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So I'm stuck on this problem where I've been asked to write an function in Python that checks to see if an n-dimensional array (is that what they're called?) is "symmetric" or not, meaning that row 1 of the array == column 1, row 2 == column 2, row 3 == column 3, etc so on and so forth. The goal is to have a function that returns the boolean True if its symmetric, and False if its not.

I've managed to write a function that works, but it only work on lists whose sizes are perfect squares, (e.g 2 x 2, 4 x 4), and a few of my test cases are of "irregular" sizes (e.g 2 x 5, 3 x 2). For those lists I end up getting a list index out of range error Code here:

def symmetric(square):
    final_result = []
    x = 0
    y = 0
    while x < len(square):
        row_list = []
        col_list = []
        while y < len(square[x]):
            print "(x, y): %d, %d" % (x, y)
            print "(y, x): %d, %d" % (y, x)
            row_list.append(square[x][y])
            col_list.append(square[y][x])
            y = y + 1
        if row_list == col_list:
            final_result.append(True)
        else:
            final_result.append(False)
        x = x + 1

    for x in final_result:
        if x == False:
            return False
    return True

And the test cases that I'm failing on here:

print symmetric([[1, 2, 3, 4],
                [2, 3, 4, 5],
                [3, 4, 5, 6]])
#Expected result: >>> False
#List index out of range

# This one actually returns the correct result, I'm just including it here
# for reference.
#print symmetric([["cat", "dog", "fish"],
#                ["dog", "dog", "fish"],
#                ["fish", "fish", "cat"]])
#Expected result: >>> True
#Actual result: >>> True


print symmetric([[1,2,3],
                 [2,3,1]])
#Expected Result: >>> False
#Actual result: list index out of range

Can someone help me modify the code so that it will work on these "irregularly shaped" arrays?

share|improve this question
3  
"a few of my test cases are of "irregular" sizes" - by your definition, these cannot be symmetric, since row 1 == column 1 cannot hold true. – Eric Jun 27 '12 at 14:51
    
Please update your indentation. I think everything but the function definition needs indented, but I want to be sure. – robert Jun 27 '12 at 14:52
    
@Eric it looks like his expected output for such cases is False. – robert Jun 27 '12 at 14:52
    
@robert: He hasn't made it clear which results are expected and which are the actual results. – Eric Jun 27 '12 at 14:54
1  
Why append to that final result? If you have a hit with False, return False. – pcalcao Jun 27 '12 at 15:02
up vote 2 down vote accepted

You can put this check at the start of your function:

for row in square:
    if len(row) != len(square):
        return False

Or maybe shorter

if not all(len(square) == len(row) for row in square): return False
share|improve this answer
    
No need for parentheses in python if statements – Eric Jun 27 '12 at 14:53
    
@Eric, and this this considered a bad style, right? I'm just a newcomer to python, should I always omit them when possible? – unkulunkulu Jun 27 '12 at 14:53
1  
Absolutely. Only use parentheses in an if statement to aid line-wrapping long conditions – Eric Jun 27 '12 at 14:54
1  
@unkulunkulu: Check out PEP-8, the python style guide. Basically, the use of redundant parens is best left to multi-line statements. – Martijn Pieters Jun 27 '12 at 14:56
4  
You can use any as well and avoid the not: if any(len(square) != len(row) for row in square). – Martijn Pieters Jun 27 '12 at 14:57

This bit of code will do it all for you:

def symmetric(square):
    square = [tuple(row) for row in square]
    return square == zip(*square)

In your solution you're doing too much of the work yourself. Python will compare sequences for you, so an easier method is to transpose the square so its rows become columns and vice versa and then compare it to the original value.

We can transpose the square using the zip function. This takes a number of sequences and returns a tuple containing first of each and then a tuple with the second of each and so on. By passing square as *square we pass each row as a sperate argument; this has the effect of transposing the square.

The only complication is that zip returns tuples not lists so we have to make sure square is a list of tuples so the comparison works.

share|improve this answer
    
this is actually a really cool use of zip that i hadn't thought of before – Joran Beasley Jun 27 '12 at 15:38
    
+1 for the great usage of zip and * to pass several arguments! – pcalcao Jun 27 '12 at 15:41
2  
Code golf anyone? I'd actually posted this as my own answer, but deleted it as too similar to this one: symmetric = lambda sq: list(map(tuple,sq))==zip(*sq) – Paul McGuire Jun 27 '12 at 16:13

Here's an alternative version for the main test:

for i, line in enumerate(matrix):
    for j in range(len(line)):
        if a[i][j] != a[j][i]:
             return False
return True

Of course that all the other answers that advise you to test if the matrix is square hold true.

share|improve this answer
    
Wow that's even better than what I had. I guess I took the long way around, eh? – cornjuliox Jun 27 '12 at 15:19
    
Sometimes the challenge with python is to take advantage of the language enough to keep it simple ;) – pcalcao Jun 27 '12 at 15:40

Add this near the beginning:

for row in square:
    if len(row) != len(square):
        return False
share|improve this answer

A version for Python3

def symmetric(L)
    return all(i==j for i,*j in zip(L ,*L))
share|improve this answer

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