# How to sort an array of integers?

Trying to get the highest and lowest value from an array that I know will contain only integers seems to be harder than I thought.

``````var numArray = [140000, 104, 99];
numArray = numArray.sort();
console.log(numArray)``````

I'd expect this to show `99, 104, 140000`. Instead it shows `104, 140000, 99`. So it seems the sort is handling the values as strings.

Is there a way to get the sort function to sort on the integer value of each array element?

• BTW, if you're sorting lots and lots of integers it will be advantages to use an integer sort algorithm like counting sort. The time counting sort will take to run scales linearly with the size of your array: O(n). Whereas all solutions here use comparison sort which is less efficient: O(n * log n). Commented Jun 8, 2017 at 22:08
• @Web_Designer Counting sort is linear regarding the number range, not the array. For example, sorting [1,1000000] will take more than 2 steps, since the algorithm will have to scan each array index between 1 to 1000000 to see which cell's value is greater than 0. Commented Feb 13, 2018 at 15:05
• @yters Using a hashmap, you can only pay attention to the integers that show up in the array being sorted. This makes the sort linear wrt the array size. Commented Dec 19, 2018 at 14:02
• It's pretty insane that JS still has this bug... Commented Feb 10, 2021 at 10:18
• @user894319twitter it's unreal, I honestly can't call it anything then a bug. If that's in the spec then they specified a bug in the specs. It's a bug. Commented Jun 17, 2022 at 23:26

By default, the sort method sorts elements alphabetically. To sort numerically just add a new method which handles numeric sorts (sortNumber, shown below) -

``````var numArray = [140000, 104, 99];
numArray.sort(function(a, b) {
return a - b;
});

console.log(numArray);``````

Documentation:

Mozilla `Array.prototype.sort()` recommends this compare function for arrays that don't contain Infinity or NaN. (Because `Infinity - Infinity` is NaN, not 0).

Also examples of sorting objects by key.

• Nice. But is there really no out-of-the-box way to get a numerical sort from javascript? Commented Jun 30, 2009 at 10:49
• ahah this is out of the box! But if you're really impractical you can bind functions to the array class class at the very beginning of your javascript: // Array.prototype.sortNormal = function(){return this.sort(function(a,b){return a - b})} // Now calling .sortNormal() on any array will sort it numerically Commented Oct 21, 2013 at 1:22
• Why a-b and not a>b. I suggest the last one in order to avoid operation machine errors Commented Apr 2, 2015 at 13:46
• @Velthune The compare function should return -1, 0 or +1. a>b will only return true or false. Commented Sep 28, 2015 at 10:21
• This code can be shortened using an Arrow Function. `numberArray.sort((a, b) => (a - b));` Yay! I think this is close to the out-of-the-box way. Note: check if your JS engine supports Arrow Functions. Commented Dec 28, 2015 at 9:41

Just building on all of the above answers, they can also be done in one line like this:

``````var numArray = [140000, 104, 99];
numArray = numArray.sort(function (a, b) {  return a - b;  });

//outputs: 99, 104, 140000
``````
• I think you mean in one expression. Commented Dec 4, 2015 at 12:26
• @bodyflex Fixed: `var arr = [140000, 104, 99].sort(function(a,b) { return a-b; });`. Or more compact, in ES6 `let arr = [140000, 104, 99].sort((a,b) => a-b);` Commented May 17, 2016 at 16:18

Passing a comparator function to `sort()` is slower than creating any TypedArray:

``````var numArray = new Float64Array([140000, 104, 99]);
numArray = numArray.sort();
console.log(numArray)``````

• Using a TypedArray speeds up sort by about 5X. If you want to go even faster hpc-algorithms npm package implements Radix Sort and Counting Sort that several answers here suggest. Commented Aug 10, 2019 at 2:26
• @Nikolay D those are unsigned. You can use Int32Array. Commented Sep 5, 2020 at 19:07
• @Gio not sure that is true. Memory requirement is only O(2n) which is only a couple megabytes for an array of million items. As for speed - converting array to typedarray, sorting and converting back is still faster than sorting an array with a function.
– dy_
Commented Oct 31, 2020 at 14:20
• Using custom sorting function sort((a, b) => a - b) is very fast. The only benefit from using a Typed Array comes when dealing with huge arrays and it doesn't support dynamic size or push and instantiating one also takes more time than [] so it all depends on usage. I'd say if you're dealing with less than 20k element arrays don't bother with typed arrays. Commented Sep 12, 2021 at 19:32
• Funny how a bunch of people discuss performance here without (a) providing a runnable benchmark, (b) stating the browser / engine / OS / processor they are using and (c) providing any measured timings (averaged over many runs, also making null-hypothesis testing) Commented Mar 1, 2023 at 19:42

array.sort does a lexicographic sort by default, for a numeric sort, provide your own function. Here's a simple example:

``````function compareNumbers(a, b)
{
return a - b;
}

numArray.sort(compareNumbers);
``````

Also note that sort works "in place", there's no need for the assignment.

• I didn't understand above code, how does "return a - b" does the ascending sorting ? Commented Jul 8, 2019 at 6:58
• if a < b, compareNumbers returns a negative number. If a > b, it will be positive. If equal, it returns 0. Commented Jul 8, 2019 at 14:01
• @AliMertCakar because it only returns true or false, and the comparison function needs to return either a negative number, zero or a positive number. Commented Sep 28, 2020 at 13:54

This answer is equivalent to some of the existing answers, but ECMAScript 6 arrow functions provide a much more compact syntax that allows us to define an inline sort function without sacrificing readability:

``````numArray = numArray.sort((a, b) => a - b);
``````

It is supported in most browsers today.

just do `.sort((a, b) => a - b)` instead of `.sort()` itself. In addition to that the array is sorted in place. So return value does not matter.

``````var numArray = [140000, 104, 99];
numArray.sort((a, b) => a - b);
console.log(numArray)``````

## The reason why the sort function behaves so weird

From the documentation:

[...] the array is sorted according to each character's Unicode code point value, according to the string conversion of each element.

If you print the unicode point values of the array then it will get clear.

``````console.log("140000".charCodeAt(0));
console.log("104".charCodeAt(0));
console.log("99".charCodeAt(0));

//Note that we only look at the first index of the number "charCodeAt(  0  )"``````

This returns: "49, 49, 57".

``````49 (unicode value of first number at 140000)
49 (unicode value of first number at 104)
57 (unicode value of first number at 99)
``````

Now, because 140000 and 104 returned the same values (49) it cuts the first index and checks again:

``````console.log("40000".charCodeAt(0));
console.log("04".charCodeAt(0));

//Note that we only look at the first index of the number "charCodeAt(  0  )"``````

``````52 (unicode value of first number at 40000)
40 (unicode value of first number at 04)
``````

If we sort this, then we will get:

``````40 (unicode value of first number at 04)
52 (unicode value of first number at 40000)
``````

so 104 comes before 140000.

So the final result will be:

``````var numArray = [140000, 104, 99];
numArray = numArray.sort();
console.log(numArray)``````

`104, 140000, 99`

Conclusion:

`sort()` does sorting by only looking at the first index of the numbers. `sort()` does not care if a whole number is bigger than another, it compares the value of the unicode of the digits, and if there are two equal unicode values, then it checks if there is a next digit and compares it as well.

To sort correctly, you have to pass a compare function to `sort()` like explained here.

• Hint: This is only my explanation, I did not actually looked up the code. So don't fully trust this answer. Commented May 31, 2019 at 9:19

Ascending

``````arr.sort((a, b) => a - b);
``````

Descending

``````arr.sort((a, b) => b - a);
``````

Just for fun:

Descending = Ascending + Reverse

``````arr.sort((a, b) => a - b).reverse();
``````

`Array.sort` uses alphabetic sorting by default instead of numeric .

To support numbers, add like following

``````var numArray = [140000, 104, 99];
numArray.sort((a, b) =>  a - b); // <-- Ascending
numArray.sort((a, b) =>  b - a); // <-- Descending
console.log(numArray);
``````

OUTPUT :

I agree with aks, however instead of using

``````return a - b;
``````

You should use

``````return a > b ? 1 : a < b ? -1 : 0;
``````
• Can you explain why anyone should use your more unreadable ternary operation? As far as I can tell it would have the same result. Commented Jan 16, 2015 at 17:05
• This answer also takes equal values into consideration and leaves them in the same place. Commented Feb 3, 2015 at 18:57
• "return a-b" may be adequate for the particular case of this question (javascript, and all input items known to be ints), but personally I prefer the ternary form because it's more canonical-- it works in more cases, in more programming languages, with more data types. E.g. in C, a-b can overflow, leading to the sort endless looping, corrupting memory, crashing, etc. That said, even the ternary form isn't going to work sanely if there are NaNs or mixed types involved. Commented Dec 8, 2015 at 0:21
• The `>` and `<` still compare a and b as strings. Commented Nov 18, 2016 at 11:58
• @stefannew There is one case where this answer returns the correct evaluation for numbers where `a - b` doesnt. Where `a = b = -Infinity`, `a - b = NaN`, but the ternary returns `0`. But this doesn't seem to affect the sort, it still does it perfectly. `(a > b) - (a < b)` is a shorter version that is equivalent to this ternary. Commented Apr 15, 2017 at 20:54

The question has already been answered, the shortest way is to use `sort()` method. But if you're searching for more ways to sort your array of numbers, and you also love cycles, check the following

Insertion sort

Ascending:

``````var numArray = [140000, 104, 99];
for (var i = 0; i < numArray.length; i++) {
var target = numArray[i];
for (var j = i - 1; j >= 0 && (numArray[j] > target); j--) {
numArray[j+1] = numArray[j];
}
numArray[j+1] = target
}
console.log(numArray);``````

Descending:

``````var numArray = [140000, 104, 99];
for (var i = 0; i < numArray.length; i++) {
var target = numArray[i];
for (var j = i - 1; j >= 0 && (numArray[j] < target); j--) {
numArray[j+1] = numArray[j];
}
numArray[j+1] = target
}
console.log(numArray);``````

Selection sort:

Ascending:

``````var numArray = [140000, 104, 99];
for (var i = 0; i < numArray.length - 1; i++) {
var min = i;
for (var j = i + 1; j < numArray.length; j++) {
if (numArray[j] < numArray[min]) {
min = j;
}
}
if (min != i) {
var target = numArray[i];
numArray[i] = numArray[min];
numArray[min] = target;
}
}
console.log(numArray);``````

Descending:

``````var numArray = [140000, 104, 99];
for (var i = 0; i < numArray.length - 1; i++) {
var min = i;
for (var j = i + 1; j < numArray.length; j++) {
if (numArray[j] > numArray[min]) {
min = j;
}
}
if (min != i) {
var target = numArray[i];
numArray[i] = numArray[min];
numArray[min] = target;
}
}
console.log(numArray);``````

Have fun

• Are any of these actually faster for tiny arrays than using `sort()` on a TypedArray like this answer suggests. Certainly they won't be faster for medium to large arrays because these are O(n^2) algorithms. Commented Nov 20, 2019 at 4:43

In JavaScript the sort() method's default behaviour is to sort values in an array alphabetically.

To sort by number you have to define a numeric sort function (which is very easy):

``````...
function sortNumber(a, b)
{
return a - b;
}

numArray = numArray.sort(sortNumber);
``````

Array.prototype.sort() is the go to method for sorting arrays, but there are a couple of issues we need to be aware of.

The sorting order is by default lexicographic and not numeric regardless of the types of values in the array. Even if the array is all numbers, all values will be converted to string and sorted lexicographically.

So should we need to customize the sort() and reverse() method like below.

Referred URL

For sorting numbers inside the array

``````numArray.sort(function(a, b)
{
return a - b;
});
``````

For reversing numbers inside the array

``````numArray.sort(function(a, b)
{
return b - a;
});
``````

Referred URL

The function 'numerically' below serves the purpose of sorting array of numbers numerically in many cases when provided as a callback function:

``````function numerically(a, b){
return a-b;
}

array.sort(numerically);
``````

But in some rare instances, where array contains very large and negative numbers, an overflow error can occur as the result of a-b gets smaller than the smallest number that JavaScript can cope with.

So a better way of writing numerically function is as follows:

``````function numerically(a, b){
if(a < b){
return -1;
} else if(a > b){
return 1;
} else {
return 0;
}
}
``````
• JavaScript numbers are floating-point. IEEE754 defines overflow and underflow rules, including overflow to +-Infinity, and underflow to subnormal or +-0.0. I don't think subtraction of two numbers can underflow to +-0.0 even if they're both large and nearby equal. The difference between two doubles is always representable as another non-zero double (unless it overflows, like `DBL_MIN - DBL_MAX`) but underflow isn't possible. Catastrophic cancellation makes the result imprecise, losing most of its "significant digits", but `a-b` will always be non-zero and have the right sign for a!=b. Commented Nov 20, 2019 at 4:49

to handle undefined, null, and NaN: Null behaves like 0, NaN and undefined goes to end.

``````array = [3, 5, -1, 1, NaN, 6, undefined, 2, null]
array.sort((a,b) => isNaN(a) || a-b)
// [-1, null, 1, 2, 3, 5, 6, NaN, undefined]
``````
• The language spec requires that the compare function always return a number other than NaN when called on any two elements of the array. This function returns NaN when b is NaN or undefined, and when a and b are both Infinity or both -Infinity. Commented Jul 20, 2021 at 5:44
• The idea to check for NaN is not bad but this code doesn't put NaNs to the end Commented Sep 30, 2021 at 15:29

The accepted answer and equivalents like `numArray.sort((a,b) => a - b)` are great when the array contains only numbers without infinities or NaN. They can be extended to handle infinities and NaN like so:

``````numArray.sort((a,b) => (+a || 0) - (+b || 0) || 0);
``````

This sorts NaN (or any non-number, like 'foo' or {}) as if it were 0. The final `|| 0` is needed to handle the case where a and b are equal infinities.

While not required in JavaScript, if you would like the `sort()` `compareFunction` to strictly return -1, 0, or 1 (similar to how the spaceship operator works in PHP), then you can use `Math.sign()`.

The `compareFunction` below strictly returns -1, 0, or 1:

``````numArray.sort((a, b) => Math.sign(a - b));
``````

Note: `Math.sign()` is not supported in Internet Explorer.

For a normal array of elements values only:

``````function sortArrayOfElements(arrayToSort) {
function compareElements(a, b) {
if (a < b)
return -1;
if (a > b)
return 1;
return 0;
}

return arrayToSort.sort(compareElements);
}

e.g. 1:
var array1 = [1,2,545,676,64,2,24]
**output : [1, 2, 2, 24, 64, 545, 676]**

var array2 = ["v","a",545,676,64,2,"24"]
**output: ["a", "v", 2, "24", 64, 545, 676]**
``````

For an array of objects:

``````function sortArrayOfObjects(arrayToSort, key) {
function compareObjects(a, b) {
if (a[key] < b[key])
return -1;
if (a[key] > b[key])
return 1;
return 0;
}

return arrayToSort.sort(compareObjects);
}

e.g. 1: var array1= [{"name": "User4", "value": 4},{"name": "User3", "value": 3},{"name": "User2", "value": 2}]

**output : [{"name": "User2", "value": 2},{"name": "User3", "value": 3},{"name": "User4", "value": 4}]**
``````

## TypeScript variant

``````const compareNumbers = (a: number, b: number): number => a - b

myArray.sort(compareNumbers)
``````

In order to create this kind of sort, you have to pass a function that will check which comes first.

define inside the function which value do you wanna check: `a.id - a.id`

``````        const myJson = [
{ id: 1, name: 'one'},
{ id: 4, name: 'four'},
{ id: 2, name: 'two'},
{ id: 3, name: 'three'}
];

// provide the sort method to check
const myNewSort = myJson.sort(function(a, b) {
return a.id - b.id;
});

console.log('my new sort',myNewSort)``````

Update! Scroll to bottom of answer for `smartSort` prop additive that gives even more fun!
Sorts arrays of anything!

My personal favorite form of this function allows for a param for Ascending, or Descending:

``````function intArraySort(c, a) {
function d(a, b) { return b - a; }
"string" == typeof a && a.toLowerCase();
switch (a) {
default: return c.sort(function(a, b) { return a - b; });
case 1:
case "d":
case "dc":
case "desc":
return c.sort(d)
}
};
``````

Usage as simple as:

``````var ara = function getArray() {
var a = Math.floor(Math.random()*50)+1, b = [];
for (i=0;i<=a;i++) b.push(Math.floor(Math.random()*50)+1);
return b;
}();

//    Ascending
intArraySort(ara);
console.log(ara);

//    Descending
intArraySort(ara, 1);
console.log(ara);

//    Ascending
intArraySort(ara, 'a');
console.log(ara);

//    Descending
intArraySort(ara, 'dc');
console.log(ara);

//    Ascending
intArraySort(ara, 'asc');
console.log(ara);
``````

# jsFiddle

## Or Code Snippet Example Here!

``````function intArraySort(c, a) {
function d(a, b) { return b - a }
"string" == typeof a && a.toLowerCase();
switch (a) {
default: return c.sort(function(a, b) { return a - b });
case 1:
case "d":
case "dc":
case "desc":
return c.sort(d)
}
};

function tableExample() {
var d = function() {
var a = Math.floor(50 * Math.random()) + 1,
b = [];
for (i = 0; i <= a; i++) b.push(Math.floor(50 * Math.random()) + 1);
return b
},
a = function(a) {
var b = \$("<tr/>"),
c = \$("<th/>").prependTo(b);
\$("<td/>", {
text: intArraySort(d(), a).join(", ")
}).appendTo(b);
switch (a) {
case 1:
case "d":
case "dc":
case "desc":
break;
default:
}
return b
};
return \$("tbody").empty().append(a(), a(1), a(), a(1), a(), a(1), a(), a(1), a(), a(1), a(), a(1))
};

tableExample();``````
``````table { border-collapse: collapse; }
th, td { border: 1px solid; padding: .25em .5em; vertical-align: top; }
.asc { color: red; }
.desc { color: blue }``````
``````<script src="https://ajax.googleapis.com/ajax/libs/jquery/1.9.1/jquery.min.js"></script>
<table><tbody></tbody></table>``````

# .smartSort('asc' | 'desc')

Now have even more fun with a sorting method that sorts an array full of multiple items! Doesn't currently cover "associative" (aka, string keys), but it does cover about every type of value! Not only will it sort the multiple values `asc` or `desc` accordingly, but it will also maintain constant "position" of "groups" of values. In other words; ints are always first, then come strings, then arrays (yes, i'm making this multidimensional!), then Objects (unfiltered, element, date), & finally undefineds and nulls!

Now comes in 2 flavors! The first of which requires newer browsers as it uses `Object.defineProperty` to add the method to the `Array.protoype` Object. This allows for ease of natural use, such as: `myArray.smartSort('a')`. If you need to implement for older browsers, or you simply don't like modifying native Objects, scroll down to Method Only version.

``````/* begin */
/* KEY NOTE! Requires EcmaScript 5.1 (not compatible with older browsers) */
;;(function(){if(Object.defineProperty&&!Array.prototype.smartSort){var h=function(a,b){if(null==a||void 0==a)return 1;if(null==b||void 0==b)return-1;var c=typeof a,e=c+typeof b;if(/^numbernumber\$/ig.test(e))return a-b;if(/^stringstring\$/ig.test(e))return a>b;if(/(string|number){2}/ig.test(e))return/string/i.test(c)?1:-1;if(/number/ig.test(e)&&/object/ig.test(e)||/string/ig.test(e)&&/object/ig.test(e))return/object/i.test(c)?1:-1;if(/^objectobject\$/ig.test(e)){a instanceof Array&&a.smartSort("a");b instanceof Array&&b.smartSort("a");if(a instanceof Date&&b instanceof Date)return a-b;if(a instanceof Array&&b instanceof Array){var e=Object.keys(a),g=Object.keys(b),e=e.concat(g).smartSort("a"),d;for(d in e)if(c=e[d],a[c]!=b[c])return d=[a[c],b[c]].smartSort("a"),a[c]==d[0]?-1:1;var f=[a[Object.keys(a)[0]],b[Object.keys(b)[0]]].smartSort("a");return a[Object.keys(a)[0]]==f[0]?-1:1}if(a instanceof Element&&b instanceof Element){if(a.tagName==b.tagName)return e=[a.id,b.id].smartSort("a"),a.id==e[0]?1:-1;e=[a.tagName, b.tagName].smartSort("a");return a.tagName==e[0]?1:-1}if(a instanceof Date||b instanceof Date)return a instanceof Date?1:-1;if(a instanceof Array||b instanceof Array)return a instanceof Array?-1:1;e=Object.keys(a);g=Object.keys(b);e.concat(g).smartSort("a");for(c=0;20>c;c++){d=e[c];f=g[c];if(a.hasOwnProperty(d)&&b.hasOwnProperty(f)){if(a[d]instanceof Element&&b[f]instanceof Element){if(a[d].tagName==b[f].tagName)return c=[a[d].id,b[f].id].smartSort("a"),a[d].id==c[0]?-1:1;c=[a[d].tagName,b[f].tagName].smartSort("d"); return a[d].tagName==c[0]?1:-1}if(a[d]instanceof Element||b[f]instanceof Element)return a[d]instanceof Element?1:-1;if(a[d]!=b[f])return c=[a[d],b[f]].smartSort("a"),a[d]==c[0]?-1:1}if(a.hasOwnProperty(d)&&a[d]instanceof Element)return 1;if(b.hasOwnProperty(f)&&b[f]instanceof Element||!a.hasOwnProperty(d))return-1;if(!b.hasOwnProperty(d))return 1}c=[a[Object.keys(a)[0]],b[Object.keys(b)[0]]].smartSort("d");return a[Object.keys(a)[0]]==c[0]?-1:1}g=[a,b].sort();return g[0]>g[1]},k=function(a,b){if(null== a||void 0==a)return 1;if(null==b||void 0==b)return-1;var c=typeof a,e=c+typeof b;if(/^numbernumber\$/ig.test(e))return b-a;if(/^stringstring\$/ig.test(e))return b>a;if(/(string|number){2}/ig.test(e))return/string/i.test(c)?1:-1;if(/number/ig.test(e)&&/object/ig.test(e)||/string/ig.test(e)&&/object/ig.test(e))return/object/i.test(c)?1:-1;if(/^objectobject\$/ig.test(e)){a instanceof Array&&a.smartSort("d");b instanceof Array&&b.smartSort("d");if(a instanceof Date&&b instanceof Date)return b-a;if(a instanceof Array&&b instanceof Array){var e=Object.keys(a),g=Object.keys(b),e=e.concat(g).smartSort("a"),d;for(d in e)if(c=e[d],a[c]!=b[c])return d=[a[c],b[c]].smartSort("d"),a[c]==d[0]?-1:1;var f=[a[Object.keys(a)[0]],b[Object.keys(b)[0]]].smartSort("d");return a[Object.keys(a)[0]]==f[0]?-1:1}if(a instanceof Element&&b instanceof Element){if(a.tagName==b.tagName)return e=[a.id,b.id].smartSort("d"),a.id==e[0]?-1:1;e=[a.tagName,b.tagName].smartSort("d");return a.tagName==e[0]?-1:1}if(a instanceof Date||b instanceof Date)return a instanceof Date?1:-1;if(a instanceof Array||b instanceof Array)return a instanceof Array?-1:1;e=Object.keys(a);g=Object.keys(b);e.concat(g).smartSort("a");for(c=0;20>c;c++){d=e[c];f=g[c];if(a.hasOwnProperty(d)&&b.hasOwnProperty(f)){if(a[d]instanceof Element&&b[f]instanceof Element){if(a[d].tagName==b[f].tagName)return c=[a[d].id,b[f].id].smartSort("d"),a[d].id==c[0]?-1:1;c=[a[d].tagName,b[f].tagName].smartSort("d");return a[d].tagName==c[0]?-1:1}if(a[d]instanceof Element||b[f]instanceof Element)return a[d]instanceof Element?1:-1;if(a[d]!=b[f])return c=[a[d],b[f]].smartSort("d"),a[d]==c[0]?-1:1}if(a.hasOwnProperty(d)&&a[d]instanceof Element)return 1;if(b.hasOwnProperty(f)&&b[f]instanceof Element)return-1;if(!a.hasOwnProperty(d))return 1;if(!b.hasOwnProperty(d))return-1}c=[a[Object.keys(a)[0]],b[Object.keys(b)[0]]].smartSort("d");return a[Object.keys(a)[0]]==c[0]?-1:1}g=[a,b].sort();return g[0]<g[1]};Object.defineProperty(Array.prototype,"smartSort",{value:function(){return arguments&& (!arguments.length||1==arguments.length&&/^a([sc]{2})?\$|^d([esc]{3})?\$/i.test(arguments[0]))?this.sort(!arguments.length||/^a([sc]{2})?\$/i.test(arguments[0])?h:k):this.sort()}})}})();
/* end */
``````

## jsFiddle Array.prototype.smartSort('asc|desc')

Use is simple! First make some crazy array like:

``````window.z = [ 'one', undefined, \$('<span />'), 'two', null, 2, \$('<div />', { id: 'Thing' }), \$('<div />'), 4, \$('<header />') ];
z.push(new Date('1/01/2011'));
z.push('three');
z.push(undefined);
z.push([ 'one', 'three', 'four' ]);
z.push([ 'one', 'three', 'five' ]);
z.push({ a: 'a', b: 'b' });
z.push({ name: 'bob', value: 'bill' });
z.push(new Date());
z.push({ john: 'jill', jack: 'june' });
z.push([ 'abc', 'def', [ 'abc', 'def', 'cba' ], [ 'cba', 'def', 'bca' ], 'cba' ]);
z.push([ 'cba', 'def', 'bca' ]);
z.push({ a: 'a', b: 'b', c: 'c' });
z.push({ a: 'a', b: 'b', c: 'd' });
``````

Then simply sort it!

``````z.smartSort('asc'); // Ascending
z.smartSort('desc'); // Descending
``````

## Method Only

Same as the preceding, except as just a simple method!

``````/* begin */
/* KEY NOTE! Method `smartSort` is appended to native `window` for global use. If you'd prefer a more local scope, simple change `window.smartSort` to `var smartSort` and place inside your class/method */
window.smartSort=function(){if(arguments){var a,b,c;for(c in arguments)arguments[c]instanceof Array&&(a=arguments[c],void 0==b&&(b="a")),"string"==typeof arguments[c]&&(b=/^a([sc]{2})?\$/i.test(arguments[c])?"a":"d");if(a instanceof Array)return a.sort("a"==b?smartSort.asc:smartSort.desc)}return this.sort()};smartSort.asc=function(a,b){if(null==a||void 0==a)return 1;if(null==b||void 0==b)return-1;var c=typeof a,e=c+typeof b;if(/^numbernumber\$/ig.test(e))return a-b;if(/^stringstring\$/ig.test(e))return a> b;if(/(string|number){2}/ig.test(e))return/string/i.test(c)?1:-1;if(/number/ig.test(e)&&/object/ig.test(e)||/string/ig.test(e)&&/object/ig.test(e))return/object/i.test(c)?1:-1;if(/^objectobject\$/ig.test(e)){a instanceof Array&&a.sort(smartSort.asc);b instanceof Array&&b.sort(smartSort.asc);if(a instanceof Date&&b instanceof Date)return a-b;if(a instanceof Array&&b instanceof Array){var e=Object.keys(a),g=Object.keys(b),e=smartSort(e.concat(g),"a"),d;for(d in e)if(c=e[d],a[c]!=b[c])return d=smartSort([a[c], b[c]],"a"),a[c]==d[0]?-1:1;var f=smartSort([a[Object.keys(a)[0]],b[Object.keys(b)[0]]],"a");return a[Object.keys(a)[0]]==f[0]?-1:1}if(a instanceof Element&&b instanceof Element){if(a.tagName==b.tagName)return e=smartSort([a.id,b.id],"a"),a.id==e[0]?1:-1;e=smartSort([a.tagName,b.tagName],"a");return a.tagName==e[0]?1:-1}if(a instanceof Date||b instanceof Date)return a instanceof Date?1:-1;if(a instanceof Array||b instanceof Array)return a instanceof Array?-1:1;e=Object.keys(a);g=Object.keys(b);smartSort(e.concat(g), "a");for(c=0;20>c;c++){d=e[c];f=g[c];if(a.hasOwnProperty(d)&&b.hasOwnProperty(f)){if(a[d]instanceof Element&&b[f]instanceof Element){if(a[d].tagName==b[f].tagName)return c=smartSort([a[d].id,b[f].id],"a"),a[d].id==c[0]?-1:1;c=smartSort([a[d].tagName,b[f].tagName],"a");return a[d].tagName==c[0]?-1:1}if(a[d]instanceof Element||b[f]instanceof Element)return a[d]instanceof Element?1:-1;if(a[d]!=b[f])return c=smartSort([a[d],b[f]],"a"),a[d]==c[0]?-1:1}if(a.hasOwnProperty(d)&&a[d]instanceof Element)return 1; if(b.hasOwnProperty(f)&&b[f]instanceof Element||!a.hasOwnProperty(d))return-1;if(!b.hasOwnProperty(d))return 1}c=smartSort([a[Object.keys(a)[0]],b[Object.keys(b)[0]]],"a");return a[Object.keys(a)[0]]==c[0]?1:-1}g=[a,b].sort();return g[0]>g[1]};smartSort.desc=function(a,b){if(null==a||void 0==a)return 1;if(null==b||void 0==b)return-1;var c=typeof a,e=c+typeof b;if(/^numbernumber\$/ig.test(e))return b-a;if(/^stringstring\$/ig.test(e))return b>a;if(/(string|number){2}/ig.test(e))return/string/i.test(c)? 1:-1;if(/number/ig.test(e)&&/object/ig.test(e)||/string/ig.test(e)&&/object/ig.test(e))return/object/i.test(c)?1:-1;if(/^objectobject\$/ig.test(e)){a instanceof Array&&a.sort(smartSort.desc);b instanceof Array&&b.sort(smartSort.desc);if(a instanceof Date&&b instanceof Date)return b-a;if(a instanceof Array&&b instanceof Array){var e=Object.keys(a),g=Object.keys(b),e=smartSort(e.concat(g),"a"),d;for(d in e)if(c=e[d],a[c]!=b[c])return d=smartSort([a[c],b[c]],"d"),a[c]==d[0]?-1:1;var f=smartSort([a[Object.keys(a)[0]], b[Object.keys(b)[0]]],"d");return a[Object.keys(a)[0]]==f[0]?-1:1}if(a instanceof Element&&b instanceof Element){if(a.tagName==b.tagName)return e=smartSort([a.id,b.id],"d"),a.id==e[0]?-1:1;e=smartSort([a.tagName,b.tagName],"d");return a.tagName==e[0]?-1:1}if(a instanceof Date||b instanceof Date)return a instanceof Date?1:-1;if(a instanceof Array||b instanceof Array)return a instanceof Array?-1:1;e=Object.keys(a);g=Object.keys(b);smartSort(e.concat(g),"a");for(c=0;20>c;c++){d=e[c];f=g[c];if(a.hasOwnProperty(d)&& b.hasOwnProperty(f)){if(a[d]instanceof Element&&b[f]instanceof Element){if(a[d].tagName==b[f].tagName)return c=smartSort([a[d].id,b[f].id],"d"),a[d].id==c[0]?-1:1;c=smartSort([a[d].tagName,b[f].tagName],"d");return a[d].tagName==c[0]?-1:1}if(a[d]instanceof Element||b[f]instanceof Element)return a[d]instanceof Element?1:-1;if(a[d]!=b[f])return c=smartSort([a[d],b[f]],"d"),a[d]==c[0]?-1:1}if(a.hasOwnProperty(d)&&a[d]instanceof Element)return 1;if(b.hasOwnProperty(f)&&b[f]instanceof Element)return-1; if(!a.hasOwnProperty(d))return 1;if(!b.hasOwnProperty(d))return-1}c=smartSort([a[Object.keys(a)[0]],b[Object.keys(b)[0]]],"d");return a[Object.keys(a)[0]]==c[0]?-1:1}g=[a,b].sort();return g[0]<g[1]}
/* end */
``````

Use:

``````z = smartSort(z, 'asc'); // Ascending
z = smartSort(z, 'desc'); // Descending
``````

## jsFiddle Method smartSort(Array, "asc|desc")

Try this code:

HTML:

``````<div id="demo"></div>
``````

JavaScript code:

``````<script>
(function(){
var points = [40, 100, 1, 5, 25, 10];
document.getElementById("demo").innerHTML = points;
points.sort(function(a, b){return a-b});
document.getElementById("demo").innerHTML = points;
})();
</script>
``````

Try this code as below

``````var a = [5, 17, 29, 48, 64, 21];
function sortA(arr) {
return arr.sort(function(a, b) {
return a - b;
})
;}
``````

You can sort number array simply by

``````const num=[13,17,14,19,16];
let temp;
for(let i=0;i<num.length;i++){
for(let j=i+1;j<num.length;j++){
if(num[i]>num[j]){
temp=num[i]
num[i]=num[j]
num[j]=temp
}
}
}

console.log(num);``````

• Question is how to sort numbers using array method sort(). Commented May 14, 2022 at 6:39
• i cannot see something like that in the question Commented Jul 25, 2022 at 13:59

You can get height and lowest number simply by using max() and min() in-built function

``````var numArray = [140000, 104, 99];
console.log(Math.max(...numArray));
console.log(Math.min(...numArray));
``````

If you want to sort in ascending or descending order

``````numArray.sort((a, b)=> a - b);
``````

Know more

``````let grade =[80,100,50,90,40];

As sort method converts Array elements into string. So, below way also works fine with decimal numbers with array elements.

``````let productPrices = [10.33, 2.55, 1.06, 5.77];
console.log(productPrices.sort((a,b)=>a-b));
``````

And gives you the expected result.

• “As sort method converts Array elements into string.” — No, it doesn’t. Commented Jul 21, 2020 at 2:42

Sort integers > 0, think outside the box:

``````function sortArray(arr) {
return new Promise((resolve) => {
const result = []
arr.forEach((item) => {
setTimeout(() => {
result.push(item)
if (result.length === arr.length) resolve(result)
}, item)
})
})
}

sortArray([4, 2, 42, 128, 56, 2]).then((result) => {
document.write(JSON.stringify(result))
})``````

Note that this should not be used productively, `.sort()` is better suited for this, check the other answers

• Can you explain why to use asynchronous call to sort numbers? Commented May 14, 2022 at 6:43

sort_mixed

``````Object.defineProperty(Array.prototype,"sort_mixed",{
value: function () { // do not use arrow function
var N = [], L = [];
this.forEach(e => {
Number.isFinite(e) ? N.push(e) : L.push(e);
});
N.sort((a, b) => a - b);
L.sort();
[...N, ...L].forEach((v, i) => this[i] = v);
return this;
})
``````

try `a =[1,'u',"V",10,4,"c","A"].sort_mixed(); console.log(a) `

If anyone doesn't understand how `Array.sort()` works with integers, read this answer.

Alphabetical order:

By default, the sort() method sorts the values as strings in alphabetical and ascending order.

``````const myArray = [104, 140000, 99];
myArray.sort();
console.log(myArray); // output is [104, 140000, 99]
``````

Ascending order with `array.sort(compareFunction)`:

``````const myArray = [104, 140000, 99];
myArray.sort(function(a, b){
return a - b;
});
console.log(myArray); // output is [99, 104, 140000]
``````

Explanation from w3schools:

`compareFunction` defines an alternative sort order. The function should return a negative, zero, or positive value, depending on the arguments, like: function(a, b){return a-b} When the sort() method compares two values, it sends the values to the compare function, and sorts the values according to the returned (negative, zero, positive) value.

Example:

When comparing 40 and 100, the sort() method calls the compare function(40,100).

The function calculates 40-100, and returns -60 (a negative value).

The sort function will sort 40 as a value lower than 100.

Descending order with `array.sort(compareFunction)`:

``````const myArray = [104, 140000, 99];
myArray.sort(function(a, b){
return b - a;
});
console.log(myArray); // output is [140000, 104, 99]
``````

This time we calculated with `b - a`(i.e., 100-40) which returns a positive value.