How to sum all elements in a nested array?

this is an array which is given:

``````let arrayNumbers = [ 5, 7,
[ 4, [2], 8, [1,3], 2 ],
[ 9, [] ],
1, 8
];
``````

and the output must be `50`

This code must be WITHOUT Array.isArray;

``````let sum = 0;
function treeSum(array) {
for (let i = 0; i < array.length; i++) {
if (array[i] === false) {
treeSum(array[i]);
} else {
sum += array[i];
}
}
return sum;
}

treeSum(arrayNumbers);
``````

Help, please with an idea or code, thanks.

• why either "count array elements" or get sum of all? and why `5`? Jan 28, 2020 at 13:34
• `arrayNumbers.flat(Infinity).reduce((a, b) => a + b, 0)` ? Jan 28, 2020 at 13:37
• is 50, im trying to fix this Jan 28, 2020 at 13:37
• Is it worth explaining why you can't use `Array.isArray`? It's supported all the way down to IE9. Jan 28, 2020 at 13:51
• If `Array.isArray` cannot be used, then what else cannot be used either? `flat`, `flatMap`, `reduce`, recursion, `typeof`, `instanceof`, `constructor`, ...? Such requirements make no sense without more context. Jan 28, 2020 at 15:09

You need to use a local `sum` variable as well to prevent duplicate adding of nested sums.

You could check if the item

• is an instance of `Array` with the `instanceof` operator, of

``````function treeSum(array) {
var sum = 0;
for (let i = 0; i < array.length; i++) {
sum += array[i] instanceof Array ? treeSum(array[i]) : array[i];
}
return sum;
}

let arrayNumbers = [5, 7, [4, [2], 8, [1, 3], 2],  [9, []], 1, 8];

console.log(treeSum(arrayNumbers));``````

• has `Array` as `Object#constructor`.

``````function treeSum(array) {
var sum = 0;
for (let i = 0; i < array.length; i++) {
sum += array[i].constructor === Array ? treeSum(array[i]) : array[i];
}
return sum;
}

let arrayNumbers = [5, 7, [4, [2], 8, [1, 3], 2],  [9, []], 1, 8];

console.log(treeSum(arrayNumbers));``````

Flatten and reduce the array as below:-

``````var sum = arrayNumbers.flat(Infinity).reduce((a,b)=>a+b)
``````

You could `flat` the list then use `reduce` method to obtain the sum.

You can use `if (item.map)` condition in order to check if it's array.

``````let arrayNumbers = [ 5, 7,
[ 4, [2], 8, [1,3], 2 ],
[ 9, [] ],
1, 8
];
const flatArray = (arr) => {
const res = []
for (const item of arr) {
if (item.map) {
const subRes = flatArray(item)
res.push(...subRes)
} else {
res.push(item)
}
}
return res;
}
console.log(flatArray(arrayNumbers).reduce((a, b) => a + b));``````

• I cannot do it like this also, that's the problem( Jan 28, 2020 at 13:42
• `Array#reduce` throws an error against an empty array if you don't have an initial value. So you should probably set `0` as an initial value of your reducer. Note that `Number([])` returns `0` so this would be consistent with how JavaScript would convert an empty array into a number. Jan 28, 2020 at 13:42
• @PStarter, I used `if (item.map)` to check if it's array. Jan 28, 2020 at 13:47
• @customcommander, the OP says `This code must be WITHOUT Array.isArray;` Jan 28, 2020 at 13:48
• @customcommander, one possible alternative could be `typeof arr.map === 'function'` Jan 28, 2020 at 13:49

You can use recursion. So you need to check whether iterated element is array. If it is array, then run `sumArray` method again, otherwise you can sum up value:

``````const sumArray = (arr) => {
let sum = 0;
arr.forEach(element => {
if (typeof element != 'number') {
sum += sumArray(element);
} else {
sum += element
return sum;
}
});
return sum;
}

console.log(sumArray(arrayNumbers));
``````

An example:

``````let arrayNumbers = [ 5, 7,
[ 4, [2], 8, [1,3], 2 ],
[ 9, [] ],
1, 8
];

const sumArray = (arr) => {
let sum = 0;
arr.forEach(element => {
if (typeof element != 'number') {
sum += sumArray(element);
} else {
sum += element
return sum;
}
});
return sum;
}

console.log(sumArray(arrayNumbers));``````

you can use the combination of 'join', 'split' and reduce

``````var t =[ 5, 7,
[ 4, [2], 8, [1,3], 2 ],
[ 9, [] ],
1, 8
].join().split(',').reduce(function(a,b) { return parseInt(a?a:"0") + parseInt(b?b:"0")})

console.log(t)``````

A simple trick that will work on any array depth is to `join` to a string.
Then use `match` to get the numbers.
Then `reduce` those numbers to a sum.

Example snippet:

``````let arrayNumbers = [ 5, 7,
[ 4, [2], 8, [1,3], 2 ],
[ 9, [] ],
1, 8
];

let sum = arrayNumbers
.join()
.match(/\d+/g)
.reduce((acc, x) => acc + parseInt(x), 0);

console.log(sum)``````

Recursion version using `Array.prototype.reduce`

``````let arrayNumbers = [5, 7, [4, [2], 8, [1, 3], 2], [9, []], 1, 8];

function treeSum(array) {
return array.reduce(
(sum, n) =>
sum +
(typeof n === "number"
? // n is a number
n
: // n is an array
treeSum(n)),
0
);
}

console.log(treeSum(arrayNumbers) === 50);
``````

Recursion version using `for...of`

``````let arrayNumbers = [5, 7, [4, [2], 8, [1, 3], 2], [9, []], 1, 8];

function treeSum(array, sum = 0) {
for (const n of array) {
sum += typeof n === "number" ? n : treeSum(n);
}
return sum;
}

console.log(treeSum(arrayNumbers) === 50);
``````

Iteration version

``````let arrayNumbers = [5, 7, [4, [2], 8, [1, 3], 2], [9, []], 1, 8];

function treeSum(array) {
let sum = 0;

do {
// not summed values
let values = [];
for (const n of array) {
if (typeof n === "number") sum += n;
else values = values.concat(n);
}
array = values;
} while (array.length > 0);

return sum;
}

console.log(treeSum(arrayNumbers) === 50);
``````

Oneline solution using `Array.prototype.flat`

``````let arrayNumbers = [5, 7, [4, [2], 8, [1, 3], 2], [9, []], 1, 8];

function treeSum(array) {
return array.flat(Infinity).reduce((sum, n) => sum + n, 0);
}

console.log(treeSum(arrayNumbers) === 50);
``````

Use flat function:

``````var flat = arrayNumbers.flat(Infinity);
var sum = flat.reduce((x, y) => x + y);
console.log(sum);
``````
• Why `.flat().flat()` when you can specify a depth? A reducer without an initial value will throw an error if the array is empty. You should specify `0` as an initial value. Jan 28, 2020 at 14:52
• Thanks for the depth suggestion, and will not give error because it is already have value, otherwise you can use the default value Jan 28, 2020 at 15:09