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We have a file named wordlist, which contains 1,876 KB worth of alphabetized words, all of which are longer than 4 letters and contain one carriage return between each new two-letter construction (ab, ac, ad, etc., words all contain returns between them):

 wfile = open("wordlist.txt", "r+")

I want to create a new file that contains only words that are not derivatives of other, smaller words. For example, the wordlist contains the following words ["abuser, abused, abusers, abuse, abuses, etc.] The new file that is created should retain only the word "abuse" because it is the "lowest common denominator" (if you will) between all those words. Similarly, the word "rodeo" would be removed because it contains the word rode.

I tried this implementation:

def root_words(wordlist):
    result = []
    base = wordlist[1]
    for word in wordlist:
        if not word.startswith(base):
            print base
    return result;

def main():
    wordlist = []
    wfile = open("wordlist.txt", "r+")

    for line in wfile:

    wordlist = root_words(wordlist)
    newfile = open("newwordlist.txt", "r+")    

But it always froze my computer. Any solutions?

share|improve this question
rodent will also be treated as a derivative of rode? It seems a naive definition of derivative – Will Jan 25 '11 at 9:10
have you had a look at stemming algorithms? – tobyodavies Jan 25 '11 at 9:13
So if you add icecream before ice, it'll be a different result than if you do it the other way around? I think you need to reconsider your algorithm here. – Lasse V. Karlsen Jan 25 '11 at 9:25
@Will, I don't see how that could possibly contribute to the discussion/answer, but nevertheless appreciate your cynicism. I could not think of a better explanation that conveyed the statement: "remove all words that contain smaller root words that appear only at the front of a word." – Parseltongue Jan 25 '11 at 18:28
up vote 3 down vote accepted

I would do something like this:

def bases(words):
    base = next(words)
    yield base
    for word in words:
        if word and not word.startswith(base):
            yield word
            base = word

def get_bases(infile, outfile):
    with open(infile) as f_in:
        words = (line.strip() for line in f_in)
        with open(outfile, 'w') as f_out:
            f_out.writelines(word + '\n' for word in bases(words))

This goes through the corncob list of 58,000 words in a fifth of a second on my fairly old laptop. It's old enough to have one gig of memory.

$ time python words.py

real        0m0.233s
user        0m0.180s
sys         0m0.012s

It uses iterators everywhere it can to go easy on the memory. You could probably increase performance by slicing off the end of the lines instead of using strip to get rid of the newlines.

Also note that this relies on your input being sorted and non-empty. That was part of the stated preconditions though so I don't feel too bad about it ;)

share|improve this answer
This worked extraordinarily fast, but one problem: the return carriages between each new letter construction makes it to where the "newfile.txt" stops after the first return. Any way to resolve this? – Parseltongue Jan 25 '11 at 18:34
@parseltongue. I don't know what you're talking about. Could you provide a concrete example of what you want the input to look like and what you want the output to look like? – aaronasterling Jan 25 '11 at 18:59
I found a way to resolve this by editing the wordlist in Microsoft Word and replacing all ^p^p with ^p, and it removed all double carriage returns. It would be nice to know how to just ignore the ^p^p programatically, though. What happened previously is that there were double returns between each new double-letter construction. For example, aardvard aardwolf << double return = blank space << abiogenesis abuse So your algorithm would just stop when it came to the first double carriage return P.S. Why is this so extrordinarily fast? – Parseltongue Jan 25 '11 at 19:05
@Parseltongue, I see now. The version I put up should do the trick with your original format. The trick is to check that the word's not blank (corresponding to a blank line) before we do anything with it. – aaronasterling Jan 25 '11 at 19:47
It works, though I'm not sure how. Why does adding "if word and not word.startswith(base):" change anything if one of the "words" is a blank line. – Parseltongue Jan 25 '11 at 21:01

One possible improvement is to use a database to load the words and avoid loading the full input file in RAM. Another option is to process the words as you read them from the file and write the results without loading everything in memory.

The following example treats the file as it is read without pre-loading stuff in memory.

def root_words(f,out):
    result = []
    base = f.readline()
    for word in f:
        if not word.startswith(base):
            out.write(base + "\n")
    out.write(base + "\n")

def main():
    wfile = open("wordlist.txt", "r+")
    newfile = open("newwordlist.txt", "w")

Memory complexity of this solution is O(1) since the variable base is the only thing that you need in order to process the file. This can be done thanks to that the file is alphabetically sorted.

share|improve this answer
That is not O(1) for time, just memory. It's O(n) for time. You need to look at every word but you only need to look at it once. Realistically, like mine, there will be more memory requirements than base because Python will buffer the file reads. – aaronasterling Jan 25 '11 at 9:33
yep with complexity space I mean memory. I change the wording to avoid confusion. – msalvadores Jan 25 '11 at 9:34
and ... yes again ... I don't take into account how Python buffers reads but if implements caching based on memory page size it is again constant memory complexity. – msalvadores Jan 25 '11 at 9:36
Also, file objects don't have a print method. I think you want write. And you want to open the second file in w mode. After that, it runs and if you take the superfluous print statement out, it's only a little slower than mine ;) – aaronasterling Jan 25 '11 at 9:39
@aaronasterling thanks for the 'print' thing ... ;) ... thanks for the feedback !!!! I have corrected the answer. – msalvadores Jan 25 '11 at 9:43

since the list is alphabetized, this does the trick (takes 0.4seconds with 5 megs of data, so should not be a problem with 1.8)

res = [" "]

with open("wordlist.txt","r") as f:
    for line in f:
        tmp = line.strip()
        if tmp.startswith(res[-1]):

with open("newlist.txt","w") as f:
share|improve this answer

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