# Idiomatically find the number of occurrences a given value has in an array

I have an array with repeating values. I would like to find the number of occurrences for any given value.

For example, if I have an array defined as so: var dataset = [2,2,4,2,6,4,7,8];, I want to find the number of occurrences of a certain value in the array. That is, the program should show that if I have 3 occurrences of the value 2, 1 occurrence of the value 6, and so on.

What's the most idiomatic/elegant way to do this?

reduce is more appropriate here than filter as it doesn't build a temporary array just for counting.

var dataset = [2,2,4,2,6,4,7,8];
var search = 2;

var count = dataset.reduce(function(n, val) {
return n + (val === search);
}, 0);

console.log(count);

In ES6:

let count = dataset.reduce((n, x) => n + (x === search), 0);


Note that it's easy to extend that to use a custom matching predicate, for example, to count objects that have a specific property:

people = [
{name: 'Mary', gender: 'girl'},
{name: 'Paul', gender: 'boy'},
{name: 'John', gender: 'boy'},
{name: 'Lisa', gender: 'girl'},
{name: 'Bill', gender: 'boy'},
{name: 'Maklatura', gender: 'girl'}
]

var numBoys = people.reduce(function (n, person) {
return n + (person.gender == 'boy');
}, 0);

console.log(numBoys);

Counting all items, that is, making an object like {x:count of xs} is complicated in javascript, because object keys can only be strings, so you can't reliably count an array with mixed types. Still, the following simple solution will work well in most cases:

count = function (ary, classifier) {
classifier = classifier || String;
return ary.reduce(function (counter, item) {
var p = classifier(item);
counter[p] = counter.hasOwnProperty(p) ? counter[p] + 1 : 1;
return counter;
}, {})
};

people = [
{name: 'Mary', gender: 'girl'},
{name: 'Paul', gender: 'boy'},
{name: 'John', gender: 'boy'},
{name: 'Lisa', gender: 'girl'},
{name: 'Bill', gender: 'boy'},
{name: 'Maklatura', gender: 'girl'}
];

// If you don't provide a classifier this simply counts different elements:

cc = count([1, 2, 2, 2, 3, 1]);
console.log(cc);

// With a classifier you can group elements by specific property:

countByGender = count(people, function (item) {
return item.gender
});
console.log(countByGender);

### 2017 update

In ES6, you use the Map object to reliably count objects of arbitrary types.

class Counter extends Map {
constructor(iter, key=null) {
super();
this.key = key || (x => x);
for (let x of iter) {
}
}
x = this.key(x);
this.set(x, (this.get(x) || 0) + 1);
}
}

// again, with no classifier just count distinct elements

results = new Counter([1, 2, 3, 1, 2, 3, 1, 2, 2]);
for (let [number, times] of results.entries())
console.log('%s occurs %s times', number, times);

// counting objects

people = [
{name: 'Mary', gender: 'girl'},
{name: 'John', gender: 'boy'},
{name: 'Lisa', gender: 'girl'},
{name: 'Bill', gender: 'boy'},
{name: 'Maklatura', gender: 'girl'}
];

chessChampions = {
2010: people[0],
2012: people[0],
2013: people[2],
2014: people[0],
2015: people[2],
};

results = new Counter(Object.values(chessChampions));
for (let [person, times] of results.entries())
console.log('%s won %s times', person.name, times);

// you can also provide a classifier as in the above

byGender = new Counter(people, x => x.gender);
for (let g of ['boy', 'girl'])
console.log("there are %s %ss", byGender.get(g), g);

A type-aware implementation of Counter can look like this (Typescript):

type CounterKey = string | boolean | number;

interface CounterKeyFunc<T> {
(item: T): CounterKey;
}

class Counter<T> extends Map<CounterKey, number> {
key: CounterKeyFunc<T>;

constructor(items: Iterable<T>, key: CounterKeyFunc<T>) {
super();
this.key = key;
for (let it of items) {
}
}

let k = this.key(it);
this.set(k, (this.get(k) || 0) + 1);
}
}

// example:

interface Person {
name: string;
gender: string;
}

let people: Person[] = [
{name: 'Mary', gender: 'girl'},
{name: 'John', gender: 'boy'},
{name: 'Lisa', gender: 'girl'},
{name: 'Bill', gender: 'boy'},
{name: 'Maklatura', gender: 'girl'}
];

let byGender = new Counter(people, (p: Person) => p.gender);

for (let g of ['boy', 'girl'])
console.log("there are %s %ss", byGender.get(g), g);

• @thg435 I tried using this and ended up with an undefined value...and also, does the reduce method still preserve the array? I would like to keep the array unchanged. – Shrey Gupta Jun 27 '13 at 2:28
• @Bagavatu: post your code/fiddle. No, reduce doesn't change the array. – georg Jun 27 '13 at 9:12
• @Narshe: added a Typescript example. – georg Apr 8 '19 at 9:39
• That was a very quick response. Thanks a million. I have a question though. The option for the key to be nullable has been lost with the new version. Not sure if intended: constructor(iter, key=null) this.key = key || (x => x); – Narshe Apr 8 '19 at 11:13
• @Narshe: it would be hard to enforce typing for this one, because x=>x is of type T=>T, while the class is designed to accept T=>CounterKey. I'd suggest splitting this into two classes: just Counter (without a callback) and KeyCounter (with a mandatory callback). – georg Apr 8 '19 at 11:41
array.filter(c => c === searchvalue).length;


Here is one way to show ALL counts at once:

var dataset = [2, 2, 4, 2, 6, 4, 7, 8];
var counts = {}, i, value;
for (i = 0; i < dataset.length; i++) {
value = dataset[i];
if (typeof counts[value] === "undefined") {
counts[value] = 1;
} else {
counts[value]++;
}
}
console.log(counts);
// Object {
//    2: 3,
//    4: 2,
//    6: 1,
//    7: 1,
//    8: 1
//}


Newer browsers only due to using Array.filter

var dataset = [2,2,4,2,6,4,7,8];
var search = 2;
var occurrences = dataset.filter(function(val) {
return val === search;
}).length;
console.log(occurrences); // 3

• Or, shorter: occurrences = dataset.filter(v => v === search).length – Ninjakannon May 20 '17 at 23:53
var dataset = [2,2,4,2,6,4,7,8], count = {}

dataset.forEach(function(el){
count[el] = count[el] + 1 || 1
});

console.log(count)

//  {
//    2: 3,
//    4: 2,
//    6: 1,
//    7: 1,
//    8: 1
//  }

• He checks on every loop if the key already exists. If yes increment the current value of the by one. If not insert 1 for this key. – TdoubleG Sep 28 '17 at 9:06

Using a normal loop, you can find the occurrences consistently and reliably:

const dataset = [2,2,4,2,6,4,7,8];

function getNumMatches(array, valToFind) {
let numMatches = 0;
for (let i = 0, j = array.length; i < j; i += 1) {
if (array[i] === valToFind) {
numMatches += 1;
}
}
return numMatches;
}



To make it more generic, the function could accept a predicate function with custom logic (returning true/false) which would determine the final count. For example:

const dataset = [2,2,4,2,6,4,7,8];

function getNumMatches(array, predicate) {
let numMatches = 0;
for (let i = 0, j = array.length; i < j; i += 1) {
const current = array[i];
if (predicate(current) === true) {
numMatches += 1;
}
}
return numMatches;
}

const numFound = getNumMatches(dataset, (item) => {
return item === 2;
});


• +1 For wrapping in a semantically understandable and readable function. Although I would call it getNumMatches or getNumOccurrences. findOccurrences sounds like you're trying to return the occurrences themselves (an array) rather than how many of them there are (a number). – Adam Zerner Feb 23 '18 at 17:52
• Also, as others have mentioned, you can pass in a predicate function instead of a value to test for matches. Demo: repl.it/repls/DecimalFrostyTechnicians – Adam Zerner Feb 23 '18 at 17:57
• @AdamZerner Agreed, thanks for the input. Updated with your recommendations – Ian Feb 23 '18 at 18:05

You can do with use of array.reduce(callback[, initialValue]) method in JavaScript 1.8

var dataset = [2,2,4,2,6,4,7,8],
dataWithCount = dataset.reduce( function( o , v ) {

if ( ! o[ v ] ) {
o[ v ] = 1 ;
}  else {
o[ v ] = o[ v ] + 1;
}

return o ;

}, {} );

// print data with count.
for( var i in  dataWithCount ){
console.log( i + 'occured ' + dataWithCount[i] + 'times ' );
}

// find one number
var search = 2,
count = dataWithCount[ search ] || 0;


You can count all items in an array, in a single line, using reduce.

[].reduce((a,b) => (a[b] = a[b] + 1 || 1) && a, {})


This will yield an object, whose keys are the distinct elements in the array and values are the count of occurences of elements in the array. You can then access one or more of the counts by accessing a corresponding key on the object.

For example if you were to wrap the above in a function called count():

function count(arr) {
return arr.reduce((a,b) => (a[b] = a[b] + 1 || 1) && a, {})
}

count(['example'])          // { example: 1 }
count([2,2,4,2,6,4,7,8])[2] // 3


I've found it more useful to end up with a list of objects with a key for what is being counted and a key for the count:

const data = [2,2,4,2,6,4,7,8]
let counted = []
for (var c of data) {
const alreadyCounted = counted.map(c => c.name)
} else {
counted.push({ 'name': c, 'count': 1})
}
}
console.log(counted)


which returns:

[ { name: 2, count: 3 },
{ name: 4, count: 2 },
{ name: 6, count: 1 },
{ name: 7, count: 1 },
{ name: 8, count: 1 } ]


It isn't the cleanest method, and if anyone knows how to achieve the same result with reduce let me know. However, it does produce a result that's fairly easy to work with.

First, you can go with Brute Force Solution by going with Linear Search.

public int LinearSearchcount(int[] A, int data){
int count=0;
for(int i=0;i<A.length;i++) {
if(A[i]==data) count++;
}
return count;
}


However, for going with this, we get Time complexity as O(n).But by going with Binary search, we can improve our Complexity.