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I need to get all possible subsets of an array with a minimum of 2 items and an unknown maximum. Anyone that can help me out a bit?

Say I have this...

[1,2,3]

...how do I get this?

[
    [1,2]
    , [1,3]
    , [2,3]
    , [1,2,3]
]
share|improve this question
    
So basically you want the power set, minus those sets that are < 2 items? –  Josh Leitzel Apr 22 '11 at 3:36

4 Answers 4

up vote 16 down vote accepted

After stealing this JavaScript combination generator, I added a parameter to supply the minimum length resulting in,

var combine = function(a, min) {
    var fn = function(n, src, got, all) {
        if (n == 0) {
            if (got.length > 0) {
                all[all.length] = got;
            }
            return;
        }
        for (var j = 0; j < src.length; j++) {
            fn(n - 1, src.slice(j + 1), got.concat([src[j]]), all);
        }
        return;
    }
    var all = [];
    for (var i = min; i < a.length; i++) {
        fn(i, a, [], all);
    }
    all.push(a);
    return all;
}

To use, supply an array, and the minimum subset length desired,

var subsets = combine([1, 2, 3], 2);

Output is,

[[1, 2], [1, 3], [2, 3], [1, 2, 3]]
share|improve this answer

With a small tweak from this question, I hope my solution is more efficient because it uses bit operator to generate all the subsets.

var sets = (function(input, size){
    var results = [], result, mask, total = Math.pow(2, input.length);
    for(mask = 0; mask < total; mask++){
        result = [];
        i = input.length - 1; 
        do{
            if( (mask & (1 << i)) !== 0){
                result.push(input[i]);
            }
        }while(i--);
        if( result.length >= size){
            results.push(result);
        }
    }

    return results; 
})(['a','b','c','d','e','f'], 2);
console.log(sets);
share|improve this answer
    
+1, you can start from mask = 1 –  tomdemuyt Nov 13 '13 at 20:48
1  
+1 It is faster as per this jsperf. –  Majid Fouladpour Jan 31 at 3:04

I've modified the accepted solution a little bit to consider the empty set when min is equal to 0 (empty set is a subset of any given set).

Here is a full sample page to copy paste, ready to run with some output.

<html>

<head>

<meta http-equiv="Content-type" content="text/html;charset=UTF-8">
<title>All Subsets</title>

<script type="text/javascript">

// get all possible subsets of an array with a minimum of X (min) items and an unknown maximum
var FindAllSubsets = function(a, min) {
    var fn = function(n, src, got, all) {
        if (n == 0) {
            if (got.length > 0) {
                all[all.length] = got;
            }
            return;
        }
        for (var j = 0; j < src.length; j++) {
            fn(n - 1, src.slice(j + 1), got.concat([src[j]]), all);
        }
        return;
    }
    var all = [];

    // empty set is a subset of the set (only when min number of elements can be 0)
    if(min == 0)
      all.push([-1]); // array with single element '-1' denotes empty set

    for (var i = min; i < a.length; i++) {
        fn(i, a, [], all);
    }

    all.push(a);
    return all;
}

function CreateInputList(){
  var inputArr = [];
  var inputArrSize = 4;
  var maxInputValue = 10;
  for(i=0; i < inputArrSize; i++){
    var elem = Math.floor(Math.random()*maxInputValue);
    // make sure to have unique elements in the array
    while(inputArr.contains(elem)){ // OR - while(inputArr.indexOf(elem) > -1){
      elem = Math.floor(Math.random()*maxInputValue);
    }
    inputArr.push(elem);
  }
  return inputArr;
}

Array.prototype.contains = function(obj) {
    var i = this.length;
    while (i--) {
        if (this[i] === obj) {
            return true;
        }
    }
    return false;
}

function ArrayPrinter(arr){
  var csv = 'input = [';
  var i = 0;
  for(i; i<arr.length - 1; i++){
    csv += arr[i] + ', ';
  }
  csv += arr[i];

  var divResult = document.getElementById('divResult');
  divResult.innerHTML += csv + ']<br />';
}

// assumes inner array with single element being '-1' an empty set
function ArrayOfArraysPrinter(arr){
  var csv = 'subsets = ';
  var i = 0;
  for(i; i<arr.length; i++){
    csv += '[';
    var j = 0;
    var inArr = arr[i];
    for(j; j<inArr.length - 1; j++){
      csv += inArr[j] + ', ';
    }
    // array with single element '-1' denotes empty set
    csv += inArr[j] == -1 ? '&lt;E&gt;' : inArr[j];
    csv += ']';
    if(i < arr.length - 1)
      csv += '&nbsp;&nbsp;';
  }

  csv += ' &nbsp; (&#35; of subsets =' + arr.length + ')';

  var divResult = document.getElementById('divResult');
  divResult.innerHTML += csv + '<br />';
}

function Main(){
  // clear output
  document.getElementById('divResult').innerHTML = '';

  // sample run (min = 0)
  document.getElementById('divResult').innerHTML += '<hr/>MIN = 0 (must include empty set)<br />';
  var list = CreateInputList();
  ArrayPrinter(list);
  var subsets = FindAllSubsets(list, 0);
  ArrayOfArraysPrinter(subsets);
  document.getElementById('divResult').innerHTML += '<hr />';

  // sample run (min = 1)
  document.getElementById('divResult').innerHTML += 'MIN = 1<br />'; 
  var list = CreateInputList();
  ArrayPrinter(list);
  var subsets = FindAllSubsets(list, 1);
  ArrayOfArraysPrinter(subsets);
  document.getElementById('divResult').innerHTML += '<hr />';

  // sample run (min = 2)
  document.getElementById('divResult').innerHTML += 'MIN = 2<br />'; 
  var list = CreateInputList();
  ArrayPrinter(list);
  var subsets = FindAllSubsets(list, 2);
  ArrayOfArraysPrinter(subsets);
  document.getElementById('divResult').innerHTML += '<hr />';

  // sample run (min = 3)
  document.getElementById('divResult').innerHTML += 'MIN = 3<br />'; 
  var list = CreateInputList();
  ArrayPrinter(list);
  var subsets = FindAllSubsets(list, 3);
  ArrayOfArraysPrinter(subsets);
  document.getElementById('divResult').innerHTML += '<hr />';

  // sample run (min = 4)
  document.getElementById('divResult').innerHTML += 'MIN = 4<br />'; 
  var list = CreateInputList();
  ArrayPrinter(list);
  var subsets = FindAllSubsets(list, 4);
  ArrayOfArraysPrinter(subsets);
  document.getElementById('divResult').innerHTML += '<hr />';
}

</script>

</head>

<body>
  <input type="button" value="All Subsets" onclick="Main()" />
  <br />
  <br />
  <div id="divResult"></div>
</body>

</html>
share|improve this answer

If element order is important:

// same values, different order:

[1,2]
[2,1]

[1,3]
[3,1]

Then you may also want to consider a permutation.

// ---------------------
// Permutation
// ---------------------
function permutate (src, minLen, maxLen){

    minLen = minLen-1 || 0;
    maxLen = maxLen || src.length+1;
    var Asource = src.slice(); // copy the original so we don't apply results to the original.

    var Aout = [];

    var minMax = function(arr){
        var len = arr.length;
        if(len > minLen && len <= maxLen){
            Aout.push(arr);
        }
    }

    var picker = function (arr, holder, collect) {
        if (holder.length) {
           collect.push(holder);
        }
        var len = arr.length;
        for (var i=0; i<len; i++) {
            var arrcopy = arr.slice();
            var elem = arrcopy.splice(i, 1);
            var result = holder.concat(elem);
            minMax(result);
            if (len) {
                picker(arrcopy, result, collect);
            } else {
                collect.push(result);
            }
        }   
    }

    picker(Asource, [], []);

    return Aout;

}

var combos = permutate(["a", "b", "c"], 2);


for(var i=0; i<combos.length; i++){
    var item = combos[i];
    console.log("combos[" + i + "]" + " = [" + item.toString() + "]");
}

BE WARNED !!! - Your machine can't handle arrays with >10 items.

  • If your array has 9 items, there are nearly 1 million combinations.
  • If your array has 12 items, there are over 1 billion combinations.
  • If your array has 15 items, there are over 3 trillion combinations.
  • If your array has 18 items, there are over 17 quadrillion combinations.
  • If your array has 20 items, there are over 6 quintillion combinations.
  • If your array has 21 items, there are over 138 sextillion combinations.
  • If your array has 22 items, there are over 3 zillion combinations.
share|improve this answer
    
The question asks for combinations, not permutations –  River Tam Jul 3 at 15:17
    
From my understanding, a permutation is the (only?) way to derive all possible combinations. –  bob Jul 9 at 6:09
    
I think that's simply untrue. Create a distinct array of the same size, filled with booleans. Go through all possibilities of that array (each boolean goes through true or false), and, for each possibility, add each "true"'s corresponding value to a set. This will create all combinations in 2^n, but it will not create all permutations. You also didn't describe a process to extract the combinations from the set of permutations, just a way to create a large set of permutations. –  River Tam Jul 9 at 13:26
    
Yup you're right, I was thinking that element order also played a role. (Thinking as if one would want lock combinations rather than a unique value sets.) Permutations take into consideration element order, whereas combinations only seek unique sets. So if the returned sets from a permutation were sorted (individually), there would be many identical results. So now my understanding is better. –  bob Jul 11 at 18:16

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