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I am trying to have fun with my buddy who solved the problem mentioned in 8m 7s, and for me it is already 20m gone. I can't figure out how to handle unlimited nested array in javascript.

The problem is this:

// i will be an array, containing integers, strings and/or arrays like itself.
// Sum all the integers you find, anywhere in the nest of arrays.


arraySum([[1,2,false],'4','5']) will return 3 (passed)
arraySum([[1,2,3],4,5]) will return 15 (passed)
arraySum([[[[[[[[[1]]]]]]]], 1]) will return 2 (failed)

The code I wrote is:

function arraySum(i) {

sum = 0;
tmp =0;
for (var a=0; a<i.length; a++){
    if (i[a] instanceof Array) {
        ar = i[a];
        for (var j=0; j<ar.length; j++){
            tmp +=ar[j];
    if (typeof i[a] == "number")
        sum += i[a];
return sum + tmp;


As you can see it does not handle the last situation that I failed as I can't figure out how to handle unlimited nest in JS.

Any idea will be much appreciated. Also try to finish it before 8m 7s, which my buddy finished in.

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Inside of the if (i[a] instanceof Array) { part, you'll have to use recursion, not just a nested loop –  Ian Oct 4 '13 at 14:28

5 Answers 5

Inside of the if (i[a] instanceof Array) { part, you'll have to use recursion to operate on nested arrays with the same arraySum function, not just use another loop. Try this:

var arraySum = (function () {
    "use strict";

    var sumFunc, isArray;

    sumFunc = function (arr) {
        var sum, i, j, cur, toAdd;

        sum = 0;

        for (i = 0, j = arr.length; i < j; i++) {
            cur = arr[i];

            toAdd = 0;
            if (isArray(cur)) {
                toAdd = sumFunc(cur);
            } else if (typeof cur === "number") {
                toAdd = cur;

            sum += toAdd;

        return sum;

    isArray = Array.isArray || function (obj) {
        return Object.prototype.toString.call(obj) === "[object Array]";

    return sumFunc;

DEMO: http://jsfiddle.net/Q7JPM/1

The function just loops through all items in an array, and returns the sum of any numbers found inside. If the item is an array itself, it calls arraySum and passes that array...adding the result to the sum. If it's a number, it simply adds that to the sum.

share|improve this answer
One of the most beautiful pieces of code I have ever seen. –  shash7 Nov 27 '13 at 14:09
@shash7 Thanks, I really appreciate that :) Your comment brought me back here and reminded me of a few things I wanted to change since I posted this answer, so I went ahead and did that! Hopefully they are positive changes –  Ian Nov 28 '13 at 4:39
Could you post the solution in the case you have nested objects with keys referring other collections of objects (..thinking of Organizational Diagrams and hierarchies). Ex. {id: #, children: {collection}}, at many levels. Because I'm trying hard and the collection reference is lost on the 2nd recursion call. Nice post. Thanks. –  Félix Oct 20 '14 at 16:57

You have to use recursion:


function arraySumRec(theArray)
    var sum=0;
    for (var i=0;i<theArray.length;i++)
        if (theArray[i] instanceof Array)
            if (typeof(theArray[i])=="number")
      return sum;

Took me 3 minutes 47 seconds (due to a typo, ha ha).

share|improve this answer
Argh. That "typo" I referred to was presumably the reason someone downvoted me - I didn't save the correct jsFiddle! I have updated to the correct jsfiddle I had meant to link to. Incidentally it would be great if downvoters could leave some kind of comment like "your solution doesn't work". –  Stephen Byrne Oct 4 '13 at 15:29

The Javascript Array reduce method is perfect for solving this kind of problem. The reduce method takes a function with at least two arguments: the accumulator and the current element of the array. In the body of the function, you specify how each element should affect the accumulator. The second argument to the function is the starting value of the accumulator.

function sum(x) {
  return x.reduce(function(accumulator, currentValue) {
    if (typeof currentValue === "number") {
      return accumulator + currentValue;
    } else if (currentValue instanceof Array) {
      return accumulator + sum(currentValue);
    } else {
      return accumulator;
  }, 0);


The function sum takes an array, and the reduce method reduces it to a single value. In the "else if" branch, where we find a nested array, we can simply call sum on it, get back a single value, and add that to our accumulator. In the "else" branch, we haven't found the kinds of values we're interested in so we leave the accumulator unchanged.

The documentation at MDN provides a good explanation of Array reduce with examples.

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function arraySum(i) {
        var l = i.length, sum = 0;
        while (l--) { 
            if (typeof i[l] !== 'number' && !(i[l] instanceof Array)) continue;
            if (i[l] instanceof Array) { sum += arraySum(i[l]); continue; }
            sum += i[l];
        return sum;
share|improve this answer

Non-Recursive using a stack.

        function arraySum(arr) 
            var sum = 0;   

            while(arr.length != 0)
               var value = arr.pop();
               if(value instanceof Array)
                 for (i= 0; i< value.length; ++i) 
               else if(typeof value === "number")
                sum += value;

             return sum;

        var arr = [1, 2, [3, 4, [[[5]]]]];
share|improve this answer

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