I was playing around with the recursive backtracking algorithm but it always produces very easy mazes. What algorithm produces the hardest mazes to solve (please include information about braids and biased directions if appropriate)?

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    Define "hardest". Commented Feb 4, 2013 at 18:12
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    Takes the longest time to solve by a human:).
    – John
    Commented Feb 4, 2013 at 18:45
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    Ok, but you'd need to convert that to an objective metric before you have a chance of finding an algorithm for it! Commented Feb 4, 2013 at 20:14
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    This question is both broad and subjective. There are a slew of different types of mazes. The "most difficult" mazes would be those that a human could never solve, unaided, in their lifetime (like hyper-hyper-mazes that exist in the 4th or higher dimension.) astrolog.org/labyrnth/algrithm.htm
    – arkon
    Commented Jan 2, 2016 at 0:01

5 Answers 5


Quantitatively defining the "difficulty" of a maze isn't easy. So let me be qualitative.

First off, Recursive Backtracker is a "perfect maze" algorithm; it generates mazes with one, and only one, solution. Most work on maze generation has to do with generating perfect mazes, so I will limit my answer to those.

There are many, many variations and off-shoots of maze algorithms. But in effect, there are only 12 basic maze algorithms. I have them listed here in the order that I personally (qualitatively and anecdotally) find to be most-to-least difficult:

  1. Kruskal's
  2. Prim's
  3. Recursive Backtracker
  4. Aldous-Broder
  5. Growing Tree
  6. Hunt-and-Kill
  7. Wilson's
  8. Eller's
  9. Cellular Automaton (Easy)
  10. Recursive Division (Very Easy)
  11. Sidewinder (Predictable)
  12. Binary Tree (Flawed)

There is not a lot of difference in the difficulty of the top four on my list. Sorry about that. Perhaps there is a flaw in your implementation. Most likely, you're just good at doing mazes. Try making them larger.

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    The assumption of perfect mazes being more difficult is wrong. On a dead end you can backtrack, a maze with loops is much harder to solve if there are relatively view solutions since it will not be so obvious you are walking in circles opposed to walking into a dead end.
    – Madmenyo
    Commented Apr 27, 2014 at 11:21
  • That's an interesting point. But I have found little information on generating non-perfect mazes, so I amended my answer to show that. Commented Apr 27, 2014 at 15:54
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    I had the same problem, I was using backtracking and kept ending up with a pretty simple maze to solve and after trying reading all the answers I tried out prims and kruskals and turns out your list is pretty correct and the kruskal implemented maze seemed to be the most challenging or "difficult" The implementations can be found here in case anyone is interested Maze
    – otaku
    Commented Feb 11, 2015 at 15:57
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    Aldous-Broder and Wilson's both generate uniform spanning trees, which means that their outputs are effectively identical.
    – Daniel M.
    Commented Sep 14, 2015 at 1:54
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    @DanielM. That's an interesting point. Perhaps I've never seen an implementation of Wilson's that I thought produced particularly hard/interesting mazes. While they might both be centered around USTs, they are different algorithms and the end results I've seen seem a bit different. But I will play around with them and see if perhaps I was wrong. Commented Sep 14, 2015 at 14:46

Whilst not a direct answer, this article on visualizing maze generation algorithms is a must-watch.

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    Sum it up for everyone. If that link dies, so does your answer.
    – arkon
    Commented Jan 2, 2016 at 0:06
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    Seriously? Sum up a visualization? Would you like a text description of each visualization?
    – Ian Mercer
    Commented Jan 4, 2016 at 6:40
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    The high-resolution rainbow visualizations of maze depth are amazing
    – Nayuki
    Commented Mar 12, 2017 at 0:31

You can check maze generation algorithms from here :

Maze Classification


Depth-first search can produce very complex mazes. Here is an open-source C++ implementation: https://github.com/corporateshark/random-maze-generator

Try setting ImageSize to 4096 and NumCells to 2047. The result will be pretty tough.


flood fill algorithms is what IEEE recommend.

There are many versions of this algorithm. I google an implemantion for the flood fill algorithm.
but I did not find implemantion

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