What's the simplest, library-free code for implementing array intersections in javascript? I want to write
intersection([1,2,3], [2,3,4,5])
and get
[2, 3]
What's the simplest, library-free code for implementing array intersections in javascript? I want to write
intersection([1,2,3], [2,3,4,5])
and get
[2, 3]
Use a combination of Array.prototype.filter
and Array.prototype.indexOf
:
array1.filter(value => -1 !== array2.indexOf(value))
Or as vrugtehagel suggested in the comments, you can use the more recent Array.prototype.includes
for even simpler code:
array1.filter(value => array2.includes(value))
For older browsers:
array1.filter(function(n) {
return array2.indexOf(n) !== -1;
});
intersection([1,2,1,1,3], [1])
returns [1, 1, 1]
. Shouldn't it return just [1]
?
– edjroot
Jun 10 '16 at 10:35
array2.indexOf(n) != -1
one can also write array2.includes(n)
for even simpler code.
– vrugtehagel
Jul 26 '16 at 13:44
Destructive seems simplest, especially if we can assume the input is sorted:
/* destructively finds the intersection of
* two arrays in a simple fashion.
*
* PARAMS
* a - first array, must already be sorted
* b - second array, must already be sorted
*
* NOTES
* State of input arrays is undefined when
* the function returns. They should be
* (prolly) be dumped.
*
* Should have O(n) operations, where n is
* n = MIN(a.length, b.length)
*/
function intersection_destructive(a, b)
{
var result = [];
while( a.length > 0 && b.length > 0 )
{
if (a[0] < b[0] ){ a.shift(); }
else if (a[0] > b[0] ){ b.shift(); }
else /* they're equal */
{
result.push(a.shift());
b.shift();
}
}
return result;
}
Non-destructive has to be a hair more complicated, since we’ve got to track indices:
/* finds the intersection of
* two arrays in a simple fashion.
*
* PARAMS
* a - first array, must already be sorted
* b - second array, must already be sorted
*
* NOTES
*
* Should have O(n) operations, where n is
* n = MIN(a.length(), b.length())
*/
function intersect_safe(a, b)
{
var ai=0, bi=0;
var result = [];
while( ai < a.length && bi < b.length )
{
if (a[ai] < b[bi] ){ ai++; }
else if (a[ai] > b[bi] ){ bi++; }
else /* they're equal */
{
result.push(a[ai]);
ai++;
bi++;
}
}
return result;
}
intersect_safe
: length
is a property in Arrays, not a method. There's an undelared variable i
in result.push(a[i]);
. Finally, this simply doesn't work in the general case: two objects where neither is greater than the other according to the >
operator are not necessarily equal. intersect_safe( [ {} ], [ {} ] )
, for example, will give (once the previously mentioned errors are fixed) an array with one element, which is clearly wrong.
– Tim Down
Dec 11 '09 at 11:00
.slice(0)
to create a clone of the array in intersect_safe
, rather than tracking indexes.
– johnluetke
Sep 10 '11 at 23:42
If your environment supports ECMAScript 6 Set, one simple and supposedly efficient (see specification link) way:
function intersect(a, b) {
var setA = new Set(a);
var setB = new Set(b);
var intersection = new Set([...setA].filter(x => setB.has(x)));
return Array.from(intersection);
}
Shorter, but less readable (also without creating the additional intersection Set
):
function intersect(a, b) {
return [...new Set(a)].filter(x => new Set(b).has(x));
}
Avoiding a new Set
from b
every time:
function intersect(a, b) {
var setB = new Set(b);
return [...new Set(a)].filter(x => setB.has(x));
}
Note that when using sets you will only get distinct values, thus new Set[1,2,3,3].size
evaluates to 3
.
[...setA]
syntax? Some special kind of javascript operation?
– jxramos
Jul 21 '17 at 20:01
x => new Set(b).has(x)
arrow function turn b
into a set every time it's executed? You should probably save that set in a variable.
– Aran-Fey
Oct 8 '18 at 10:25
Using Underscore.js or lodash.js
_.intersection( [0,345,324] , [1,0,324] ) // gives [0,324]
My contribution in ES6 terms. In general it finds the intersection of an array with indefinite number of arrays provided as arguments.
Array.prototype.intersect = function(...a) {
return [this,...a].reduce((p,c) => p.filter(e => c.includes(e)));
}
var arrs = [[0,2,4,6,8],[4,5,6,7],[4,6]],
arr = [0,1,2,3,4,5,6,7,8,9];
document.write("<pre>" + JSON.stringify(arr.intersect(...arrs)) + "</pre>");
[[0,1,2,3,4,5,6,7,8,9],[0,2,4,6,8],[4,5,6,7],[4,6]]
and then applies .reduce()
. First [0,1,2,3,4,5,6,7,8,9].filter( e => [0,2,4,6,8].includes(e)
operation is performed and the result becomes the new p
and c
becomes [4,5,6,7]
in the next turn and continues so on up until there is no more c
is left.
– Redu
Apr 11 '18 at 2:37
How about just using associative arrays?
function intersect(a, b) {
var d1 = {};
var d2 = {};
var results = [];
for (var i = 0; i < a.length; i++) {
d1[a[i]] = true;
}
for (var j = 0; j < b.length; j++) {
d2[b[j]] = true;
}
for (var k in d1) {
if (d2[k])
results.push(k);
}
return results;
}
edit:
// new version
function intersect(a, b) {
var d = {};
var results = [];
for (var i = 0; i < b.length; i++) {
d[b[i]] = true;
}
for (var j = 0; j < a.length; j++) {
if (d[a[j]])
results.push(a[j]);
}
return results;
}
Object.prototype
.
– Tim Down
Dec 11 '09 at 10:49
d[b[i]] = true;
instead of d[b[j]] = true;
(i
not j
). But edit requires 6 chars.
– Izhaki
Jul 30 '12 at 1:59
// Return elements of array a that are also in b in linear time:
function intersect(a, b) {
return a.filter(Set.prototype.has, new Set(b));
}
// Example:
console.log(intersect([1,2,3], [2,3,4,5]));
I recommend above succinct solution which outperforms other implementations on large inputs. If performance on small inputs matters, check the alternatives below.
Alternatives and performance comparison:
See the following snippet for alternative implementations and check https://jsperf.com/array-intersection-comparison for performance comparisons.
function intersect_for(a, b) {
const result = [];
const alen = a.length;
const blen = b.length;
for (let i = 0; i < alen; ++i) {
const ai = a[i];
for (let j = 0; j < blen; ++j) {
if (ai === b[j]) {
result.push(ai);
break;
}
}
}
return result;
}
function intersect_filter_indexOf(a, b) {
return a.filter(el => b.indexOf(el) !== -1);
}
function intersect_filter_in(a, b) {
const map = b.reduce((map, el) => {map[el] = true; return map}, {});
return a.filter(el => el in map);
}
function intersect_for_in(a, b) {
const result = [];
const map = {};
for (let i = 0, length = b.length; i < length; ++i) {
map[b[i]] = true;
}
for (let i = 0, length = a.length; i < length; ++i) {
if (a[i] in map) result.push(a[i]);
}
return result;
}
function intersect_filter_includes(a, b) {
return a.filter(el => b.includes(el));
}
function intersect_filter_has_this(a, b) {
return a.filter(Set.prototype.has, new Set(b));
}
function intersect_filter_has_arrow(a, b) {
const set = new Set(b);
return a.filter(el => set.has(el));
}
function intersect_for_has(a, b) {
const result = [];
const set = new Set(b);
for (let i = 0, length = a.length; i < length; ++i) {
if (set.has(a[i])) result.push(a[i]);
}
return result;
}
Results in Firefox 53:
Ops/sec on large arrays (10,000 elements):
filter + has (this) 523 (this answer)
for + has 482
for-loop + in 279
filter + in 242
for-loops 24
filter + includes 14
filter + indexOf 10
Ops/sec on small arrays (100 elements):
for-loop + in 384,426
filter + in 192,066
for-loops 159,137
filter + includes 104,068
filter + indexOf 71,598
filter + has (this) 43,531 (this answer)
filter + has (arrow function) 35,588
a.filter(b.includes)
. It should run considerably quicker (same as your function upgrade).
– SEoF
Feb 6 at 15:06
Something like this, Not tested well though.
function intersection(x,y){
x.sort();y.sort();
var i=j=0;ret=[];
while(i<x.length && j<y.length){
if(x[i]<y[j])i++;
else if(y[j]<x[i])j++;
else {
ret.push(x[i]);
i++,j++;
}
}
return ret;
}
alert(intersection([1,2,3], [2,3,4,5]));
PS:The algorithm only intended for Numbers and Normal Strings, intersection of arbitary object arrays may not work.
The performance of @atk's implementation for sorted arrays of primitives can be improved by using .pop rather than .shift.
function intersect(array1, array2) {
var result = [];
// Don't destroy the original arrays
var a = array1.slice(0);
var b = array2.slice(0);
var aLast = a.length - 1;
var bLast = b.length - 1;
while (aLast >= 0 && bLast >= 0) {
if (a[aLast] > b[bLast] ) {
a.pop();
aLast--;
} else if (a[aLast] < b[bLast] ){
b.pop();
bLast--;
} else /* they're equal */ {
result.push(a.pop());
b.pop();
aLast--;
bLast--;
}
}
return result;
}
I created a benchmark using jsPerf: http://bit.ly/P9FrZK. It's about three times faster to use .pop.
a[aLast] > b[bLast]
with a[aLast].localeCompare(b[bLast]) > 0
(and same with the else if
below) then this will work on strings.
– andrew
Jul 23 '13 at 5:10
.pop
is O(1) and .shift()
is O(n)
– Esailija
Jul 23 '13 at 8:53
Using jQuery:
var a = [1,2,3];
var b = [2,3,4,5];
var c = $(b).not($(b).not(a));
alert(c);
c = $(b).filter(a);
, but I wouldn't recommend relying on jQuery for this sort of array manipulation since the documentation only mentions that it works for elements.
– Stryner
Sep 23 '15 at 18:16
For arrays containing only strings or numbers you can do something with sorting, as per some of the other answers. For the general case of arrays of arbitrary objects I don't think you can avoid doing it the long way. The following will give you the intersection of any number of arrays provided as parameters to arrayIntersection
:
var arrayContains = Array.prototype.indexOf ?
function(arr, val) {
return arr.indexOf(val) > -1;
} :
function(arr, val) {
var i = arr.length;
while (i--) {
if (arr[i] === val) {
return true;
}
}
return false;
};
function arrayIntersection() {
var val, arrayCount, firstArray, i, j, intersection = [], missing;
var arrays = Array.prototype.slice.call(arguments); // Convert arguments into a real array
// Search for common values
firstArray = arrays.pop();
if (firstArray) {
j = firstArray.length;
arrayCount = arrays.length;
while (j--) {
val = firstArray[j];
missing = false;
// Check val is present in each remaining array
i = arrayCount;
while (!missing && i--) {
if ( !arrayContains(arrays[i], val) ) {
missing = true;
}
}
if (!missing) {
intersection.push(val);
}
}
}
return intersection;
}
arrayIntersection( [1, 2, 3, "a"], [1, "a", 2], ["a", 1] ); // Gives [1, "a"];
firstArr
or firstArray
and didn't update all of the references. Fixed.
– Tim Down
Feb 1 '17 at 11:43
It's pretty short using ES2015 and Sets. Accepts Array-like values like a String and removes duplicates.
let intersection = function(a, b) {
a = new Set(a), b = new Set(b);
return [...a].filter(v => b.has(v));
};
console.log(intersection([1,2,1,2,3], [2,3,5,4,5,3]));
console.log(intersection('ccaabbab', 'addb').join(''));
A tiny tweak to the smallest one here (the filter/indexOf solution), namely creating an index of the values in one of the arrays using a JavaScript object, will reduce it from O(N*M) to "probably" linear time. source1 source2
function intersect(a, b) {
var aa = {};
a.forEach(function(v) { aa[v]=1; });
return b.filter(function(v) { return v in aa; });
}
This isn't the very simplest solution (it's more code than filter+indexOf), nor is it the very fastest (probably slower by a constant factor than intersect_safe()), but seems like a pretty good balance. It is on the very simple side, while providing good performance, and it doesn't require pre-sorted inputs.
Another indexed approach able to process any number of arrays at once:
// Calculate intersection of multiple array or object values.
function intersect (arrList) {
var arrLength = Object.keys(arrList).length;
// (Also accepts regular objects as input)
var index = {};
for (var i in arrList) {
for (var j in arrList[i]) {
var v = arrList[i][j];
if (index[v] === undefined) index[v] = 0;
index[v]++;
};
};
var retv = [];
for (var i in index) {
if (index[i] == arrLength) retv.push(i);
};
return retv;
};
It works only for values that can be evaluated as strings and you should pass them as an array like:
intersect ([arr1, arr2, arr3...]);
...but it transparently accepts objects as parameter or as any of the elements to be intersected (always returning array of common values). Examples:
intersect ({foo: [1, 2, 3, 4], bar: {a: 2, j:4}}); // [2, 4]
intersect ([{x: "hello", y: "world"}, ["hello", "user"]]); // ["hello"]
EDIT: I just noticed that this is, in a way, slightly buggy.
That is: I coded it thinking that input arrays cannot itself contain repetitions (as provided example doesn't).
But if input arrays happen to contain repetitions, that would produce wrong results. Example (using below implementation):
intersect ([[1, 3, 4, 6, 3], [1, 8, 99]]);
// Expected: [ '1' ]
// Actual: [ '1', '3' ]
Fortunately this is easy to fix by simply adding second level indexing. That is:
Change:
if (index[v] === undefined) index[v] = 0;
index[v]++;
by:
if (index[v] === undefined) index[v] = {};
index[v][i] = true; // Mark as present in i input.
...and:
if (index[i] == arrLength) retv.push(i);
by:
if (Object.keys(index[i]).length == arrLength) retv.push(i);
Complete example:
// Calculate intersection of multiple array or object values.
function intersect (arrList) {
var arrLength = Object.keys(arrList).length;
// (Also accepts regular objects as input)
var index = {};
for (var i in arrList) {
for (var j in arrList[i]) {
var v = arrList[i][j];
if (index[v] === undefined) index[v] = {};
index[v][i] = true; // Mark as present in i input.
};
};
var retv = [];
for (var i in index) {
if (Object.keys(index[i]).length == arrLength) retv.push(i);
};
return retv;
};
intersect ([[1, 3, 4, 6, 3], [1, 8, 99]]); // [ '1' ]
var v =
line add if (typeof v == 'function') continue;
and it will skip adding functions to the results. Thanks!
– Zsolti
Aug 31 '16 at 7:58
if (typeof v == 'function')
, then we can use its stringification (v.toString()
) as key for the index. But, we need to do something to preserve it intact. The easiest way to do so is simply assign the original function as value instead of a simple boolean true value. But, in that case, the latest deindexaton should be also altered to detect this condition and restore the right value (the function).
– bitifet
Aug 16 '17 at 7:42
function intersection(A,B){
var result = new Array();
for (i=0; i<A.length; i++) {
for (j=0; j<B.length; j++) {
if (A[i] == B[j] && $.inArray(A[i],result) == -1) {
result.push(A[i]);
}
}
}
return result;
}
With some restrictions on your data, you can do it in linear time!
For positive integers: use an array mapping the values to a "seen/not seen" boolean.
function intersectIntegers(array1,array2) {
var seen=[],
result=[];
for (var i = 0; i < array1.length; i++) {
seen[array1[i]] = true;
}
for (var i = 0; i < array2.length; i++) {
if ( seen[array2[i]])
result.push(array2[i]);
}
return result;
}
There is a similar technique for objects: take a dummy key, set it to "true" for each element in array1, then look for this key in elements of array2. Clean up when you're done.
function intersectObjects(array1,array2) {
var result=[];
var key="tmpKey_intersect"
for (var i = 0; i < array1.length; i++) {
array1[i][key] = true;
}
for (var i = 0; i < array2.length; i++) {
if (array2[i][key])
result.push(array2[i]);
}
for (var i = 0; i < array1.length; i++) {
delete array1[i][key];
}
return result;
}
Of course you need to be sure the key didn't appear before, otherwise you'll be destroying your data...
I'll contribute with what has been working out best for me:
if (!Array.prototype.intersect){
Array.prototype.intersect = function (arr1) {
var r = [], o = {}, l = this.length, i, v;
for (i = 0; i < l; i++) {
o[this[i]] = true;
}
l = arr1.length;
for (i = 0; i < l; i++) {
v = arr1[i];
if (v in o) {
r.push(v);
}
}
return r;
};
}
"indexOf" for IE 9.0, chrome, firefox, opera,
function intersection(a,b){
var rs = [], x = a.length;
while (x--) b.indexOf(a[x])!=-1 && rs.push(a[x]);
return rs.sort();
}
intersection([1,2,3], [2,3,4,5]);
//Result: [2,3]
This is probably the simplest one, besides list1.filter(n => list2.includes(n))
var list1 = ['bread', 'ice cream', 'cereals', 'strawberry', 'chocolate']
var list2 = ['bread', 'cherry', 'ice cream', 'oats']
function check_common(list1, list2){
list3 = []
for (let i=0; i<list1.length; i++){
for (let j=0; j<list2.length; j++){
if (list1[i] === list2[j]){
list3.push(list1[i]);
}
}
}
return list3
}
check_common(list1, list2) // ["bread", "ice cream"]
You could use a Set
as thisArg
of Array#filter
and take Set#has
as callback.
function intersection(a, b) {
return a.filter(Set.prototype.has, new Set(b));
}
console.log(intersection([1, 2, 3], [2, 3, 4, 5]));
You can use (for all browsers except IE):
const intersection = array1.filter(element => array2.includes(element));
or for IE :
const intersection = array1.filter(element => array2.indexOf(element) !== -1);
'use strict'
// Example 1
function intersection(a1, a2) {
return a1.filter(x => a2.indexOf(x) > -1)
}
// Example 2 (prototype function)
Array.prototype.intersection = function(arr) {
return this.filter(x => arr.indexOf(x) > -1)
}
const a1 = [1, 2, 3]
const a2 = [2, 3, 4, 5]
console.log(intersection(a1, a2))
console.log(a1.intersection(a2))
A functional approach must consider using only pure functions without side effects, each of which is only concerned with a single job.
These restrictions enhance the composability and reusability of the functions involved.
// small, reusable auxiliary functions
const createSet = xs => new Set(xs);
const filter = f => xs => xs.filter(apply(f));
const apply = f => x => f(x);
// intersection
const intersect = xs => ys => {
const zs = createSet(ys);
return filter(x => zs.has(x)
? true
: false
) (xs);
};
// mock data
const xs = [1,2,2,3,4,5];
const ys = [0,1,2,3,3,3,6,7,8,9];
// run it
console.log( intersect(xs) (ys) );
Please note that the native Set
type is used, which has an advantageous
lookup performance.
Obviously repeatedly occurring items from the first Array
are preserved, while the second Array
is de-duplicated. This may be or may be not the desired behavior. If you need a unique result just apply dedupe
to the first argument:
// auxiliary functions
const apply = f => x => f(x);
const comp = f => g => x => f(g(x));
const afrom = apply(Array.from);
const createSet = xs => new Set(xs);
const filter = f => xs => xs.filter(apply(f));
// intersection
const intersect = xs => ys => {
const zs = createSet(ys);
return filter(x => zs.has(x)
? true
: false
) (xs);
};
// de-duplication
const dedupe = comp(afrom) (createSet);
// mock data
const xs = [1,2,2,3,4,5];
const ys = [0,1,2,3,3,3,6,7,8,9];
// unique result
console.log( intersect(dedupe(xs)) (ys) );
Array
sIf you want to compute the intersection of an arbitrarily number of Array
s just compose intersect
with foldl
. Here is a convenience function:
// auxiliary functions
const apply = f => x => f(x);
const uncurry = f => (x, y) => f(x) (y);
const createSet = xs => new Set(xs);
const filter = f => xs => xs.filter(apply(f));
const foldl = f => acc => xs => xs.reduce(uncurry(f), acc);
// intersection
const intersect = xs => ys => {
const zs = createSet(ys);
return filter(x => zs.has(x)
? true
: false
) (xs);
};
// intersection of an arbitrarily number of Arrays
const intersectn = (head, ...tail) => foldl(intersect) (head) (tail);
// mock data
const xs = [1,2,2,3,4,5];
const ys = [0,1,2,3,3,3,6,7,8,9];
const zs = [0,1,2,3,4,5,6];
// run
console.log( intersectn(xs, ys, zs) );
(expr ? true : false)
is redundant. Use just expr
if actual booleans aren't needed, just truthy/falsy.
– jose_castro_arnaud
Nov 28 '17 at 17:48
For simplicity:
// Usage
const intersection = allLists
.reduce(intersect, allValues)
.reduce(removeDuplicates, []);
// Implementation
const intersect = (intersection, list) =>
intersection.filter(item =>
list.some(x => x === item));
const removeDuplicates = (uniques, item) =>
uniques.includes(item) ? uniques : uniques.concat(item);
// Example Data
const somePeople = [bob, doug, jill];
const otherPeople = [sarah, bob, jill];
const morePeople = [jack, jill];
const allPeople = [...somePeople, ...otherPeople, ...morePeople];
const allGroups = [somePeople, otherPeople, morePeople];
// Example Usage
const intersection = allGroups
.reduce(intersect, allPeople)
.reduce(removeDuplicates, []);
intersection; // [jill]
Benefits:
Drawbacks:
You wouldn't want to use this for 3D engine or kernel work, but if you have problems getting this to run in an event-based app, your design has bigger problems.
.reduce
to build a map, and .filter
to find the intersection. delete
within the .filter
allows us to treat the second array as though it's a unique set.
function intersection (a, b) {
var seen = a.reduce(function (h, k) {
h[k] = true;
return h;
}, {});
return b.filter(function (k) {
var exists = seen[k];
delete seen[k];
return exists;
});
}
I find this approach pretty easy to reason about. It performs in constant time.
If you need to have it handle intersecting multiple arrays:
const intersect = (a, b, ...rest) => {
if (rest.length === 0) return [...new Set(a)].filter(x => new Set(b).has(x));
return intersect(a, intersect(b, ...rest));
};
console.log(intersect([1,2,3,4,5], [1,2], [1, 2, 3,4,5], [2, 10, 1])) // [1,2]
ES6 style simple way.
const intersection = (a, b) => {
const s = new Set(b);
return a.filter(x => s.has(x));
};
Example:
intersection([1, 2, 3], [4, 3, 2]); // [2, 3]
Here is underscore.js implementation:
_.intersection = function(array) {
if (array == null) return [];
var result = [];
var argsLength = arguments.length;
for (var i = 0, length = array.length; i < length; i++) {
var item = array[i];
if (_.contains(result, item)) continue;
for (var j = 1; j < argsLength; j++) {
if (!_.contains(arguments[j], item)) break;
}
if (j === argsLength) result.push(item);
}
return result;
};
Source: http://underscorejs.org/docs/underscore.html#section-62
function getIntersection(arr1, arr2){
var result = [];
arr1.forEach(function(elem){
arr2.forEach(function(elem2){
if(elem === elem2){
result.push(elem);
}
});
});
return result;
}
getIntersection([1,2,3], [2,3,4,5]); // [ 2, 3 ]
Rather using indexOf you can also use Array.protype.includes.
function intersection(arr1, arr2) {
return arr1.filter((ele => {
return arr2.includes(ele);
}));
}
console.log(intersection([1,2,3], [2,3,4,5]));
break
toSimple js loops
increases the ops/sec to ~10M – Richard Aug 30 '12 at 16:17