Array.prototype.filter()

The filter() method creates a new array with all elements that pass the test implemented by the provided function.

Syntax

// Arrow function
filter((element) => { ... } )
filter((element, index) => { ... } )
filter((element, index, array) => { ... } )

// Callback function
filter(callbackFn)
filter(callbackFn, thisArg)

// Inline callback function
filter(function callbackFn(element) { ... })
filter(function callbackFn(element, index) { ... })
filter(function callbackFn(element, index, array){ ... })
filter(function callbackFn(element, index, array) { ... }, thisArg)

Parameters

callbackFn Function is a predicate, to test each element of the array. Return a value that coerces to true to keep the element, or to false otherwise.

It accepts three arguments:

element The current element being processed in the array.

indexOptional The index of the current element being processed in the array.

arrayOptional The array filter was called upon.

thisArgOptional Value to use as this when executing callbackFn.

Return value

A new array with the elements that pass the test. If no elements pass the test, an empty array will be returned.

Description

filter() calls a provided callbackFn function once for each element in an array, and constructs a new array of all the values for which callbackFn returns a value that coerces to true. callbackFn is invoked only for indexes of the array which have assigned values; it is not invoked for indexes which have been deleted or which have never been assigned values. Array elements which do not pass the callbackFn test are skipped, and are not included in the new array.

callbackFn is invoked with three arguments:

  1. the value of the element
  2. the index of the element
  3. the Array object being traversed

If a thisArg parameter is provided to filter, it will be used as the callback's this value. Otherwise, the value undefined will be used as its this value. The this value ultimately observable by callback is determined according to the usual rules for determining the this seen by a function.

filter() does not mutate the array on which it is called.

The range of elements processed by filter() is set before the first invocation of callbackFn. Elements which are appended to the array (from callbackFn) after the call to filter() begins will not be visited by callbackFn. If existing elements of the array are deleted in the same way they will not be visited.

Polyfill

filter() was added to the ECMA-262 standard in the 5th edition. Therefore, it may not be present in all implementations of the standard.

You can work around this by inserting the following code at the beginning of your scripts, allowing use of filter() in ECMA-262 implementations which do not natively support it. This algorithm is exactly equivalent to the one specified in ECMA-262, 5th edition, assuming that fn.call evaluates to the original value of Function.prototype.bind(), and that Array.prototype.push() has its original value.

if (!Array.prototype.filter){
  Array.prototype.filter = function(func, thisArg) {
    'use strict';
    if ( ! ((typeof func === 'Function' || typeof func === 'function') && this) )
        throw new TypeError();

    var len = this.length >>> 0,
        res = new Array(len), // preallocate array
        t = this, c = 0, i = -1;

    var kValue;
    if (thisArg === undefined){
      while (++i !== len){
        // checks to see if the key was set
        if (i in this){
          kValue = t[i]; // in case t is changed in callback
          if (func(t[i], i, t)){
            res[c++] = kValue;
          }
        }
      }
    }
    else{
      while (++i !== len){
        // checks to see if the key was set
        if (i in this){
          kValue = t[i];
          if (func.call(thisArg, t[i], i, t)){
            res[c++] = kValue;
          }
        }
      }
    }

    res.length = c; // shrink down array to proper size
    return res;
  };
}

Examples

Filtering out all small values

The following example uses filter() to create a filtered array that has all elements with values less than 10 removed.

function isBigEnough(value) {
  return value >= 10
}

let filtered = [12, 5, 8, 130, 44].filter(isBigEnough)
// filtered is [12, 130, 44]

Find all prime numbers in an array

The following example returns all prime numbers in the array:

const array = [-3, -2, -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13];

function isPrime(num) {
  for (let i = 2; num > i; i++) {
    if (num % i == 0) {
      return false;
    }
  }
  return num > 1;
}

console.log(array.filter(isPrime)); // [2, 3, 5, 7, 11, 13]

Filtering invalid entries from JSON

The following example uses filter() to create a filtered json of all elements with non-zero, numeric id.

let arr = [
  { id: 15 },
  { id: -1 },
  { id: 0 },
  { id: 3 },
  { id: 12.2 },
  { },
  { id: null },
  { id: NaN },
  { id: 'undefined' }
]

let invalidEntries = 0

function filterByID(item) {
  if (Number.isFinite(item.id) && item.id !== 0) {
    return true
  }
  invalidEntries++
  return false;
}

let arrByID = arr.filter(filterByID)

console.log('Filtered Array\n', arrByID)
// Filtered Array
// [{ id: 15 }, { id: -1 }, { id: 3 }, { id: 12.2 }]

console.log('Number of Invalid Entries = ', invalidEntries)
// Number of Invalid Entries = 5

Searching in array

Following example uses filter() to filter array content based on search criteria.

let fruits = ['apple', 'banana', 'grapes', 'mango', 'orange']

/**
 * Filter array items based on search criteria (query)
 */
function filterItems(arr, query) {
  return arr.filter(function(el) {
      return el.toLowerCase().indexOf(query.toLowerCase()) !== -1
  })
}

console.log(filterItems(fruits, 'ap'))  // ['apple', 'grapes']
console.log(filterItems(fruits, 'an'))  // ['banana', 'mango', 'orange']

ES2015 Implementation

const fruits = ['apple', 'banana', 'grapes', 'mango', 'orange']

/**
 * Filter array items based on search criteria (query)
 */
const filterItems = (arr, query) => {
  return arr.filter(el => el.toLowerCase().indexOf(query.toLowerCase()) !== -1)
}

console.log(filterItems(fruits, 'ap'))  // ['apple', 'grapes']
console.log(filterItems(fruits, 'an'))  // ['banana', 'mango', 'orange']

Affecting Initial Array (modifying, appending and deleting)

The following examples tests the behavior of the filter method when the array is modified.

// Modifying each words
let words = ['spray', 'limit', 'exuberant', 'destruction','elite', 'present']

const modifiedWords = words.filter( (word, index, arr) => {
  arr[index+1] +=' extra'
  return word.length < 6
})

console.log(modifiedWords)
// Notice there are three words below length 6, but since they've been modified one is returned
// ["spray"]

// Appending new words
words = ['spray', 'limit', 'exuberant', 'destruction','elite', 'present']
const appendedWords = words.filter( (word, index, arr) => {
  arr.push('new')
  return word.length < 6
})

console.log(appendedWords)
// Only three fits the condition even though the `words` itself now has a lot more words with character length less than 6
// ["spray" ,"limit" ,"elite"]

// Deleting words
words = ['spray', 'limit', 'exuberant', 'destruction', 'elite', 'present']
const deleteWords = words.filter( (word, index, arr) => {
  arr.pop()
  return word.length < 6
})

console.log(deleteWords)
// Notice 'elite' is not even obtained as its been popped off `words` before filter can even get there
// ["spray" ,"limit"]