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For example, let's say I want to generate all permutations of two values,each one could be 0 or 1, I would get:


Note here the first variable varies the slowest, so it stays fixed while the remaining one varies.

In the case of three variables, I would get


I see that there should be a recursive definition for it, but it's not clear enough in my head so that I could express it.

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5 Answers 5

up vote 19 down vote accepted

This is not about permutations, but about combinations and you can generate them easily in Haskell:

replicateM 3 "01"
= ["000","001","010","011","100","101","110","111"]

If you need actual integers:

replicateM 3 [0, 1]
= [[0,0,0],[0,0,1],[0,1,0],[0,1,1],

Finally if the values at the various positions are different:

sequence [".x", ".X", "-+"]
= ["..-","..+",".X-",".X+","x.-","x.+","xX-","xX+"]

This too works for integers, of course:

sequence [[0,1], [0,2], [0,4]]
= [[0,0,0],[0,0,4],[0,2,0],[0,2,4],
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It just took me 3 minutes to figure out why replicateM manages to do this. Haskell is fantastic for breaking people's minds! :-D –  MathematicalOrchid Mar 17 '13 at 19:21
@MathematicalOrchid I think the devil is not as much in replicateM as it is in the list monad (and String being a type synonym) :) –  Kristopher Micinski Mar 17 '13 at 20:11

If you want permuations, as in a list of lists, here's a solution using a list monad.

\n -> mapM (const [0, 1]) [1..n]
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images.wikia.com/victorious/images/2/23/Oh-boy.gif I have no idea how it works but it's beautiful –  chibro2 Mar 17 '13 at 3:28
Use replicateM or sequence instead. See my answer. –  ertes Mar 17 '13 at 3:38
ghci> :m +Data.List
ghci> permutations [0,1]
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(Edited based on feedback)

The smallest n-digit binary integer is 000..0 (n times), which is 0.

The largest n-digit binary integer is 111...1 (n times), which is 2^n - 1.

Generate the integers from 0 to 1<<n - 1 and print out the values you have.

Haskell's Int should be safe for <= 28 binary variables.

Hope that helps.

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This question is tagged "haskell," so "no recursion needed" is blatantly wrong. –  Kristopher Micinski Mar 17 '13 at 3:18
That is a valid point, Kristopher. However, I personally think that using recursion here won't make for a simpler, more elegant method. –  Rahul Banerjee Mar 17 '13 at 3:22
It won't make for a simple elegant method, it will make for the only method. There's no such thing as "iterating" in haskell, recursion is the only way. (Even Koterpillar's solution, which is correct, uses recursion.) –  Kristopher Micinski Mar 17 '13 at 3:24
I stand corrected. As a non-Haskell user, I should have paid closer attention to the tag before proposing the solution. –  Rahul Banerjee Mar 17 '13 at 3:26
@KristopherMicinski: There's no need for explicit recursion, though. Saying recursion is needed feels to me a little like saying "really though, it's imperative, because it's compiled down to bytecode" –  amindfv Mar 17 '13 at 6:20

I don't know haskel, but here is a block of psuedo code on how I do permutations.

var positions = [0,0,0];
var max = 1;

    positions[0]++; //Increment by one
    for (var i = 0; i < positions.length; i++) {
        if(positions[i] > max){ //If the current position is at max carry over
            positions[i] = 0;
            if(i+1 >= positions.length){ //no more positions left
                break done; 
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word Haskell's slightly different and it's really cool! –  chibro2 Mar 17 '13 at 3:33
This is far from how Haskell works and even farther from how you would do it in Haskell. –  ertes Mar 17 '13 at 3:42

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