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I'd like to align two lists in a similar way to what difflib.Differ would do except I want to be able to define a match function for comparing items, not just use string equality, and preferably a match function that can return a number between 0.0 and 1.0, not just a boolean.

So, for example, say I had the two lists:

L1 = [('A', 1), ('B', 3), ('C', 7)]
L2 = ['A', 'b', 'C']

and I want to be able to write a match function like this:

def match(item1, item2):
    if item1[0] == item2:
        return 1.0
    elif item1[0].lower() == item2.lower():
        return 0.5
        return 0.0

and then do:

d = Differ(match_func=match)
d.compare(L1, L2)

and have it diff using the match function. Like difflib, I'd rather the algorithm gave more intuitive Ratcliff-Obershelp type results rather than a purely minimal Levenshtein distance.

share|improve this question
this is related to being able to specify the "cost" of doing a particular replace to get from L1 to L2 but notice is also allows for each list item to be a complex structure only part of which may play a role in the comparison – James Tauber Apr 27 '10 at 4:56
note that the primary objective is to align what items do (roughly) match and identify what items don't pair up; so it's not a traditional "steps to get from L1 to L2" diff – James Tauber Apr 27 '10 at 4:59
am I basically looking for something like the Needleman-Wunsch or Smith-Waterman algorithms in Python? – James Tauber Apr 27 '10 at 5:34
up vote 8 down vote accepted

I just wrote this implementation of Needleman-Wunsch and it seems to do what I want:

def nw_align(a, b, replace_func, insert, delete):

    ZERO, LEFT, UP, DIAGONAL = 0, 1, 2, 3

    len_a = len(a)
    len_b = len(b)

    matrix = [[(0, ZERO) for x in range(len_b + 1)] for y in range(len_a + 1)]

    for i in range(len_a + 1):
        matrix[i][0] = (insert * i, UP)

    for j in range(len_b + 1):
        matrix[0][j] = (delete * j, LEFT)

    for i in range(1, len_a + 1):
        for j in range(1, len_b + 1):
            replace = replace_func(a[i - 1], b[j - 1])
            matrix[i][j] = max([
                (matrix[i - 1][j - 1][0] + replace, DIAGONAL),
                (matrix[i][j - 1][0] + insert, LEFT),
                (matrix[i - 1][j][0] + delete, UP)

    i, j = len_a, len_b
    align_a = ""
    align_b = ""

    while (i, j) != (0, 0):
        if matrix[i][j][1] == DIAGONAL:
            align_a += a[i - 1]
            align_b += b[j - 1]
            i -= 1
            j -= 1
        elif matrix[i][j][1] == LEFT:
            align_a += "-"
            align_b += b[j - 1]
            j -= 1
        else: # UP
            align_a += a[i - 1]
            align_b += "-"
            i -= 1

    return align_a[::-1], align_b[::-1]
share|improve this answer
+1 for self follow-up, it's appreciated – msw Apr 27 '10 at 7:20

I recently ran across a discussion of an algorithm called patience diff that sounds rather simple. You could try implementing that yourself, and then of course you can have it use whatever comparison algorithm you like.

share|improve this answer
if it's used in bzr that may mean a Python implementation already exists – James Tauber Apr 27 '10 at 5:01
Yep, it does. I've extracted it to a standalone script at stackoverflow.com/questions/4599456/textually-diffing-json/… – TryPyPy Jan 5 '11 at 1:37

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