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I'm very new to Python and I'm sure there is a much easier way to accomplish what I need but here goes.

I'm trying to create a program which performs frequency analysis on a list of letters called inputList and retrives the 2 letter pairs and adds them to another dictionary. So I need it to populate a second dictonary with all the 2 letter pairs.

I have a rough idea how I can do this but am I bit stuck with the syntax to make it work.

for bigram in inputList:
    bigramDict[str(bigram + bigram+1)] =  1

Where bigram+1 is the letter in the next iteration

As an example if I was to have the text "stackoverflow" in the inputList I need to to first put the letters "st" as the key and 1 as the value. On the second iteration "ta" as the key and so on. The problem I'm having is retriving the value the variable will be on the next iteration without moving to the next iteration.

I hope I explained myself clearly. Thanks for your help

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4 Answers

up vote 5 down vote accepted

A straightforward way to obtain n-grams for a sequence is slicing:

def ngrams(seq, n=2):
    return [seq[i:i+n] for i in range(len(seq) - n + 1)]

Combine this with collections.Counter and you're ready:

from collections import Counter
print Counter(ngrams("abbabcbabbabr"))

In case you need ngrams() to be lazy:

from collections import deque

def ngrams(it, n=2):
    it = iter(it)
    deq = deque(it, maxlen=n)
    yield tuple(deq)
    for p in it:
        deq.append(p)
        yield tuple(deq)

(See below for more elegant code for the latter).

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Is string subscripting in Python an O(1) operation or an O(n) operation? This is either incredible elegant or incredibly slow... –  sarnold Jun 21 '12 at 22:04
1  
... Well, it ran on 14 megabytes of input quickly enough. It must be O(1) and thus this must be elegant. :D –  sarnold Jun 21 '12 at 22:07
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Use zip to zip string to copy of itself offset by 1

Get bigraphs like this:

s = "stackoverflow"
zip(s,s[1:])

Gives:

[('s', 't'), ('t', 'a'), ('a', 'c'), ('c', 'k'), ('k', 'o'), ('o', 'v'), ('v', 'e'), ('e', 'r'), ('r', 'f'), ('f', 'l'), ('l', 'o'), ('o', 'w')]

Trigraphs are also easy:

zip(s,s[1:],s[2:])

Gives:

[('s', 't', 'a'), ('t', 'a', 'c'), ('a', 'c', 'k'), ('c', 'k', 'o'), ('k', 'o', 'v'), ('o', 'v', 'e'), ('v', 'e', 'r'), ('e', 'r', 'f'), ('r', 'f', 'l'), ('f', 'l', 'o'), ('l', 'o', 'w')]

You can use the tuples as the keys for your dictionary ... or better still use the Counter or default_dict objects for doing the counts. Good luck!

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Of course, zip! Can't believe I missed that. –  gdbdmdb Jun 21 '12 at 22:23
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from collections import Counter
from itertools import islice, izip, tee

def pairs(iterable):
    a, b = tee(iterable)
    for pair in izip(a, islice(b, 1, None)):
        yield pair

print Counter(pairs("stackoverflow"))

Or a simpler version:

def pairs(iterable):
    it = iter(iterable)
    last = next(it)
    for c in it:
        yield last, c
        last = c

A generalized version for arbitrary n:

def ngrams(iterable, n=2):
    return izip(*[islice(it, i, None) for i, it in enumerate(tee(iterable, n))])
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Nice, but how about arbitrary n-grams? I have a strong feeling there must be an itertools oneliner for that. –  gdbdmdb Jun 21 '12 at 22:26
    
@thg435: I've posted generalized version –  J.F. Sebastian Jun 21 '12 at 22:28
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Keep a variable of the previous letter? First iteration you just fetch first letter and do nothing else.

ADDENDUM: This method, at the very least, doesn't need to waste any more memory than a simple variable to store one letter, no excess tuples or anything.

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