//-------------------------------------------------------------- void ofApp::setup(){ //we can now get back a list of devices. vector<ofVideoDevice> devices = vidGrabber.listDevices(); for(int i = 0; i < devices.size(); i++){ cout << devices[i].id << ": " << devices[i].deviceName; if( devices[i].bAvailable ){ cout << endl; }else{ cout << " - unavailable " << endl; } } vidGrabber.setDeviceID(1); vidGrabber.setVerbose(true); vidGrabber.initGrabber(width, height); recorded = (unsigned char*)malloc(3 * height * width * record_size); tmp = (unsigned char*)malloc(3 * height * width); back = (unsigned char*)malloc(3 * height * width); merged = (unsigned char*)malloc(3 * height * width); show = vidGrabber.getPixels(); udpConnection.Create(); udpConnection.Bind(1511); udpConnection.SetNonBlocking(true); for (int i = 0; i < trackers_cnt; i++) { tracker t = tracker(i); trackers.push_back(t); } outfile.open("/users/yui/desktop/yellow_imgs/teacher/log.txt", std::ios_base::app); }
void ofApp::setup() { ofEnableSmoothing(); ofEnableAlphaBlending(); ofSetFrameRate(60); ofSetVerticalSync(true); ofEnableDepthTest(); ofEnableAntiAliasing(); memset( dmxData_, 0, DMX_DATA_LENGTH ); //open the device dmxInterface_ = ofxGenericDmx::createDevice(DmxDevice::DMX_DEVICE_RAW); bool opened = dmxInterface_->open(); if ( dmxInterface_ == 0 || !opened ) { printf( "No FTDI Device Found\n" ); } else { printf( "isOpen: %i\n", dmxInterface_->isOpen() ); } printf("ofxGenericDmx addon version: %s.%s\n", ofxGenericDmx::VERSION_MAJOR, ofxGenericDmx::VERSION_MINOR); std::string file = "Lightweave_loops2.json"; std::string columnsFile = "Lightweave_columns2.json"; std::string facesFile = "Lightweave_faces2.json"; bool parsingSuccessful = result.open(file); bool parsingSuccessfulColumn = columnGeometry.open(columnsFile); bool parsingSuccessfulFaces = faceGeometry.open(facesFile); for (int region = 0; region < 6; region++) { string blah = "region" + ofToString(region); for (int rings = 0; rings < result[blah].size(); rings++) { string ring = "ring" + ofToString(rings); for (int pointPos = 0; pointPos < 3; pointPos++) { string point = "point" + ofToString(pointPos); } } } //setupUDP(); camWidth = 320; camHeight = 240; vector<ofVideoDevice> devices = vidGrabber.listDevices(); for (int i = 0; i < devices.size(); i++) { if (devices[i].bAvailable) { ofLogNotice() << devices[i].id << ": " << devices[i].deviceName; } else { ofLogNotice() << devices[i].id << ": " << devices[i].deviceName << " - unavailable "; } } for (int i = 0; i < devices.size(); i++) { if (!devices[i].deviceName.find("USB")) { cout << devices[i].id << endl; pcCams.push_back(devices[i].id); } } vidGrabber.setDeviceID(pcCams[0]); // vidGrabber.setDeviceID(0); vidGrabber.initGrabber(320,240); vidGrabber1.setDeviceID(pcCams[1]); // vidGrabber1.setDeviceID(0); vidGrabber1.initGrabber(320,240); colorImg1.allocate(320,240); grayImage1.allocate(320,240); grayBg1.allocate(320,240); grayDiff1.allocate(320,240); colorImg.allocate(320,240); grayImage.allocate(320,240); grayBg.allocate(320,240); grayDiff.allocate(320,240); bLearnBackground = true; bLearnBackground1 = true; threshold = 80; drawOne = false; bottomSwarm.a = 1.1f; bottomSwarm.b = (curWidth/4.0); bottomSwarm.c = 100.0; bottomSwarm.bVel = 1.0; xPos = 0; yPos = 0; zPos = 0; cam.setPosition(result["region0"]["ring0"]["point0"][0].asFloat(),result["region0"]["ring0"]["point0"][1].asFloat(),result["region0"]["ring0"]["point0"][2].asFloat()); cam.lookAt(ofVec3f(result["region0"]["ring1"]["point0"][0].asFloat(),result["region0"]["ring1"]["point0"][1].asFloat(),result["region0"]["ring1"]["point0"][2].asFloat())); cam.rotate(ofRadToDeg(PI/2), 1.0, 0.0, 0.0); cam.setFov(32.0); sphereZPos = 25.9297; sphereXPos = 364.928; for (int i = 0; i < 20; i++) { spheresXPos[i] = ofRandom(result["region0"]["ring0"]["point0"][0].asFloat()-500, result["region0"]["ring0"]["point0"][0].asFloat()+500.0); spheresZPos[i] = ofRandom(result["region0"]["ring0"]["point0"][2].asFloat()-100.0, result["region0"]["ring0"]["point0"][2].asFloat()+100.0); } /* LIGHTING */ ofSetSmoothLighting(true); pointLight.setDiffuseColor( ofColor(0.f, 255.f, 0.f)); pointLight.setSpecularColor( ofColor(255.f, 255.f, 255.f)); pointLight.setPosition(result["region0"]["ring0"]["point0"][0].asFloat(),result["region0"]["ring0"]["point0"][1].asFloat(),result["region0"]["ring0"]["point0"][2].asFloat()); material.setShininess( 64 ); colorHue = ofRandom(0, 250); colorHue2 = ofRandom(0, 250); lightColor.setBrightness( 180.f ); lightColor.set(250,250,210); materialColor.setBrightness(250.f); materialColor.set(100,100,100); lightColor.setHue(colorHue); pointLight.setDiffuseColor(lightColor); materialColor.setHue(colorHue); material.setSpecularColor(materialColor); materialColor.set(255.0,0.0,0.0); columnMaterial.setSpecularColor(materialColor); materialColor.set(55.0,55.0,55.0); peopleMaterial.setSpecularColor(materialColor); cameraColor1.set(0.0, 0.0, 255.0); cameraColor2.set(0.0, 0.0, 255.0); columnColor.set(255, 0, 0); activeColor.set(0.0,0.0,255.0); }