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in Python I wanting see all the possible combination's of a number, but limiting to 0's and 1's...

So for example the result of some loop would be:

0000
0001
0011
0111
1111
1000
and so on.

What python algorithm would best suite this?

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up vote 7 down vote accepted

Example is in the itertools docs:

>>> import itertools
>>> for i in itertools.product(range(2), repeat=4):
    print(i)
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Thanks very much everyone for the answers. Turns out what I was looking was a Gray Code. Gray code after Frank Gray, is a binary numeral system where two successive values differ in only one bit. WikiPedia – Darryl Hebbes Feb 19 '10 at 16:27
def f(n):
   if n==1:
       return ['0', '1']
   tmp = f(n-1)
   return ['0'+v for v in tmp] + ['1'+v for v in tmp]

>>> f(4)
['0000',
'0001',
'0010',
'0011',
'0100',
'0101',
'0110',
'0111',
'1000',
'1001',
'1010',
'1011',
'1100',
'1101',
'1110',
'1111']
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You're looking for k-combinations. Check this out.

The function you want to look at is xcombinations:

def xcombinations(items, n):
    if n==0: yield []
    else:
        for i in xrange(len(items)):
            for cc in xcombinations(items[:i]+items[i+1:],n-1):
                yield [items[i]]+cc
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Thanks for the link, lots of info on generators and combinations that I needed elsewhere. – Darryl Hebbes Feb 19 '10 at 16:30
def print_all_combinations(max_value):
    width = len('{0:0b}'.format(max_value))
    format_string = '{0:0%db}' % width
    for i in xrange(max_value):
        print format_string.format(i)
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See the product generator.

This module implements a number of iterator building blocks inspired by constructs from APL, Haskell, and SML. Each has been recast in a form suitable for Python.

The module standardizes a core set of fast, memory efficient tools that are useful by themselves or in combination. Together, they form an “iterator algebra” making it possible to construct specialized tools succinctly and efficiently in pure Python

.

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