I currently use this code:

""" Replace all occurrences of subsequence a with b in list l """ 
def replace_subsequence(l,a,b):
    for i in range(len(l)):
        if(l[i:i+len(a)] == a):
            l[i:i+len(a)] = b


>>> l = [1,2,3]
>>> replace_subsequence(l,[2,3],[4])
>>> l
[1, 4]

Is there a more efficient and/or elegant way to do this ?

  • for i in range(len(l)): could be shortened to for i in range(len(l) - len(a)): – eumiro Mar 13 '12 at 12:13
  • Sure, but I was thinking more along the lines of not constructing the list in memory for each replacement, but only at the end. Or maybe even a c implementation. – Maarten Mar 13 '12 at 12:28
  • the data objects will always be int, I assume? – moooeeeep Mar 13 '12 at 13:24
  • I my case, yes. – Maarten Mar 13 '12 at 13:40
  • How do you want to handle overlapping matches? – Karl Knechtel Mar 13 '12 at 15:17

To improve efficiency, you can use the Boyer–Moore string search algorithm when searching for a sublist in a list

Code (credits)

def match(pattern, list):
    matches = []
    m = len(list)
    n = len(pattern)

    rightMostIndexes = preprocessForBadCharacterShift(pattern)

    alignedAt = 0
    while alignedAt + (n - 1) < m:

        for indexInPattern in xrange(n-1, -1, -1):
            indexInlist = alignedAt + indexInPattern
            x = list[indexInlist]
            y = pattern[indexInPattern]

            if indexInlist >= m:

            if x != y:

                r = rightMostIndexes.get(x)

                if x not in rightMostIndexes:
                    alignedAt = indexInlist + 1

                    shift = indexInlist - (alignedAt + r)
                    alignedAt += (shift > 0 and shift or alignedAt + 1)

            elif indexInPattern == 0:
                alignedAt += 1

    return matches

def preprocessForBadCharacterShift(pattern):
    map = { }
    for i in xrange(len(pattern)-1, -1, -1):
        c = pattern[i]
        if c not in map:
            map[c] = i

    return map

if __name__ == "__main__":
    matches = match("ana", "bananas")
    for integer in matches:
        print "Match at:", integer
    print (matches == [1, 3] and "OK" or "Failed")

    matches = match([1, 2, 3], [0, 1, 2,3 , 4, 5, 6])
    for integer in matches:
        print "list Match at:", integer
    print (matches)

It definitely isn't elegant, but I'm wondering if converting to strings and using string.replace would perform better if your data is as simple as in the example...

def strx(l):
    return str(l).strip('[]')

def replace_substring(l, a, b):
    return strx(l).replace( strx(a), strx(b) ).split(', ')
  • Only if you can reliably encode each possible list element as a unique character. – Karl Knechtel Mar 13 '12 at 15:15

Using xrange is a simple improvement that will speed up your code. xrange returns a generator, so performance improvements will be particualy noticeable for long lists. But even with your really short test code I get a decent increase.

Using timeit:

replace_subsequence        0.337936162949, 100000 runs
replace_subsequence_xrange 0.275990962982, 100000 runs

Additionally you should assign a variable to len(a) outside of the loop, this way you won't keep calling the len() function. This will also yield a significant speedup.

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