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I'm currently writing a sudoku solving program in python just for fun. Here's what I currently have:

#!/usr/bin/env python
"""Reads in a file formatted with nine lines each of which has nine characters
corresponding to a sudoku puzzle.  A blank is indicated by the value '0'
Eventually should output a solution to the input puzzle"""

import sys

class cell:
    value = 0
    """Value of 0 means it is undetermined"""

    def __init__(self, number):
        self.value = number
        self.possible = [2, 2, 2, 2, 2, 2, 2, 2, 2]
        """Possibility a given value can be the number. 0 is impossible, 1 is definite, 2 is maybe"""



    def selfCheck(self):
        """Checks if the cell has only one possible value, changes the value to that number"""
        if self.value == 0:
              if self.possible.count(2) == 1:
                """If there's only one possible, change the value to that number"""
                i = 1
                for item in self.possible:
                    if item == 2:
                        self.value = i
                        self.possible[i-1] = 1
                    i+=1

def checkSection(section):
    """For any solved cells in a section, marks other cells as not being that value"""
    for cell in section:
        if cell.value != 0:
            for otherCell in section:
                otherCell.possible[cell.value-1] = 0

def checkChunk(chunk):
    """Checks a chunk, the set of rows, columns, or squares, and marks any values that are impossible for cells based on that
    chunk's information"""
    for section in chunk:
        checkSection(section)

def selfCheckAll(chunk):
    for section in chunk:
        for cell in section:
            cell.selfCheck()

cellRows = [[],[],[],[],[],[],[],[],[]]
cellColumns = [[],[],[],[],[],[],[],[],[]]
cellSquares = [[],[],[],[],[],[],[],[],[]]

infile = open(sys.argv[1], 'r')
"""Reads the file specified on the command line"""

i = 0
for line in infile:
    """Reads in the values, saves them as cells in 2d arrays"""
    line = line.rstrip('\n')
    for char in line:
        row = i/9
        column = i%9
        newcell = cell(int(char))
        cellRows[row].append(newcell)
        cellColumns[column].append(newcell)
        row = (row/3)*3
        column = column/3
        square = row+column
        cellSquares[square].append(newcell)
        i+=1
i = 0
while i<50:
    checkChunk(cellRows)
    checkChunk(cellColumns)
    checkChunk(cellSquares)
    selfCheckAll(cellRows)

    i+=1

displayRow = []
for row in cellRows:
    for cell in row:
        displayRow.append(str(cell.value))

i = 0
while i < 9:
    output1 = ''.join(displayRow[9*i:9*i+3])
    output2 = ''.join(displayRow[9*i+3:9*i+6])
    output3 = ''.join(displayRow[9*i+6:9*i+9])
    print output1 + '  ' + output2 + '  ' + output3
    if i%3 == 2:
        print
    i+=1

My problem is with:

i = 0
while i<50:
    checkChunk(cellRows)
    checkChunk(cellColumns)
    checkChunk(cellSquares)
    selfCheckAll(cellRows)

    i+=1

I want to run the code until it detects that there is no change from the previous iteration instead of the currently hard coded 50 times. This could potentially be because there is no longer a logical next step (need to start brute forcing values), or the puzzle is completely solved. Either way, I need a deep copy of one of my current data sets for the puzzle (say cellRows) to compare to what changes may take place to the actual copy when it goes through my checkChunk functions.

Is anything like this available in Python? (If there's a better way to check if I'm finished, that would also work, although at this point I'm more interested in if I can do a deep comparison.)

EDIT - I attempted using copy.deepcopy. While this created a good deep copy, checking equality between the two using '==' always returned false.

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1  
You might want to consider changing your code to build a new copy of the board with each move. Making a copy before mutating it in-place gets you the worst of both worlds. –  abarnert May 28 '13 at 19:43
3  
you've probably seen this... a fascinating article by Peter Norvig about solving sudoku... with a python implementation: norvig.com/sudoku.html –  Corey Goldberg May 28 '13 at 19:48
    
I actually haven't seen that, thanks! I'll have to give it a read. –  rgravell May 29 '13 at 20:39

5 Answers 5

A very crude comparison can be done by comparing the str(). Certainly not the best way to do it, but considering the complexity of your lists it might be alright.

If you want something more solid, you could write a recursive function to take care of it.

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Generic deep copying facilities are provided in the standard copy module: what you are searching for is the copy.deepcopy function.

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I tried copy.deepcopy and that's great for making a deep copy (obviously). However, once I have the deep copy I need a deep comparison. Using '==' between the original and the deep copy returns false. As near as I can tell this is because because it checks the items in the list, but only checks the addresses, not the contents of the structure I made. –  rgravell May 29 '13 at 20:45

I'm not sure comparing string representations is the way to go, but if performance is an issue I guess you can benchmark. Here's a quick attempt at an implementation of deep/recursive list comparison:

from itertools import izip

def list_compare(a, b):
    if type(a) != type(b):
        return False
    if type(a) != list:
        return a == b
    if len(a) != len(b):
        return False
    for a_, b_ in izip(a, b):
        if not list_compare(a_, b_):
            return False
    return True

It compares lists recursively and non-list items using the regular equality operator.

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You can always pickle the objects up and compare them as strings. Converting them to a JSON string is probably one of the easiest ways. I suspect that there is a more resource-efficient way of doing this, but it works just fine. Here is an example:

>>> from simplejson import dumps
>>> ls1 = [1, [2, 3], [4, [5, 6]]]
>>> ls2 = [1, [2, 3], [4, [5, 6]]]
>>> dumps(ls1) == dumps(ls2)
True
>>>
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In your case, this is just a two dimensional list. Hence converting them into a single dimensional string list and comparing them will make the code smallest.

list_of_list = [[1, 2, 3, 4, 5, 6, 7, 8], [2, 3, 4, 5, 6, 7, 8, 1], [3, 4, 5, 6, 7, 8, 1, 2], [4, 5, 6, 7, 8, 1, 2, 3], [5, 6, 7, 8, 1, 2, 3, 4], [6, 7, 8, 1, 2, 3, 4, 5], [7, 8, 1, 2, 3, 4, 5, 6], [8, 1, 2, 3, 4, 5, 6, 7]]
current_iteration = ",".join(["".join(map(str, row)) for row in list_of_list])
previous_iteration = ",".join(["".join(map(str, row)) for row in list_of_list])
if current_iteration == previous_iteration:
    return

Once the string is generated, you can convert the comparison board in the same way and compare them the same way.

However, I would suggest that comparing them as lists directly will be lot more simpler to read

previous_iteration = [[1,2,3], [2,3,1], [3,1,2]]
current_iteration = [[1,2,3], [2,3,1], [3,1,2]]

if len(current_iteration) != len(previous_iteration):
# This check is not required in your case as the lengths will be same for all iterations
    return False

for index, item_list in enumerate(current_iteration):
    if item_list != previous_iteration[index]:
        return False

return True
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