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I'm working with some text that has a mix of languages, which I've already done some processing on and is in the form a list of single characters (called "letters"). I can tell which language each character is by simply testing if it has case or not (with a small function called "test_lang"). I then want to insert a space between characters of different types, so I don't have any words that are a mix of character types. At the same time, I want to insert a space between words and punctuation (which I defined in a list called "punc"). I wrote a script that does this in a very straight-forward way that made sense to me (below), but apparently is the wrong way to do it, because it is incredibly slow.

Can anyone tell me what the better way to do this is?

# Add a space between Arabic/foreign mixes, and between words and punc
cleaned = ""
i = 0
while i <= len(letters)-2: #range excludes last letter to avoid Out of Range error for i+1
    cleaned += letters[i]
    # words that have case are Latin; otherwise Arabic
    if test_lang(letters[i]) != test_lang(letters[i+1]):
        cleaned += " "
    if letters[i] in punc or letters[i+1] in punc:
        cleaned += " "
    i += 1
cleaned += letters[len(letters)-1] # add in last letter
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What's the typical length of letters? –  NPE Jan 25 '13 at 20:17
I think I read somewhere that += operator for strings is not really fast. They said there that " ".join(list_with_all_elements) was better. –  Aufziehvogel Jan 25 '13 at 20:17
@NPE - If I'm running this on the entire corpus, letters is just under 5 million characters long. So when I say that this is slow, it's really slow. –  larapsodia Jan 25 '13 at 20:38
Any difference if cleaned is a bytearray? –  f p Jan 25 '13 at 20:52
What exactly do you want to do with the last letter? –  Karl Knechtel Jan 25 '13 at 22:47

6 Answers 6

up vote 4 down vote accepted

There are a few things going on here:

  • You call test_lang() on every letter in the string twice, this is probably the main reason this is slow.
  • Concatenating strings in Python isn't very efficient, you should instead use a list or generator and then use str.join() (most likely, ''.join()).

Here is the approach I would take, using itertools.groupby():

from itertools import groupby
def keyfunc(letter):
    return (test_lang(letter), letter in punc)

cleaned = ' '.join(''.join(g) for k, g in groupby(letters, keyfunc))

This will group the letters into consecutive letters of the same language and whether or not they are punctuation, then ''.join(g) converts each group back into a string, then ' '.join() combines these strings adding a space between each string.

Also, as noted in comments by DSM, make sure that punc is a set.

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I'm finding this to be only about 15% faster than the original solution. An improvement, no doubt, but it seems like we ought to be able to do much better. –  Aaron Dufour Jan 25 '13 at 20:33
Take that back; testing shows that python is doing something clever to keep the original solution linear rather than the quadratic you'd expect. That said, you're missing the punctuation case so this isn't quite satisfactory. –  Aaron Dufour Jan 25 '13 at 20:37
@AaronDufour - Punctuation case is handled. –  Andrew Clark Jan 25 '13 at 20:38
@AaronDufour: String concatenation using + has been optimized since Python 2.5; strings are now extended in-place, if possible. Schlemiel the painter is no longer a problem :) –  Tim Pietzcker Jan 25 '13 at 20:47
Clever! I made an edit to capture the consecutive-punctuation case. Please let me know if this doesn't seem right for any reason. –  Aaron Dufour Jan 25 '13 at 20:47

Every time you perform a string concatenation, a new string is created. The longer the string gets, the longer each concatenation takes.


You might be better off declaring a list big enough to store the characters of the output, and joining them at the end.

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"Declaring a list big enough..." is not something you do in Python. You let the list grow dynamically. –  Tim Pietzcker Jan 25 '13 at 20:20
Your diagnosis is correct, but without a usable suggestion for fixing it this answer isn't terribly helpful. –  Aaron Dufour Jan 25 '13 at 20:31
Actually, some simple testing shows that the original solution scales linearly with the size of letters, whereas a schlemiel's algorithm would scale quadratically. It seems that python is doing something clever here. –  Aaron Dufour Jan 25 '13 at 20:36
CPython optimizes the string += operation for this common case. It knows the string is only referenced once, and so can modify the string in place instead of creating a new string. –  Ned Batchelder Jan 25 '13 at 21:04
@recursive Since you can append to a list in amortized O(1), that doesn't really help. –  Aaron Dufour Jan 26 '13 at 0:11

I suggest an entirely different solution that should be very fast:

import re
cleaned = re.sub(r"(?<!\s)\b(?!\s)", " ", letters, flags=re.LOCALE)

This inserts a space at every word boundary (defining words as "sequences of alphanumeric characters, including accented characters in your current locale", which should work in most cases), unless it's a word boundary next to whitespace.

This should split between Latin and Arabic characters as well as between Latin and punctuation.

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Not sure this handles the mixed language issue. –  Andrew Clark Jan 25 '13 at 20:28
Yeah, this logic won't be even remotely similar to what OP is looking for. –  Aaron Dufour Jan 25 '13 at 20:29
@AaronDufour: I'm not sure either; the comment about "Latin, otherwise Arabic" gave me the impression that that's what he's trying to separate. I may be wrong about that. –  Tim Pietzcker Jan 25 '13 at 20:31
@Tim - Yes, you're right, separating Arabic and Latin characters is what she is trying to do. :-) So I don't believe this solution will work. –  larapsodia Jan 25 '13 at 20:45
@larapsodia: Did you give it a try? That's exactly the situation where it should work. –  Tim Pietzcker Jan 25 '13 at 20:49

Assuming test_lang is not the bottleneck, I'd try:

    x + ' '
    if x in punc or y in punc or test_lang(x) != test_lang(y)
    else x
    for x, y in zip(letters[:-1], letters[1:])
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Here is a solution that uses yield. I would be interested to know whether this runs any faster than your original solution.

This avoids all the indexing in the original. It just iterates through the input, holding onto a single previous character.

This should be easy to modify if your requirements change in the future.

ch_sep = ' '

def _sep_chars_by_lang(s_input):
    itr = iter(s_input)
    ch_prev = next(itr)

    yield ch_prev

    while True:
        ch = next(itr)
        if test_lang(ch_prev) != test_lang(ch) or ch_prev in punc:
            yield ch_sep
        yield ch
        ch_prev = ch

def sep_chars_by_lang(s_input):
    return ''.join(_sep_chars_by_lang(s_input))
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Keeping the basic logic of the OP's original code, we speed it up by not doing all that [i] and [i+1] indexing. We use a prev and next reference that scan through the string, maintaining prev one character behind next:

# Add a space between Arabic/foreign mixes, and between words and punc
cleaned = ''
prev = letters[0]
for next in letters[1:]:
    cleaned += prev
    if test_lang(prev) != test_lang(next):
        cleaned += ' '
    if prev in punc or next in punc:
        cleaned += ' '
    prev = next
cleaned += next

Testing on a string of 10 million characters shows this is about twice the speed of the OP code. The "string concatenation is slow" complaint is obsolete, as others have pointed out. Running the test again using the ''.join(...) metaphor shows a slighly slower execution than using string concatenation.

Further speedup may come through not calling the test_lang() function but by inlining some simple code. Can't comment as I don't really know what test_lang() does :).

Edit: removed a 'return' statement that should not have been there (testing remnant!).

Edit: Could also speedup by not calling test_lang() twice on the same character (on next in one loop and then prev in the following loop). Cache the test_lang(next) result.

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