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I want to find the first index of substrings in a larger string. I only want it to match whole words and I'd like it to be case-insensitive, except that I want it to treat CamelCase as separate words.

The code below does the trick, but it's slow. I'd like to speed it up. Any suggestions? I was trying some regex stuff, but couldn't find one that handled all the edge cases.

def word_start_index(text, seek_word):
    start_index = 0
    curr_word = ""
    def case_change():
        return curr_word and ch.isupper() and curr_word[-1].islower()
    def is_match():
        return curr_word.lower() == seek_word.lower()
    for i, ch in enumerate(text):
        if case_change() or not ch.isalnum():
            if is_match():
                return start_index
            curr_word = ""
            start_index = None
        if ch.isalnum():
            if start_index is None:
                start_index = i
            curr_word += ch
    if is_match():
        return start_index

if __name__ == "__main__":
    #            01234567890123456789012345
    test_text = "a_foobar_FooBar baz golf_CART"
    test_words = ["a", "foo", "bar", "baz", "golf", "cart", "fred"]

    for word in test_words:
        match_start = word_start_index(test_text, word)
        print match_start, word


0 a
9 foo
12 bar
16 baz
20 golf
25 cart
None fred
share|improve this question
What should the result of word_start_index("FooBAR", "bar") be? What about word_start_index("FOOBar", "bar")? – Mark Byers Jan 24 '10 at 13:48
And word_start_index("FOOBazBar", "bar")? – Mark Byers Jan 24 '10 at 13:53
Hmm... I'm using this to search text files, so those cases would be rare. So... let's say do whatever is convenient. – Jesse Aldridge Jan 24 '10 at 13:54
The cases I'm most concerned about are: CamelCase, camelCase, lower, UPPER, Capitalized. Other cases aren't very important. – Jesse Aldridge Jan 24 '10 at 13:56
Can seek_word contain anything other than [a-z]? – Mark Byers Jan 24 '10 at 13:59
up vote 2 down vote accepted

If I were doing this with regular expressions I'd probably do it like this:

def word_start_index2(text, seek_word):
    camel_case = seek_word[0].upper() + seek_word[1:].lower()
    seek_word_i = ''.join('[' + c.lower() + c.upper() + ']'
                           for c in seek_word)
    regex1 = r'(?:(?<=[^a-zA-Z])|^)' + seek_word_i + r'(?=$|[^a-zA-Z])'
    regex2 = r'(?:(?<=[a-z]|[^A-Z])|^)' + camel_case + r'(?=$|[A-Z]|[^a-z])'
    regex = '%s|%s' % (regex1,  regex2)
    import re
    m = re.search(regex, text)
    if not m:
        return None
        return m.start()

I haven't performance tested this against your version though, but you could try it to see if it is better or worse and let us know.

My answer might give different output from yours on some edge cases but in your comments you said that you don't care about these cases.

Also, I tried to use the notation (?i) to mark part of the regex as case-insensitive but for some reason this fails to work correctly. I cannot explain why.

Final self-nitpick: the function needs to validate its arguments but this code is omitted for clarity. You should add checks at least for the following:

  • text should be a string
  • seek_word should be a string matching '[a-zA-Z]+'
share|improve this answer
This is a good answer too. – Jesse Aldridge Jan 24 '10 at 15:29
How was the performance of this solution? How did you performance test? Can you post the performance testing code you used? When performance testing, I hope you remembered to load the re module only once and not on every call! – Mark Byers Jan 24 '10 at 15:56
Also, for anyone else reading that may choose to use this solution, if you remove the letters-only contraint on seek_word, you need to use re.escape. – Mark Byers Jan 24 '10 at 15:57
Also note to others reading who want to use this solution: if you are using the same search on multiple files, there would be a performance advantage in constructing the regex only once and reusing it for each file. – Mark Byers Jan 24 '10 at 16:49

word_emitter (below) takes a text string and yields lowercase "words" as they are found, one at a time (along with their positions).

It replaces all underscores with spaces. It then splits the text into a list. For example,

"a_foobar_FooBar baz golf_CART Foo"


['a', 'foobar', 'FooBar', 'baz', 'golf', 'CART', 'Foo']

Of course, you also want camelCase words to be treated as separate words. So for each piece in the above list, we use the regex pattern '(.*[a-z])(?=[A-Z])' to split camelCase words. This regex uses the re module's look-forward operator (?=...). Perhaps that is the trickiest part to the whole thing.

word_emitter then yields the words one at a time, along with their associated positions.

Once you have a function which splits the text into "words", the rest is easy.

I've also switch the order of your loops, so you only loop through the test_text once. This will speed things up if test_text is very long compared to test_words.

import re
import string
import itertools

table = string.maketrans(
    '                       ',

def piece_emitter(text):
    # This generator splits text into 2-tuples of (positions,pieces).
    # Given "a_foobar_FooBar" it returns
    # ((0,'a'),
    #  (2,'foobar'),
    #  (9,'FooBar'),
    #  )
    it=itertools.groupby(text,lambda w: w.isspace())
    for k,g in it:
        it2=itertools.groupby(w,lambda w: w.isspace())
        for isspace,g2 in it2:
            if not isspace:
                yield pos,word

def camel_splitter(word):
    # Given a word like 'FooBar', this generator yields
    # 'Foo', then 'Bar'.
    it=itertools.groupby(word,lambda w: w.isupper())
    for k,g in it:
        if len(w)==1:
            except StopIteration:
        yield w

def word_emitter(piece):
    # Given 'getFooBar', this generator yields in turn the elements of the sequence
    # ((0,'get'),
    #  (0,'getFoo'),
    #  (0,'getFooBar'),
    #  (3,'Foo'),
    #  (3,'FooBar'),
    #  (6,'Bar'), 
    #  )
    # In each 2-tuple, the number is the starting position of the string,
    # followed by the fragment of camelCase word generated by camel_splitter.
    for i in range(0,num_words+1):
        for step in range(1,num_words-i+1):
            yield len(prefix),word

def camel_search(text,words):
    for pos,piece in piece_emitter(text):        
        if not all(words[test_word] for test_word in words):
            for subpos,word in word_emitter(piece):
                for test_word in words:
                    if not words[test_word] and word.lower() == test_word.lower(): 
                        yield pos+subpos,word
    for word in words:
        if not words[word]:
            yield None,word

if __name__ == "__main__":    
    #            01234567890123456789012345
    test_text = "a_foobar_FooBar baz golf_CART"
    test_words = ["a", "foo", "bar", "baz", "golf", "cart", "fred"]
    for pos,word in camel_search(test_text,test_words):
        print pos,word.lower()

Here are the unit tests I used to check the program:

import unittest
import sys
import camel
import itertools

class Test(unittest.TestCase):
    def check(self,result,answer):
        for r,a in itertools.izip_longest(result,answer):
            if r!=a:
                print('%s != %s'%(r,a))

    def test_piece_emitter(self):
        tests=(("a_foobar_FooBar baz? golf_CART Foo 'food' getFooBaz",
        for text,answer in tests:
    def test_camel_splitter(self):
        for word,answer in tests:
    def test_word_emitter(self):
                ((0,'a'),) ),
        for text,answer in tests:

    def test_camel_search(self):
        tests=(("a_foobar_FooBar baz? golf_CART Foo 'food' getFooBaz",
                ("a", "foo", "bar", "baz", "golf", "cart", "fred", "food",
        for text,search_words,answer in tests:

if __name__ == '__main__':
    unittest.main(argv = unittest.sys.argv + ['--verbose'])
share|improve this answer
How does this handle searching "Foo!" for the string "foo"? – Mark Byers Jan 24 '10 at 14:43
@Mark: Indeed, good point. The OP has not yet specified how he wants this handled, but I suppose a natural thing to do would be to squash punctuation by replacing all punctuation marks with spaces. I'm editing my script to handle punctuation this way. – unutbu Jan 24 '10 at 14:50
@Mark: My code now handles searching for "FooBar", by yielding pos,piece as well as pos,word. – unutbu Jan 24 '10 at 16:16
@Mark: I've reworked my solution to address as many of the points you've raised as I could. ("\"Foo\"","Foo") and ("getFooBar","FooBar") should now work. I've included unit tests to demonstrate. I'm not sure if I've addressed your point about "high memory usage". The code no longer uses re.split, so I think I am being memory-friendly, but please tell me if I've missing something. – unutbu Jan 25 '10 at 0:30
@Jesse: That's fine, :) Handling some problem-cases like ("getFooBar","FooBar") definitely makes my script slower. I like my method mainly because I think it is a fairly organized way to break the problem apart, more easy to modify and maintain than regex. If this is not something you need, then by all means, use the method that is most useful to you. – unutbu Jan 25 '10 at 22:27

With a index to speed up searching :-)

from collections import defaultdict

class IndexedText(object):
    """ a indexed text """
    def __init__(self, text):
        self.text = text

    def word_start_index(self, word):
        l = len(word)
        w = word.lower()
        return self.index[word]

    def _index(self):
        self.index = defaultdict( list )

        def index( word, pos):
            self.index[word.lower()].append( pos )

        start = 0
        it = enumerate(self.text)
        lpos, lchar = it.next()
        WS = (' ','_')

        for pos, char in it:
            if lchar in WS and char not in WS:
                index( self.text[start:lpos], start )
                start = pos
            elif lchar.islower() and char.isupper(): # camelcase
                index( self.text[start:pos], start )
                start = pos
            lpos, lchar = pos, char

        # last word is missing
        index( self.text[start:], start ) 

if __name__ == "__main__":
    #            01234567890123456789012345
    test_text = "a_foobar_FooBar baz golf_CART"
    test_words = ["a", "foo", "bar", "baz", "golf", "cart", "fred"]

    index = IndexedText( test_text )

    for word in test_words:
        match_start = index.word_start_index( word )
        print match_start, word
share|improve this answer
Nice idea with the caching, but note that it could actually end up being slower this way if each text is only searched once. I've asked the OP a clarifying question about this. Also how does this handle searching "Foo!" for the string "foo"? – Mark Byers Jan 24 '10 at 15:03
Yes the index is a nice idea. I don't think I want it right now, but I'll keep it in mind for the future. – Jesse Aldridge Jan 24 '10 at 15:37
Also, how does this handle searching for 'FooBar' in 'FooBar'? – Mark Byers Jan 24 '10 at 15:59

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