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I'm working on a way to solve this problem : Given an amount of 0 and 1, generate the list containing all the possible combinations of 0 and 1.

Example : if we have one 1 and two 0, the algorithm will return


The problem is that the classic combination algorithms are not optimized for this purpose. This is the result a non optimized combination algorithm would return :


As you can see, all combinations are repeated twice because 0 are interpreted as different elements.

How an algorithm can be made to generate the list of possible combination inputting the number of 0 and 1, without repeating combination ?

PS : This is will be used in Javascript

EDIT : Solved ! Using @Batch method.

function combin(o, i)
    if (o == 0 && i > 0) 
        for (var j = 0, s = ''; j < i; j++)
            s += '1';
        return [s];
    else if (i == 0 && o > 0)
        for (var j = 0, s = ''; j < o; j++)
            s += '0';
        return [s];
    else if (i == 0 && 0 == o)
        return [''];
    else if (i > 0 && o > 0)
        var l = combin(o - 1, i);
        for (var j in l)
            l[j] = '0' + l[j];
        var k = combin(o, i-1);
        for (var j in k)
            k[j] = '1' + k[j];
        return l.concat(k);
share|improve this question
Those are not all possible combinations. –  Shomz Mar 29 at 22:13
@Oriol No because it gives the same combination twice. Look : jsfiddle.net/FkT2n –  Pyrofoux Mar 29 at 22:27
@Oriol No because I want to generate combinations with a strict number of 0 and 1. I don't want all the combinations that contains 0 and 1. I need all the combinations that have exactly x 0 and exactly y 1, by example. –  Pyrofoux Mar 29 at 22:40
To help people help you, edit the post and copy/paste the source code. –  Paul Mar 30 at 0:05

2 Answers 2

up vote 1 down vote accepted

Here's one way to do it: start out with the string putting all 0s to the front. Now shift the rightmost 0 through to the end. Afterwards, shift the second rightmost 0 one position to the right, put the last 0 right next to it. Again, shift the rightmost 0 through to the end. Shift the second rightmost 0 another step right, put the rightmost 0 next to it again, shift shift shift. Once you shift the pair of the two rightmost 0s, start shifting the third right most 0.... you get the picture.

Example: three 0s, three 1s:


Not sure how to write a nice loop for that, but once you grasp the idea, you can play around and try to figure one out if you'd like. Maybe you can find a nifty recursion though, can't think of one for this method right now though.

A more elegant approach would be the following; notice that the ways to generate all strings with n 0s and m 1s is:

Start the string with a 0, append all combinations of generating strings from n-1 0s and m 1s, or start the string with a 1 and append all combinations of generating strings from n 0s and m-1 1s. The sets of generated strings are disjoint, so a simple recursion will do, no worrying about strings being generated multiple times necessary. If you prefer, you can do it iteratively as well (iterate over the length of the generated string for that, for iteration i, keep sets for no 0 used, one 0 used, ..., i 0s used, etc.)

All in all, recursion seems the way to go to me. Base cases are simple: if n = 0, the only string you can get is 1^m, if m = 0 the only string you can get is 0^n (where ^ denotes repetition).

In case you want to implement that recursion and also a way to test it (to some degree), notice that the number of strings you can produce is n + m choose n = n + m choose m, so counting the number of strings you get will give you a hint whether what you're doing works as intended. Not sure whether javascript offers easy access to binomial coefficients.

share|improve this answer
You may want to use memoization though so you don't recompute the sets if not needed. For example, if you calculate the strings with five 0s and five 1s in them, you would wind up calculating the strings with three 0s and three 1s in a number of subtrees of the recursion tree if you don't store the result and reuse it; you can avoid that if you store the result once you have it. That would take a bit of accounting, so maybe what related suggest is neater. –  G. Bach Mar 30 at 15:48

I assume you want to do this fast. If you represent the 0/1 pattern as bits of an integer, the smallest one is "0...01..1" e.g. 0001111 if you have 3 0-bits and 4 1-bits - and the largest integer is "1..10..0". (e.g. 1111000 ).

Your problem is then a known problem of generating the lexicographically next bit permutation (i.e. the next integer with same number of 1 bits).

A simple implementation using code from http://graphics.stanford.edu/~seander/bithacks.html#NextBitPermutation is the following (in pseudocode):

v = '0..01..1'b  // Initialize t as smallest integer of the pattern
while ( t <= '1..10..0'b ):
    t = (v | (v - 1)) + 1
    v = t | ((((t & -t) / (v & -v)) >> 1) - 1)
    print v

see http://www.geeksforgeeks.org/next-higher-number-with-same-number-of-set-bits/ and references therein for a more detailed explanation on how the algorithm works.

share|improve this answer
This an interesting approach, but I'm not sure it will work in Javascript. –  Pyrofoux Mar 30 at 15:45
What is the "b" at the end of w and t for? What is v? –  G. Bach Mar 30 at 15:46
the b is to denote that it's binary representation of an integer, which you'd need to do with a simple auxiliary function. The v/w confusion was a typo, I've fixed it. –  related Mar 30 at 22:09

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