Пример #1
0
void SlytherinApp::update() {
    uint32_t elapsedFrames = getElapsedFrames();
    bool needsFrame = mLastUpdateFrame == UINT32_MAX || (elapsedFrames - mLastUpdateFrame) * mLinesPerFrame >= 1.0f;
    if (mCapture && needsFrame && mCapture->checkNewFrame()) {
        uint32_t lineCount = (uint32_t)floorf((elapsedFrames - mLastUpdateFrame) * mLinesPerFrame);

        Surface8u surface = mCapture->getSurface();
        Texture texture = Texture(surface);

        if (mLineIndex + lineCount < mFBO.getHeight()) {
            // single segment
//            mLineIndex to mLineIndex + lineCount
            console() << "process (" << mLineIndex << "-" << mLineIndex+lineCount << ") on frame " << elapsedFrames << endl;
            mLineIndex += lineCount;
        } else {
            // two segments
//            mLineIndex to mFBO.getHeight() - 1
            uint32_t overflowLineCount = mLineIndex + lineCount - mFBO.getHeight() + 1;
//            0 to overflowLineCount
            console() << "process (" << mLineIndex << "-" << mFBO.getHeight() - 1 << ") and (0-" << overflowLineCount << ") on frame " << elapsedFrames << endl;
            mLineIndex = overflowLineCount;
        }

        mLastUpdateFrame = elapsedFrames;
    }
}
void CinderVideoStreamServerApp::update()
{

    if( mCapture && mCapture->checkNewFrame() ) {
        Surface8uRef surf = mCapture->getSurface();
#ifdef USE_JPEG_COMPRESSION
        OStreamMemRef os = OStreamMem::create();
        DataTargetRef target = DataTargetStream::createRef( os );
        writeImage( target, *surf, ImageTarget::Options().quality(mQuality), "jpeg" );
        const void *data = os->getBuffer();
        size_t dataSize = os->tell();
        totalStreamSize += dataSize;

        BufferRef bufRef = Buffer::create(dataSize);
        memcpy(bufRef->getData(), data, dataSize);
        SurfaceRef jpeg = Surface::create(loadImage( DataSourceBuffer::create(bufRef)), SurfaceConstraintsDefault(), false );
        queueToServer->push(jpeg->getData());
        mTexture = gl::Texture::create( *jpeg );
        
        mStatus.assign("Streaming JPG (")
               .append(std::to_string((int)(mQuality*100.0f)))
               .append("%) ")
               .append(std::to_string((int)(totalStreamSize*0.001/getElapsedSeconds())))
               .append(" kB/sec ")
               .append(std::to_string((int)getFrameRate()))
               .append(" fps ");
#else
        queueToServer->push(surf->getData());
        mTexture = gl::Texture::create( *surf );
        mStatus.assign("Streaming ").append(std::to_string((int)getFrameRate())).append(" fps");
#endif
        
    }
}
void projections_balletApp::update(){
  
  if( mCapture && mCapture->checkNewFrame() ) {
    mTexture = gl::Texture::create( mCapture->getSurface() );
  }
  
}
Пример #4
0
void HexagonMirrorApp::update()
{
	// update webcam image
	if( mCapture && mCapture->checkNewFrame() )
		mCaptureTexture = gl::Texture( mCapture->getSurface() );
	else
		mCaptureTexture = mDummyTexture;
}
void CinderCalibrationApp::update()
{
	if ( mCapture->checkNewFrame() ) {
		mCaptureSurf	= mCapture->getSurface();
		mCaptureTex		= gl::Texture::create( mCaptureSurf );
		mCaptureMat		= toOcv( mCaptureSurf );
		
		collectImages();
		
		switch ( mState ) {
			case STATE_CALIBRATING:
				if ( callibrate() ) {
					mState = STATE_CALIBRATED;
				} else {
					console() << "Calibration failed." << endl;
					exit(1);
				}
			case STATE_CALIBRATED:
				undistort( mCaptureMat, mUndistortedMat, intrinsic, distortion );
		}
	}
}
Пример #6
0
void camerasApp::update()
{
    if( mCapture && mCapture->checkNewFrame() ) {
		mTexture = gl::Texture::create( mCapture->getSurface());
	}
}
void WayFinderApp::update()
{
    if(getElapsedFrames() % FRAME_COUNT_THRESHOLD == 0) {
        detected = false;

        // TODO: Consider converting capture to grayscale or blurring then thresholding to improve performance.
        if(capture && capture->checkNewFrame()) {
            frame = toOcv(capture->getSurface());
            //cv::Mat frameGray, frameBlurred, frameThresh, foreGray, backGray;
            //cvtColor(frame, frameGray, CV_BGR2GRAY);
            int blurAmount = 10;
            //cv::blur(frame, frameBlurred, cv::Size(blurAmount, blurAmount));
            //threshold(frameBlurred, frameThresh, 100, 255, CV_THRESH_BINARY);

            // Get all contours.
            //bg.operator()(frameThresh,fore);
            bg.operator()(frame, fore);
            bg.getBackgroundImage(back);
            cv::erode(fore, fore, cv::Mat());
            cv::dilate(fore, fore, cv::Mat());
            cv::findContours(fore, contours, CV_RETR_EXTERNAL, CV_CHAIN_APPROX_NONE);

            // Get largest contour: http://stackoverflow.com/questions/15012073/opencv-draw-draw-contours-of-2-largest-objects
            unsigned largestIndex = 0;
            unsigned largestContour = 0;
            for(unsigned i = 0; i < contours.size(); i++) {
                if(contours[i].size() > largestContour) {
                    largestContour = contours[i].size();
                    largestIndex = i;
                }
            }

            vector<std::vector<cv::Point>> hack;
            cv::Rect rect;
            cv::Point center;

            if(contours.size() > 0) {
                hack.push_back(contours[largestIndex]);

                // Find bounding rectangle for largest countour.
                rect = boundingRect(contours[largestIndex]);

                // Make sure the blog is large enough to be a track-worthy.
                println("Rext area = " + boost::lexical_cast<std::string>(rect.area()));
                if(rect.area() >= 5000) { // TODO: Tweak this value.
                    // Get center of rectangle.
                    center = cv::Point(
                                 rect.x + (rect.width / 2),
                                 rect.y + (rect.height / 2)
                             );

                    // Show guide.
                    spotlightCenter2D.x = (float)center.x;
                    spotlightCenter2D.y = (float)center.y;
                    spotlightCenter3D.x = (float)center.x;
                    spotlightCenter3D.y = (float)center.y;
                    //spotlightRadius = (rect.width + rect.y) / 2;
                    detected = true;
                }
            }

            // When debug mode is off, the background should be black.
            if(debugView) {
                if(contours.size() > 0) {
                    cv::drawContours(frame, contours, -1, cv::Scalar(0, 0, 255), 2);
                    cv::drawContours(frame, hack, -1, cv::Scalar(255, 0, 0), 2);
                    rectangle(frame, rect, cv::Scalar(0, 255, 0), 3);
                    circle(frame, center, 10, cv::Scalar(0, 255, 0), 3);
                }
                mTexture = gl::Texture(fromOcv(frame));
            }
        }

        // TODO: Create control panel for all inputs.
    }
}