# Check if every element in one array is in a second array

I have two arrays and I want to check if every element in `arr2` is in `arr1`. If the value of an element is repeated in `arr2`, it needs to be in `arr1` an equal number of times. What's the best way of doing this?

``````arr1 = [1, 2, 3, 4]
arr2 = [1, 2]

checkSuperbag(arr1, arr2)
> true //both 1 and 2 are in arr1

arr1 = [1, 2, 3, 4]
arr2 = [1, 2, 5]

checkSuperbag(arr1, arr2)
> false //5 is not in arr1

arr1 = [1, 2, 3]
arr2 = [1, 2, 3, 3]

checkSuperbag(arr1, arr2)
> false //3 is not in arr1 twice
``````
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The last example should be returning false. If the 2 arrays have the same length, there is no super/subset. mathworld.wolfram.com/Superset.html –  Bakudan Dec 25 '11 at 3:41
Sets cannot contain duplicate elements, so the concept of determining when something is a superset under these conditions doesn't make much sense. –  Adam Rackis Dec 25 '11 at 3:52
The last example should be `true`, for two reasons: (1) repetition doesn't matter in sets: `{1,1} = {1}`. (2) A set is its own subset and superset; if the two aren't supposed to be equal, they're called "proper subset" and "proper superset". –  outis Dec 25 '11 at 4:16
@AdamRackis sorry I don't mean superset then, what is a better term? –  Harry Dec 25 '11 at 4:34
"Bag" is sometimes used to refer to unordered collections that allow for repetition. –  outis Dec 25 '11 at 4:41

One option is to sort the two arrays, then traverse both, comparing elements. If an element in the sub-bag candidate is not found in the super-bag, the former is not a sub-bag. Sorting is generally O(n*log(n)) and the comparison is O(max(s,t)), where s and t are the array sizes, for a total time complexity of O(m*log(m)), where m=max(s,t).

``````function superbag(sup, sub) {
sup.sort();
sub.sort();
var i, j;
for (i=0,j=0; i<sup.length && j<sub.length;) {
if (sup[i] < sub[j]) {
++i;
} else if (sup[i] == sub[j]) {
++i; ++j;
} else {
// sub[j] not in sup, so sub not subbag
return false;
}
}
// make sure there are no elements left in sub
return j == sub.length;
}
``````

If the elements in the actual code are integers, you can use a special-purpose integer sorting algorithm (such as radix sort) for an overall O(max(s,t)) time complexity, though if the bags are small, the built-in `Array.sort` will likely run faster than a custom integer sort.

A solution with potentially lesser time-complexity is to create a bag type. Integer bags are particularly easy. Flip the existing arrays for the bags: create an object or an array with the integers as keys and a repeat count for values. Using an array won't waste space by creating as arrays are sparse in Javascript. You can use bag operations for sub-bag or super-bag checks. For example, subtract the super from the sub candidate and test if the result non-empty. Alternatively, the `contains` operation should be O(1) (or possibly O(log(n))), so looping over the sub-bag candidate and testing if the super-bag containment exceeds the sub-bag's containment for each sub-bag element should be O(n) or O(n*log(n)).

The following is untested. Implementation of `isInt` left as an exercise.

``````function IntBag(from) {
if (from instanceof IntBag) {
return from.clone();
} else if (from instanceof Array) {
for (var i=0; i < from.length) {
}
} else if (from) {
for (p in from) {
/* don't test from.hasOwnProperty(p); all that matters
is that p and from[p] are ints
*/
if (isInt(p) && isInt(from[p])) {
}
}
}
}
IntBag.prototype=[];
IntBag.prototype.size=0;
IntBag.prototype.clone = function() {
var clone = new IntBag();
this.each(function(i, count) {
});
return clone;
};
IntBag.prototype.contains = function(i) {
if (i in this) {
return this[i];
}
return 0;
};
if (!count) {
count = 1;
}
if (i in this) {
this[i] += count;
} else {
this[i] = count;
}
this.size += count;
};
IntBag.prototype.remove = function(i, count) {
if (! i in this) {
return;
}
if (!count) {
count = 1;
}
this[i] -= count;
if (this[i] > 0) {
// element is still in bag
this.size -= count;
} else {
// remove element entirely
this.size -= count + this[i];
delete this[i];
}
};
IntBag.prototype.each = function(f) {
var i;
foreach (i in this) {
f(i, this[i]);
}
};
IntBag.prototype.find = function(p) {
var result = [];
var i;
foreach (i in this.elements) {
if (p(i, this[i])) {
return i;
}
}
return null;
};
IntBag.prototype.sub = function(other) {
other.each(function(i, count) {
this.remove(i, count);
});
return this;
};
IntBag.prototype.union = function(other) {
var union = this.clone();
other.each(function(i, count) {
if (union.contains(i) < count) {
}
});
return union;
};
IntBag.prototype.intersect = function(other) {
var intersection = new IntBag();
this.each(function (i, count) {
if (other.contains(i)) {
}
});
return intersection;
};
IntBag.prototype.diff = function(other) {
var mine = this.clone();
mine.sub(other);
var others = other.clone();
others.sub(this);
mine.union(others);
return mine;
};
IntBag.prototype.subbag = function(super) {
return this.size <= super.size
&& null !== this.find(
function (i, count) {
return super.contains(i) < this.contains(i);
}));
};
``````

See also "comparing javascript arrays" for an example implementation of a set of objects, should you ever wish to disallow repetition of elements.

-
You saved me a lot of hassle! Thanks! –  Dara Javaherian Apr 17 '13 at 13:09

Do you have to support crummy browsers? If not, the every function should make this easy.

If arr1 is a superset of arr2, then each member in arr2 must be present in arr1

``````var isSuperset = arr2.every(function(val) { return arr1.indexOf(val) >= 0; });
``````

Here's a fiddle

EDIT

So you're defining superset such that for each element in arr2, it occurs in arr1 the same number of times? I think filter will help you do that (grab the shim from the preceding MDN link to support older browsers):

``````var isSuperset = arr2.every(function (val) {
var numIn1 = arr1.filter(function(el) { return el === val;  }).length;
var numIn2 = arr2.filter(function(el) { return el === val;  }).length;
return numIn1 === numIn2;
});
``````

Updated Fiddle

END EDIT

If you do want to support older browsers, the MDN link above has a shim you can add, which I reproduce here for your convenience:

``````if (!Array.prototype.every)
{
Array.prototype.every = function(fun /*, thisp */)
{
"use strict";

if (this == null)
throw new TypeError();

var t = Object(this);
var len = t.length >>> 0;
if (typeof fun != "function")
throw new TypeError();

var thisp = arguments[1];
for (var i = 0; i < len; i++)
{
if (i in t && !fun.call(thisp, t[i], i, t))
return false;
}

return true;
};
}
``````

EDIT

Note that this will be an O(N2) algorithm, so avoid running it on large arrays.

-
This is `O(N*N*)` –  parapura rajkumar Dec 25 '11 at 3:34
@parapurarajkumar - yes, yes it is. I'll add an edit to my answer warning OP about using this with large inputs –  Adam Rackis Dec 25 '11 at 3:36
Thanks Adam i edited my question a little bit, I need to check for multiples of the same members as well. re the last example. Thanks –  Harry Dec 25 '11 at 3:48
@AdamRackis - Seems good to me. +1 –  squint Dec 25 '11 at 5:56
@amnotiam - coooool - it looks like you're my 20th upvote, so thanks for "capping" me :) –  Adam Rackis Dec 25 '11 at 5:57

No one has posted a recursive function yet and those are always fun. Call it like `arr1.containsArray( arr2 )`.

``````Array.prototype.containsArray = function ( array /*, index, last*/ ) {

if( arguments[1] ) {
var index = arguments[1], last = arguments[2];
} else {
var index = 0, last = 0; this.sort(); array.sort();
};

return index == array.length
|| ( last = this.indexOf( array[index], last ) ) > -1
&& this.containsArray( array, ++index, ++last );

};
``````
-

Using objects (read: hash tables) in stead of sorting should reduce the amortized complexity to O(m+n):

``````function bagContains(arr1, arr2) {
var o = {}
var result = true;

// Count all the objects in container
for(var i=0; i < arr1.length; i++) {
if(!o[arr1[i]]) {
o[arr1[i]] = 0;
}
o[arr1[i]]++;
}

// Subtract all the objects in containee
// And exit early if possible
for(var i=0; i < arr2.length; i++) {
if(!o[arr2[i]]) {
o[arr2[i]] = 0;
}
if(--o[arr2[i]] < 0) {
result = false;
break;
}
}

return result;
}

console.log(bagContains([1, 2, 3, 4], [1, 3]));
console.log(bagContains([1, 2, 3, 4], [1, 3, 3]));
console.log(bagContains([1, 2, 3, 4], [1, 3, 7]));
``````

Which yields `true`, `false`, `false`.

-

Quick solution here take two arrays if `b` is longer than it can't be a super set so return false. Then loop through `b` to see if a contains the element. If so delete it from `a` and move on if not return false. Worse case scenario is if `b` is a subset then time will `b.length`.

``````function isSuper(a,b){
var l=b.length,i=0,c;
if(l>a.length){return false}
else{
for(i;i<l;i++){
c=a.indexOf(b[i]);
if(c>-1){
a.splice(c,1);
}
else{return false}
}
return true;
}
}
``````

This assumes that inputs will not always be in order and if `a` is `1,2,3` and `b` is `3,2,1` it will still return true.

-

This works if all your sets are as simple as your samples. It would not work on `[1,2,3,4,5]` and `[1,2,4]`, for example.

``````function checkSuperset( superset, subset ) {
return superset.toString().indexOf( subset.toString() ) > -1
};
``````

HTML:

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

Script:

``````function checkSuperset( superset, subset ) {
return superset.toString().indexOf( subset.toString() ) > -1
};

var superset = [1, 2, 3, 4],
subset = [1, 2],
result = checkSuperset( superset, subset ) + '<br />'

superset = [1, 2, 3, 4];
subset = [1, 2, 5];

result += checkSuperset( superset, subset ) + '<br />'

superset = [1, 2, 3];
subset = [1, 2, 3, 3];

result += checkSuperset( superset, subset ) + '<br />'

document.getElementById( 'result' ).innerHTML = result;
``````

Output:

``````true
false
false
``````
-
Ahh interesting answer, not quite what I'm looking for but thanks! –  Harry Dec 25 '11 at 5:46