# Java recursive perspective correction

I am working on a class that will process an image to correct for perspective. I am running into stack over flow as well as other issues.

Let me explain what I am Trying to do first: I am attempting to correct the perspective of an image by mapping from the source to the destination. The method that I am attempting to use is described best here: http://freespace.virgin.net/hugo.elias/graphics/x_persp.htm but i will attempt to summarize. You take your source image and mark the four corners. You then split the quad into four quads. You recursively do this until all of your quads are less than 1 pixel in size. Once you reach that point you map your pixel onto the destination.

In addition to having the stack overflow error, the center of the quads keeps printing out really strange numbers. For some reason the function is recursing until the center of the quads is a negative number. I am not certain how that could occur.

If there is any advice you have to help solve this problem or improve my code that would be greatly appreciated. Thank you in advance.

I have included all of the code for the class below. I was not certain of what to trim in order to make the code shorter so I erred on the side of caution and included it all.

UPDATE: If commend out three of the four recursive function calls at the end of processhelper, the function will terminate although the image that is printed out at the end of the program is completely without color. I am not sure of how to write the recursive portion to prevent a stackover flow.

`````` public class Perspective {
private Point2D.Double[] corners;
private BufferedImage image;
private BufferedImage imageOut;
private Double v1, v2;
Double tl;
Double bl;
Double tr;
private Double br;
int index = 0;

public Perspective(BufferedImage bmp) {
corners = new Point2D.Double[4];
image = bmp;
imageOut = new BufferedImage(bmp.getWidth(), bmp.getHeight(), bmp.getType());
tl = new Double(0, 0);
bl = new Double(0, bmp.getHeight());
tr = new Double(bmp.getWidth(), 0);
br = new Double(bmp.getWidth(), bmp.getHeight());
}

public void outputPhoto() {
try {
ImageIO.write(imageOut, "bmp", new File(System.getProperty("user.dir") + "/transformed.jpg"));
} catch (Exception E) {
System.out.println("There was an error writing a file to disk.");
}
}

public void addPoint(double x, double y) {
if ( index < 8 ) {
// remove a corner
//image.setPixel((int)(x/1080) * image.getWidth(), (int)(y/1920) * image.getHeight(), Color.MAGENTA);
//corners[index] = new Point2D.Double((x/1080) * image.getWidth(), (y/1920) * image.getHeight());
corners[index] = new Double( x, y);
index++;
}

// implement a sort of the points here
sortPoints();
}

private void sortPoints() {
// sorts points
}

/*
* Assumes that corners have been established and are in pixel coordinates
* corners[0] = topLeft
* corners[1] = bottomLeft
* corners[2] = topRight
* corners[3] = bottomRight
*/
public void processPhoto() {

// calculate v1
Line2D.Double edge1 = new Line2D.Double(corners[0], corners[2] );
Line2D.Double edge2 = new Line2D.Double(corners[1], corners[3] );
v1 = intersection(edge1, edge2);
//v1 = calcIntersection(edge1, edge2);

// NOTE FIX INFINITY, NAN issue (or check for them)
System.out.println("edge1 consists of: " + edge1.x1 + ", " + edge1.y1 + " and " + edge1.x2 + ", " + edge1.y2 + ".");
System.out.println("edge2 consists of: " + edge2.x1 + ", " + edge2.y1 + " and " + edge2.x2 + ", " + edge2.y2 + ".");
System.out.println("v1 consists of: " + v1.x + ", " + v1.y);

// calculate v2
edge1 = new Line2D.Double(corners[0], corners[1] );
edge2 = new Line2D.Double(corners[2], corners[3] );
v2 = intersection(edge1, edge2);
//v2 = calcIntersection(edge1, edge2);

// same NAN / infinity issue
System.out.println("edge1 consists of: " + edge1.x1 + ", " + edge1.y1 + " and " + edge1.x2 + ", " + edge1.y2 + ".");
System.out.println("edge2 consists of: " + edge2.x1 + ", " + edge2.y1 + " and " + edge2.x2 + ", " + edge2.y2 + ".");
System.out.println("v2 consists of: " + v2.x + ", " + v2.y);

// recursive process
processHelper(corners[0], corners[1], corners[2], corners[3], tl, bl, tr, br );
}

// recursive helper function
void processHelper(Double topLeft, Double bottomLeft, Double topRight, Double bottomRight,
Double outTopLeft, Double outBotLeft, Double outTopRight, Double outBotRight) {

// declare center and mid points
Double center = null;
Double midOne = null;
Double midTwo = null;
Double midThree = null;
Double midFour = null;

// declare out mid points
Double centerOut = null;
Double midOut1 = null;
Double midOut2 = null;
Double midOut3 = null;
Double midOut4 = null;

// two variables to hold various lines
Line2D.Double lineOne = null;
Line2D.Double lineTwo = null;

if ( area(topLeft, bottomLeft, topRight, bottomRight) > 1.0 ) {
// recursively divide the photo

// calculate lines between oposite corners
lineOne = new Line2D.Double(topLeft, bottomRight);
lineTwo = new Line2D.Double(topRight, bottomLeft);

// calculate center point
center = intersection(lineOne, lineTwo);
//center = calcIntersection(lineOne, lineTwo);

if (center.x > 0 ) System.out.println("center is: " + center.x + ", " + center.y);
// calculate mid point
lineOne = new Line2D.Double(v1, center);
lineTwo = new Line2D.Double(topLeft, bottomLeft);

// calculate intersection
midOne = intersection(lineOne, lineTwo);
//midOne = calcIntersection(lineOne, lineTwo);

// calculate mid point
lineOne = new Line2D.Double(v2, center);
lineTwo = new Line2D.Double(bottomLeft, bottomRight);

// calculate intersection
midTwo = intersection(lineOne, lineTwo);
//midTwo = calcIntersection(lineOne, lineTwo);

// calculate mid point
lineOne = new Line2D.Double(v1, center);
lineTwo = new Line2D.Double(topRight, bottomRight);

// calculate intersection
midThree = intersection(lineOne, lineTwo);
//midThree = calcIntersection(lineOne, lineTwo);

// calculate mid point
lineOne = new Line2D.Double(v2, center);
lineTwo = new Line2D.Double(topRight, topLeft);

// calculate intersection
midFour = intersection(lineOne, lineTwo);
//midFour = calcIntersection(lineOne, lineTwo);

// calculate points for target image
centerOut = mid(outTopLeft, outBotLeft, outTopRight, outBotRight);
midOut1 = midP(outTopLeft, outBotLeft);
midOut3 = midP(outTopRight, outBotRight);
midOut4 = midP(outTopLeft, outTopRight);
midOut2 = midP(outBotLeft, outBotRight);

// perform recursive calls
// Double topLeft, Double bottomLeft, Double topRight, Double bottomRight, Double outTopLeft, Double outBotLeft, Double outTopRight, Double outBotRight
processHelper(topLeft, midOne, center, midFour,         outTopLeft, midOut1, centerOut, midOut4 );
processHelper(midOne, bottomLeft, midTwo, center,       midOut1, outBotLeft, midOut2, centerOut );
processHelper(center, midTwo, bottomRight, midThree,    centerOut, midOut2, outBotRight, midOut3 );
processHelper(midFour, center, midThree, topRight,      midOut4, centerOut, midOut3, outTopRight );
} else {
// put the pixel that was derived to the out file

// calculate lines between oposite corners
lineOne = new Line2D.Double(topLeft, bottomLeft);
lineTwo = new Line2D.Double(topRight, bottomRight);

// calculate center point
center = intersection(lineOne, lineTwo);

// calculate center for out image
centerOut = mid(outTopLeft, outBotLeft, outTopRight, outBotRight);

// copy pixel from center to centerOut
copyPixel(center, centerOut);
}

//image = imageOut;
}

private void copyPixel(Double center, Double centerOut) {

int pixel = getPixelAt(center, image);
setPixelAt(pixel, centerOut, imageOut);
}

private void setPixelAt(int color, Double centerOut, BufferedImage imageOut) {
// set the color at the indicated point
imageOut.setRGB((int) centerOut.x, (int) centerOut.y, color);
}

private int getPixelAt(Double center, BufferedImage image ) {
// return the color at the point
System.out.println( "getting pixel at: " + center.x + ", " + center.y );
int pixel = 0;
try {
pixel = image.getRGB((int) center.x,(int) center.y);
} catch (Exception E) {

}
return pixel;
}

private Double midP(Double outTopLeft, Double outBotLeft) {

// calculate the midpoint and return it
return new Double((outTopLeft.x + outBotLeft.x)/2.0, (outTopLeft.y + outBotLeft.y)/2.0);
}

private Double mid(Double outTopLeft, Double outBotLeft, Double outTopRight, Double outBotRight) {
// calculate the midpoint and return it
return new Double( (outTopLeft.x + outBotLeft.x + outTopRight.x + outBotRight.x)/4.0,
(outTopLeft.y + outBotLeft.y + outTopRight.y + outBotRight.y)/4.0);
}

private double area(Double topLeft, Double bottomLeft, Double topRight,
Double bottomRight) {
// calculate area (note does not account for mishaped nature of the beast and return it
System.out.println( "area is " + calcDistance(topLeft, topRight) * calcDistance(topLeft, bottomLeft));
return (calcDistance(topLeft, topRight) * calcDistance(topLeft, bottomLeft));
}

private double calcDistance(Double topLeft, Double topRight) {
// calculate distance and return it
// return Math.pow( ( Math.pow(topRight.x - topLeft.x ,2) + Math.pow(topRight.y - topLeft.y, 2) ), 0.5);
}

public Point2D.Double intersection(Line2D line1, Line2D line2) {
double x1 = line1.getX1(),
y1 = line1.getY1(),
x2 = line1.getX2(),
y2 = line1.getY2(),
x3 = line2.getX1(),
y3 = line2.getY1(),
x4 = line2.getX2(),
y4 = line2.getY2();

double d = (x1-x2)*(y3-y4) - (y1-y2)*(x3-x4);
if (d == 0) return null;

double xi = ((x3-x4)*(x1*y2-y1*x2)-(x1-x2)*(x3*y4-y3*x4))/d;
double yi = ((y3-y4)*(x1*y2-y1*x2)-(y1-y2)*(x3*y4-y3*x4))/d;

return new Point2D.Double(xi,yi);
}
}
``````
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