4

Suppose we're working on binary images with black the foreground and white the background. Is there any efficient way of finding black pixels with in a polygon, which is specified by a list of vertex coordinates?

Computing a bounding box from a polygon is NOT ideal because there can be many closely displaced polygons whose bounding boxes may overlap.

Of course, the brute force way will be finding black pixels from an entire image first, and then running the polygon test for each black pixel, which is too time-consuming for the task.

Any suggestions are welcome!

Thank you!

6

Depending on your workflow or end goal the following may work for you.

Use cvFillPoly to create a binary mask of the polygon, then use cvCopy to make a copy of the image using the mask created to a whited out array, thus the only black pixels are those that were in the polygon.

Or instead of using the pointPolygonTest you could use a raycasting algorithm and only check if the pixel is black if you have had an odd number of crossings.

Doing the raycasting algorithm yourself could save alot of time over calling pointPolygonTest.

You could have a situation where the scanline that a point is on has a polygon that occupies the entirety of the line.

The raycasting algorithm counts polygon line crossings from one side, until it reaches the point being tested. If there are m line segments we perform m line segment ray intersections, order them, and count how many have occured.

If you use the pointPolygonTest you are having to do this for every point, but all the rays you test for the n points on this line, all intersect the line, and their intersections with the line segments all occur at the same place, so you can save all this recalculation by writing the algorithm yourself and augmenting it to check for black pixels when the number of crossings has been odd.

  • Thanks Phillip! Your first suggestion is essentially to mask and copy, but imagine that the entire image is large and there are ~100 small polygons there, I guess this way costs too much time. And I have thousands of such images to process. For the second, I cannot make assumptions of odd number of crossings, but appreciate the pointer! – galactica Jul 3 '12 at 18:45
  • I mis-understood the second just now, but I think it is the same as Polygontest() does. – galactica Jul 3 '12 at 19:01
  • Even if it is the same as what pointPolygonTest does, you can benefit from doing it yourself as pointPolygonTest does it for an individual point, whereas you could check multiple points while running down a scanline. – Phillip Nordwall Jul 3 '12 at 22:21
3

What about findContours function? It seems that it will help you.

  • Thanks Astor, this idea lies in the directions of traversing the black pixels for Polygontest in OpenCV. – galactica Jul 3 '12 at 18:47

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.