I'm currently trying to understand per pixel collision detection.

This is the code I don't understand:

static bool IntersectPixels(Rectangle rectangleA, Color[] dataA,
                            Rectangle rectangleB, Color[] dataB)
    // Find the bounds of the rectangle intersection
    int top = Math.Max(rectangleA.Top, rectangleB.Top);
    int bottom = Math.Min(rectangleA.Bottom, rectangleB.Bottom);
    int left = Math.Max(rectangleA.Left, rectangleB.Left);
    int right = Math.Min(rectangleA.Right, rectangleB.Right);

    // Check every point within the intersection bounds
    for (int y = top; y < bottom; y++)
        for (int x = left; x < right; x++)
            // Get the color of both pixels at this point
            Color colorA = dataA[(x - rectangleA.Left) +
                                 (y - rectangleA.Top) * rectangleA.Width];
            Color colorB = dataB[(x - rectangleB.Left) +
                                 (y - rectangleB.Top) * rectangleB.Width];

            // If both pixels are not completely transparent,
            if (colorA.A != 0 && colorB.A != 0)
                // then an intersection has been found
                return true;

    // No intersection found
    return false;

I really don't understand these nested loops. I'll be glad for some explanation about how it works.

3 Answers 3


First up, it finds the region the two image rectangles intersect, then it iterates through each pixel in that region, and compares the alpha values of each image of each pixel. If neither has an alpha value of 0, they are both considered 'solid' and therefore colliding.

enter image description here


It's not that hard (in this case). You give the algorithm the two bounding-boxes of your objects (so the whole object is inside its box), and an array with color-information for them.
The algorithm assumes that a point belongs to the object if it is not transparent. This is important.

The first step is to calculate the intersecting rectangle. If you intersect two rectangles that have sides parallel to the axes like in this case, you will get a rectangle again or else an empty set.

The next step is to iterate in this intersecting rectangle for all (x,y) coordinates inside, first y, then x, so you get your normal first x, then y inside, but this is a minor point and not important.

Then finally the algorithm gets the color for objects A and B at the current pixel (x,y). If both colors are NOT transparent then the pixel is in both objects and the objects have to intersect at this point. Then the algorithm terminates with "YES they intersect".

If all pixels in the intersection of the bounding boxes were checked and no common (e.g. non-transparent) pixel was found the objects don't intersect and so the algorithm terminates with "NO they don't intersect".

I hope this helps.

  • Your explanation helped me alot, but one thing I haven't understood is, in the loop, how he really finds the current pixel color, like I mean, why I need to multiply the rectangle Width in the end of it?
    – Joe
    Commented Sep 3, 2011 at 11:54
  • And another question please: Is this algorithm finds the per pixel only in the intersection bounds and not in the whole both rectangles right?
    – Joe
    Commented Sep 3, 2011 at 11:58
  • second comment: yes thats right, first comment: that's the part were the array-operations with dataA and dataB are done (first two things in inner loop) - inside is just a bit of coordinate-transform from "world"-view into "object"-view (the top/left point in the object has for example coordinates RectangleA.top/RectangleA.left in worldview, but of course coordinates 0/0 for the color-information of the object)
    – Random Dev
    Commented Sep 3, 2011 at 12:06
  • So you mean he looks only in the red bounds, like this? img7.imageshack.us/img7/4913/dfsb.png
    – Joe
    Commented Sep 3, 2011 at 12:16
  • @CarstenKönig I'm totally new to this collision detection, I get everything except the bit about the 2nd and 4th parameters (array of colours). Where does this come from? Commented Mar 29, 2015 at 11:51

for (int y = top; y < bottom; y++) loops over the lines of the resulting rectangle from top to bottom, and for (int x = left; x < right; x++) loops over pixels inside each line, left to right.

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