1

I am working on the OpenCV color blob and I am reviewing the code. I need some help understand what the code is doing so that I can work further on it and help integrate this further. Is it possible for someone to help me with understanding/commenting the code so it is easier to interpate.

public boolean onTouch(View v, MotionEvent event) {
        int cols = mRgba.cols(); //get resolution of display
        int rows = mRgba.rows(); // get resolution of display

        int xOffset = (mOpenCvCameraView.getWidth() - cols) / 2; //get resolution of display
        int yOffset = (mOpenCvCameraView.getHeight() - rows) / 2; // get resolution of display

        int x = (int)event.getX() - xOffset; // get resolution of display
        int y = (int)event.getY() - yOffset; //get resolution of display 

        Log.i(TAG, "Touch image coordinates: (" + x + ", " + y + ")");

        if ((x < 0) || (y < 0) || (x > cols) || (y > rows)) return false;

        Rect touchedRect = new Rect();

        touchedRect.x = (x>4) ? x-4 : 0;
        touchedRect.y = (y>4) ? y-4 : 0;

        touchedRect.width = (x+4 < cols) ? x + 4 - touchedRect.x : cols - touchedRect.x;
        touchedRect.height = (y+4 < rows) ? y + 4 - touchedRect.y : rows - touchedRect.y;

        Mat touchedRegionRgba = mRgba.submat(touchedRect);

        Mat touchedRegionHsv = new Mat();
        Imgproc.cvtColor(touchedRegionRgba, touchedRegionHsv, Imgproc.COLOR_RGB2HSV_FULL);

        // Calculate average color of touched region
        mBlobColorHsv = Core.sumElems(touchedRegionHsv);
        int pointCount = touchedRect.width*touchedRect.height;
        for (int i = 0; i < mBlobColorHsv.val.length; i++)
            mBlobColorHsv.val[i] /= pointCount;

        //converts scalar to hsv to RGB
        mBlobColorRgba = converScalarHsv2Rgba(mBlobColorHsv);

        Log.i(TAG, "Touched rgba color: (" + mBlobColorRgba.val[0] + ", " + mBlobColorRgba.val[1] +
                ", " + mBlobColorRgba.val[2] + ", " + mBlobColorRgba.val[3] + ")");

        mDetector.setHsvColor(mBlobColorHsv);

        Imgproc.resize(mDetector.getSpectrum(), mSpectrum, SPECTRUM_SIZE);

        mIsColorSelected = true;

        touchedRegionRgba.release();
        touchedRegionHsv.release();

        return false; // don't need subsequent touch events
    }

    public Mat onCameraFrame(CvCameraViewFrame inputFrame) {
        mRgba = inputFrame.rgba();

        if (mIsColorSelected) {
            mDetector.process(mRgba);
            List<MatOfPoint> contours = mDetector.getContours();
            Log.e(TAG, "Contours count: " + contours.size());
            Imgproc.drawContours(mRgba, contours, -1, CONTOUR_COLOR);

            Mat colorLabel = mRgba.submat(4, 68, 4, 68);
            colorLabel.setTo(mBlobColorRgba);

            Mat spectrumLabel = mRgba.submat(4, 4 + mSpectrum.rows(), 70, 70 + mSpectrum.cols());
            mSpectrum.copyTo(spectrumLabel);
        }

        return mRgba;
    }
//final conversion
    private Scalar converScalarHsv2Rgba(Scalar hsvColor) {
        Mat pointMatRgba = new Mat();
        Mat pointMatHsv = new Mat(1, 1, CvType.CV_8UC3, hsvColor);
        Imgproc.cvtColor(pointMatHsv, pointMatRgba, Imgproc.COLOR_HSV2RGB_FULL, 4);

        return new Scalar(pointMatRgba.get(0, 0));
    }
1

I have been through and commented the code as best as I can, although I think it is fairly self documenting. Generally this code takes an image from the coordinates plotted by a users touch. it then converts the color space and resizes it for spectrum size

    // When a motion event happens (someone touches the device)
public boolean onTouch(View v, MotionEvent event) {
    int cols = mRgba.cols(); //get resolution of display
    int rows = mRgba.rows(); // get resolution of display

    int xOffset = (mOpenCvCameraView.getWidth() - cols) / 2; //get resolution of display
    int yOffset = (mOpenCvCameraView.getHeight() - rows) / 2; // get resolution of display

    int x = (int)event.getX() - xOffset; // get resolution of display
    int y = (int)event.getY() - yOffset; //get resolution of display 

        //The place where the screen was touched
    Log.i(TAG, "Touch image coordinates: (" + x + ", " + y + ")");
    // ensure it is within the screen.
    if ((x < 0) || (y < 0) || (x > cols) || (y > rows)) return false;

    Rect touchedRect = new Rect();

    //Ensure it is a multiple of 4
    touchedRect.x = (x>4) ? x-4 : 0;
    touchedRect.y = (y>4) ? y-4 : 0;

    // If  x+4 < cols then ?"" else :""
    touchedRect.width = (x+4 < cols) ? x + 4 - touchedRect.x : cols - touchedRect.x;
    touchedRect.height = (y+4 < rows) ? y + 4 - touchedRect.y : rows - touchedRect.y;

    create a touched regionmat from the image created from the touches
    Mat touchedRegionRgba = mRgba.submat(touchedRect);

    //Convert the new mat to HSV colour space
    Mat touchedRegionHsv = new Mat();
    Imgproc.cvtColor(touchedRegionRgba, touchedRegionHsv, Imgproc.COLOR_RGB2HSV_FULL);

    // Calculate average color of touched region
    mBlobColorHsv = Core.sumElems(touchedRegionHsv);
    int pointCount = touchedRect.width*touchedRect.height;
    for (int i = 0; i < mBlobColorHsv.val.length; i++)
        mBlobColorHsv.val[i] /= pointCount;

    //converts scalar to hsv to RGB
    mBlobColorRgba = converScalarHsv2Rgba(mBlobColorHsv);

    Log.i(TAG, "Touched rgba color: (" + mBlobColorRgba.val[0] + ", " + mBlobColorRgba.val[1] +
            ", " + mBlobColorRgba.val[2] + ", " + mBlobColorRgba.val[3] + ")");

    mDetector.setHsvColor(mBlobColorHsv);

    // Resize the image to specture size
    Imgproc.resize(mDetector.getSpectrum(), mSpectrum, SPECTRUM_SIZE);

    mIsColorSelected = true;

    // Release all mats
    touchedRegionRgba.release();
    touchedRegionHsv.release();

    return false; // don't need subsequent touch events
}

public Mat onCameraFrame(CvCameraViewFrame inputFrame) {
    mRgba = inputFrame.rgba();

    if (mIsColorSelected) {
        mDetector.process(mRgba);
        List<MatOfPoint> contours = mDetector.getContours();
        Log.e(TAG, "Contours count: " + contours.size());
        Imgproc.drawContours(mRgba, contours, -1, CONTOUR_COLOR);

        Mat colorLabel = mRgba.submat(4, 68, 4, 68);
        colorLabel.setTo(mBlobColorRgba);

        Mat spectrumLabel = mRgba.submat(4, 4 + mSpectrum.rows(), 70, 70 + mSpectrum.cols());
        mSpectrum.copyTo(spectrumLabel);
    }

    return mRgba;
}
//final conversion
    private Scalar converScalarHsv2Rgba(Scalar hsvColor) {
        Mat pointMatRgba = new Mat();
        Mat pointMatHsv = new Mat(1, 1, CvType.CV_8UC3, hsvColor);
        Imgproc.cvtColor(pointMatHsv, pointMatRgba, Imgproc.COLOR_HSV2RGB_FULL, 4);

        return new Scalar(pointMatRgba.get(0, 0));
    }
  • 1
    thank you for the help, much appreciated. – Mr Capital Apr 21 '15 at 15:07
1

For anyone who is also interested in what the method 'mDetector.process(mRgba)' is doing the following may be useful.

As a recap from the other answer, when the user touches an area the program detects the color of the area they have touched.

Every time a new camera frame arrives, the program checks if a color has been selected and if so it calls the method 'mDetector.process(mRgba)' to process the frame.

This method is commented below, but the high levels steps are:

  • reduce the size of the image
  • filter out everything that is not the color we are looking for
  • enhance the remaining parts of the image to make it easier to detect edges or contours
  • find the contours (the outline or the edge) of the remaining 'blobs' of color
  • filter out any that are too small to be of interest
  • return the list of remaining blobs, or more accurately the list of contours which are the outline of the remaining blobs

The commented code (Android):

 public void process(Mat rgbaImage) {

        //Pyramid Down - this downsizes the image and looses some resolution
        //See: http://docs.opencv.org/2.4/doc/tutorials/imgproc/pyramids/pyramids.html
        Imgproc.pyrDown(rgbaImage, mPyrDownMat);
        Imgproc.pyrDown(mPyrDownMat, mPyrDownMat);

        //Convert color scheme to HSV - this means that a color can be
        //identified with a single value, the hue, instead of three values
        Imgproc.cvtColor(mPyrDownMat, mHsvMat, Imgproc.COLOR_RGB2HSV_FULL);

        //This creates a new image with only the color values that are wihtin
        //the lower and upper thresholds set in mLowerBound and mUpperBound. These
        //values were calculated when the method 'setHsvColor' was called with the
        //color of the object that the user touched on the screen.
        //So you effectively get an image with just the red or just the blue or whatever
        //the color of the blob that the user selected was. Note that if there are multiple
        //blobs or objects with this color you will get them all. You can see this quite easily
        //with a simple test of the app with a couple of similar colored objects.
        Core.inRange(mHsvMat, mLowerBound, mUpperBound, mMask);

        //dilate effectively emphasises the brighter colors, so making them bigger within the image
        //In this case it should be the chosen color which is emphasised against the
        //darker (black) background.
        //See:http://docs.opencv.org/2.4/doc/tutorials/imgproc/erosion_dilatation/erosion_dilatation.html
        Imgproc.dilate(mMask, mDilatedMask, new Mat());

        List<MatOfPoint> contours = new ArrayList<MatOfPoint>();

        //Finds the contours which in this case means the edge of the color blobs
        Imgproc.findContours(mDilatedMask, contours, mHierarchy, Imgproc.RETR_EXTERNAL, Imgproc.CHAIN_APPROX_SIMPLE);

        // Find max contour area
        //This is actually refering to the area enclosed by a contour. For this to work it is important
        //that the contour be closed, so if this is not the case some objects may be missed here.
        double maxArea = 0;
        Iterator<MatOfPoint> each = contours.iterator();
        while (each.hasNext()) {
            MatOfPoint wrapper = each.next();
            double area = Imgproc.contourArea(wrapper);
            if (area > maxArea)
                maxArea = area;
        }

        // Filter contours by area and resize to fit the original image size
        //Here we are simply discrading any contours that are below the min size that was
        //set in the method 'setMinContourArea' or the default if it was not set. In other
        //words discrading any small object detected.
        mContours.clear();
        each = contours.iterator();
        while (each.hasNext()) {
            MatOfPoint contour = each.next();
            if (Imgproc.contourArea(contour) > mMinContourArea*maxArea) {
                Core.multiply(contour, new Scalar(4,4), contour);
                mContours.add(contour);
            }
        }
    }

    //Now we return the list of contours - each contour is a closed area that is
    //colored in whatever color the user selected when they touched the object.
    //This color, as a reminder, was set by a call to 'setHsvColor'.
    public List<MatOfPoint> getContours() {
        return mContours;
    }
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.