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I am using GWT for programming a web-form-layouter. It's for positioning and foramtting print-fields in a PDF.

For this purpose I need to first detect every input field in the PDF-form. Example:

I read about the Sobel-function as well as the Roberts cross operator. I'm not sure which one is better, I used Sobel.

The point is, I don't need to detect any edge in this picture. I just need the Boxes, which means: only edges of a given width (for cutting out bar-codes and letters) and length vertical as well as horizontal.

I have two classes, they are working, but detecting multiple Boxes, even if there is only one. Can you help me improve it?

/**
 * EdgeDetection
 */
public class Sobel {

    int[] input;
    int[] output;
    float[] template = { -1, 0, 1, -2, 0, 2, -1, 0, 1 };;
    int progress;
    int templateSize = 3;
    int width;
    int height;
    double[] direction;

    public double[] getDirection() {
        return this.direction;
    }

    public int getProgress() {
        return this.progress;
    }

    public void init(final int[] original, final int widthIn, final int heightIn) {
        this.width = widthIn;
        this.height = heightIn;
        this.input = new int[this.width * this.height];
        this.output = new int[this.width * this.height];
        this.direction = new double[this.width * this.height];
        this.input = original;
    }

    public int[] process() {
        final float[] GY = new float[this.width * this.height];
        final float[] GX = new float[this.width * this.height];
        final int[] total = new int[this.width * this.height];
        this.progress = 0;
        int sum = 0;
        int max = 0;

        for (int x = (this.templateSize - 1) / 2; x < this.width - (this.templateSize + 1) / 2; x++) {
            this.progress++;
            for (int y = (this.templateSize - 1) / 2; y < this.height - (this.templateSize + 1) / 2; y++) {
                sum = 0;

                for (int x1 = 0; x1 < this.templateSize; x1++) {
                    for (int y1 = 0; y1 < this.templateSize; y1++) {
                        final int x2 = (x - (this.templateSize - 1) / 2 + x1);
                        final int y2 = (y - (this.templateSize - 1) / 2 + y1);
                        final float value = (this.input[y2 * this.width + x2] & 0xff) * (this.template[y1 * this.templateSize + x1]);
                        sum += value;
                    }
                }
                GY[y * this.width + x] = sum;
                for (int x1 = 0; x1 < this.templateSize; x1++) {
                    for (int y1 = 0; y1 < this.templateSize; y1++) {
                        final int x2 = (x - (this.templateSize - 1) / 2 + x1);
                        final int y2 = (y - (this.templateSize - 1) / 2 + y1);
                        final float value = (this.input[y2 * this.width + x2] & 0xff) * (this.template[x1 * this.templateSize + y1]);
                        sum += value;
                    }
                }
                GX[y * this.width + x] = sum;

            }
        }
        for (int x = 0; x < this.width; x++) {
            for (int y = 0; y < this.height; y++) {
                total[y * this.width + x] = (int) Math.sqrt(GX[y * this.width + x] * GX[y * this.width + x] + GY[y * this.width + x] * GY[y * this.width + x]);
                this.direction[y * this.width + x] = Math.atan2(GX[y * this.width + x], GY[y * this.width + x]);
                if (max < total[y * this.width + x]) {
                    max = total[y * this.width + x];
                }
            }
        }
        final float ratio = (float) max / 255;
        for (int x = 0; x < this.width; x++) {
            for (int y = 0; y < this.height; y++) {
                sum = (int) (total[y * this.width + x] / ratio);
                this.output[y * this.width + x] = 0xff000000 | (sum << 16 | sum << 8 | sum);
            }
        }
        this.progress = this.width;
        return this.output;
    }

    public void Sobel() {
        this.progress = 0;
    }
}



import java.awt.image.BufferedImage;
import java.awt.image.PixelGrabber;

/**
 * EdgeDetection
 */
public class SobelFunction {

    PixelGrabber grabber = null;
    static int width = 0, height = 0;

    static int[] edgeStart = new int[10000];
    static int[] edgeWidth = new int[10000];
    static int[] edgeHeight = new int[10000];

    static int edgeCounter = 0;

    static int threshold = 80;
    static boolean thresholdActive = true;

    public static int orig[] = null;

    static Sobel edgedetector;

    public static void edge(final int[] original, final int value, final int x, final int width) {
        if (((original[x] & 0xff) >= value) && ((original[x + (width * 10)] & 0xff) >= value) && ((original[x + (width * 20)] & 0xff) >= value) && ((original[x + 30] & 0xff) >= value) && ((original[x + 15] & 0xff) >= value)) {
            edgeStart[edgeCounter] = x;
            int tempCounter = x;
            while ((original[tempCounter] & 0xff) >= value) {
                edgeWidth[edgeCounter] = (tempCounter - edgeStart[edgeCounter]);
                tempCounter++;
            }

            tempCounter = x;
            while ((original[tempCounter] & 0xff) >= value) {
                edgeHeight[edgeCounter] = ((tempCounter - edgeStart[edgeCounter]) / width);
                tempCounter = tempCounter + width;
            }

            if (edgeWidth[edgeCounter] < 10 || edgeHeight[edgeCounter] < 5) { // wrong Edges (e.g. Barcodes) are cut out
                edgeStart[edgeCounter] = 0;
                edgeWidth[edgeCounter] = 0;
                edgeHeight[edgeCounter] = 0;
                edgeCounter--;
            }

            if (edgeCounter < 0) {
                edgeCounter = 0;
            }

            if (edgeWidth[edgeCounter] > 100 && edgeHeight[edgeCounter] > 100) {
                edgeStart[edgeCounter] = 0;
                edgeWidth[edgeCounter] = 0;
                edgeHeight[edgeCounter] = 0;
                edgeCounter--;
            }

            if (edgeCounter < 0) {
                edgeCounter = 0;
            }

            for (int f = 0; f < edgeCounter; f++) {
                if (edgeStart[edgeCounter] - edgeStart[f] < 3) {
                    edgeCounter--;
                }
            }

            edgeCounter++;

            if (edgeCounter < 0) {
                edgeCounter = 0;
            }

        }
    }

    public static String[] sobelEdges(final BufferedImage image) {

        String[] result = new String[10000];

        width = image.getWidth();
        height = image.getHeight();

        orig = new int[width * height];

        final PixelGrabber grabber = new PixelGrabber(image, 0, 0, width, height, orig, 0, width);
        try {
            grabber.grabPixels();
        } catch (final InterruptedException e2) {
            e2.printStackTrace();
        }

        edgedetector = new Sobel();

        edgedetector.init(orig, width, height);
        final int[] res = edgedetector.process();
        result = threshold(res, threshold, width, orig);

        return result;

    }

    public static String[] threshold(final int[] original, final int value, final int width, final int[] orig) {
        for (int x = 0; x < original.length; x++) {
            edge(original, value, x, width);
        }

        final String[] edgeArray = new String[edgeCounter];

        for (int k = 0; k < edgeCounter; k++) {
            edgeArray[k] = edgeStart[k] + ";" + edgeWidth[k] + ";" + edgeHeight[k];
        }

        return edgeArray;
    }
}
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