MaxLuminance : " << MaxLuminance << std::endl;
HDRTextureFilter->setUniformParameter("MaxLuminance", MaxLuminance);
}
break;
case KeyEvent::KEY_DOWN:
{
Color4f Col(TheLight->getDiffuse());
Col -= Color4f(0.2,0.2,0.2,0.0);
std::cout << "Diffuse Color : " << Col << std::endl;
beginEditCP(TheLight);
TheLight->setDiffuse(Col);
endEditCP(TheLight);
MaxLuminance = Col.red() + 1.0f;
std::cout << "MaxLuminance : " << MaxLuminance << std::endl;
HDRTextureFilter->setUniformParameter("MaxLuminance", MaxLuminance);
}
break;
case KeyEvent::KEY_RIGHT:
{
Exposure += 0.1f;
std::cout << "Exposure : " << Exposure << std::endl;
HDRTextureFilter->setUniformParameter("Exposure", Exposure);
}
break;
case KeyEvent::KEY_LEFT:
{
Exposure -= 0.1f;
std::cout << "Exposure : " << Exposure << std::endl;
HDRTextureFilter->setUniformParameter("Exposure", Exposure);
}
break;
case KeyEvent::KEY_8:
{
Gamma += 0.05f;
std::cout << "Gamma : " << Gamma << std::endl;
HDRTextureFilter->setUniformParameter("Gamma", Gamma);
}
break;
case KeyEvent::KEY_7:
{
Gamma -= 0.05f;
std::cout << "Gamma : " << Gamma << std::endl;
HDRTextureFilter->setUniformParameter("Gamma", Gamma);
}
break;
}
}
virtual void keyPressed(const KeyEventPtr e)
{
if(e->getKey() == KeyEvent::KEY_Q && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialWindowEventProducer->closeWindow();
}
if(e->getKey() == KeyEvent::KEY_S && e->getModifiers() & KeyEvent::KEY_MODIFIER_COMMAND)
{
TutorialStat = !TutorialStat;
mgr->setStatistics(TutorialStat);
}
//Toggle animation
if(e->getKey() == KeyEvent::KEY_SPACE)
{
if(animationPaused)
animationPaused = false;
else
animationPaused = true;
}
//Toggle bind pose
if(e->getKey() == KeyEvent::KEY_B)
{
if(e->getModifiers() & KeyEvent::KEY_MODIFIER_SHIFT)
{
//Toggle mesh
for(int i(0); i < UnboundGeometries.size(); ++i)
{
if(UnboundGeometries[i]->getTravMask() == 0)
{
beginEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
UnboundGeometries[i]->setTravMask(1);
endEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
}
else
{
beginEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
UnboundGeometries[i]->setTravMask(0);
endEditCP(UnboundGeometries[i], Node::TravMaskFieldMask);
}
}
}
else
{
//Toggle skeleton
for(int i(0); i < SkeletonNodes.size(); ++i)
{
if(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->getDrawBindPose() == false)
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawBindPose(true);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
}
else
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawBindPose(false);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawBindPoseFieldMask);
}
}
}
}
//Toggle current pose
if(e->getKey() == KeyEvent::KEY_P)
{
if(e->getModifiers() & KeyEvent::KEY_MODIFIER_SHIFT)
{
//Toggle mesh
for(int i(0); i < MeshNodes.size(); ++i)
{
if(MeshNodes[i]->getTravMask() == 0)
{
beginEditCP(MeshNodes[i], Node::TravMaskFieldMask);
MeshNodes[i]->setTravMask(1);
endEditCP(MeshNodes[i], Node::TravMaskFieldMask);
}
else
{
beginEditCP(MeshNodes[i], Node::TravMaskFieldMask);
MeshNodes[i]->setTravMask(0);
endEditCP(MeshNodes[i], Node::TravMaskFieldMask);
}
}
}
else
{
//Toggle skeleton
for(int i(0); i < SkeletonNodes.size(); ++i)
{
if(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->getDrawPose() == false)
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawPose(true);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
}
else
{
beginEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore())->setDrawPose(false);
endEditCP(SkeletonDrawable::Ptr::dcast(SkeletonNodes[i]->getCore()), SkeletonDrawable::DrawPoseFieldMask);
}
}
}
}
//Toggle axes
if(e->getKey() == KeyEvent::KEY_A)
{
if(Axes->getTravMask() == 0)
Axes->setTravMask(1);
else
Axes->setTravMask(0);
}
//Toggle grid
if(e->getKey() == KeyEvent::KEY_G)
{
if(Grid->getTravMask() == 0)
Grid->setTravMask(1);
else
Grid->setTravMask(0);
}
}
// Initialize GLUT & OpenSG and set up the scene
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
//Add Window Listener
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(TutorialWindowEventProducer->getWindow());
//Make a SphereNode for the point light
LambertMaterialPtr TheLightMat = LambertMaterial::create();
beginEditCP(TheLightMat, LambertMaterial::IncandescenceFieldMask);
TheLightMat->setIncandescence(Color3f(1.0,1.0,1.0));
endEditCP(TheLightMat, LambertMaterial::IncandescenceFieldMask);
GeometryPtr LightSphereGeo = makeSphereGeo(2,2.0);
beginEditCP(LightSphereGeo, Geometry::MaterialFieldMask);
LightSphereGeo->setMaterial(TheLightMat);
endEditCP (LightSphereGeo, Geometry::MaterialFieldMask);
NodePtr LightSphereNode = Node::create();
beginEditCP(LightSphereNode, Node::CoreFieldMask);
LightSphereNode->setCore(LightSphereGeo);
endEditCP (LightSphereNode, Node::CoreFieldMask);
//Create the beacon for the Point Light
Matrix ThePointLightMat;
ThePointLightMat.setTranslate(Vec3f(0.0,100.0,0.0));
ThePointLightBeaconTransform = Transform::create();
beginEditCP(ThePointLightBeaconTransform);
ThePointLightBeaconTransform->setMatrix(ThePointLightMat);
endEditCP(ThePointLightBeaconTransform);
NodePtr ThePointLightBeaconNode = Node::create();
beginEditCP(ThePointLightBeaconNode);
ThePointLightBeaconNode->setCore(ThePointLightBeaconTransform);
ThePointLightBeaconNode->addChild(LightSphereNode);
endEditCP(ThePointLightBeaconNode);
//Set the light properties desired
PointLightPtr ThePointLight = PointLight::create();
beginEditCP(ThePointLight);
ThePointLight->setAmbient(0.3,0.3,0.3,0.3);
ThePointLight->setDiffuse(1.0,1.0,1.0,1.0);
ThePointLight->setSpecular(1.0,1.0,1.0,1.0);
ThePointLight->setBeacon(ThePointLightBeaconNode);
endEditCP(ThePointLight);
NodePtr ThePointLightNode = Node::create();
beginEditCP(ThePointLightNode);
ThePointLightNode->setCore(ThePointLight);
endEditCP(ThePointLightNode);
//Set the light properties desired
SpotLightPtr TheSpotLight = SpotLight::create();
beginEditCP(TheSpotLight);
TheSpotLight->setAmbient(0.3,0.3,0.3,0.3);
TheSpotLight->setDiffuse(1.0,1.0,1.0,1.0);
TheSpotLight->setSpecular(1.0,1.0,1.0,1.0);
TheSpotLight->setBeacon(ThePointLightBeaconNode);
TheSpotLight->setDirection(Vec3f(0.0,-1.0,0.0));
TheSpotLight->setSpotExponent(5.0);
TheSpotLight->setSpotCutOff(1.1);
endEditCP(TheSpotLight);
NodePtr TheSpotLightNode = Node::create();
beginEditCP(TheSpotLightNode);
TheSpotLightNode->setCore(TheSpotLight);
endEditCP(TheSpotLightNode);
//Load in the Heightmap Image
ImagePtr PerlinNoiseImage = createPerlinImage(Vec2s(256,256), Vec2f(10.0f,10.0f),0.5f,1.0f,Vec2f(0.0f,0.0f),0.25f,6,PERLIN_INTERPOLATE_COSINE,false,Image::OSG_L_PF, Image::OSG_UINT8_IMAGEDATA);
TextureChunkPtr TheTextureChunk = TextureChunk::create();
beginEditCP(TheTextureChunk);
TheTextureChunk->setImage(PerlinNoiseImage);
endEditCP(TheTextureChunk);
//Lambert Material
LambertMaterialPtr TheLambertMat = LambertMaterial::create();
beginEditCP(TheLambertMat, LambertMaterial::ColorFieldMask | LambertMaterial::AmbientColorFieldMask | LambertMaterial::DiffuseFieldMask
| LambertMaterial::NumLightsFieldMask | LambertMaterial::DiffuseTextureFieldMask);
TheLambertMat->setColor(Color3f(0.0,1.0,0.0));
TheLambertMat->setAmbientColor(Color3f(1.0,0.0,0.0));
TheLambertMat->setDiffuse(0.5);
TheLambertMat->setNumLights(1);
endEditCP(TheLambertMat, LambertMaterial::ColorFieldMask | LambertMaterial::AmbientColorFieldMask | LambertMaterial::DiffuseFieldMask
| LambertMaterial::NumLightsFieldMask | LambertMaterial::DiffuseTextureFieldMask);
//Blinn Material
TheBlinnMat = BlinnMaterial::create();
beginEditCP(TheBlinnMat, BlinnMaterial::ColorFieldMask | BlinnMaterial::AmbientColorFieldMask | BlinnMaterial::DiffuseFieldMask
| BlinnMaterial::SpecularColorFieldMask | BlinnMaterial::SpecularEccentricityFieldMask | BlinnMaterial::SpecularRolloffFieldMask | BlinnMaterial::DiffuseTextureFieldMask);
TheBlinnMat->setColor(Color3f(1.0,0.0,0.0));
TheBlinnMat->setAmbientColor(Color3f(0.0,0.0,0.0));
TheBlinnMat->setSpecularColor(Color3f(0.0,0.0,1.0));
TheBlinnMat->setSpecularEccentricity(0.35);
TheBlinnMat->setSpecularRolloff(0.85);
TheBlinnMat->setDiffuse(0.65);
TheBlinnMat->setDiffuseTexture(TheTextureChunk);
endEditCP(TheBlinnMat, BlinnMaterial::ColorFieldMask | BlinnMaterial::AmbientColorFieldMask | BlinnMaterial::DiffuseFieldMask
| BlinnMaterial::SpecularColorFieldMask | BlinnMaterial::SpecularEccentricityFieldMask | BlinnMaterial::SpecularRolloffFieldMask | BlinnMaterial::DiffuseTextureFieldMask);
//Phong Material
Phong2MaterialPtr ThePhongMat = Phong2Material::create();
beginEditCP(ThePhongMat, Phong2Material::ColorFieldMask | Phong2Material::AmbientColorFieldMask | Phong2Material::DiffuseFieldMask
| Phong2Material::SpecularColorFieldMask | Phong2Material::SpecularCosinePowerFieldMask);
ThePhongMat->setColor(Color3f(1.0,0.0,0.0));
ThePhongMat->setAmbientColor(Color3f(0.0,0.0,0.0));
ThePhongMat->setSpecularColor(Color3f(0.0,0.0,1.0));
ThePhongMat->setSpecularCosinePower(50.0);
ThePhongMat->setDiffuse(0.65);
endEditCP(ThePhongMat, Phong2Material::ColorFieldMask | Phong2Material::AmbientColorFieldMask | Phong2Material::DiffuseFieldMask
| Phong2Material::SpecularColorFieldMask | Phong2Material::SpecularCosinePowerFieldMask);
//Anisotropic Material
AnisotropicMaterialPtr TheAnisotropicMat = AnisotropicMaterial::create();
beginEditCP(TheAnisotropicMat, AnisotropicMaterial::ColorFieldMask | AnisotropicMaterial::AmbientColorFieldMask | AnisotropicMaterial::DiffuseFieldMask
| AnisotropicMaterial::SpecularColorFieldMask | AnisotropicMaterial::SpecularRoughnessFieldMask | AnisotropicMaterial::SpecularFresnelIndexFieldMask
| AnisotropicMaterial::SpecularSpreadXFieldMask | AnisotropicMaterial::SpecularSpreadYFieldMask);
TheAnisotropicMat->setColor(Color3f(1.0,0.0,0.0));
TheAnisotropicMat->setAmbientColor(Color3f(0.0,0.0,0.0));
TheAnisotropicMat->setDiffuse(0.65);
TheAnisotropicMat->setSpecularColor(Color3f(0.0,0.0,1.0));
TheAnisotropicMat->setSpecularRoughness(32.0);
TheAnisotropicMat->setSpecularFresnelIndex(0.85);
TheAnisotropicMat->setSpecularSpreadX(1.0);
TheAnisotropicMat->setSpecularSpreadY(1.0);
endEditCP(TheAnisotropicMat, AnisotropicMaterial::ColorFieldMask | AnisotropicMaterial::AmbientColorFieldMask | AnisotropicMaterial::DiffuseFieldMask
| AnisotropicMaterial::SpecularColorFieldMask | AnisotropicMaterial::SpecularRoughnessFieldMask | AnisotropicMaterial::SpecularFresnelIndexFieldMask
| AnisotropicMaterial::SpecularSpreadXFieldMask | AnisotropicMaterial::SpecularSpreadYFieldMask);
PointChunkPtr TempChunk = PointChunk::create();
//addRefCP(TempChunk);
//Anisotropic Material
TheRampMat = RampMaterial::create();
beginEditCP(TheRampMat);
//Color
TheRampMat->setRampSource(RampMaterial::RAMP_SOURCE_FACING_ANGLE);
TheRampMat->getColors().push_back(Color3f(1.0,0.0,0.0));
TheRampMat->getColorPositions().push_back(0.4);
TheRampMat->getColorInterpolations().push_back(RampMaterial::RAMP_INTERPOLATION_SMOOTH);
TheRampMat->getColors().push_back(Color3f(0.0,1.0,0.0));
TheRampMat->getColorPositions().push_back(1.0);
//Transparency
TheRampMat->getTransparencies().push_back(Color3f(0.0,0.0,0.0));
TheRampMat->getTransparencyPositions().push_back(0.83);
TheRampMat->getTransparencyInterpolations().push_back(RampMaterial::RAMP_INTERPOLATION_SMOOTH);
TheRampMat->getTransparencies().push_back(Color3f(1.0,1.0,1.0));
TheRampMat->getTransparencyPositions().push_back(1.0);
TheRampMat->setAmbientColor(Color3f(0.0,0.0,0.0));
TheRampMat->setSpecularity(1.0);
TheRampMat->setSpecularEccentricity(0.8);
TheRampMat->getSpecularColors().push_back(Color3f(1.0,1.0,1.0));
TheRampMat->getSpecularColorPositions().push_back(0.95);
TheRampMat->getSpecularColorInterpolations().push_back(RampMaterial::RAMP_INTERPOLATION_SMOOTH);
TheRampMat->getSpecularColors().push_back(Color3f(0.0,0.0,1.0));
TheRampMat->getSpecularColorPositions().push_back(1.0);
TheRampMat->getSpecularRolloffs().push_back(1.0);
TheRampMat->getExtraChunks().push_back(TempChunk);
endEditCP(TheRampMat);
//Make the Heightmap Geometry
HeightmapGeometryPtr TutorialHeightmapGeo = HeightmapGeometry::create();
beginEditCP(TutorialHeightmapGeo, HeightmapGeometry::HeightImageFieldMask | HeightmapGeometry::DimensionsFieldMask | HeightmapGeometry::SegmentsFieldMask | HeightmapGeometry::ScaleFieldMask | HeightmapGeometry::OffsetFieldMask | HeightmapGeometry::MaterialFieldMask);
TutorialHeightmapGeo->setHeightImage(PerlinNoiseImage);
TutorialHeightmapGeo->setDimensions(Vec2f(200.0,200.0));
TutorialHeightmapGeo->setSegments(Vec2f(150.0,150.0));
TutorialHeightmapGeo->setScale(30.0);
TutorialHeightmapGeo->setOffset(0.0);
TutorialHeightmapGeo->setMaterial( TheBlinnMat );
endEditCP(TutorialHeightmapGeo, HeightmapGeometry::HeightImageFieldMask | HeightmapGeometry::DimensionsFieldMask | HeightmapGeometry::SegmentsFieldMask | HeightmapGeometry::ScaleFieldMask | HeightmapGeometry::OffsetFieldMask | HeightmapGeometry::MaterialFieldMask);
calcVertexNormals(TutorialHeightmapGeo);
calcVertexTangents(TutorialHeightmapGeo,0,Geometry::TexCoords7FieldId, Geometry::TexCoords6FieldId);
//Make the Heightmap Node
NodePtr TutorialHeightmapNode = Node::create();
beginEditCP(TutorialHeightmapNode, Node::CoreFieldMask);
TutorialHeightmapNode->setCore(TutorialHeightmapGeo);
endEditCP (TutorialHeightmapNode, Node::CoreFieldMask);
//Make a SphereNode
GeometryPtr SphereGeo = makeSphereGeo(2,50.0);
//GeometryPtr SphereGeo = makeCylinderGeo(50,20.0, 16,true,true,true);
beginEditCP(SphereGeo, Geometry::MaterialFieldMask);
SphereGeo->setMaterial(TheLambertMat);
endEditCP (SphereGeo, Geometry::MaterialFieldMask);
calcVertexNormals(SphereGeo);
calcVertexTangents(SphereGeo,0,Geometry::TexCoords7FieldId, Geometry::TexCoords6FieldId);
NodePtr SphereNode = Node::create();
beginEditCP(SphereNode, Node::CoreFieldMask);
SphereNode->setCore(SphereGeo);
endEditCP (SphereNode, Node::CoreFieldMask);
//Make Main Scene Node
NodePtr scene = Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(Group::create());
// add the torus as a child
scene->addChild(TutorialHeightmapNode);
//scene->addChild(SphereNode);
scene->addChild(ThePointLightBeaconNode);
endEditCP (scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
//Add the scene to the Light Nodes
//beginEditCP(ThePointLightNode, Node::ChildrenFieldMask);
//ThePointLightNode->addChild(scene);
//endEditCP(ThePointLightNode, Node::ChildrenFieldMask);
//// tell the manager what to manage
//mgr->setRoot (ThePointLightNode);
beginEditCP(TheSpotLightNode, Node::ChildrenFieldMask);
TheSpotLightNode->addChild(scene);
endEditCP(TheSpotLightNode, Node::ChildrenFieldMask);
// tell the manager what to manage
mgr->setRoot (TheSpotLightNode);
mgr->turnHeadlightOff();
// show the whole scene
mgr->showAll();
//Open Window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"06Heightmap");
//Main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
