// react to keys void keyboard(unsigned char k, int x, int y) { switch(k) { case 27: { delete _mgr; _client_win = NULL; _cluster_win = NULL; _root = NULL; OSG::osgExit(); exit(0); } case 'n': while(_root->getNChildren() > 0) _root->subChild(_root->getChild(0)); glutPostRedisplay(); break; case 'l': { OSG::NodeUnrecPtr scene = OSG::SceneFileHandler::the()->read("tie.wrl", NULL); if(scene != NULL) { _root->addChild(scene); _mgr->showAll(); glutPostRedisplay(); } } break; case 't': { OSG::NodeUnrecPtr scene = OSG::makeTorus(.5, 2, 16, 16); _root->addChild(scene); _mgr->showAll(); glutPostRedisplay(); } break; case 'c': connectCluster(); break; case 'd': disconnectCluster(); break; } }
OSG::NodeTransitPtr createScene(OSG::Window *win) { OSG::NodeRecPtr rootN = OSG::makeNodeFor(OSG::Group::create()); // Create ground: OSG::NodeUnrecPtr groundN = OSG::makePlane(25,25,1,1); OSG::Matrix m; OSG::Quaternion q; q.setValueAsAxisDeg(OSG::Vec3f(1,0,0), -90); m.setRotate(q); OSG::TransformUnrecPtr groundTransC = OSG::Transform::create(); groundTransC->setMatrix(m); OSG::NodeUnrecPtr groundTransN = OSG::makeNodeFor(groundTransC); groundTransN->addChild(groundN); rootN->addChild(groundTransN); // Set ground material: OSG::SimpleMaterialUnrecPtr mat = OSG::SimpleMaterial::create(); mat->setDiffuse(OSG::Color3f(0.8,0.8,0.8)); dynamic_cast<OSG::Geometry*>(groundN->getCore())->setMaterial(mat); // // Create figure: // OSG::NodeUnrecPtr figure1N = // OSG::SceneFileHandler::the()->read("../Models/Figure.obj"); // G.figure1TransC = OSG::Transform::create(); // OSG::NodeUnrecPtr trans1N = OSG::makeNodeFor(G.figure1TransC); // trans1N->addChild(figure1N); // rootN->addChild(trans1N); OSG::NodeUnrecPtr figureModelA = OSG::SceneFileHandler::the()->read("../assets/Figure.obj"); BoardGame::Figure* figureA = new BoardGame::Figure(); figureA->setModel(figureModelA); rootN->addChild(figureA->getRoot()); OSG::NodeUnrecPtr figureModelB = OSG::SceneFileHandler::the()->read("../assets/Figure.obj"); BoardGame::Figure* figureB = new BoardGame::Figure(); figureB->setModel(figureModelB); rootN->addChild(figureB->getRoot()); G.selectedNode = figureModelA; return(OSG::NodeTransitPtr(rootN)); }
OSG::NodeRecPtr createScenegraph(void) { //create sun, planet & moon geometry OSG::GeometryRecPtr sun = OSG::makeSphereGeo(3, 6); OSG::NodeRecPtr planet = OSG::makeSphere (3, 3); OSG::NodeRecPtr moon = OSG::makeSphere (2, 1); //the root node will be the sun OSG::NodeRecPtr root = OSG::Node::create(); root->setCore(sun); OSG::NodeRecPtr planetTransformNode = OSG::Node::create(); OSG::NodeRecPtr moonTransformNode = OSG::Node::create(); // these were declared globally planetTransform = OSG::Transform::create(); moonTransform = OSG::Transform::create(); // Now we need to fill it with live // We want to have the planet some distance away from the sun, // but initial with no rotation. The same aplies to the moon OSG::Matrix m,n; m.setIdentity(); n.setIdentity(); m.setTranslate(20, 0, 0); n.setTranslate( 8, 0, 0); planetTransform->setMatrix(m); moonTransform ->setMatrix(n); //Insert the cores into the apropiate nodes and add the geometry planetTransformNode->setCore (planetTransform); planetTransformNode->addChild(planet ); moonTransformNode->setCore (moonTransform); moonTransformNode->addChild(moon ); //add the planet to the sun root->addChild(planetTransformNode); root->addChild(moonTransformNode ); //now we are done return OSG::NodeTransitPtr(root); }
// Initialize GLUT & OpenSG and set up the scene int doMain(int argc, char **argv) { std::cout << "start a cluster server with './testClusterServer -w pipe0'\n" "press 'c' to connect to the servers.\n" "press 'd' to disconnect from the servers.\n" "press 'n' to delete current scene.\n" "press 't' to create a torus.\n" "press 'l' to load scene 'tie.wrl'.\n" << std::endl; // OSG init OSG::osgInit(argc,argv); OSG::VTKPolyDataMapper::getClassType().dump(); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG _client_win = OSG::GLUTWindow::create(); _client_win->setGlutId(winid); _client_win->init(); _client_win->setSize(300,300); for(OSG::Int32 i=0;i<argc-1;++i) { if(argv[i+1] != NULL) _pipenames.push_back(argv[i+1]); } if(_pipenames.empty()) _pipenames.push_back("pipe0"); _root = OSG::Node::create(); _root->setCore(OSG::Group::create()); // create default scene // NodePtr scene = makeTorus(.5, 2, 16, 16); OSG::NodeUnrecPtr scene = initVTK(); _root->addChild(scene); // create the SimpleSceneManager helper _mgr = OSG::SimpleSceneManager::create(); // tell the manager what to manage _mgr->setWindow(_client_win ); _mgr->setRoot (_root); // show the whole scene _mgr->showAll(); return 0; }
int main( int argc, char **argv ) { OSG::osgInit(argc,argv); QApplication::setColorSpec( QApplication::CustomColor ); QApplication a( argc, argv ); if ( !QGLFormat::hasOpenGL() ) { qWarning( "This system has no OpenGL support. Exiting." ); return -1; } OpenSGWidget w(QGLFormat(QGL::DoubleBuffer | QGL::DepthBuffer | QGL::Rgba | QGL::DirectRendering)); // create the scene OSG::NodeRecPtr scene; if(argc > 1) { scene = OSG::Node::create(); OSG::GroupRecPtr g = OSG::Group::create(); scene->setCore(g); for(OSG::UInt16 i = 1; i < argc; ++i) scene->addChild(OSG::SceneFileHandler::the()->read(argv[i])); } else { scene = OSG::makeTorus(.5, 3, 16, 16); } w.getManager()->setRoot(scene); w.getManager()->showAll(); w.show(); return a.exec(); }
// Initialize GLUT & OpenSG and set up the scene int doMain(int argc, char **argv) { // OSG init OSG::osgInit(argc,argv); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG OSG::GLUTWindowUnrecPtr gwin= OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( 800, 800 ); gwin->init(); // Create the shader material OSG::ChunkMaterialUnrecPtr cmat = OSG::ChunkMaterial::create(); // Read the image for the normal texture OSG::ImageUnrecPtr earth_map_img = OSG::Image::create(); if(!earth_map_img->read("Earth.jpg")) { fprintf(stderr, "Couldn't read texture 'Earth.jpg'\n"); return 1; } OSG::TextureObjChunkUnrecPtr tex_earth = OSG::TextureObjChunk::create(); OSG::TextureEnvChunkUnrecPtr tex_earth_env = OSG::TextureEnvChunk::create(); tex_earth->setImage(earth_map_img); tex_earth->setMinFilter(GL_LINEAR_MIPMAP_LINEAR); tex_earth->setMagFilter(GL_LINEAR); tex_earth->setWrapS(GL_REPEAT); tex_earth->setWrapT(GL_REPEAT); tex_earth_env->setEnvMode(GL_MODULATE); // Read the image for the normal texture OSG::ImageUnrecPtr earth_night_map_img = OSG::Image::create(); if(!earth_night_map_img->read("EarthNight.jpg")) { fprintf(stderr, "Couldn't read texture 'EarthNight.jpg'\n"); return 1; } OSG::TextureObjChunkUnrecPtr tex_earth_night = OSG::TextureObjChunk::create(); OSG::TextureEnvChunkUnrecPtr tex_earth_night_env = OSG::TextureEnvChunk::create(); tex_earth_night->setImage(earth_night_map_img); tex_earth_night->setMinFilter(GL_LINEAR_MIPMAP_LINEAR); tex_earth_night->setMagFilter(GL_LINEAR); tex_earth_night->setWrapS(GL_REPEAT); tex_earth_night->setWrapT(GL_REPEAT); tex_earth_night_env->setEnvMode(GL_MODULATE); // Read the image for the normal texture OSG::ImageUnrecPtr earth_clouds_map_img = OSG::Image::create(); if(!earth_clouds_map_img->read("EarthClouds.jpg")) { fprintf(stderr, "Couldn't read texture 'EarthClouds.jpg'\n"); return 1; } OSG::TextureObjChunkUnrecPtr tex_earth_clouds = OSG::TextureObjChunk::create(); OSG::TextureEnvChunkUnrecPtr tex_earth_clouds_env = OSG::TextureEnvChunk::create(); tex_earth_clouds->setImage(earth_clouds_map_img); tex_earth_clouds->setMinFilter(GL_LINEAR_MIPMAP_LINEAR); tex_earth_clouds->setMagFilter(GL_LINEAR); tex_earth_clouds->setWrapS(GL_REPEAT); tex_earth_clouds->setWrapT(GL_REPEAT); tex_earth_clouds_env->setEnvMode(GL_MODULATE); _shl = OSG::ShaderProgramChunk::create(); _shl_vp = OSG::ShaderProgram::create(); _shl_fp = OSG::ShaderProgram::create(); if(!_shl_vp->readProgram("Earth.vp")) fprintf(stderr, "Couldn't read vertex program 'Earth.vp'\n"); if(!_shl_fp->readProgram("Earth.fp")) fprintf(stderr, "Couldn't read fragment program 'Earth.fp'\n"); _shl_vp->setShaderType(GL_VERTEX_SHADER); _shl_fp->setShaderType(GL_FRAGMENT_SHADER); _shl->addVertexShader (_shl_vp); _shl->addFragmentShader(_shl_fp); _shl_fp->addUniformVariable("EarthDay", 0); _shl_fp->addUniformVariable("EarthNight", 1); _shl_fp->addUniformVariable("EarthCloudGloss", 2); _shl_vp->addUniformVariable("season", 0.0f); _shl_vp->addUniformVariable("cos_time_0_2PI", -0.406652f); _shl_vp->addUniformVariable("sin_time_0_2PI", -0.913583f); // _shl->setUniformParameter("foo", -0.913583f); cmat->addChunk(_shl); cmat->addChunk(tex_earth); cmat->addChunk(tex_earth_env); cmat->addChunk(tex_earth_night); cmat->addChunk(tex_earth_night_env); cmat->addChunk(tex_earth_clouds); cmat->addChunk(tex_earth_clouds_env); // create root node _scene = OSG::Node::create(); OSG::GeometryUnrecPtr geo = OSG::makeLatLongSphereGeo (100, 100, 1.0); geo->setMaterial(cmat); OSG::NodeUnrecPtr torus = OSG::Node::create(); torus->setCore(geo); // add torus to scene OSG::GroupUnrecPtr group = OSG::Group::create(); _scene->setCore(group); _scene->addChild(torus); // create the SimpleSceneManager helper _mgr = OSG::SimpleSceneManager::create(); // tell the manager what to manage _mgr->setWindow(gwin ); _mgr->setRoot(_scene); // show the whole scene _mgr->showAll(); return 0; }
// Initialize GLUT & OpenSG and set up the scene int main(int argc, char **argv) { printf("Usage: testCGShader <filename.vp> <filename.fp>\n"); if( argc < 3 ) return 0; // OSG init OSG::osgInit(argc,argv); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG OSG::GLUTWindowUnrecPtr gwin= OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( 800, 800 ); gwin->init(); // Create the shader material OSG::ChunkMaterialUnrecPtr cmat = OSG::ChunkMaterial::create(); OSG::MaterialChunkUnrecPtr matc = OSG::MaterialChunk::create(); matc->setAmbient(OSG::Color4f(0.1, 0.1, 0.1, 1.0)); matc->setDiffuse(OSG::Color4f(0.3, 0.3, 0.3, 1.0)); matc->setSpecular(OSG::Color4f(0.8, 0.8, 0.8, 1.0)); matc->setShininess(100); matc->setLit(true); OSG::SHLChunkUnrecPtr shl = OSG::SHLChunk::create(); shl->readVertexProgram(argv[1]); shl->readFragmentProgram(argv[2]); cmat->addChunk(shl); // create root node _scene = OSG::Node::create(); // create torus OSG::GeometryUnrecPtr geo = OSG::makeTorusGeo(.8, 1.8, 128, 128); geo->setMaterial(cmat); OSG::NodeUnrecPtr torus = OSG::Node::create(); torus->setCore(geo); // add torus to scene OSG::GroupUnrecPtr group = OSG::Group::create(); _scene->setCore(group); _scene->addChild(torus); // create the SimpleSceneManager helper _mgr = OSG::SimpleSceneManager::create(); // tell the manager what to manage _mgr->setWindow(gwin ); _mgr->setRoot(_scene); /* // create point headlight _mgr->turnHeadlightOff(); NodePtr headlight = _mgr->getHighlight(); PointLightPtr light = PointLight::create(); beginEditCP(light); light->setAmbient (.3, .3, .3, 1); light->setDiffuse ( 1, 1, 1, 1); light->setSpecular ( 1, 1, 1, 1); light->setBeacon (_mgr->getCamera()->getBeacon()); endEditCP(light); beginEditCP(_scene); _scene->setCore(light); endEditCP(_scene); */ // show the whole scene _mgr->showAll(); // GLUT main loop glutMainLoop(); return 0; }
int main(int argc, char **argv) { OSG::osgInit(argc,argv); if(argc > 1 && !strcmp(argv[1],"-s")) { show = false; argv++; argc--; } if(argc > 1 && !strcmp(argv[1],"-d")) { debug = true; argv++; argc--; } if(argc > 1) { scene = OSG::Node::create(); OSG::GroupUnrecPtr g = OSG::Group::create(); scene->setCore(g); for(OSG::UInt16 i = 1; i < argc; ++i) scene->addChild(OSG::SceneFileHandler::the()->read(argv[i])); } else { scene = OSG::makeTorus(.5, 3, 16, 16); } // GLUT init glutInit(&argc, argv); glutInitDisplayMode(GLUT_RGB | GLUT_DEPTH | GLUT_DOUBLE); glutInitWindowSize(1024, 768); mainwinid = glutCreateWindow("OpenSG"); glutReshapeFunc(reshape); glutDisplayFunc(display); glutIdleFunc(idle); glutMouseFunc(mouse); glutMotionFunc(motion); glutKeyboardFunc(keyboard); OSG::GLUTWindowUnrecPtr mainwin=OSG::GLUTWindow::create(); mainwin->setGlutId(mainwinid); mainwin->init(); // create the SimpleSceneManager helper mgr = OSG::SimpleSceneManager::create(); // create the window and initial camera/viewport mgr->setWindow(mainwin); // tell the manager what to manage mgr->setRoot (scene); OSG::commitChanges(); // show the whole scene mgr->showAll(); mgr->setUseTraversalAction(true); tact = OSG::RenderAction::create(); #ifdef OSG_OLD_RENDER_ACTION act = OSG::RenderAction::create(); #endif debugact = OSG::RenderAction::create(); tact->setOcclusionCulling(true); // Open the debug window if(debug) { OSG::traverse(scene, initMask); glutInitWindowSize(800, 400); debugwinid = glutCreateWindow("OpenSG Occlusion Debugging"); glutReshapeFunc(reshape); glutDisplayFunc(display); glutIdleFunc(display); glutKeyboardFunc(keyboard); debugwin=OSG::GLUTWindow::create(); debugwin->setGlutId(debugwinid); debugwin->init(); OSG::ViewportUnrecPtr vp = mainwin->getPort(0); OSG::ViewportUnrecPtr newvp = OSG::Viewport::create(); newvp->setLeft(0); newvp->setRight(0.5); newvp->setBottom(0); newvp->setTop(1); newvp->setRoot(vp->getRoot()); newvp->setCamera(vp->getCamera()); newvp->setBackground(vp->getBackground()); newvp->setTravMask(0x1); debugwin->addPort(newvp); newvp = OSG::Viewport::create(); newvp->setLeft(0.5); newvp->setRight(1); newvp->setBottom(0); newvp->setTop(1); newvp->setRoot(vp->getRoot()); newvp->setCamera(vp->getCamera()); newvp->setBackground(vp->getBackground()); newvp->setTravMask(0x2); debugwin->addPort(newvp); tact->setOcclusionCullingDebug(true); tact->setOcclusionDebugMasks(0x1, 0x2, 0x4); } // add the statistics forground statfg = OSG::SimpleStatisticsForeground::create(); statfg->setSize(25); statfg->setColor(OSG::Color4f(0,1,0,0.7f)); statfg->addElement(OSG::RenderAction::statDrawTime, "Draw FPS: %r.3f"); statfg->addElement(OSG::RenderAction::statNMatrices, "Matrix Changes: %d"); statfg->addElement(OSG::RenderAction::statNStates, "State Changes: %d"); statfg->addElement(OSG::RenderPartition::statCullTestedNodes, "Cull-tested Nodes: %d"); statfg->addElement(OSG::RenderPartition::statCulledNodes, "Culled Nodes: %d"); statfg->addElement(OSG::OcclusionCullingTreeBuilder::statNOccNodes, "Nodes in DrawTree: %d"); statfg->addElement(OSG::OcclusionCullingTreeBuilder::statNOccTests, "Occ Tests: %d"); statfg->addElement(OSG::OcclusionCullingTreeBuilder::statNOccInvisible, "Invisible Nodes: %d"); statfg->addElement(OSG::OcclusionCullingTreeBuilder::statNOccSuccessTestPer, "OCC Success rate: %per%%"); statfg->addElement(OSG::OcclusionCullingTreeBuilder::statNOccTriangles, "Triangles culled: %d"); collector = statfg->getCollector(); tact->setStatCollector(collector); #ifdef OSG_OLD_RENDER_ACTION act ->setStatCollector(collector); #endif mgr->setAction(tact); #ifdef OSG_OLD_RENDER_ACTION mgr->setAction( act); #endif //tact->setOcclusionCullingMinimumFeatureSize(15); //tact->setOcclusionCullingVisibilityThreshold(15); //tact->setScreenLODCoverageThreshold(0.005); if(show) { mainwin->getPort(0)->addForeground(statfg); } #ifdef OSG_WITH_NVPERFSDK NVPMRESULT status; status = NVPMInit(); if (status != NVPM_OK) { FFATAL(("NVPerfSDK failed to initialize - no GPU data will be available")); } else { nvDataProvider->add("gpu_idle"); nvDataProvider->add("pixel_shader_busy"); nvDataProvider->add("vertex_shader_busy"); nvDataProvider->add("shader_waits_for_texture"); if (!nvDataProvider->add("OGL FPS")) FLOG(("nvDataProvider::add: 'OGL FPS' failed!\n")); statfg->addElement(GPUIdleStat); statfg->addElement(PSBusyStat); statfg->addElement(VSBusyStat); statfg->addElement(TextureWaitStat); statfg->addElement(OGLFPSStat); } #endif // GLUT main loop glutMainLoop(); return 0; }
int main( int argc, char **argv ) { // OSG init OSG::osgInit(argc, argv); OSG::SceneFileHandler::the()->print(); // create the graph // beacon for camera and light OSG::NodeRecPtr b1n = OSG::Node::create(); OSG::GroupRecPtr b1 = OSG::Group::create(); b1n->setCore( b1 ); // transformation OSG::NodeRecPtr t1n = OSG::Node::create(); OSG::TransformRecPtr t1 = OSG::Transform::create(); t1n->setCore( t1 ); t1n->addChild( b1n ); cam_trans = t1; // light OSG::NodeRecPtr dlight = OSG::Node::create(); OSG::DirectionalLightRecPtr dl = OSG::DirectionalLight::create(); dlight->setCore( dl ); dl->setAmbient( .3, .3, .3, 1 ); dl->setDiffuse( 1, 1, 1, 1 ); dl->setDirection(0,0,1); dl->setBeacon( b1n); // root root = OSG::Node::create(); OSG::GroupRecPtr gr1 = OSG::Group::create(); root->setCore( gr1 ); root->addChild( t1n ); root->addChild( dlight ); // Load the file OSG::NodeRecPtr file = NULL; if ( argc > 1 ) file = OSG::SceneFileHandler::the()->read(argv[1]); if ( file == NULL ) { std::cerr << "Couldn't load file, ignoring" << std::endl; file = OSG::makeTorus( .5, 2, 16, 16 ); } OSG::commitChanges(); file->updateVolume(); OSG::Vec3f min,max; file->getVolume().getBounds( min, max ); std::cout << "Volume: from " << min << " to " << max << std::endl; dlight->addChild( file ); std::cerr << "Tree: " << std::endl; root->dump(); // Camera OSG::PerspectiveCameraRecPtr cam = OSG::PerspectiveCamera::create(); cam->setBeacon( b1n ); cam->setFov( OSG::osgDegree2Rad( 60 ) ); cam->setNear( 1 ); cam->setFar( 4000 ); // Background OSG::SolidBackgroundRecPtr bkgnd = OSG::SolidBackground::create(); bkgnd->setColor( OSG::Color3f( 0,0,1 ) ); // Viewport vp = OSG::Viewport::create(); vp->setCamera( cam ); vp->setBackground( bkgnd ); vp->setRoot( root ); vp->setSize( 0,0, 1,1 ); // Action ract = OSG::RenderAction::create(); // QT init QApplication::setColorSpec( QApplication::CustomColor ); a = new QApplication( argc, argv ); if ( !QGLFormat::hasOpenGL() ) { qWarning( "This system has no OpenGL support. Exiting." ); return -1; } OSG::Vec3f pos( 0, 0, max[2] + ( max[2] - min[2] ) * 1.5 ); // Create Window glWidget = new MyOSGQGLWidget( new OSG::OSGQGLWidget::GLContext(QGLFormat::defaultFormat()), 0, 0, 0); glWidget->tball.setMode( OSG::Trackball::OSGObject ); glWidget->tball.setStartPosition( pos, true ); glWidget->tball.setSum( true ); glWidget->tball.setTranslationMode( OSG::Trackball::OSGFree ); glWidget->osgWin = OSG::QT4Window::create(); glWidget->osgWin->setGlWidget( glWidget ); glWidget->osgWin->addPort( vp ); glWidget->osgWin->init(&MyOSGQGLWidget::initOpenGL); a->processEvents(); glWidget->show(); a->exec(); // execute QT main loop root = NULL; file = NULL; vp = NULL; cam_trans = NULL; cam = NULL; osgTWin = NULL; delete glWidget; glWidget = NULL; delete a; return 0; }
void init(std::vector<std::string> &filenames) { size_t i; OSG::DirectionalLightUnrecPtr dl; OSG::Real32 x,y,z; OSG::BoxVolume volume; OSG::Vec3f min,max; OSG::Vec3f size; glEnable( GL_DEPTH_TEST ); glEnable( GL_LIGHTING ); glEnable( GL_LIGHT0 ); // GLint twoSide = 1; // glLightModeliv(GL_LIGHT_MODEL_TWO_SIDE,&twoSide); glPixelStorei( GL_UNPACK_ALIGNMENT, 1 ); // create the graph // beacon for camera and light OSG::NodeUnrecPtr b1n = OSG::Node::create(); OSG::GroupUnrecPtr b1 = OSG::Group::create(); b1n->setCore( b1 ); // transformation OSG::NodeUnrecPtr t1n = OSG::Node::create(); OSG::TransformUnrecPtr t1 = OSG::Transform::create(); t1n->setCore( t1 ); t1n->addChild( b1n ); cam_trans = t1; // light OSG::NodeUnrecPtr dlight = OSG::Node::create(); dl = OSG::DirectionalLight::create(); dlight->setCore( dl ); dl->setAmbient( .3f, .3f, .3f, 1 ); dl->setDiffuse( 1, 1, 1, 1 ); dl->setDirection(0,0,1); dl->setBeacon( b1n); // root root = OSG::Node::create(); OSG::GroupUnrecPtr gr1 = OSG::Group::create(); root->setCore( gr1 ); root->addChild( t1n ); root->addChild( dlight ); // Load the file OSG::NodeUnrecPtr scene = OSG::Node::create(); scene->setCore(OSG::Group::create()); OSG::NodeUnrecPtr file; for(i=0;i<filenames.size();i++) { file = OSG::SceneFileHandler::the()->read(filenames[i].c_str(),0); if(file != NULL) scene->addChild(file); else std::cerr << "Couldn't load file, ignoring " << filenames[i] << std::endl; } if ( filenames.size()==0 ) { file = OSG::makeTorus( .5, 2, 16, 16 ); scene->addChild(file); // scene->addChild(makeBox(.6,.6,.6,5,5,5)); } prepareSceneGraph(scene); OSG::Thread::getCurrentChangeList()->commitChanges(); scene->invalidateVolume(); scene->updateVolume(); volume=scene->getVolume(); volume.getBounds(min,max); size = max-min; if(ca>0) { if(cb==-1) cb=ca; if(cc==-1) cc=cb; OSG::NodeUnrecPtr node; OSG::NodeUnrecPtr geoNode; OSG::TransformUnrecPtr trans; for(x=-ca/2.0 ; x<ca/2.0 ; x++) for(y=-cb/2.0 ; y<cb/2.0 ; y++) for(z=-cc/2.0 ; z<cc/2.0 ; z++) { trans=OSG::Transform::create(); node=OSG::Node::create(); node->setCore(trans); trans->editMatrix().setTranslate( x*size[0]*1.1, y*size[1]*1.1, z*size[2]*1.1); geoNode = OSG::cloneTree(scene); geoNode->editSFVolume()->getValue() = scene->getSFVolume()->getValue(); geoNode->editVolume(false).setValid(true); node->addChild( geoNode ); dlight->addChild(node); } } else { dlight->addChild(scene); } if(ca>0) { sum_geometries*=OSG::UInt32(ca*cb*cc); sum_triangles *=OSG::UInt32(ca*cb*cc); sum_positions *=OSG::UInt32(ca*cb*cc); } OSG::Thread::getCurrentChangeList()->commitChanges(); // dlight->invalidateVolume(); printf("update Volume\n"); dlight->updateVolume(); printf("update Volume OK\n"); // should check first. ok for now. const OSG::BoxVolume &vol = dlight->getVolume(); OSG::Pnt3f center; vol.getBounds(min, max); vol.getCenter(center); size = max - min; std::cout << "Volume: from " << min << " to " << max << std::endl; std::cout << "Center: " << center << std::endl; // Camera OSG::PerspectiveCameraUnrecPtr cam = OSG::PerspectiveCamera::create(); cam->setBeacon( b1n ); cam->setFov( OSG::osgDegree2Rad( 60 ) ); cam->setNear( 10 ); cam->setFar( 50000 ); // Solid Background bkgnd = OSG::SolidBackground::create(); bkgnd->setColor( OSG::Color3f(0,0,0) ); // bkgnd->setColor( OSG::Color3f(.1,.1,.6) ); // bkgnd->setColor( OSG::Color3f(1,1,1) ); // Viewport OSG::ViewportUnrecPtr vp1; OSG::ViewportUnrecPtr vp2; if(stereoMode == 0) { vp1 = OSG::Viewport::create(); vp1->setCamera ( cam ); vp1->setBackground( bkgnd ); vp1->setRoot ( root ); vp1->setSize ( 0,0, 1,1 ); if(multiport) { vp2 = OSG::Viewport::create(); vp2->setCamera ( cam ); vp2->setBackground( bkgnd ); vp2->setRoot ( root ); vp2->setSize ( .1f, .55f, .7f,.95f ); } } else if(stereoMode == 1) { OSG::ShearedStereoCameraDecoratorUnrecPtr deco; // left deco=OSG::ShearedStereoCameraDecorator::create(); deco->setLeftEye(true); deco->setEyeSeparation(eyedistance); deco->setDecoratee(cam); deco->setZeroParallaxDistance(zeroparallax); vp1 = OSG::Viewport::create(); vp1->setCamera ( deco ); vp1->setBackground( bkgnd ); vp1->setRoot ( root ); vp1->setSize ( 0,0, .5,1 ); // right deco=OSG::ShearedStereoCameraDecorator::create(); deco->setLeftEye(false); deco->setEyeSeparation(eyedistance); deco->setDecoratee(cam); deco->setZeroParallaxDistance(zeroparallax); vp2 = OSG::Viewport::create(); vp2->setCamera ( deco ); vp2->setBackground( bkgnd ); vp2->setRoot ( root ); vp2->setSize ( .5,0,1,1 ); } else if(stereoMode == 2) { OSG::ShearedStereoCameraDecoratorUnrecPtr deco; // left deco=OSG::ShearedStereoCameraDecorator::create(); deco->setLeftEye(true); deco->setEyeSeparation(eyedistance); deco->setDecoratee(cam); deco->setZeroParallaxDistance(zeroparallax); OSG::ColorBufferViewportUnrecPtr cvp1 = OSG::ColorBufferViewport::create(); cvp1->setCamera ( deco ); cvp1->setBackground( bkgnd ); cvp1->setRoot ( root ); cvp1->setSize ( 0,0, 1,1 ); cvp1->setRed(GL_FALSE); cvp1->setGreen(GL_TRUE); cvp1->setBlue(GL_TRUE); cvp1->setAlpha(GL_TRUE); vp1 = cvp1; // right deco=OSG::ShearedStereoCameraDecorator::create(); deco->setLeftEye(false); deco->setEyeSeparation(eyedistance); deco->setDecoratee(cam); deco->setZeroParallaxDistance(zeroparallax); OSG::ColorBufferViewportUnrecPtr cvp2 = OSG::ColorBufferViewport::create(); cvp2->setCamera ( deco ); cvp2->setBackground( bkgnd ); cvp2->setRoot ( root ); cvp2->setSize ( 0,0,1,1 ); cvp2->setRed(GL_TRUE); cvp2->setGreen(GL_FALSE); cvp2->setBlue(GL_FALSE); cvp2->setAlpha(GL_FALSE); vp2 = cvp2; } GLint glvp[4]; glGetIntegerv( GL_VIEWPORT, glvp ); if(serverx>0 && servery>0) clusterWindow->setSize( serverx, servery ); else clusterWindow->setSize( glvp[2], glvp[3] ); clusterWindow->addPort( vp1 ); if(multiport || stereoMode > 0) clusterWindow->addPort( vp2 ); if(serviceInterfaceValid == true) { clusterWindow->setServiceInterface(serviceInterface); fprintf(stderr, "tcclient use if %s\n", serviceInterface.c_str()); } if(serviceAddressValid == true) { clusterWindow->setServiceAddress(serviceAddress); fprintf(stderr, "tcclient use ba %s\n", serviceAddress.c_str()); } // tball OSG::Vec3f pos(min[0] + ((max[0] - min[0]) * 0.5), min[1] + ((max[1] - min[1]) * 0.5), max[2] + ( max[2] - min[2] ) * 1.5 ); float scale = (max[2] - min[2] + max[1] - min[1] + max[0] - min[0]) / 6; tball.setMode( OSG::Trackball::OSGObject ); tball.setStartPosition( pos, true ); tball.setSum( true ); tball.setTranslationMode( OSG::Trackball::OSGFree ); tball.setTranslationScale(scale); tball.setRotationCenter(center); tball.setTranslationGen(OSG::Trackball::OSGAbsoluteTranslation); // run... std::cout << size.length() << std::endl; cam->setFar (size.length() * 100.0); cam->setNear(size.length() * 100.0 / 100000.0); }
int doMain (int argc, char **argv) { osx_AllowForeground(); // OSG init OSG::osgInit(argc, argv); // create the graph // beacon for camera and light OSG::NodeUnrecPtr b1n = OSG::Node::create(); OSG::GroupUnrecPtr b1 = OSG::Group::create(); b1n->setCore( b1 ); // transformation OSG::NodeUnrecPtr t1n = OSG::Node::create(); OSG::TransformUnrecPtr t1 = OSG::Transform::create(); t1n->setCore( t1 ); t1n->addChild( b1n ); cam_trans = t1; // light OSG::NodeUnrecPtr dlight = OSG::Node::create(); OSG::DirectionalLightUnrecPtr dl = OSG::DirectionalLight::create(); dlight->setCore( dl ); dl->setAmbient( .0, .0, .0, 1 ); dl->setDiffuse( .8, .8, .8, .8 ); dl->setDirection(0,0,1); dl->setBeacon( b1n); // root root = OSG::Node::create(); OSG::GroupUnrecPtr gr1 = OSG::Group::create(); root->setCore( gr1 ); root->addChild( t1n ); root->addChild( dlight ); // Load the file OSG::NodeUnrecPtr file = NULL; if ( argc > 1 ) file = OSG::SceneFileHandler::the()->read(argv[1]); if ( file == NULL ) { std::cerr << "Couldn't load file, ignoring" << std::endl; file = OSG::makeTorus( .5, 2, 16, 16 ); } OSG::Thread::getCurrentChangeList()->commitChanges(); file->updateVolume(); OSG::Vec3f min,max; file->getVolume().getBounds( min, max ); std::cout << "Volume: from " << min << " to " << max << std::endl; dlight->addChild( file ); std::cerr << "Tree: " << std::endl; //root->dump(); // Camera cam = OSG::PerspectiveCamera::create(); cam->setBeacon( b1n ); cam->setFov( OSG::osgDegree2Rad( 90 ) ); cam->setNear( 0.1 ); cam->setFar( 100000 ); // Background OSG::SolidBackgroundUnrecPtr bkgnd = OSG::SolidBackground::create(); bkgnd->setColor(OSG::Color3f(0,0,1)); // Viewport vp = OSG::Viewport::create(); vp->setCamera( cam ); vp->setBackground( bkgnd ); vp->setRoot( root ); vp->setSize( 0,0, 1,1 ); // Action ract = OSG::RenderAction::create(); // tball OSG::Vec3f pos; pos.setValues(min[0] + ((max[0] - min[0]) * 0.5), min[1] + ((max[1] - min[1]) * 0.5), max[2] + ( max[2] - min[2] ) * 1.5 ); float scale = (max[2] - min[2] + max[1] - min[1] + max[0] - min[0]) / 6; OSG::Pnt3f tCenter(min[0] + (max[0] - min[0]) / 2, min[1] + (max[1] - min[1]) / 2, min[2] + (max[2] - min[2]) / 2); tball.setMode( OSG::Trackball::OSGObject ); tball.setStartPosition( pos, true ); tball.setSum( true ); tball.setTranslationMode( OSG::Trackball::OSGFree ); tball.setTranslationScale(scale); tball.setRotationCenter(tCenter); // Carbon init // Create window WindowAttributes windowAttrs = kWindowStandardDocumentAttributes | kWindowLiveResizeAttribute | kWindowStandardHandlerAttribute; Rect contentRect; SetRect(&contentRect, 0, 0, 300, 300); WindowRef window; CreateNewWindow(kDocumentWindowClass, windowAttrs, &contentRect, &window); SetWindowTitleWithCFString(window, CFSTR("testWindowCarbon")); // Install event handler EventHandlerUPP eventHandlerUPP = NewEventHandlerUPP(eventHandler); EventTypeSpec eventList[] = { { kEventClassTextInput, kEventTextInputUnicodeForKeyEvent }, { kEventClassMouse, kEventMouseDown }, { kEventClassMouse, kEventMouseUp }, { kEventClassMouse, kEventMouseDragged }, { kEventClassWindow, kEventWindowClose }, { kEventClassWindow, kEventWindowDrawContent }, { kEventClassWindow, kEventWindowBoundsChanged } }; InstallWindowEventHandler(window, eventHandlerUPP, GetEventTypeCount(eventList), eventList, /*this*/0, 0); // Initialize OpenGL GLint attribs[] = { AGL_RGBA, AGL_DOUBLEBUFFER, AGL_DEPTH_SIZE, 16, AGL_NONE }; AGLPixelFormat pixelFormat = aglChoosePixelFormat(0, 0, attribs); if (pixelFormat == 0) std::cerr << "Cannot choose pixel format" << std::endl; AGLContext context = aglCreateContext(pixelFormat, 0); aglDestroyPixelFormat(pixelFormat); if (context == 0) std::cerr << "Cannot create context" << std::endl; aglSetDrawable(context, GetWindowPort(window)); // Create OpenSG window win = OSG::CarbonWindow::create(); win->addPort( vp ); win->setContext ( context ); win->init(); win->resize( 300, 300 ); // Show window RepositionWindow(window, 0, kWindowCascadeOnMainScreen); ShowWindow(window); win->activate(); // do some OpenGL init. Will move into State Chunks later. glEnable( GL_DEPTH_TEST ); glEnable( GL_LIGHTING ); glEnable( GL_LIGHT0 ); // Main loop ( event dispatching ) RunApplicationEventLoop(); // Cleanup aglDestroyContext(context); DisposeWindow(window); DisposeEventHandlerUPP(eventHandlerUPP); ract = NULL; win = NULL; root = NULL; file = NULL; vp = NULL; cam_trans = NULL; cam = NULL; return 0; }
// Initialize GLUT & OpenSG and set up the scene int doMain(int argc, char **argv) { // OSG init OSG::osgInit(argc,argv); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG OSG::GLUTWindowUnrecPtr gwin = OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( 800, 800 ); gwin->init(); // Create the shader material OSG::ChunkMaterialUnrecPtr cmat = OSG::ChunkMaterial::create(); OSG::SHLChunkUnrecPtr shl = OSG::SHLChunk::create(); shl->setProgramParameter(GL_GEOMETRY_INPUT_TYPE_EXT, GL_TRIANGLES); shl->setProgramParameter(GL_GEOMETRY_OUTPUT_TYPE_EXT, GL_TRIANGLE_STRIP); shl->setProgramParameter(GL_GEOMETRY_VERTICES_OUT_EXT, 6); shl->setVertexProgram(_vertex_shader); shl->setFragmentProgram(_fragment_shader); shl->setGeometryProgram(_geometry_shader); cmat->addChunk(shl); // create root node _scene = OSG::Node::create(); // create torus OSG::GeometryUnrecPtr geo = OSG::makeTorusGeo(.8, 1.8, 128, 128); geo->setMaterial(cmat); OSG::NodeUnrecPtr torus = OSG::Node::create(); torus->setCore(geo); // add torus to scene OSG::GroupUnrecPtr group = OSG::Group::create(); _scene->setCore(group); _scene->addChild(torus); // create the SimpleSceneManager helper _mgr = OSG::SimpleSceneManager::create(); // tell the manager what to manage _mgr->setWindow(gwin ); _mgr->setRoot(_scene); // show the whole scene _mgr->showAll(); return 0; }
// Initialize GLUT & OpenSG and set up the scene int doMain(int argc, char **argv) { printf("Press key '1', '2', or '3' to toggle the light sources.\n"); // OSG init OSG::osgInit(argc,argv); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG OSG::GLUTWindowUnrecPtr gwin= OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( 800, 800 ); gwin->init(); // Create the shader material OSG::ChunkMaterialUnrecPtr cmat = OSG::ChunkMaterial::create(); OSG::MaterialChunkUnrecPtr matc = OSG::MaterialChunk::create(); matc->setAmbient(OSG::Color4f(0.1f, 0.1f, 0.1f, 1.0f)); matc->setDiffuse(OSG::Color4f(0.3f, 0.3f, 0.3f, 1.0f)); matc->setSpecular(OSG::Color4f(0.8f, 0.8f, 0.8f, 1.0f)); matc->setShininess(100); matc->setLit(true); OSG::ShaderProgramChunkUnrecPtr shl = OSG::ShaderProgramChunk::create(); OSG::ShaderProgramUnrecPtr shl_vp = OSG::ShaderProgram::createVertexShader(); shl_vp->setProgram(_vp_program); shl->addShader(shl_vp); OSG::ShaderProgramUnrecPtr shl_fp = OSG::ShaderProgram::createFragmentShader(); shl_fp->setProgram(_fp_program); shl->addShader(shl_fp); shl_vp->addProceduralVariable ("Light0Active", &light0Active); shl_vp->addProceduralVariable ("Light1Active", &light1Active); shl_vp->addNodeProceduralVariable("Light2Active", &light2Active); cmat->addChunk(matc); cmat->addChunk(shl); // create root node _scene = OSG::Node::create(); // create two light sources. OSG::TransformUnrecPtr point1_trans; OSG::NodeUnrecPtr point1 = OSG::makeCoredNode<OSG::PointLight>(&_point1_core); point1_beacon = OSG::makeCoredNode<OSG::Transform >(&point1_trans); point1_trans->editMatrix().setTranslate(-10.0, 5.0, 5.0); _point1_core->setAmbient(0.0f, 0.0f, 0.0f , 1.0f); _point1_core->setDiffuse(1.0f, 0.0f, 0.0f, 1.0f); _point1_core->setSpecular(1.0f, 1.0f, 1.0f, 1.0f); _point1_core->setBeacon(point1_beacon); _point1_core->setOn(true); OSG::TransformUnrecPtr point2_trans; OSG::NodeUnrecPtr point2 = OSG::makeCoredNode<OSG::PointLight>(&_point2_core); point2_beacon = OSG::makeCoredNode<OSG::Transform >(&point2_trans); point2_trans->editMatrix().setTranslate(10.0, 5.0, 5.0); _point2_core->setAmbient(0.0f, 0.0f, 0.0f, 1.0f); _point2_core->setDiffuse(0.0f, 1.0f, 0.0f, 1.0f); _point2_core->setSpecular(1.0f, 1.0f, 1.0f, 1.0f); _point2_core->setBeacon(point2_beacon); _point2_core->setOn(true); point1->addChild(point2); OSG::TransformUnrecPtr point3_trans; OSG::NodeUnrecPtr point3 = OSG::makeCoredNode<OSG::PointLight>(&_point3_core); point3_beacon = OSG::makeCoredNode<OSG::Transform >(&point3_trans); point3_trans->editMatrix().setTranslate(0.0, -12.0, 5.0); _point3_core->setAmbient(0.0f, 0.0f, 0.0f, 1.0f); _point3_core->setDiffuse(0.5f, 0.0f, 1.0f, 1.0f); _point3_core->setSpecular(1.0f, 1.0f, 1.0f, 1.0f); _point3_core->setBeacon(point3_beacon); _point3_core->setOn(true); point2->addChild(point3); // create a sphere. OSG::GeometryUnrecPtr geo = OSG::makeLatLongSphereGeo (100, 100, 1.0); geo->setMaterial(cmat); OSG::NodeUnrecPtr sphere = OSG::makeNodeFor(geo); point3->addChild(sphere); _scene->setCore(OSG::Group::create()); _scene->addChild(point1); // create the SimpleSceneManager helper _mgr = OSG::SimpleSceneManager::create(); // tell the manager what to manage _mgr->setWindow(gwin ); _mgr->setRoot(_scene); _mgr->turnHeadlightOff(); // show the whole scene _mgr->showAll(); // enable local lights. // OSG::RenderAction *ract = // dynamic_cast<OSG::RenderAction *>(_mgr->getRenderAction()); // ract->setLocalLights(true); return 0; }
OSG::NodeTransitPtr createScenegraph(void) { // At first we load all needed models from file OSG::NodeRecPtr w_high = OSG::SceneFileHandler::the()->read("Data/woman_high.wrl"); OSG::NodeRecPtr w_medium = OSG::SceneFileHandler::the()->read("Data/woman_medium.wrl"); OSG::NodeRecPtr w_low = OSG::SceneFileHandler::the()->read("Data/woman_low.wrl"); // we check the result if((w_high == NULL) || (w_medium == NULL)|| (w_low == NULL)) { std::cout << "It was not possible to load all needed models from file" << std::endl; return OSG::NodeTransitPtr(); } // now the LOD core OSG::DistanceLODRecPtr lod = OSG::DistanceLOD::create(); lod->editSFCenter()->setValue(OSG::Pnt3f(0,0,0)); lod->editMFRange()->push_back(200); lod->editMFRange()->push_back(500); // the node containing the LOD core. The three models will be // added as its children OSG::NodeRecPtr lodNode = OSG::Node::create(); lodNode->setCore(lod); lodNode->addChild(w_high); lodNode->addChild(w_medium); lodNode->addChild(w_low); // create the node with switch core ******************** OSG::SwitchRecPtr sw = OSG::Switch::create(); //Notice: the first choice is 0 sw->setChoice(0); OSG::NodeRecPtr switchNode = OSG::Node::create(); switchNode->setCore(sw); switchNode->addChild(lodNode); //end switch creation ********************************** OSG::NodeRecPtr root = OSG::Node::create(); root->setCore(OSG::Group::create()); root->addChild(switchNode); // we know want to extract the mesh geometry out of the graph // it is sufficent to pass the model only as root for searching OSG::NodeRecPtr womanGeometry = checkName(w_high); OSG::GeometryRecPtr geo = dynamic_cast<OSG::Geometry *>(womanGeometry->getCore()); //new node with "old" geometry core referenced OSG::NodeRecPtr woman = OSG::Node::create(); woman->setCore(geo); //translate it a bit to see both women OSG::NodeRecPtr womanTrans = OSG::Node ::create(); OSG::TransformRecPtr t = OSG::Transform::create(); OSG::Matrix m; m.setIdentity(); m.setTranslate(OSG::Vec3f(0,0,200)); t->setMatrix(m); womanTrans->setCore(t); womanTrans->addChild(woman); //add it to the root root->addChild(womanTrans); return OSG::NodeTransitPtr(root); }
// Initialize GLUT & OpenSG and set up the scene int doMain(int argc, char **argv) { printf("Usage: testCGShader [normal map filename]\n"); const char *normal_map_img_name = "opensg_logoDOT3.png"; OSG::Color4f tmp; if( argc > 1 ) normal_map_img_name = argv[1]; // OSG init OSG::osgInit(argc,argv); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG OSG::GLUTWindowUnrecPtr gwin= OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( 800, 800 ); gwin->init(); // Create the shader material // Read the image for the normal texture OSG::ImageUnrecPtr normal_map_img = OSG::Image::create(); if(!normal_map_img->read(normal_map_img_name)) { fprintf(stderr, "Couldn't read normalmap texture '%s'!\n", normal_map_img_name); return 1; } OSG::ChunkMaterialUnrecPtr cmat = OSG::ChunkMaterial::create(); OSG::MaterialChunkUnrecPtr matc = OSG::MaterialChunk::create(); matc->setAmbient(OSG::Color4f(0.1, 0.1, 0.1, 1.0)); matc->setDiffuse(OSG::Color4f(0.3, 0.3, 0.3, 1.0)); matc->setSpecular(OSG::Color4f(0.8, 0.8, 0.8, 1.0)); matc->setShininess(100); matc->setLit(true); OSG::ShaderProgramChunkUnrecPtr shl = OSG::ShaderProgramChunk::create(); OSG::ShaderProgramUnrecPtr shl_vp = OSG::ShaderProgram::createVertexShader(); shl_vp->setProgram(_vp_program); shl_vp->setProgramAttribute(OSG::ShaderConstants::TexCoordsIndex, "TexCoord0"); shl_vp->setProgramAttribute(OSG::ShaderConstants::NormalsIndex, "Normal" ); shl_vp->setProgramAttribute(OSG::ShaderConstants::PositionsIndex, "Position"); shl->addShader(shl_vp); OSG::ShaderProgramUnrecPtr shl_fp = OSG::ShaderProgram::createFragmentShader(); shl_fp->setProgram(_fp_program); shl->addShader(shl_fp); OSG::TextureObjChunkUnrecPtr tex_normal_map = OSG::TextureObjChunk::create(); OSG::TextureEnvChunkUnrecPtr tex_normal_map_env = OSG::TextureEnvChunk::create(); tex_normal_map->setImage(normal_map_img); tex_normal_map->setMinFilter(GL_LINEAR_MIPMAP_LINEAR); tex_normal_map->setMagFilter(GL_LINEAR); tex_normal_map->setWrapS(GL_REPEAT); tex_normal_map->setWrapT(GL_REPEAT); tex_normal_map_env->setEnvMode(GL_MODULATE); //cmat->addChunk(matc); cmat->addChunk(shl); cmat->addChunk(tex_normal_map); cmat->addChunk(tex_normal_map_env); // create root node _scene = OSG::Node::create(); // create geometry //GeometryPtr geo = makeLatLongSphereGeo (100, 100, 1.0); OSG::GeometryUnrecPtr geo = OSG::makePlaneGeo(1.0, 1.0, 100, 100); geo->setMaterial(cmat); OSG::NodeUnrecPtr torus = OSG::Node::create(); torus->setCore(geo); // add torus to scene OSG::GroupUnrecPtr group = OSG::Group::create(); _scene->setCore(group); _scene->addChild(torus); // create the SimpleSceneManager helper _mgr = new OSG::SimpleSceneManager; // tell the manager what to manage _mgr->setWindow(gwin ); _mgr->setRoot(_scene); // show the whole scene _mgr->showAll(); return 0; }
void updateScene(const std::string &filename, OSG::Image::PixelFormat compressTo = OSG::Image::OSG_INVALID_PF) { // Try to create the new image OSG::ImageRecPtr imagePtr = OSG::ImageFileHandler::the()->read(filename.c_str()); if (imagePtr == NULL) return; if(compressTo != OSG::Image::OSG_INVALID_PF) { imagePtr->reformat(compressTo); } // Update information on the screen OSG::StatStringElem *statElem = statfg->editCollector()->getElem(textureFormatDesc); switch (imagePtr->getPixelFormat()) { case OSG::Image::OSG_A_PF: statElem->set("OSG_A_PF"); break; case OSG::Image::OSG_I_PF: statElem->set("OSG_I_PF"); break; case OSG::Image::OSG_L_PF: statElem->set("OSG_L_PF"); break; case OSG::Image::OSG_LA_PF: statElem->set("OSG_LA_PF"); break; case OSG::Image::OSG_RGB_PF: statElem->set("OSG_RGB_PF"); break; case OSG::Image::OSG_RGBA_PF: statElem->set("OSG_RGBA_PF"); break; case OSG::Image::OSG_BGR_PF: statElem->set("OSG_BGRA_PF"); break; case OSG::Image::OSG_BGRA_PF: statElem->set("OSG_BGRA_PF"); break; case OSG::Image::OSG_RGB_DXT1: statElem->set("OSG_RGB_DXT1"); break; case OSG::Image::OSG_RGBA_DXT1: statElem->set("OSG_RGBA_DXT1"); break; case OSG::Image::OSG_RGBA_DXT3: statElem->set("OSG_RGBA_DXT3"); break; case OSG::Image::OSG_RGBA_DXT5: statElem->set("OSG_RGBA_DXT5"); break; default: statElem->set("???"); break; } statElem = statfg->editCollector()->getElem(textureDataTypeDesc); switch (imagePtr->getDataType()) { case OSG::Image::OSG_UINT8_IMAGEDATA: statElem->set("OSG_UINT8_IMAGEDATA"); break; case OSG::Image::OSG_UINT16_IMAGEDATA: statElem->set("OSG_UINT16_IMAGEDATA"); break; case OSG::Image::OSG_UINT32_IMAGEDATA: statElem->set("OSG_UINT32_IMAGEDATA"); break; case OSG::Image::OSG_FLOAT16_IMAGEDATA: statElem->set("OSG_FLOAT16_IMAGEDATA"); break; case OSG::Image::OSG_FLOAT32_IMAGEDATA: statElem->set("OSG_FLOAT32_IMAGEDATA"); break; case OSG::Image::OSG_INT16_IMAGEDATA: statElem->set("OSG_INT16_IMAGEDATA"); break; case OSG::Image::OSG_INT32_IMAGEDATA: statElem->set("OSG_INT32_IMAGEDATA"); break; default: statElem->set("???"); break; } ostringstream os; os << imagePtr->getWidth() << 'x' << imagePtr->getHeight() << 'x' << imagePtr->getDepth(); statfg->editCollector()->getElem(textureSizeDesc)->set(os.str()); statfg->editCollector()->getElem(textureDimensionDesc)->set(imagePtr->getDimension()); statfg->editCollector()->getElem(textureBPPDesc)->set(imagePtr->getBpp()); statfg->editCollector()->getElem(textureMipMapCountDesc)->set(imagePtr->getMipMapCount()); statfg->editCollector()->getElem(textureFrameCountDesc)->set(imagePtr->getFrameCount()); // Put it all together into a Geometry NodeCore. OSG::GeometryRecPtr geo = OSG::makePlaneGeo(imagePtr->getWidth(), imagePtr->getHeight(), 1, 1); OSG::NodeRecPtr imageNode = OSG::Node::create(); imageNode->setCore(geo); OSG::NodeRecPtr transNodePtr = OSG::Node::create(); OSG::TransformRecPtr transPtr = OSG::Transform::create(); OSG::Matrix transMatrix; transMatrix.setTranslate(0.f, 0.f, -1.f); transPtr->setMatrix(transMatrix); transNodePtr->setCore(transPtr); transNodePtr->addChild(imageNode); OSG::TextureObjChunkRecPtr texObjChunk = OSG::TextureObjChunk::create(); texObjChunk->setImage(imagePtr); texObjChunk->setWrapS(GL_CLAMP); texObjChunk->setWrapT(GL_CLAMP); texObjChunk->setMagFilter(GL_NEAREST); texObjChunk->setMinFilter(GL_NEAREST); OSG::TextureEnvChunkRecPtr texEnvChunk = OSG::TextureEnvChunk::create(); texEnvChunk->setEnvMode(GL_MODULATE); OSG::MaterialChunkRecPtr matChunk = OSG::MaterialChunk::create(); matChunk->setAmbient(OSG::Color4f(1.f, 1.f, 1.f, 1.f)); matChunk->setDiffuse(OSG::Color4f(1.f, 1.f, 1.f, 1.f)); matChunk->setEmission(OSG::Color4f(0.f, 0.f, 0.f, 1.f)); matChunk->setSpecular(OSG::Color4f(0.f, 0.f, 0.f, 1.f)); matChunk->setShininess(0); OSG::ChunkMaterialRecPtr m = OSG::ChunkMaterial::create(); m->addChunk(texObjChunk); m->addChunk(texEnvChunk); m->addChunk(matChunk); geo->setMaterial(m); scene->clearChildren(); scene->addChild(transNodePtr); if(compressTo != OSG::Image::OSG_INVALID_PF) { OSG::SceneFileHandler::the()->write(scene->getChild(0), "/tmp/comp.osb"); OSG::SceneFileHandler::the()->write(scene->getChild(0), "/tmp/comp.osg"); } }
int doMain (int argc, char **argv) { int dummy; // OSG init OSG::osgInit(argc, argv); // create the graph // beacon for camera and light OSG::NodeUnrecPtr b1n = OSG::Node::create(); OSG::GroupUnrecPtr b1 = OSG::Group::create(); b1n->setCore( b1 ); // transformation OSG::NodeUnrecPtr t1n = OSG::Node::create(); OSG::TransformUnrecPtr t1 = OSG::Transform::create(); t1n->setCore( t1 ); t1n->addChild( b1n ); cam_trans = t1; // light OSG::NodeUnrecPtr dlight = OSG::Node::create(); OSG::DirectionalLightUnrecPtr dl = OSG::DirectionalLight::create(); dlight->setCore( dl ); dl->setAmbient( .3, .3, .3, 1 ); dl->setDiffuse( 1, 1, 1, 1 ); dl->setDirection(0,0,1); dl->setBeacon( b1n); // root root = OSG::Node::create(); OSG::GroupUnrecPtr gr1 = OSG::Group::create(); root->setCore( gr1 ); root->addChild( t1n ); root->addChild( dlight ); // Load the file OSG::NodeUnrecPtr file = NULL; if ( argc > 1 ) file = OSG::SceneFileHandler::the()->read(argv[1]); if ( file == NULL ) { std::cerr << "Couldn't load file, ignoring" << std::endl; file = OSG::makeTorus( .5, 2, 16, 16 ); } OSG::Thread::getCurrentChangeList()->commitChanges(); file->updateVolume(); OSG::Vec3f min,max; file->getVolume().getBounds( min, max ); std::cout << "Volume: from " << min << " to " << max << std::endl; dlight->addChild( file ); std::cerr << "Tree: " << std::endl; //root->dump(); // Camera cam = OSG::PerspectiveCamera::create(); cam->setBeacon( b1n ); cam->setFov( OSG::osgDegree2Rad( 90 ) ); cam->setNear( 0.1 ); cam->setFar( 100000 ); // Background OSG::SolidBackgroundUnrecPtr bkgnd = OSG::SolidBackground::create(); bkgnd->setColor(OSG::Color3f(0,0,1)); // Viewport vp = OSG::Viewport::create(); vp->setCamera( cam ); vp->setBackground( bkgnd ); vp->setRoot( root ); vp->setSize( 0,0, 1,1 ); // Action ract = OSG::RenderAction::create(); // tball OSG::Vec3f pos; pos.setValues(min[0] + ((max[0] - min[0]) * 0.5), min[1] + ((max[1] - min[1]) * 0.5), max[2] + ( max[2] - min[2] ) * 1.5 ); float scale = (max[2] - min[2] + max[1] - min[1] + max[0] - min[0]) / 6; OSG::Pnt3f tCenter(min[0] + (max[0] - min[0]) / 2, min[1] + (max[1] - min[1]) / 2, min[2] + (max[2] - min[2]) / 2); tball.setMode( OSG::Trackball::OSGObject ); tball.setStartPosition( pos, true ); tball.setSum( true ); tball.setTranslationMode( OSG::Trackball::OSGFree ); tball.setTranslationScale(scale); tball.setRotationCenter(tCenter); // CoreGL init // Install event handler EventHandlerUPP eventHandlerUPP = NewEventHandlerUPP(eventHandler); EventTypeSpec eventList[] = { { kEventClassTextInput, kEventTextInputUnicodeForKeyEvent }, { kEventClassMouse, kEventMouseDown }, { kEventClassMouse, kEventMouseUp }, { kEventClassMouse, kEventMouseDragged } }; InstallApplicationEventHandler(eventHandlerUPP, GetEventTypeCount(eventList), eventList, 0, 0); CGDisplayCapture(kCGDirectMainDisplay); CGLPixelFormatAttribute attribs[] = { kCGLPFADoubleBuffer, kCGLPFAFullScreen, kCGLPFADepthSize, (CGLPixelFormatAttribute)16, kCGLPFADisplayMask, (CGLPixelFormatAttribute)CGDisplayIDToOpenGLDisplayMask(kCGDirectMainDisplay), (CGLPixelFormatAttribute)0 }; CGLPixelFormatObj pixelFormatObj; GLint numPixelFormats; CGLChoosePixelFormat(attribs, &pixelFormatObj, &numPixelFormats); CGLContextObj contextObj; CGLCreateContext(pixelFormatObj, 0, &contextObj); CGLDestroyPixelFormat(pixelFormatObj); CGLSetCurrentContext(contextObj); CGLSetFullScreen(contextObj); // Create OpenSG window win = OSG::CoreGLWindow::create(); win->addPort( vp ); win->setContext ( contextObj ); win->init(); win->resize( CGDisplayPixelsWide(kCGDirectMainDisplay), CGDisplayPixelsHigh(kCGDirectMainDisplay) ); win->activate(); // do some OpenGL init. Will move into State Chunks later. glEnable( GL_DEPTH_TEST ); glEnable( GL_LIGHTING ); glEnable( GL_LIGHT0 ); redraw(); // Main loop ( event dispatching ) RunApplicationEventLoop(); // Cleanup CGLSetCurrentContext(0); CGLClearDrawable(contextObj); CGLDestroyContext(contextObj); CGReleaseAllDisplays(); DisposeEventHandlerUPP(eventHandlerUPP); ract = NULL; win = NULL; root = NULL; file = NULL; vp = NULL; cam_trans = NULL; cam = NULL; return 0; }
int main(int argc, char *argv[]) { // Init the OpenSG subsystem OSG::osgInit(argc, argv); { // We create a GLUT Window (that is almost the same for most applications) int winid = setupGLUT(&argc, argv); OSG::GLUTWindowRecPtr gwin = OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->init(); // Create the face std::string family = "SANS"; OSG::TextFace::Style style = OSG::TextFace::STYLE_PLAIN; OSG::UInt32 size = 32; OSG::TextPixmapFaceRefPtr face = OSG::TextPixmapFace::create(family, style, size); if (face == 0) { std::cerr << "ERROR: Cannot create face object!" << std::endl; return -1; } // Lay out one single line of text std::string text = "Hello World!"; // Use UTF-8 encoding! OSG::TextLayoutParam layoutParam; layoutParam.horizontal = true; layoutParam.leftToRight = true; layoutParam.topToBottom = true; layoutParam.majorAlignment = OSG::TextLayoutParam::ALIGN_FIRST; layoutParam.minorAlignment = OSG::TextLayoutParam::ALIGN_FIRST; layoutParam.spacing = 1.f; layoutParam.length.push_back(0.f); layoutParam.maxExtend = 0.f; OSG::TextLayoutResult layoutResult; face->layout(text, layoutParam, layoutResult); // Render the text into an OpenSG image OSG::Vec2f offset; OSG::UInt32 border = 1; OSG::ImageRecPtr imagePtr = face->makeImage(layoutResult, offset, border); // Create the geometry which we will assign the texture to OSG::Real32 width = imagePtr->getWidth(); OSG::Real32 height = imagePtr->getHeight(); OSG::NodeRecPtr plane = OSG::makePlane(width, height, 1, 1); // Create the texture that will hold the image OSG::SimpleTexturedMaterialRecPtr tex = OSG::SimpleTexturedMaterial::create(); tex->setImage(imagePtr); tex->setEnvMode(GL_MODULATE); tex->setDiffuse(OSG::Color3f(1, 0, 0)); // Assign the texture to the geometry OSG::GeometryRecPtr geo = dynamic_cast<OSG::Geometry *>(plane->getCore()); geo->setMaterial(tex); // Transform the geometry so that the origin of the text is at // the origin of the world coordinate system OSG::NodeRecPtr scene = OSG::Node::create(); OSG::TransformRecPtr transformPtr = OSG::Transform::create(); OSG::Matrix m; m.setTranslate(offset.x() + width / 2, offset.y() - height / 2, 0); transformPtr->setMatrix(m); scene->setCore(transformPtr); scene->addChild(plane); // Create and setup the SSM mgr = new OSG::SimpleSceneManager; mgr->setWindow(gwin); mgr->setRoot(scene); // Create a blue background OSG::SolidBackgroundRecPtr bg = OSG::SolidBackground::create(); bg->setColor(OSG::Color3f(0.1, 0.1, 0.5)); gwin->getPort(0)->setBackground(bg); mgr->showAll(); OSG::commitChanges(); } // Give Control to the GLUT Main Loop glutMainLoop(); return 0; }
int init(int argc, char **argv) { OSG::osgInit(argc,argv); // GLUT init glutInit(&argc, argv); glutInitDisplayMode( GLUT_RGBA | GLUT_DEPTH | GLUT_DOUBLE); int winid = glutCreateWindow("OpenSG"); glutKeyboardFunc(key); glutVisibilityFunc(vis); glutReshapeFunc(reshape); glutDisplayFunc(display); glutMouseFunc(mouse); glutMotionFunc(motion); glutIdleFunc(display); // glPolygonMode( GL_FRONT_AND_BACK, GL_LINE ); // glEnable( GL_DEPTH_TEST ); // glEnable( GL_LIGHTING ); // glEnable( GL_LIGHT0 ); // glFrontFace(GL_CW); glEnable(GL_CULL_FACE); // OSG OSG::SceneFileHandler::the()->print(); // create the graph // beacon for camera and light OSG::NodeUnrecPtr b1n = OSG::Node::create(); OSG::GroupUnrecPtr b1 = OSG::Group::create(); b1n->setCore( b1 ); // transformation OSG::NodeUnrecPtr t1n = OSG::Node::create(); OSG::TransformUnrecPtr t1 = OSG::Transform::create(); t1n->setCore( t1 ); t1n->addChild( b1n ); cam_trans = t1; // light OSG::NodeUnrecPtr dlight = OSG::Node::create(); OSG::DirectionalLightUnrecPtr dl = OSG::DirectionalLight::create(); dlight->setCore( dl ); // dlight->setCore( Group::create() ); dl->setAmbient( .0, .0, .0, 1 ); dl->setDiffuse( .8f, .8f, .8f, 1.f ); dl->setDirection(0,0,1); dl->setBeacon( b1n); // root root = OSG::Node::create(); OSG::GroupUnrecPtr gr1 = OSG::Group::create(); root->setCore( gr1 ); root->addChild( t1n ); root->addChild( dlight ); // Load the file OSG::NodeUnrecPtr file = NULL; if(argc > 1) file = OSG::SceneFileHandler::the()->read(argv[1], NULL); if ( file == NULL ) { std::cerr << "Couldn't load file, ignoring" << std::endl; file = OSG::makeSphere(4, 2.0); } #if 0 OSG::GeometryPtr pGeo = cast_dynamic<OSG::GeometryPtr>(file->getCore()); if(pGeo == NULL && file->getNChildren() != 0) { pGeo = cast_dynamic<OSG::GeometryPtr>(file->getChild(0)->getCore()); } if(pGeo == NULL) { fprintf(stderr, "no geo\n"); } #endif // OSG::GraphOpRefPtr op = OSG::GraphOpFactory::the()->create("Stripe"); // op->traverse(file); // createOptimizedPrimitives(pGeo); // createSharedIndex(pGeo); OSG::Thread::getCurrentChangeList()->commitChanges(); // file->dump(); file->updateVolume(); #if 0 const char *outFileName = "/tmp/foo1.osg"; OSG::IndentFileOutStream outFileStream(outFileName); if( !outFileStream ) { std::cerr << "Can not open output stream to file: " << outFileName << std::endl; return -1; } std::cerr << "STARTING PRINTOUT:" << std::endl; OSGWriter writer( outFileStream, 4 ); writer.write( file ); outFileStream.close(); OSG::SceneFileHandler::the()->write(file, "/tmp/foo.osb"); #endif // return 0; OSG::Vec3f min,max; file->getVolume().getBounds( min, max ); std::cout << "Volume: from " << min << " to " << max << std::endl; OSG::MultiCoreUnrecPtr pMCore = OSG::MultiCore::create(); pCOver = OSG::ChunkOverrideGroup::create(); scene_trans = OSG::Transform::create(); pMCore->addCore(scene_trans); pMCore->addCore(pCOver ); OSG::NodeUnrecPtr sceneTrN = OSG::Node::create(); sceneTrN->setCore(pMCore); sceneTrN->addChild(file); dlight->addChild(sceneTrN); std::cerr << "Tree: " << std::endl; // root->dump(); // Camera cam = OSG::PerspectiveCamera::create(); cam->setBeacon( b1n ); cam->setFov( OSG::osgDegree2Rad( 90 ) ); cam->setNear( 0.1f ); cam->setFar( 100000 ); // Background OSG::SolidBackgroundUnrecPtr bkgnd = OSG::SolidBackground::create(); bkgnd->setColor(OSG::Color3f(1,0,0)); // Viewport vp = OSG::Viewport::create(); vp->setCamera( cam ); vp->setBackground( bkgnd ); vp->setRoot( root ); vp->setSize( 0,0, 1,1 ); #if 0 OSG::UInt8 imgdata[] = { 64,64,64, 128,128,128, 192,192,192, 255,255,255 }; #endif pImg = OSG::Image::create(); pImg->set(OSG::Image::OSG_RGB_PF, 128, 128); //, 1, 1, 1, 0.0, imgdata); tx1o = OSG::TextureObjChunk::create(); tx1e = OSG::TextureEnvChunk::create(); tx1o->setImage (pImg ); tx1o->setMinFilter(GL_LINEAR ); tx1o->setMagFilter(GL_LINEAR ); tx1o->setWrapS (GL_CLAMP ); tx1o->setWrapT (GL_CLAMP ); tx1e->setEnvMode (GL_REPLACE); OSG::SimpleMaterialUnrecPtr mat = OSG::SimpleMaterial::create(); mat->setDiffuse(OSG::Color3f(1,1,1)); mat->setLit (false ); mat->addChunk (tx1o ); mat->addChunk (tx1e ); OSG::PolygonForegroundUnrecPtr pFG = OSG::PolygonForeground::create(); pFG->setMaterial(mat); OSG::MFPnt2f *pPos = pFG->editMFPositions(); OSG::MFVec3f *pTex = pFG->editMFTexCoords(); pPos->push_back(OSG::Pnt2f(0.0f, 0.0f)); pPos->push_back(OSG::Pnt2f(0.3f, 0.0f)); pPos->push_back(OSG::Pnt2f(0.3f, 0.3f)); pPos->push_back(OSG::Pnt2f(0.0f, 0.3f)); pTex->push_back(OSG::Vec3f(0.0f, 1.0f, 0.0f)); pTex->push_back(OSG::Vec3f(1.0f, 1.0f, 0.0f)); pTex->push_back(OSG::Vec3f(1.0f, 0.0f, 0.0f)); pTex->push_back(OSG::Vec3f(0.0f, 0.0f, 0.0f)); vp->addForeground(pFG); OSG::SimpleMaterialUnrecPtr matFgCheck = OSG::SimpleMaterial::create(); matFgCheck->setDiffuse(OSG::Color3f(0,1,0)); matFgCheck->setLit (false ); OSG::PolygonForegroundUnrecPtr pFGCheck = OSG::PolygonForeground::create(); pFGCheck->setMaterial(matFgCheck); pPos = pFGCheck->editMFPositions(); pPos->push_back(OSG::Pnt2f(0.6f, 0.0f)); pPos->push_back(OSG::Pnt2f(0.9f, 0.0f)); pPos->push_back(OSG::Pnt2f(0.9f, 0.3f)); pPos->push_back(OSG::Pnt2f(0.6f, 0.3f)); vp->addForeground(pFG); vp->addForeground(pFGCheck); // vp->dump(); // Background OSG::SolidBackgroundUnrecPtr bkgndFBO = OSG::SolidBackground::create(); bkgndFBO->setColor(OSG::Color3f(1.0,0.5,0.5)); // Viewport vpFBO = OSG::FBOViewport::create(); vpFBO->setCamera (cam ); vpFBO->setBackground(bkgndFBO ); vpFBO->setRoot (root ); vpFBO->setSize (0, 0, 1, 1); vpFBO->addForeground(pFGCheck); OSG::FrameBufferObjectUnrecPtr pFBO = OSG::FrameBufferObject::create(); pTexBuffer = OSG::TextureBuffer::create(); OSG::RenderBufferUnrecPtr pDepthBuffer = OSG::RenderBuffer ::create(); pDepthBuffer->setInternalFormat(GL_DEPTH_COMPONENT24 ); pTexBuffer->setTexture(tx1o); pFBO->setSize(128, 128); pFBO->setColorAttachment(pTexBuffer, 0); pFBO->setDepthAttachment(pDepthBuffer ); pFBO->editMFDrawBuffers()->clear(); pFBO->editMFDrawBuffers()->push_back(GL_COLOR_ATTACHMENT0_EXT); vpFBO->setFrameBufferObject(pFBO); // Window std::cout << "GLUT winid: " << winid << std::endl; GLint glvp[4]; glGetIntegerv( GL_VIEWPORT, glvp ); gwin = OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( glvp[2], glvp[3] ); win = gwin; win->addPort(vpFBO ); win->addPort(vp ); win->init(); // Action rentravact = OSG::RenderAction::create(); // renact->setFrustumCulling(false); // tball OSG::Vec3f pos; pos.setValues(min[0] + ((max[0] - min[0]) * 0.5), min[1] + ((max[1] - min[1]) * 0.5), max[2] + ( max[2] - min[2] ) * 1.5 ); float scale = (max[2] - min[2] + max[1] - min[1] + max[0] - min[0]) / 6; OSG::Pnt3f tCenter(min[0] + (max[0] - min[0]) / 2, min[1] + (max[1] - min[1]) / 2, min[2] + (max[2] - min[2]) / 2); fprintf(stderr, "Startpos : %f %f %f\n", pos[0], pos[1], pos[2]); tball.setMode( OSG::Trackball::OSGObject ); tball.setStartPosition( pos, true ); tball.setSum( true ); tball.setTranslationMode( OSG::Trackball::OSGFree ); tball.setTranslationScale(scale); tball.setRotationCenter(tCenter); // run... pPoly = OSG::PolygonChunk::create(); pCOver->subChunk(pPoly); return 0; }
int doMain (int argc, char **argv) { OSG::osgInit(argc,argv); // GLUT init glutInit(&argc, argv); glutInitDisplayMode( GLUT_RGBA | GLUT_DEPTH | GLUT_DOUBLE); glutInitWindowSize(800, 800); int winid = glutCreateWindow("OpenSG"); glutKeyboardFunc(key); glutVisibilityFunc(vis); glutReshapeFunc(reshape); glutDisplayFunc(display); glutMouseFunc(mouse); glutMotionFunc(motion); glutIdleFunc(display); // OSG OSG::SceneFileHandler::the()->print(); // create the graph // beacon for camera and light OSG::NodeUnrecPtr b1n = OSG::Node::create(); OSG::GroupUnrecPtr b1 = OSG::Group::create(); fprintf(stderr, "Create b1n %p %d %d \n", b1n.get(), b1n->getRefCount(), b1n->getWeakRefCount()); b1n->setCore( b1 ); // transformation OSG::NodeUnrecPtr t1n = OSG::Node::create(); OSG::TransformUnrecPtr t1 = OSG::Transform::create(); t1n->setCore (t1 ); t1n->addChild(b1n); fprintf(stderr, "Create t1n %p %d %d \n", t1n.get(), t1n->getRefCount(), t1n->getWeakRefCount()); cam_trans = t1; // light OSG::NodeUnrecPtr dlight = OSG::Node::create(); OSG::DirectionalLightUnrecPtr dl = OSG::DirectionalLight::create(); { dlight->setCore(dl); dl->setAmbient( .3f, .3f, .3f, 1 ); dl->setDiffuse( .8f, .8f, .8f, .8f ); dl->setDirection(0,0,1); dl->setBeacon( b1n); } fprintf(stderr, "Create dlight %p %d %d \n", dlight.get(), dlight->getRefCount(), dlight->getWeakRefCount()); hdrroot = OSG::Node::create(); hdrroot->editVolume().setInfinite(); hdrroot->editVolume().setStatic (); hdrroot->setCore(OSG::Group::create()); // root root = OSG::Node:: create(); OSG::GroupUnrecPtr gr1 = OSG::Group::create(); root->setCore(gr1); hdrroot->addChild(root); root->addChild(t1n ); root->addChild(dlight); fprintf(stderr, "Create root %p %d %d \n", root.get(), root->getRefCount(), root->getWeakRefCount()); // Load the file OSG::NodeUnrecPtr file = NULL; if(argc > 1) { file = OSG::SceneFileHandler::the()->read(argv[1], NULL); } if(file == NULL) { std::cerr << "Couldn't load file, ignoring" << std::endl; // file = makeBox(2.f, 2.f, 2.f, 2, 2, 2); file = OSG::makeSphere(4, 2.0); } OSG::NodeUnrecPtr pCubeRoot = OSG::Node::create(); OSG::CubeMapGeneratorUnrecPtr pCubeGen = OSG::CubeMapGenerator::create(); pCubeRoot->addChild(file); pCubeRoot->setCore(pCubeGen); // pCubeRoot->setCore(Group::create()); OSG::NodeUnrecPtr pCubeSceneRoot = OSG::Node::create(); OSG::VisitSubTreeUnrecPtr pCubeVisit = OSG::VisitSubTree::create(); pCubeSceneRoot->setCore(pCubeVisit); pCubeVisit->setSubTreeRoot(root); pCubeGen->setRoot (pCubeSceneRoot); pCubeGen->setTextureFormat(GL_RGB32F_ARB ); pCubeGen->setSize (512, 512 ); pCubeGen->setTexUnit (3); // Cubemap Background OSG::SolidBackgroundUnrecPtr cubeBkgnd = OSG::SolidBackground::create(); { cubeBkgnd->setColor(OSG::Color3f(0.5f, 0.3f, 0.3f)); } pCubeGen->setBackground(cubeBkgnd); OSG::NodeUnrecPtr pAnimRoot = setupAnim(); scene_trans = OSG::Transform::create(); OSG::NodeUnrecPtr sceneTrN = OSG::Node::create(); scene_trans->editMatrix()[3][2] = -50.f; sceneTrN->setCore (scene_trans); sceneTrN->addChild(pCubeRoot ); sceneTrN->addChild(pAnimRoot ); OSG::Thread::getCurrentChangeList()->commitChanges(); OSG::Vec3f min,max; sceneTrN->updateVolume(); sceneTrN->getVolume().getBounds(min, max); std::cout << "Volume: from " << min << " to " << max << std::endl; dlight->addChild(sceneTrN); // Camera cam = OSG::PerspectiveCamera::create(); { cam->setBeacon( b1n ); cam->setFov( OSG::osgDegree2Rad( 90 ) ); cam->setNear( 0.1f ); cam->setFar( 100000 ); } // Background OSG::SolidBackgroundUnrecPtr bkgnd = OSG::SolidBackground::create(); { bkgnd->setColor(OSG::Color3f(0.3f, 0.3f, 0.3f)); } // Viewport vp = OSG::Viewport::create(); { vp->setCamera( cam ); vp->setBackground( bkgnd ); vp->setRoot( hdrroot ); // vp->setRoot( root ); vp->setSize( 0,0, 1,1 ); } // Window OSG::GLUTWindowUnrecPtr gwin; GLint glvp[4]; glGetIntegerv(GL_VIEWPORT, glvp); gwin = OSG::GLUTWindow::create(); { gwin->setGlutId(winid); gwin->setSize( glvp[2], glvp[3] ); win = gwin; win->addPort( vp ); win->init(); } // Action rentravact = OSG::RenderAction::create(); rentravact->setVolumeDrawing(true); // rentravact->setFrustumCulling(false); // tball OSG::Vec3f pos; pos.setValues(min[0] + ((max[0] - min[0]) * 0.5), min[1] + ((max[1] - min[1]) * 0.5), max[2] + ( max[2] - min[2] ) * 1.5 ); float scale = (max[2] - min[2] + max[1] - min[1] + max[0] - min[0]) / 6; OSG::Pnt3f tCenter(min[0] + (max[0] - min[0]) / 2, min[1] + (max[1] - min[1]) / 2, min[2] + (max[2] - min[2]) / 2); fprintf(stderr, "Startpos : %f %f %f\n", pos[0], pos[1], pos[2]); tball.setMode (OSG::Trackball::OSGObject); tball.setStartPosition (pos, true ); tball.setSum (true ); tball.setTranslationMode (OSG::Trackball::OSGFree ); tball.setTranslationScale(scale ); tball.setRotationCenter (tCenter ); fprintf(stderr, "Create b1n %p %d %d \n", b1n.get(), b1n->getRefCount(), b1n->getWeakRefCount()); fprintf(stderr, "Create t1n %p %d %d \n", t1n.get(), t1n->getRefCount(), t1n->getWeakRefCount()); fprintf(stderr, "Create dlight %p %d %d \n", dlight.get(), dlight->getRefCount(), dlight->getWeakRefCount()); fprintf(stderr, "Create hdrroot %p %d %d \n", hdrroot.get(), hdrroot->getRefCount(), hdrroot->getWeakRefCount()); fprintf(stderr, "Create root %p %d %d \n", root.get(), root->getRefCount(), root->getWeakRefCount()); return 0; }
// Initialize GLUT & OpenSG and set up the scene int doMain(int argc, char **argv) { // OSG init OSG::osgInit(argc,argv); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG OSG::GLUTWindowUnrecPtr gwin = OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( 800, 800 ); gwin->init(); // create root node _scene = OSG::makeCoredNode<OSG::Group>(); OSG::GeometryUnrecPtr geo = OSG::makeBoxGeo(0.5, 0.5, 0.5, 1, 1, 1); // share the chunk OSG::SimpleSHLChunkUnrecPtr shl = OSG::SimpleSHLChunk::create(); shl->setVertexProgram(_vp_program); shl->setFragmentProgram(_fp_program); // These parameters are the same for all geometries so we // keep them in here. shl->addUniformVariable("Scale", OSG::Vec2f(20.0f, 20.0f)); shl->addUniformVariable("Threshold", OSG::Vec2f(0.7f, 0.7f)); OSG::Int32 size = 4; // start color OSG::Vec3f sc(0.0, 0.0, 0.0); // end color OSG::Vec3f ec(1.0, 1.0, 1.0); OSG::Real32 sr = (ec[0] - sc[0]) / OSG::Real32((size*2)); OSG::Real32 sg = (ec[1] - sc[1]) / OSG::Real32((size*2)); OSG::Real32 sb = (ec[2] - sc[2]) / OSG::Real32((size*2)); OSG::Vec3f color(sc); OSG::Int32 x = - size; OSG::Int32 y = - size; OSG::Int32 z = - size; OSG::UInt32 iterations = size*2 * size*2 * size*2; printf("Creating %u cubes ...\n", iterations); for(OSG::UInt32 i=0; i<iterations; ++i) { OSG::ChunkMaterialUnrecPtr cmat = OSG::ChunkMaterial::create(); // ok use one SHLChunk and n SHLParameterChunks // Assing a different "SurfaceColor" parameter to each geometry. OSG::SimpleSHLVariableChunkUnrecPtr shlparameter = OSG::SimpleSHLVariableChunk::create(); // shlparameter->setSHLChunk(shl); shlparameter->addUniformVariable("SurfaceColor", color); _shlparameter = shlparameter; cmat->addChunk(shl); cmat->addChunk(shlparameter); OSG::TransformUnrecPtr trans; OSG::NodeUnrecPtr trans_node = OSG::makeCoredNode<OSG::Transform>(&trans); trans->editMatrix().setTranslate(OSG::Real32(x), OSG::Real32(y), OSG::Real32(z)); OSG::MaterialGroupUnrecPtr mg; OSG::NodeUnrecPtr mg_node = OSG::makeCoredNode<OSG::MaterialGroup>(&mg); mg->setMaterial(cmat); OSG::NodeUnrecPtr geonode = OSG::Node::create(); geonode->setCore(geo); mg_node->addChild(geonode); trans_node->addChild(mg_node); // add to scene _scene->addChild(trans_node); // ---- ++x; color[0] += sr; if(x == size) { x = - size; ++y; color[0] = sc[0]; color[1] += sg; if(y == size) { y = - size; ++z; color[1] = sc[1]; color[2] += sb; } } } // create the SimpleSceneManager helper _mgr = OSG::SimpleSceneManager::create(); // tell the manager what to manage _mgr->setWindow(gwin ); _mgr->setRoot(_scene); // show the whole scene _mgr->showAll(); // create a gradient background. OSG::GradientBackgroundUnrecPtr gback = OSG::GradientBackground::create(); gback->clearLines(); gback->addLine(OSG::Color3f(0.7f, 0.7f, 0.8f), 0); gback->addLine(OSG::Color3f(0.0f, 0.1f, 0.3f), 1); OSG::Window *win = _mgr->getWindow(); for(unsigned int i=0; i<win->getMFPort()->size(); ++i) { OSG::Viewport *vp = win->getPort(i); vp->setBackground(gback); } return 0; }
// Initialize GLUT & OpenSG and set up the scene int main(int argc, char **argv) { printf("Usage: testCGShader [normal map filename]\n"); const char *normal_map_img_name = "opensg_logoDOT3.png"; OSG::Color4f tmp; if( argc > 1 ) normal_map_img_name = argv[1]; // OSG init OSG::osgInit(argc,argv); // GLUT init int winid = setupGLUT(&argc, argv); // the connection between GLUT and OpenSG OSG::GLUTWindowUnrecPtr gwin= OSG::GLUTWindow::create(); gwin->setGlutId(winid); gwin->setSize( 800, 800 ); gwin->init(); // Create the shader material // Read the image for the normal texture OSG::ImageUnrecPtr normal_map_img = OSG::Image::create(); if(!normal_map_img->read(normal_map_img_name)) { fprintf(stderr, "Couldn't read normalmap texture '%s'!\n", normal_map_img_name); return 1; } OSG::ChunkMaterialUnrecPtr cmat = OSG::ChunkMaterial::create(); OSG::MaterialChunkUnrecPtr matc = OSG::MaterialChunk::create(); matc->setAmbient(OSG::Color4f(0.1, 0.1, 0.1, 1.0)); matc->setDiffuse(OSG::Color4f(0.3, 0.3, 0.3, 1.0)); matc->setSpecular(OSG::Color4f(0.8, 0.8, 0.8, 1.0)); matc->setShininess(100); matc->setLit(true); OSG::SHLChunkUnrecPtr shl = OSG::SHLChunk::create(); shl->setVertexProgram(_vp_program); shl->setFragmentProgram(_fp_program); OSG::TextureObjChunkUnrecPtr tex_normal_map = OSG::TextureObjChunk::create(); OSG::TextureEnvChunkUnrecPtr tex_normal_map_env = OSG::TextureEnvChunk::create(); tex_normal_map->setImage(normal_map_img); tex_normal_map->setMinFilter(GL_LINEAR_MIPMAP_LINEAR); tex_normal_map->setMagFilter(GL_LINEAR); tex_normal_map->setWrapS(GL_REPEAT); tex_normal_map->setWrapT(GL_REPEAT); tex_normal_map_env->setEnvMode(GL_MODULATE); //cmat->addChunk(matc); cmat->addChunk(shl); cmat->addChunk(tex_normal_map); cmat->addChunk(tex_normal_map_env); // create root node _scene = OSG::Node::create(); // create geometry //GeometryPtr geo = makeLatLongSphereGeo (100, 100, 1.0); OSG::GeometryUnrecPtr geo = OSG::makePlaneGeo(1.0, 1.0, 100, 100); geo->setMaterial(cmat); OSG::NodeUnrecPtr torus = OSG::Node::create(); torus->setCore(geo); // add torus to scene OSG::GroupUnrecPtr group = OSG::Group::create(); _scene->setCore(group); _scene->addChild(torus); // create the SimpleSceneManager helper _mgr = new OSG::SimpleSceneManager; // tell the manager what to manage _mgr->setWindow(gwin ); _mgr->setRoot(_scene); /* // create point headlight _mgr->turnHeadlightOff(); NodePtr headlight = _mgr->getHighlight(); PointLightPtr light = PointLight::create(); beginEditCP(light); light->setAmbient (.3, .3, .3, 1); light->setDiffuse ( 1, 1, 1, 1); light->setSpecular ( 1, 1, 1, 1); light->setBeacon (_mgr->getCamera()->getBeacon()); endEditCP(light); beginEditCP(_scene); _scene->setCore(light); endEditCP(_scene); */ // show the whole scene _mgr->showAll(); // GLUT main loop glutMainLoop(); return 0; }