I'm looking for a fast thinning algorithm that can be readily implemented using OpenCV. The mention of the library is because there are certain things that can be done in a jiffy in say, Mathematica or MATLAB which would require lines of handcode in OpenCV+C.

The algorithm must satisfy the 1 pixel thickness and connectedness criteria.

Has anyone got any experience in implementing one of the tons of available algorithms out there? - Literally spoilt for choice at the sheer number of papers Google threw up. Any pointers in the right direction would do.

  • "has anyone got any experience" type questions tend not to be well answered: do you have a more specific question?
    – James
    Commented Nov 10, 2011 at 16:36
  • @Autopulated: that's true however i am asking something a bit vague - there are quite a few fast thinning algorithms, the question is has anyone implemented any using OpenCV and C/C++?
    – AruniRC
    Commented Nov 11, 2011 at 15:04
  • Hello @AruniRC, do you finally get some satisfactory implementation?
    – zhy
    Commented Dec 30, 2015 at 6:31

4 Answers 4


Please check some thinning implementations in my blog:

  1. Zhang-Suen algorithm. (copy on archive.org)
  2. Guo-Hall algorithm. (copy on archive.org)

Both using OpenCV 2.x API.

  • 4
    finally. i ended up using Zhang-Suen, but nice answer.
    – AruniRC
    Commented Jan 14, 2013 at 13:44
  • 2
    You should know that your implementation in the post is buggy. It will address outside of the image along the far edges.
    – Emily L.
    Commented Jun 15, 2015 at 17:15
  • 5
    @flowfree why your blog is down. it was a good reference page.
    – sturkmen
    Commented Apr 22, 2016 at 21:32

for the sake of completeness, I'm posting here a set of thinning algorithms implemented using OpenCV and C/C++ that I found out on the net while answering this question. These have adequately answered this question for my needs. Putting them here in case others have similar requirements.

  1. OpenCV code for thinning (Guo and Hall algo, works with CvMat inputs)
  2. The JR Parker implementation using OpenCV
  3. Possibly more efficient code here (uses OpenCV optimized access methods a lot, however most of the page is in Japanese!)
  • Acctually, the 3rd one runs really slower than the two of @flowfree 's answer
    – zhy
    Commented Dec 30, 2015 at 6:27

I used Zhang-Suen as well Guo-Hall; both produced satisfactory results but not the best ones. Then I tried "A Modified Parallel Thinning Algorithm" by Y. Y. ZHANG and P.S.P Wang. It was far better than the previous two algorithms. Anyone looking for a good thinning algorithm should try it since it is faster and more effective than the other two.

  • did you find any implementation or article explaining this modification? Can you elaborate around how much faster it is?
    – pzo
    Commented Jan 16, 2014 at 22:42
  • If you download the research papers and read through them, you will notice that the Zhang-Wang method does only one iteration and additionally, it has some different conditions to be checked. I processed binary images of size 1600 * 1200. It took approx. 5 sec for Zhang-Suen and approx. 3 sec for Zhang-Wang method.
    – marc1886
    Commented Feb 11, 2014 at 14:26
  • Hi Vikramjit, can you share the implementation or describe how you combined the last two conditions? I read the paper but wasn’t sure how to combine the conditions p11=1, p6=0, with conditions p8=0, p15=1 for the modified thinning algorithm.
    – abe
    Commented Jun 19, 2017 at 1:01

Not sure if this will help you, but I've used this library and found it very useful, (which includes thinning/skeletonisation). You can download the source here:


and a good article of its use here:



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