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I current have a ArrayList<MatOfPoint> which stores the contours of the image and have retrieved the largest contour which is my target for the warpPerspective.

List<MatOfPoint> contours = new ArrayList<MatOfPoint>();
Imgproc.findContours(matOut, contours, new Mat(), Imgproc.RETR_LIST, Imgproc.CHAIN_APPROX_SIMPLE);

sort(contours);
MatOfPoint2f  m2f = MatOfPoint2f(contours.get(0).toArray());
double arc = Imgproc.arcLength(m2f, true);
MatOfPoint2f approx = new MatOfPoint2f();
Imgproc.approxPolyDP(m2f, approx, arc*0.02, true);

I am having trouble on how to use the getPerspectiveTransform and then applying the warpPerspective to change the image so that it will fit within a 450x450 image.

I found an pretty good example of this in python, however I am not very familiar with it can someone explain how I would do rectify in java?

def rectify(h):
    ''' this function put vertices of square we got, in clockwise order '''
    h = h.reshape((4,2))
    hnew = np.zeros((4,2),dtype = np.float32)

    add = h.sum(1)
    hnew[0] = h[np.argmin(add)]
    hnew[2] = h[np.argmax(add)]

    diff = np.diff(h,axis = 1)
    hnew[1] = h[np.argmin(diff)]
    hnew[3] = h[np.argmax(diff)]

    return hnew

here is the source link: https://github.com/abidrahmank/OpenCV2-Python/blob/master/OpenCV_Python_Blog/sudoku_v_0.0.6/sudoku.py

1 Answer 1

9

Intro: to make use of wrapPerspective we need to calculate wrapping mat using getPerspectiveTransform takes: Mat src and Mat dst. Those are MatOfPoints2f with src(top-left, top-right, bottom-left, bottom-right) of your contour and corresponding mat dst( 0,0 ; 0,449 ; 449,0 ; 449,449) (So the image will be 450x450 - If this is wrong please correct me).

Solution in Java for opencv 3 would be:

  1. Get points sorted Having rectangular contour as MatOfPoints2f approx we need to sort the points as written above:

    //calculate the center of mass of our contour image using moments
    Moments moment = Imgproc.moments(approx.get(0));
    int x = (int) (moment.get_m10() / moment.get_m00());
    int y = (int) (moment.get_m01() / moment.get_m00());
    
    //SORT POINTS RELATIVE TO CENTER OF MASS 
    Point[] sortedPoints = new Point[4];
    
    double[] data;
    int count = 0;
    for(int i=0; i<approx.get(0).rows(); i++){
        data = approx.get(0).get(i, 0);
        double datax = data[0];
        double datay = data[1];
        if(datax < x && datay < y){
            sortedPoints[0]=new Point(datax,datay);
            count++;
        }else if(datax > x && datay < y){
            sortedPoints[1]=new Point(datax,datay);
            count++;
        }else if (datax < x && datay > y){
            sortedPoints[2]=new Point(datax,datay);
            count++;
        }else if (datax > x && datay > y){
            sortedPoints[3]=new Point(datax,datay);
            count++;
        }
    }
    
  2. Prepare Mat src and det

            MatOfPoint2f src = new MatOfPoint2f(
                    sortedPoints[0],
                    sortedPoints[1],
                    sortedPoints[2],
                    sortedPoints[3]);
    
            MatOfPoint2f dst = new MatOfPoint2f(
                    new Point(0, 0),
                    new Point(450-1,0),
                    new Point(0,450-1),
                    new Point(450-1,450-1)      
                    );
    
  3. Use getPerspectiveTransform and wrapPrespective

        Mat warpMat = Imgproc.getPerspectiveTransform(src,dst);
        //This is you new image as Mat
        Mat destImage = new Mat();
        Imgproc.warpPerspective(originalImg, destImage, warpMat, originalImg.size());
    

I have just finished doing similar project so I am sure this can be done better but it is a working solution if anyone needs one.

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