How to compare arrays in JavaScript?

Question

I'd like to compare two arrays... ideally, efficiently. Nothing fancy, just true if they are identical, and false if not. Not surprisingly, the comparison operator doesn't seem to work.

var a1 = [1,2,3]; var a2 = [1,2,3]; console.log(a1==a2);    // Returns false console.log(JSON.stringify(a1)==JSON.stringify(a2));    // Returns true 

JSON encoding each array does, but is there a faster or "better" way to simply compare arrays without having to iterate through each value?

Answer 1

While this only works for scalar arrays (see note below), it is short:

array1.length === array2.length && array1.every(function(value, index) { return value === array2[index]}) 

Rr, in ECMAScript 6 / CoffeeScript / TypeScript with Arrow Functions:

array1.length === array2.length && array1.every((value, index) => value === array2[index]) 

(Note: 'scalar' here means values that can be compared directly using === . So: numbers, strings, objects by reference, functions by reference. See the MDN reference for more info about the comparison operators).

UPDATE

From what I read from the comments, sorting the array and comparing may give accurate result:

const array2Sorted = array2.slice().sort(); array1.length === array2.length && array1.slice().sort().every(function(value, index) {     return value === array2Sorted[index]; }); 

Eg:

array1 = [2,3,1,4]; array2 = [1,2,3,4]; 

Then the above code would give true

Answer 2

To compare arrays, loop through them and compare every value:

Comparing arrays:

// Warn if overriding existing method if(Array.prototype.equals)     console.warn("Overriding existing Array.prototype.equals. Possible causes: New API defines the method, there's a framework conflict or you've got double inclusions in your code."); // attach the .equals method to Array's prototype to call it on any array Array.prototype.equals = function (array) {     // if the other array is a falsy value, return     if (!array)         return false;      // compare lengths - can save a lot of time      if (this.length != array.length)         return false;      for (var i = 0, l=this.length; i < l; i++) {         // Check if we have nested arrays         if (this[i] instanceof Array && array[i] instanceof Array) {             // recurse into the nested arrays             if (!this[i].equals(array[i]))                 return false;                }                    else if (this[i] != array[i]) {              // Warning - two different object instances will never be equal: {x:20} != {x:20}             return false;            }                }            return true; } // Hide method from for-in loops Object.defineProperty(Array.prototype, "equals", {enumerable: false}); 

Usage:

[1, 2, [3, 4]].equals([1, 2, [3, 2]]) === false; [1, "2,3"].equals([1, 2, 3]) === false; [1, 2, [3, 4]].equals([1, 2, [3, 4]]) === true; [1, 2, 1, 2].equals([1, 2, 1, 2]) === true; 

You may say "But it is much faster to compare strings - no loops..." well, then you should note there ARE loops. First recursive loop that converts Array to string and second, that compares two strings. So this method is faster than use of string.

_{I believe that larger amounts of data should be always stored in arrays, not in objects. However if you use objects, they can be partially compared too.
Here's how:}

Comparing objects:

I've stated above, that two object instances will never be equal, even if they contain same data at the moment:

({a:1, foo:"bar", numberOfTheBeast: 666}) == ({a:1, foo:"bar", numberOfTheBeast: 666})  //false 

This has a reason, since there may be, for example private variables within objects.

However, if you just use object structure to contain data, comparing is still possible:

Object.prototype.equals = function(object2) {     //For the first loop, we only check for types     for (propName in this) {         //Check for inherited methods and properties - like .equals itself         //https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/hasOwnProperty         //Return false if the return value is different         if (this.hasOwnProperty(propName) != object2.hasOwnProperty(propName)) {             return false;         }         //Check instance type         else if (typeof this[propName] != typeof object2[propName]) {             //Different types => not equal             return false;         }     }     //Now a deeper check using other objects property names     for(propName in object2) {         //We must check instances anyway, there may be a property that only exists in object2             //I wonder, if remembering the checked values from the first loop would be faster or not          if (this.hasOwnProperty(propName) != object2.hasOwnProperty(propName)) {             return false;         }         else if (typeof this[propName] != typeof object2[propName]) {             return false;         }         //If the property is inherited, do not check any more (it must be equa if both objects inherit it)         if(!this.hasOwnProperty(propName))           continue;                  //Now the detail check and recursion                  //This returns the script back to the array comparing         /**REQUIRES Array.equals**/         if (this[propName] instanceof Array && object2[propName] instanceof Array) {                    // recurse into the nested arrays            if (!this[propName].equals(object2[propName]))                         return false;         }         else if (this[propName] instanceof Object && object2[propName] instanceof Object) {                    // recurse into another objects                    //console.log("Recursing to compare ", this[propName],"with",object2[propName], " both named \""+propName+"\"");            if (!this[propName].equals(object2[propName]))                         return false;         }         //Normal value comparison for strings and numbers         else if(this[propName] != object2[propName]) {            return false;         }     }     //If everything passed, let's say YES     return true; }   

However, remember that this one is to serve in comparing JSON like data, not class instances and other stuff. If you want to compare more complicated objects, look at this answer and it's super long function.
To make this work with Array.equals you must edit the original function a little bit:

...     // Check if we have nested arrays     if (this[i] instanceof Array && array[i] instanceof Array) {         // recurse into the nested arrays         if (!this[i].equals(array[i]))             return false;     }     /**REQUIRES OBJECT COMPARE**/     else if (this[i] instanceof Object && array[i] instanceof Object) {         // recurse into another objects         //console.log("Recursing to compare ", this[propName],"with",object2[propName], " both named \""+propName+"\"");         if (!this[i].equals(array[i]))             return false;         }     else if (this[i] != array[i]) { ... 

I made a little test tool for both of the functions.

Bonus: Nested arrays with indexOf and contains

Samy Bencherif has prepared useful functions for the case you're searching for a specific object in nested arrays, which are available here: https://jsfiddle.net/SamyBencherif/8352y6yw/