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Edit: I'm sorry, but I forgot to mention that I'll need the values of the counter variables. So making one loop isn't a solution I'm afraid.

I'm not sure if this is possible at all, but I would like to do the following. To a function, an array of numbers is passed. Each number is the upper limit of a for loop, for example, if the array is [2, 3, 5], the following code should be executed:

for(var a = 0; a < 2; a++) {
     for(var b = 0; b < 3; b++) {
          for(var c = 0; c < 5; c++) {
                doSomething([a, b, c]);

So the amount of nested for loops is equal to the length of the array. Would there be any way to make this work? I was thinking of creating a piece of code which adds each for loop to a string, and then evaluates it through eval. I've read however that eval should not be one's first choice as it can have dangerous results too.

What technique might be appropriate here?

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So you just want to call some function a number of times which is equal to the product of the numbers in a passed-in array? –  Sean Jan 13 '11 at 18:13
No, I'm sorry. I'll need the variables of the for loops (a, b and c here) as well. –  pimvdb Jan 13 '11 at 18:19

6 Answers 6

up vote 7 down vote accepted

Recursion can solve this problem neatly:

function callManyTimes(maxIndices, func) {
    doCallManyTimes(maxIndices, func, [], 0);

function doCallManyTimes(maxIndices, func, args, index) {
    if (maxIndices.length == 0) {
    } else {
        var rest = maxIndices.slice(1);
        for (args[index] = 0; args[index] < maxIndices[0]; ++args[index]) {
            doCallManyTimes(rest, func, args, index + 1);

Call it like this:

callManyTimes([2,3,5], doSomething);
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Your solution also works like a charm. Actually yours is the cleanest one, and easier to understand for me. Thanks a lot –  pimvdb Jan 13 '11 at 18:35
Great solution, yours is also the fastest one proposed. My (unscientific) testing shows that if we take native nested loop as a benchmark X, then: Sean: 4X, Guffa: 8X, Mike Samuel: 15X, Pointy: 28X. –  serg Mar 23 '13 at 22:15

Set up an array of counters with the same length as the limit array. Use a single loop, and increment the last item in each iteration. When it reaches it's limit you restart it and increment the next item.

function loop(limits) {
  var cnt = new Array(limits.length);
  for (var i = 0; i < cnt.length; i++) cnt[i] = 0;
  var pos;
  do {
    pos = cnt.length - 1;
    while (pos >= 0 && cnt[pos] >= limits[pos]) {
      cnt[pos] = 0;
      if (pos >= 0) cnt[pos]++;
  } while (pos >= 0);
share|improve this answer

Recursion is overkill here. A much faster solution:

function allPossibleCombinations(lengths, fn) {
  var n = lengths.length;

  var indices = [];
  for (var i = n; --i >= 0;) {
    if (lengths[i] === 0) { return; }
    if (lengths[i] !== (lengths[i] & 0x7ffffffff)) { throw new Error(); }
    indices[i] = 0;

  while (true) {
    fn.apply(null, indices);
    // Increment indices.
    ++indices[n - 1];
    for (var j = n; --j >= 0 && indices[j] === lengths[j];) {
      if (j === 0) { return; }
      indices[j] = 0;
      ++indices[j - 1];

allPossibleCombinations([3, 2, 2], function(a, b, c) { console.log(a + ',' + b + ',' + c); })
share|improve this answer
That's a ingenious way, too. Could you possibly explain though what you're doing with 0x7fffffff? –  pimvdb Jan 15 '11 at 10:30
@pimvdb, ensuring that the lengths are non-negative integers so that the indices[j] === lengths[j] check below has a chance of passing. –  Mike Samuel Jan 15 '11 at 17:55

There's no difference between doing three loops of 2, 3, 5, and one loop of 30 (2*3*5).

function doLots (howMany, what) {
    var amount = 0;

    // Aggregate amount
    for (var i=0; i<howMany.length;i++) {
        amount *= howMany[i];

    // Execute that many times.    
    while(i--) {


doLots([2,3,5], doSomething);
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I'm really sorry, but I'm going to need the values of the counter variables too. Although I love your solution, that information get lost. –  pimvdb Jan 13 '11 at 18:16
You beat me to it. Also, what kind of information do you need it for? Can you simply hold all of the integers in the original array you have? Or do you need to have them held in some different way? –  user535617 Jan 13 '11 at 18:19
I'm trying to create a generic multidimensional array function, so I'll need to fill up each combination of indexes with a value. Hence the nested for loops. One for loop makes the indexes get lost and just returns one index (0 - 30 here) –  pimvdb Jan 13 '11 at 18:22

One solution that works without getting complicated programatically would be to take the integers and multiply them all. Since you're only nesting the ifs, and only the innermost one has functionality, this should work:

var product = 0;
for(var i = 0; i < array.length; i++){
    product *= array[i];

for(var i = 0; i < product; i++){


for(var i = 0; i < array.length; i++){
    for(var j = 0; j < array[i]; j++){
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Instead of thinking in terms of nested for loops, think about recursive function invocations. To do your iteration, you'd make the following decision (pseudo code):

if the list of counters is empty
    then "doSomething()"
    for (counter = 0 to first counter limit in the list)
        recurse with the tail of the list

That might look something like this:

function forEachCounter(counters, fn) {
  function impl(counters, curCount) {
    if (counters.length === 0)
    else {
      var limit = counters[0];
      for (var i = 0; i < limit; ++i) {
        curCount[curCount.length - 1] = i;
        impl(counters.slice(1), curCount);
  impl(counters, []);

You'd call the function with an argument that's your list of count limits, and an argument that's your function to execute for each effective count array (the "doSomething" part). The main function above does all the real work in an inner function. In that inner function, the first argument is the counter limit list, which will be "whittled down" as the function is called recursively. The second argument is used to hold the current set of counter values, so that "doSomething" can know that it's on an iteration corresponding to a particular list of actual counts.

Calling the function would look like this:

forEachCounter([4, 2, 5], function(c) { /* something */ });
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That sounds interesting, thanks a lot. –  pimvdb Jan 13 '11 at 18:17

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