void CaptureApp::setup() { // list out the devices vector<Capture::DeviceRef> devices( Capture::getDevices() ); for( vector<Capture::DeviceRef>::const_iterator deviceIt = devices.begin(); deviceIt != devices.end(); ++deviceIt ) { Capture::DeviceRef device = *deviceIt; console() << "Found Device " << device->getName() << " ID: " << device->getUniqueId() << std::endl; try { if( device->checkAvailable() ) { mCaptures.push_back( Capture::create( WIDTH, HEIGHT, device ) ); mCaptures.back()->start(); // placeholder text mTextures.push_back( gl::TextureRef() ); // render the name as a texture TextLayout layout; layout.setFont( Font( "Arial", 24 ) ); layout.setColor( Color( 1, 1, 1 ) ); layout.addLine( device->getName() ); mNameTextures.push_back( gl::Texture::create( layout.render( true ) ) ); } else console() << "device is NOT available" << std::endl; } catch( CaptureExc & ) { console() << "Unable to initialize device: " << device->getName() << endl; } } }
void CubeMap::setupCapture() { vector<Capture::DeviceRef> devices( Capture::getDevices() ); for( vector<Capture::DeviceRef>::const_iterator deviceIt = devices.begin(); deviceIt != devices.end(); ++deviceIt ) { Capture::DeviceRef device = *deviceIt; console() << "Found Device " << device->getName() << " ID: " << device->getUniqueId() << std::endl; try { if( device->checkAvailable() ) { mCaptures.push_back( Capture::create( mWidth, mHeight, device ) ); mCaptures.back()->start(); } else console() << "device is NOT available" << std::endl; } catch( CaptureExc & ) { console() << "Unable to initialize device: " << device->getName() << endl; } } // vector<Capture::DeviceRef> devices( Capture::getDevices() ); // for( vector<Capture::DeviceRef>::const_iterator deviceIt = devices.begin(); deviceIt != devices.end(); ++deviceIt ) // { // Capture::DeviceRef device = *deviceIt; // console() << "Found Device " << device->getName() << " ID: " << device->getUniqueId() << std::endl; // try // { // if( device->checkAvailable() ) // { // mCapture =Capture::create( texWidth, texHeight, device ); // mCapture->start(); // // // placeholder text // // mTextures.push_back( gl::TextureRef() ); // mVideoTexture =gl::TextureRef(); // // } // else // console() << "device is NOT available" << std::endl; // } // catch( CaptureExc & ) // { // console() << "Unable to initialize device: " << device->getName() << endl; // } // } }
void ArtkpApp::setupCapture() { // list out the capture devices vector< Capture::DeviceRef > devices( Capture::getDevices() ); vector< string > deviceNames; for ( vector< Capture::DeviceRef >::const_iterator deviceIt = devices.begin(); deviceIt != devices.end(); ++deviceIt ) { Capture::DeviceRef device = *deviceIt; string deviceName = device->getName(); try { if ( device->checkAvailable() ) { mCaptures.push_back( Capture( CAPTURE_WIDTH, CAPTURE_HEIGHT, device ) ); deviceNames.push_back( deviceName ); } else { mCaptures.push_back( Capture() ); deviceNames.push_back( deviceName + " not available" ); } } catch ( CaptureExc & ) { console() << "Unable to initialize device: " << device->getName() << endl; } } if ( deviceNames.empty() ) { deviceNames.push_back( "Camera not available" ); mCaptures.push_back( Capture() ); } mCurrentCapture = 0; mParams.addParam( "Capture", deviceNames, &mCurrentCapture ); }
C_IMPL int getCaptureDevices( CaptureDeviceInfo* result, int forceRefresh ) { vector<Capture::DeviceRef> devices( Capture::getDevices( forceRefresh ) ); int i = 0; for( vector<Capture::DeviceRef>::const_iterator deviceIt = devices.begin(); deviceIt != devices.end(); ++deviceIt ) { Capture::DeviceRef device = *deviceIt; CaptureDeviceInfo *dev = &result[i]; memcpy(dev->name, device->getName().c_str(), device->getName().size()); dev->name_size = device->getName().size(); dev->available = (int)device->checkAvailable(); dev->connected = (int)device->isConnected(); ++i; } return i; }
void reflection_animationApp::setup() { // STRUCTURE m_shapeDims = Vec3f(50, 75, 50); m_numlevels = 12; m_incr = 2; m_shapeType = PYRAMID; initShape(); cout << m_structure.m_shapes.size() << endl; // DISPLAY m_showInterface = true; m_recording = false; m_path = getHomeDirectory() / "Desktop/"; m_showColour = true; m_renderMode = ALPHA; m_contrast = 4.0f; m_alpha = .45f; m_face1Display = ACTIVE; m_face2Display = DICHROIC1; m_face3Display = GLASS; m_face4Display = NONE; m_dichroic1Colour = Color(0.3f, 0.8f, 1.0f); m_dichroic2Colour = Color(1.0f, 0.8f, 0.3f); // ANIMATION m_aniMode = VIDEO; // radar m_interval = 360; m_frontarea = 1.5f; m_backarea = 6.0f; // GUI m_params = params::InterfaceGl( "Geometry/Animation Parameters [press TAB to hide]", Vec2i( 400, 600 ) ); // render m_params.addText( "render", "label=`Render`" ); m_params.addSeparator(); vector<string> rstrs; rstrs.push_back("ALPHA"); rstrs.push_back("ADDITIVE"); rstrs.push_back("MULTIPLY"); m_params.addParam( "Render Mode", rstrs, (int*)&m_renderMode ); m_params.addParam( "Use Colour", &m_showColour ); m_params.addParam( "Alpha", &m_alpha, "min=0.001 max=2.0 step=0.1" ); m_params.addParam( "Contrast", &m_contrast, "min=0.001 max=5.0 step=0.1" ); m_params.addParam( "Dichroic Colour 1", &m_dichroic1Colour ); m_params.addParam( "Dichroic Colour 2", &m_dichroic2Colour ); m_params.addText( "emptyline1", "label=` `" ); // structure m_params.addText( "structure", "label=`Structure`" ); m_params.addSeparator(); vector<string> dstrs; dstrs.push_back("ACTIVE"); dstrs.push_back("DICHROIC1"); dstrs.push_back("DICHROIC2"); dstrs.push_back("GLASS"); dstrs.push_back("NONE"); m_params.addParam( "Face 1 Display mode", dstrs, (int*)&m_face1Display ); m_params.addParam( "Face 2 Display mode", dstrs, (int*)&m_face2Display ); m_params.addParam( "Face 3 Display mode", dstrs, (int*)&m_face3Display ); m_params.addParam( "Face 4 Display mode", dstrs, (int*)&m_face4Display ); m_params.addText( "emptyline2", "label=` `" ); // generate shape m_params.addText( "generate", "label=`Generate`" ); m_params.addSeparator(); vector<string> sstrs; sstrs.push_back("PYRAMID"); sstrs.push_back("TETRAHEDRON"); sstrs.push_back("HOLLOW PYRAMID"); m_params.addParam( "Shape", sstrs, (int*)&m_shapeType ); m_params.addParam( "Number Of Levels", &m_numlevels ); m_params.addParam( "Vertical Interval", &m_incr ); m_params.addParam( "Shape Dimensions", &m_shapeDims ); m_params.addButton( "Recreate Shape", std::bind( &reflection_animationApp::initShape, this ) ); m_params.addText( "emptyline3", "label=` `" ); // animation m_params.addText( "animation", "label=`Animation`" ); m_params.addSeparator(); vector<string> astrs; astrs.push_back("STATIC"); astrs.push_back("RADAR"); astrs.push_back("VIDEO"); astrs.push_back("VIDEO_RADAR"); m_params.addParam( "Animation Mode", astrs, (int*)&m_aniMode ); m_params.addParam( "Interval", &m_interval ); m_params.addParam( "Size (front)", &m_frontarea ); m_params.addParam( "Size (tail)", &m_backarea ); m_params.addButton( "Recreate Shape", std::bind( &reflection_animationApp::initShape, this ) ); // CAMERA/PERSPECTIVE (not updated anymore -> mayacam) m_cameraDistance = 800.0f; m_eye = Vec3f( 0.0f, 0.0f, m_cameraDistance ); m_center = Vec3f::zero(); m_up = Vec3f::yAxis(); CameraPersp cam; cam.setEyePoint(m_eye); cam.setCenterOfInterestPoint(m_center); cam.setWorldUp(m_up); cam.setPerspective(60.0, getWindowAspectRatio(), 5.0, 5000.0); m_mayaCam.setCurrentCam( cam ); // CAPTURE/VIDEO/INPUT m_surface = Surface8u(600, 400, true); vector<Capture::DeviceRef> devices( Capture::getDevices() ); for( vector<Capture::DeviceRef>::const_iterator deviceIt = devices.begin(); deviceIt != devices.end(); ++deviceIt ) { Capture::DeviceRef device = *deviceIt; console() << "Found Device " << device->getName() << " ID: " << device->getUniqueId() << std::endl; try { if( device->checkAvailable() ) { m_capture.push_back( Capture( 600, 400, device ) ); m_capture.back().start(); // placeholder texture m_textures.push_back( gl::Texture() ); } else console() << "device is NOT available" << std::endl; } catch( CaptureExc & ) { console() << "Unable to initialize device: " << device->getName() << endl; } } // these should actually only be updated on change --> pointers to parameters DisplayMode* faceModesArr[] = { &m_face1Display, &m_face2Display, &m_face3Display, &m_face4Display }; vector<DisplayMode*> p_faceModes(faceModesArr, faceModesArr+4); m_structure.setMaterialSettings( p_faceModes, &m_showColour, &m_alpha, &m_contrast ); m_structure.setAnimationSettings( &m_aniMode ); m_structure.setRadarSettings( &m_interval, &m_frontarea, &m_backarea); }