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Creating a basic ngram implementation in Python as a personal challenge. Started with unigrams and worked up to trigrams:

def unigrams(text):
    uni = []
    for token in text:
    return uni

def bigrams(text):
    bi = []
    token_address = 0
    for token in text[:len(text) - 1]:
        bi.append([token, text[token_address + 1]])
        token_address += 1
    return bi

def trigrams(text):
    tri = []
    token_address = 0
    for token in text[:len(text) - 2]:
        tri.append([token, text[token_address + 1], text[token_address + 2]])
        token_address += 1
    return tri

Now the fun part, generalize to n-grams. The main problem with generalizing the approach I have here is creating the list of length n that goes into the append method. I thought initially that lambdas might be a way to do it, but I can't figure out how.

Also, other implementations I'm looking at are taking an entirely different tack (no surprise), e.g. here and here, so I'm starting to wonder if I'm at a dead end.

Before I give up on this approach, I'm curious: 1) is there a one line or pythonic method of creating an arbitrary list size in this manner? 2) what are the downsides of approaching the problem this way?

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see… –  alvas Mar 15 '14 at 21:47

2 Answers 2

up vote 1 down vote accepted

The following function should work for a general n-gram model.

def ngram(text,grams):  
    for token in text[:len(x)-grams+1]:  
    return model
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Took me a while to get to this. Great response, thanks. –  acpigeon Feb 2 '13 at 21:31

As a convenient one-liner:

def retrieve_ngrams(txt, n):
    return [txt[i:i+n] for i in range(len(txt)-(n-1))]
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