I'm writing a program which solves a 24-puzzle (5x5 grid) using two heuristic. The first uses how many blocks the incorrect place and the second uses the Manhattan distance between the blocks current place and desired place.
I have different functions in the program which use each heuristic with an A* and a greedy search and compares the results (so 4 different parts in total).
I'm curious whether my program is wrong or whether it's a limitation of the puzzle. The puzzle is generated randomly with pieces being moved around a few times and most of the time (~70%) a solution is found with most searches, but sometimes they fail.
I can understand why greedy would fail, as it's not complete, but seeing as A* is complete this leads me to believe that there's an error in my code.
So could someone please tell me whether this is an error in my thinking or a limitation of the puzzle? Sorry if this is badly worded, I'll rephrase if necessary.
So I"m fairly sure it's something I'm doing wrong. Here's a step-by-step list of how I'm doing the searches, is anything wrong here?
- Create a new list for the fringe, sorted by whichever heuristic is being used
- Create a set to store visited nodes
- Add the initial state of the puzzle to the fringe
- while the fringe isn't empty..
- pop the first element from the fringe
- if the node has been visited before, skip it
- if node is the goal, return it
- add the node to our visited set
- expand the node and add all descendants back to the fringe