//-------------------------------------------------------------- void testApp::setup() { ofSetWindowShape(640,480); ofSetLogLevel(OF_LOG_NOTICE); mSession = PXCUPipeline_Create(); if(!PXCUPipeline_Init(mSession, (PXCUPipeline)PXCU_PIPELINE_GESTURE)) ofLogNotice() << "Unable to initialize session" << endl; if(PXCUPipeline_QueryLabelMapSize(mSession, &mLW, &mLH)) { mLabelMap = new unsigned char[mLW*mLH]; mLabelTexture.allocate(mLW, mLH, GL_LUMINANCE); } }
//-------------------------------------------------------------- void testApp::setup() { mSession = PXCUPipeline_Init((PXCUPipeline)(PXCU_PIPELINE_GESTURE|PXCU_PIPELINE_COLOR_VGA)); if(!mSession) return; if(PXCUPipeline_QueryLabelMapSize(mSession, &mlw, &mlh)) { mLabelMap = new unsigned char[mlw*mlh]; mLabelTex = ofTexture(); mLabelTex.allocate(mlw,mlh,GL_LUMINANCE); } if(PXCUPipeline_QueryRGBSize(mSession, &mcw, &mch)) { mRgbMap = new unsigned char[mcw*mch*4]; mRgbTex = ofTexture(); mRgbTex.allocate(mcw,mch,GL_RGBA); } ofSetWindowShape(mcw*2,mch); mDraw = false; }
//-------------------------------------------------------------- void testApp::setup() { ofSetWindowShape(640*2,800); ofSetBackgroundColor(0); ofSetLogLevel(OF_LOG_NOTICE); ofSetVerticalSync(true); glEnable(GL_DEPTH_TEST); ofEnableLighting(); light.enable(); pathLines.setMode(OF_PRIMITIVE_LINE_STRIP); camFixed = false; //PXC mSession = PXCUPipeline_Create(); if(!PXCUPipeline_Init(mSession, (PXCUPipeline)(PXCU_PIPELINE_COLOR_VGA|PXCU_PIPELINE_DEPTH_QVGA|PXCU_PIPELINE_GESTURE))) { ofLogNotice() << "Unable to initialize session" << endl; return; } if(PXCUPipeline_QueryRGBSize(mSession, &mCW, &mCH)) { mRGBMap = new unsigned char[mCW*mCH*4]; mRGBTexture.allocate(mCW,mCH,GL_RGBA); } if(PXCUPipeline_QueryLabelMapSize(mSession, &mLW, &mLH)) { mLabelMap = new unsigned char[mLW*mLH]; mLabelTexture.allocate(mLW,mLH,GL_LUMINANCE); } if(PXCUPipeline_QueryDepthMapSize(mSession, &mLW, &mLH)) { mDepthBuffer = new short[mLW*mLH]; mDepthMap = new unsigned char[mLW*mLH]; mDepthTexture.allocate(mLW,mLH,GL_LUMINANCE); } if(PXCUPipeline_QueryIRMapSize(mSession, &mLW, &mLH)) { mIRBuffer = new short[mLW*mLH]; mIRMap = new unsigned char[mLW*mLH]; mIRTexture.allocate(mLW,mLH,GL_LUMINANCE); } //cam cam.resetTransform(); cam.setFov(60); cam.clearParent(); cam.setPosition(0, 10, 120); cam.setParent(hero); camSwith = false; frc.set(0,0,0); //node float freqMult = 1; float amp = 30; float scale = 1; hero_Pos.set(0,0,0); hero.setPosition(ofVec3f(sin(ofGetElapsedTimef() * freqMult) * amp, cos(ofGetElapsedTimef() * freqMult) * amp, sin(ofGetElapsedTimef() * freqMult * 0.7) * amp)); hero.setOrientation(ofPoint(0,0,0)); hero.setScale(scale); foc.set(0,0,0); for (int i = 0; i < 600; i ++) { freqMult = ofRandom(0.5,2); amp = ofRandom(10,30); scale = ofRandom(1,15); ofNode temNode; temNode.setPosition(ofRandom(-1000,1000),ofRandom(-1000,1000),ofRandom(-50000,0)); temNode.setOrientation(ofVec3f(sin(ofGetElapsedTimef() * freqMult * 0.2) * amp * 5, cos(ofGetElapsedTimef() * freqMult * 0.2) * amp * 5, sin(ofGetElapsedTimef() * freqMult * 0.2 * 0.7) * amp * 5)); temNode.setScale(scale); nodes.push_back(temNode); } }