# Programming Classic 15 Puzzle in Python

I'm new to python and trying to implement a non-gui version of the classic 15 puzzle in python.

Currently I have code which randomly generates a list containing 4 other lists each containing a number from 1 to 16 (I'm using 16 as the blank space.)

This is one example of a list generated:

``````[['11', '14', '01', '16'], ['02', '13', '09', '06'], ['04', '05', '03', '07'], ['10', '15', '12', '08']]
``````

My questions are:

1. What would be the best way to implement a function to switch the position of two tiles if and only if they are adjacent to each other?
2. Is my method of nested lists an optimal way of representing the puzzle board?
3. Is a functional or object-oriented approach better? I was thinking that each tile could be represented as an object with a move method.

This is what I have currently:

``````#!/usr/bin/env python3
import random

class game:
def __init__(self, array):
self.array = array
print (array)

def objects(self):
self.objects = []
for i in self.array:
if len(str(i)) == 1:
i = '0'+str(i)
self.objects.append(i)
else:
i = str(i)
self.objects.append(i)
print (self.objects)

def grid(self):
self.grid = [[], [], [], []]
for eachrow in range(4):
print ("row number", eachrow)

for eachobject in range(4):
print ("this is a list of objects before popping:\n{0}".format(self.objects))
k = random.randint(0, len(self.objects)-1)
print (k)
self.grid[eachrow].append(self.objects.pop(k))
print (self.grid)

def main():
array = [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]
test = game(array)
test.objects()
test.grid()

if __name__ == "__main__":
main()
``````
• Oh, blast from the past. This is best solved using a A* algorithm. Commented Jan 21, 2014 at 16:52
• Functional or object-oriented doesn't really play here; it's the algorithm that counts. Commented Jan 21, 2014 at 16:52
• afaik you could also use just recursive backtracking and you would eventually get there also ... but yeah A* ... you just needto find your heuristic ... this may come in handy mathworld.wolfram.com/15Puzzle.html Commented Jan 21, 2014 at 16:55

Split your big problem into many small problems, and it will be easier to reason about.

Are you wanting to implement a program where a human plays the game?

If you want to ask about adjacent tiles, I would suggest a useful method to implement would be one that, given a square, gives you a list off all its adjacent squares.

Maybe you might also want a method which tells you which tiles are currently available to be moved (/swapped).

Maybe also one which tells you how far a tile is away from its home.

A `tiles_to_correct()` method could use that to tell you how many tiles still need to be moved to their correct position (i.e aren't 0 away from their home). `finished()` might then return True when `tiles_to_correct()` returns 0.

Implementing all these will likely at the very least help you think about and move towards writing your finished program, even if they don't directly help.

A 2D list should be fine to represent the problem while getting a working program. I would just go with that before trying optimize for speed. I wouldn't use strings for the tiles though, I would use numbers, and probably 0-15. If you want to display the board to the player its easy enough to write output code which adds 1 to the number if you want 1-16 to be displayed.

• I am trying to have a program that is both human playable and machine solvable. Your answer is great as it stands so I chose it. Thanks! Commented Jan 22, 2014 at 2:04

Is a functional or object-oriented approach better? I was thinking that each tile could be represented as an object with a move method.

I think that you should consider each approach depending on what you want to achieve.

If you want a clear design, you may want to model the problem with objects representing the behaviour of each entity of your problem (Tile, Game, EmptyTile, etc). It might not be the best performing system, though, as you may create many indirections. But you also may gain in reusability, modularity, etc.

In the other hand, if you want to focus in data and algorithms working over them, you should use an imperative approach (with the functional spice of python). As said before, this may be also faster as it deletes many layers of indirections.

Based on the (few) things you said, I would go on the OOP direction.

Of course, you can use Object Oriented Programming and do terrible code. And you can use imperative and create slow programs. It's up to you to do things in the right way.

• wasn't me! Thanks for the advice! I'm leaning towards programming it twice - once from a functional paradigm to learn the implementation of the algorithms and once more to learn more about OOP. Commented Jan 22, 2014 at 2:03
• Ok, I didn't know whether you were new to programming...Diving into imperative may be ok at first. Commented Jan 22, 2014 at 13:25