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I need help with a program I'm making in Python.

Assume I wanted to replace every instance of the word "steak" to "ghost" (just go with it...) but I also wanted to replace every instance of the word "ghost" to "steak" at the same time. The following code does not work:

 s="The scary ghost ordered an expensive steak"
 print s
 s=s.replace("steak","ghost")
 s=s.replace("ghost","steak")
 print s

it prints: The scary steak ordered an expensive steak

What I'm trying to get is The scary steak ordered an expensive ghost

share|improve this question
    
Do you want unghosted to becomes unsteaked? (The example that comes to mind from a question the other week was "name" and "enamel".) –  DSM Mar 10 '13 at 16:16
    
Hm, but maybe you want ghosts to be converted to steaks and vice-versa. It's what .replace would do. –  nneonneo Mar 10 '13 at 16:18
    
Do you want to replace only once? Or every instance? You should clarify that portion of your question ... (especially considering the attention it is getting) –  mgilson Mar 10 '13 at 18:26
add comment

6 Answers

I'd probably use a regex here:

>>> import re
>>> s = "The scary ghost ordered an expensive steak"
>>> sub_dict = {'ghost':'steak','steak':'ghost'}
>>> regex = '|'.join(sub_dict)
>>> re.sub(regex, lambda m: sub_dict[m.group()], s)
'The scary steak ordered an expensive ghost'

Or, as a function which you can copy/paste:

import re
def word_replace(replace_dict,s):
    regex = '|'.join(replace_dict)
    return re.sub(regex, lambda m: replace_dict[m.group()], s)

Basically, I create a mapping of words that I want to replace with other words (sub_dict). I can create a regular expression from that mapping. In this case, the regular expression is "steak|ghost" (or "ghost|steak" -- order doesn't matter) and the regex engine does the rest of the work of finding non-overlapping sequences and replacing them accordingly.


Some possibly useful modifications

  • regex = '|'.join(map(re.escape,replace_dict)) -- Allows the regular expressions to have special regular expression syntax in them (like parenthesis). This escapes the special characters to make the regular expressions match the literal text.
  • regex = '|'.join(r'\b{0}\b'.format(x) for x in replace_dict) -- make sure that we don't match if one of our words is a substring in another word. In other words, change he to she but not the to tshe.
share|improve this answer
    
+1, this is a robust solution. –  nneonneo Mar 10 '13 at 16:15
1  
One advantage of using regexes is that you could add boundary markers to help prevent accidental substring matches. [You could make that work without regexes too, of course.] –  DSM Mar 10 '13 at 16:17
    
@DSM -- Sure -- And really that just becomes a question of modifying how you join the sub_dict here. Something like: '|'.join(r'(?:\b{}\b)'.format(x) for x in regex) -- if I'm remembering my regex syntax properly :) –  mgilson Mar 10 '13 at 16:20
    
@nneonneo -- Right. Updated my comment. Thanks :) –  mgilson Mar 10 '13 at 16:23
1  
Good idea to escape the strings so it doesn't break when someone adds a string with special meaning regex = '|'.join(re.escape(k) for k in sub_dict) –  gnibbler Mar 10 '13 at 20:22
show 10 more comments

Split the string by one of the targets, do the replace, and put the whole thing back together.

pieces = s.split('steak')
s = 'ghost'.join(piece.replace('ghost', 'steak') for piece in pieces)

This works exactly as .replace() would, including ignoring word boundaries. So it will turn "steak ghosts" into "ghost steaks".

share|improve this answer
2  
+1: This has better performance than the regex solution. See my deleted answer –  Abhijit Mar 10 '13 at 17:21
1  
@Abhijit -- Interesting, but not too surprising that this would be faster than re.sub. I still like re.sub though ... I find it to be a little more explicit and flexible (e.g. adding word boundaries). Note that if you really want this to go faster, you could put the stuff in join in a list-comp instead of a generator expression. That is always faster for .join ... by stylistically it's uglier. –  mgilson Mar 10 '13 at 18:24
    
Eh? .join works faster with a list-comp? –  nneonneo Mar 10 '13 at 18:35
    
@nneonneo -- I guess I should read the source on ''.join for python3. On python2, the generator gets turned into a list anyway which is why it's always faster. But maybe they did something different on python3.x? –  mgilson Mar 10 '13 at 19:13
    
@mgilson: OOPS. Misread the timeit results. I guess DST really messed me up. .join is always 10~15% slower if given a genexpr than if it's given a list. –  nneonneo Mar 10 '13 at 19:16
show 6 more comments

Rename one of the words to a temp value that doesn't occur in the text. Note this wouldn't be the most efficient way for a very large text. For that a re.sub might be more appropriate.

 s="The scary ghost ordered an expensive steak"
 print s
 s=s.replace("steak","temp")
 s=s.replace("ghost","steak")
 S=s.replace("temp","steak")
 print s
share|improve this answer
    
But say I wanted to have a user input for it, is there anyway to ensure they don't use the temp value WITHOUT making the temp value a random series of letters like "zxdasd"? –  user2154113 Mar 10 '13 at 16:02
    
@user2154113 you can first check if the value is in the string. Anyway, this is the wrong way of doing it. The right way is Leif Andersen's. –  Bakuriu Mar 10 '13 at 16:03
1  
And how does Leif's answer replace every instance if there is more than one instance? This way actually works. –  Mark Tolonen Mar 10 '13 at 16:05
1  
This works but requires shifty temporary values. (You can use some random Unicode to reduce the risk, but it is not a very general solution). –  nneonneo Mar 10 '13 at 16:17
1  
@MarkTolonen: Yeah, but generally you wish it that the temp was something that could not possibly exist in a string (i.e. it should be out-of-band). –  nneonneo Mar 10 '13 at 16:19
show 3 more comments

Use the count variable in the string.replace() method. So using your code, you wouold have:

s="The scary ghost ordered an expensive steak"
print s
s=s.replace("steak","ghost", 1)
s=s.replace("ghost","steak", 1)
print s

http://docs.python.org/2/library/stdtypes.html

share|improve this answer
3  
This would work, but only for this specific example. If there were more instances of the words or even if the words were in a different order it wouldn't work. –  Mark Tolonen Mar 10 '13 at 16:06
    
True, but since we weren't given any other context for why the words wanted to be changed, this is the best way to do it. But yes, if he did want a more robust solution, than this won't work. –  Leif Andersen Mar 10 '13 at 16:09
    
+1 for being the only "replace once". All other answers solve the general case of swapping X,Y in a string, but yours answers the question. –  Ryan Amos Mar 10 '13 at 18:14
1  
@RyanAmos -- "replace once" is in the title, but if you read the body of the question it says "every instance" ... –  mgilson Mar 10 '13 at 18:26
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How about something like this? Store the original in a split list, then have a translation dict. Keeps your core code short, then just adjust the dict when you need to adjust the translation. Plus, easy to port to a function:

 def translate_line(s, translation_dict):
    line = []
    for i in s.split():
       # To take account for punctuation, strip all non-alnum from the
       # word before looking up the translation.
       i = ''.join(ch for ch in i if ch.isalnum()]
       line.append(translation_dict.get(i, i))
    return ' '.join(line)


 >>> translate_line("The scary ghost ordered an expensive steak", {'steak': 'ghost', 'ghost': 'steak'})
 'The scary steak ordered an expensive ghost'
share|improve this answer
    
+1 for the idea, but you're not quite there yet. This only works if there is no punctuation. –  Tim Pietzcker Mar 10 '13 at 16:08
    
@TimPietzcker Yah, definitely not a robust solution :) You could probably strip all non-alphanumeric characters from the word and then use that for translation .. I'll adjust –  Bartek Mar 10 '13 at 16:09
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Note Considering the viewership of this Question, I undeleted and rewrote it for different types of test cases

I have considered four competing implementations from the answers

>>> def sub_noregex(hay):
    """
    The Join and replace routine which outpeforms the regex implementation. This
    version uses generator expression
    """
    return 'steak'.join(e.replace('steak','ghost') for e in hay.split('ghost'))

>>> def sub_regex(hay):
    """
    This is a straight forward regex implementation as suggested by @mgilson
    Note, so that the overheads doesn't add to the cummulative sum, I have placed
    the regex creation routine outside the function
    """
    return re.sub(regex,lambda m:sub_dict[m.group()],hay)

>>> def sub_temp(hay, _uuid = str(uuid4())):
    """
    Similar to Mark Tolonen's implementation but rather used uuid for the temporary string
    value to reduce collission
    """
    hay = hay.replace("steak",_uuid).replace("ghost","steak").replace(_uuid,"steak")
    return hay

>>> def sub_noregex_LC(hay):
    """
    The Join and replace routine which outpeforms the regex implementation. This
    version uses List Comprehension
    """
    return 'steak'.join([e.replace('steak','ghost') for e in hay.split('ghost')])

A generalized timeit function

>>> def compare(n, hay):
    foo = {"sub_regex": "re",
           "sub_noregex":"",
           "sub_noregex_LC":"",
           "sub_temp":"",
           }
    stmt = "{}(hay)"
    setup = "from __main__ import hay,"
    for k, v in foo.items():
        t = Timer(stmt = stmt.format(k), setup = setup+ ','.join([k, v] if v else [k]))
        yield t.timeit(n)

And the generalized test routine

>>> def test(*args, **kwargs):
    n = kwargs['repeat']
    print "{:50}{:^15}{:^15}{:^15}{:^15}".format("Test Case", "sub_temp",
                             "sub_noregex ", "sub_regex",
                             "sub_noregex_LC ")
    for hay in args:
        hay, hay_str = hay
        print "{:50}{:15.10}{:15.10}{:15.10}{:15.10}".format(hay_str, *compare(n, hay))

And the Test Results are as follows

>>> test((' '.join(['steak', 'ghost']*1000), "Multiple repeatation of search key"),
         ('garbage '*998 + 'steak ghost', "Single repeatation of search key at the end"),
         ('steak ' + 'garbage '*998 + 'ghost', "Single repeatation of at either end"),
         ("The scary ghost ordered an expensive steak", "Single repeatation for smaller string"),
         repeat = 100000)
Test Case                                            sub_temp     sub_noregex      sub_regex   sub_noregex_LC 
Multiple repeatation of search key                   0.2022748797   0.3517142003   0.4518992298   0.1812594258
Single repeatation of search key at the end          0.2026047957   0.3508259952   0.4399926194   0.1915298898
Single repeatation of at either end                  0.1877455356   0.3561734007   0.4228843986   0.2164233388
Single repeatation for smaller string                0.2061019057   0.3145984487   0.4252060592   0.1989413449
>>> 

Based on the Test Result

  1. Non Regex LC and the temp variable substitution have better performance though the performance of the usage of temp variable is not consistent

  2. LC version has better performance compared to generator (confirmed)

  3. Regex is more than two times slower (so if the piece of code is a bottleneck then the implementation change can be reconsidered)

  4. The Regex and non regex versions are equivalently Robust and can scale

share|improve this answer
    
Hmm. I have to admit that I’m puzzled by that. All the non-regex versions perform many more memory allocations. This should be the performance-limiting step. Have you tried pre-compiling the regular expression? Do you know which regular expression engine Python is using? (I’m also appalled that list comprehension is (so much!) faster than generator expressions. Looks like a serious weakness in CPython.) –  Konrad Rudolph Mar 11 '13 at 9:56
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