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I'm developing a java application, which has a module for scanning documents. I want to get the scanned output in correct orientation even if the user placed the document in any angle. (i.e., 0-360 degree rotations). Here is code that I have tried:

    package org.document.data.processor;
    import java.awt.image.BufferedImage;

   public class ImageDeskew {


    /**
 * Representation of a line in the image.
 */
public class HoughLine {

    // count of points in the line
    public int count = 0;
    // index in matrix.
    public int index = 0;
    // the line is represented as all x, y that solve y * cos(alpha) - x *
    // sin(alpha) = d
    public double alpha;
    public double d;
}
// the source image
private BufferedImage cImage;
// the range of angles to search for lines
private double cAlphaStart = -20;
private double cAlphaStep = 0.2;
private int cSteps = 40 * 5;
// pre-calculation of sin and cos
private double[] cSinA;
private double[] cCosA;
// range of d
private double cDMin;
private double cDStep = 1.0;
private int cDCount;
// count of points that fit in a line
private int[] cHMatrix;

// constructor
public ImageDeskew(BufferedImage image) {
    this.cImage = image;
}

// calculate the skew angle of the image cImage
public double getSkewAngle() {
    ImageDeskew.HoughLine[] hl;
    double sum = 0.0;
    int count = 0;

    // perform Hough Transformation
    calc();
    // top 20 of the detected lines in the image
    hl = getTop(20);

    if (hl.length >= 20) {
        // average angle of the lines
        for (int i = 0; i < 19; i++) {
            sum += hl[i].alpha;
            count++;
        }
        return (sum / count);
    } else {
        return 0.0d;
    }
}

// calculate the count lines in the image with most points
private ImageDeskew.HoughLine[] getTop(int count) {

    ImageDeskew.HoughLine[] hl = new ImageDeskew.HoughLine[count];
    for (int i = 0; i < count; i++) {
        hl[i] = new ImageDeskew.HoughLine();
    }

    ImageDeskew.HoughLine tmp;

    for (int i = 0; i < (this.cHMatrix.length - 1); i++) {
        if (this.cHMatrix[i] > hl[count - 1].count) {
            hl[count - 1].count = this.cHMatrix[i];
            hl[count - 1].index = i;
            int j = count - 1;
            while ((j > 0) && (hl[j].count > hl[j - 1].count)) {
                tmp = hl[j];
                hl[j] = hl[j - 1];
                hl[j - 1] = tmp;
                j--;
            }
        }
    }

    int alphaIndex;
    int dIndex;

    for (int i = 0; i < count; i++) {
        dIndex = hl[i].index / cSteps; // integer division, no
        // remainder
        alphaIndex = hl[i].index - dIndex * cSteps;
        hl[i].alpha = getAlpha(alphaIndex);
        hl[i].d = dIndex + cDMin;
    }

    return hl;
}

// Hough Transformation
private void calc() {
    int hMin = (int) ((this.cImage.getHeight()) / 4.0);
    int hMax = (int) ((this.cImage.getHeight()) * 3.0 / 4.0);
    init();

    for (int y = hMin; y < hMax; y++) {
        for (int x = 1; x < (this.cImage.getWidth() - 2); x++) {
            // only lower edges are considered
            if (ImageUtil.isBlack(this.cImage, x, y)) {
                if (!ImageUtil.isBlack(this.cImage, x, y + 1)) {
                    calc(x, y);
                }
            }
        }
    }

}

// calculate all lines through the point (x,y)
private void calc(int x, int y) {
    double d;
    int dIndex;
    int index;

    for (int alpha = 0; alpha < (this.cSteps - 1); alpha++) {
        d = y * this.cCosA[alpha] - x * this.cSinA[alpha];
        dIndex = (int) (d - this.cDMin);
        index = dIndex * this.cSteps + alpha;
        try {
            this.cHMatrix[index] += 1;
        } catch (Exception ex) {
            System.out.println(ex.toString());
        }
    }
}

private void init() {

    double angle;

    // pre-calculation of sin and cos
    this.cSinA = new double[this.cSteps - 1];
    this.cCosA = new double[this.cSteps - 1];

    for (int i = 0; i < (this.cSteps - 1); i++) {
        angle = getAlpha(i) * Math.PI / 180.0;
        this.cSinA[i] = Math.sin(angle);
        this.cCosA[i] = Math.cos(angle);
    }

    // range of d
    this.cDMin = -this.cImage.getWidth();
    this.cDCount = (int) (2.0 * ((this.cImage.getWidth() + this.cImage.getHeight())) / this.cDStep);
    this.cHMatrix = new int[this.cDCount * this.cSteps];

}

public double getAlpha(int index) {
    return this.cAlphaStart + (index * this.cAlphaStep);
}}

But it is not working for the angles greater than 45 degree. Is there any way to do this?

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