# Best way to get intersection of keys of two objects?

I have two object literals like so:

``````var firstObject =
{
x: 0,
y: 1,
z: 2,

a: 10,
b: 20,
e: 30
}

var secondObject =
{
x: 0,
y: 1,
z: 2,

a: 10,
c: 20,
d: 30
}
``````

I want to get the intersection of the keys these two object literals have like so:

``````var intersectionKeys  = ['x', 'y', 'z', 'a']
``````

I can obviously do a loop and see if a key with the same name exists in the other object, but I am wondering if this would be a good case for some functional programming and map / filter / reduce usage? I myself have not done that much functional programming, but I have a feeling, that there could exist a clean and clever solution for this problem.

• Lodash has intersection as a method, if you weren't already aware. Dec 21, 2015 at 10:01
• @Xotic750 Seems to work only with arrays? Then again, there is probably many ways like `Object.keys` to obtain the keys as an array. Dec 21, 2015 at 10:05
• Sure, you will need the keys of each object, just like in the answers below, either `Object.keys` or lodash has `_.keys`. `_.intersection(_.keys(firstObject), _.keys(secondObject));` Dec 21, 2015 at 10:08

A solution without `indexOf`.

``````var firstObject = { x: 0, y: 1, z: 2, a: 10, b: 20, e: 30 },
secondObject = { x: 0, y: 1, z: 2, a: 10, c: 20, d: 30 };

function intersection(o1, o2) {
return Object.keys(o1).concat(Object.keys(o2)).sort().reduce(function (r, a, i, aa) {
if (i && aa[i - 1] === a) {
r.push(a);
}
return r;
}, []);
}

document.write('<pre>' + JSON.stringify(intersection(firstObject, secondObject), 0, 4) + '</pre>');``````

Second attempt with O(n).

``````var firstObject = { x: 0, y: 1, z: 2, a: 10, b: 20, e: 30 },
secondObject = { x: 0, y: 1, z: 2, a: 10, c: 20, d: 30 };

function intersection(o1, o2) {
return Object.keys(o1).filter({}.hasOwnProperty.bind(o2));
}

document.write('<pre>' + JSON.stringify(intersection(firstObject, secondObject), 0, 4) + '</pre>');``````

• @AmitKriplani not guaranteed at all in ES5 and guaranteed to be in creation order in ES2015 Dec 21, 2015 at 9:59
• @NinaScholz: that's a nice answer. It would be even prettier if the `reduce` was pure (did not use a free `result`) PS: OP does not care about the values equality - it's just an intersection of key names Dec 21, 2015 at 10:00
• @zerkms, is it better now? Dec 21, 2015 at 10:05
• @zerkms Presumably the NlogN is for the sort (no?). What about the rest, the added complexity of the reduce part? Dec 21, 2015 at 10:18
• That second attempt does something a little different; might want to `.hasOwnProperty` check instead. Dec 21, 2015 at 10:51

The given answers are nice and astonishing but there could be a problem in void's answer and that is: "What if one of property values intentionally set to `undefined`."

Nina's answer is good (really fantastic) but as we are in era of fun JavaScript I think mine wont be too bad:

``````var a = { x: undefined, y: 1, z: 2, a: 10, b: 20, e: 30 }
var b = { x: 0, y: 1, z: 2, a: 10, c: 20, d: 30 }

function intersect(o1, o2){
return Object.keys(o1).filter(k => Object.hasOwn(o2, k))
}

console.log(intersect(a, b))``````

### Update

onalbi mentioned some performance issue in comments which is rational and therefore the code bellow seems to be a better way to handle the problem:

``````var a = { x: undefined, y: 1, z: 2, a: 10, b: 20, e: 30};
var b = { x: 0, y: 1, z: 2, a: 10, c: 20, d: 30};

function intersect(o1, o2) {

const [k1, k2] = [Object.keys(o1), Object.keys(o2)];
const [first, next] = k1.length > k2.length ? [k2, o1] : [k1, o2];
return first.filter(k => k in next);
}

console.log(intersect(a, b))``````

• Also here no body take care about the length of the object.. what happens if the object 'a' has length 1000 and object 'b' 10, is not better to filter if 10 index are set on 1000 than check 1000 are set in 10 ;).. Aug 22, 2018 at 20:08
• Nice - it's also the fastest for me using this benchmark: jsben.ch/6dB51 Oct 15, 2020 at 14:05
• This should be the accepted answer. The first snippet is the simple and clean solution, the second optimal. Feb 6 at 22:22

The procedure i will suggest is:

1. Get the `array` of keys using `Object.keys()` for one of the objects.
2. Find the intersection the array using `.filter` and checking if the second object contains a key matching the first array.

``````var firstObject = {
x: 0,
y: 1,
z: 2,

a: 10,
b: 20,
e: 30
}

var secondObject = {
x: 0,
y: 1,
z: 2,

a: 10,
c: 20,
d: 30
}

function getIntKeys(obj1, obj2){

var k1 = Object.keys(obj1);
return k1.filter(function(x){
return obj2[x] !== undefined;
});

}

• I was probably wondering the same, like does it matter if you do `k1.filter` or `k2.filter` in any case? Dec 21, 2015 at 10:01
• @HunanRostomyan I don't believe it can ever be false, since the first value in the filter callback function returns the current value of the array being filtered. In this case, k1 is being filtered, making the first check redundant since we know the value has to exist as it is passed through the callback. Dec 21, 2015 at 10:04
• @Piwwoli Doesn't matter, the intersection of (A and B) and (B and A) is the same set, so you can begin with each member of A and check if it's also in B, or begin with each member of B and check if it's also in A. What I'm suggesting with my question, is that you don't need to check two memberships because the element (`x`) is already taken from one of those sets (@Monica just explained the same thing). Dec 21, 2015 at 10:07
• @HunanRostomyan yes true, Update :) Thanks.
– void
Dec 21, 2015 at 10:07
• Do the changes made make this solution better than `O(N^3)`, as someone mentioned in Nina's answer? Dec 21, 2015 at 10:09

Recursive function

This is other solution, maybe help you. I used a recursive function to intercept two objects. The advantage of this solution is that you not need worry about attributes that are objects at same time.

In this case the function intercept attributes that exist in both objects and asign the value of 'objSource' like final value of attribute intercepeted.

``````{
function interceptObjects(objSource, objInterface) {
let newObj = {};
for (const key in objSource) {
if (objInterface.hasOwnProperty(key)) {
// in javascript an array is a object too.
if (objSource[key] instanceof Object && !Array.isArray(objSource[key]) && objInterface[key] instanceof Object && !Array.isArray(objInterface[key])) {
newObj[key] = {};
newObj[key] = interceptObjects(objSource[key], objInterface[key])
} else {
newObj[key] = objSource[key];
}

}
}
return newObj;
}

// FOR TESTING

let objSource = {
attr1: '',
attr2: 2,
attr3: [],
attr4: {
attr41: 'lol',
attr42: 12,
attr43: 15,
attr45: [1, 4],
},
attr5: [2, 3, 4],
};

let objInterface = {
attr1: null,
attr4: {
attr41: null,
attr42: 12,
attr45: [1],
},
attr5: [],
attr6: null,
};

console.log(this.interceptObjects(objSource, objInterface));
}``````

Here is a simple entry, very functional, handles any number of objects, and returns the values of the matching keys from the first object passed.

This behavior is similar to that of array_intersect_key() in PHP in case anyone is searching for that.

``````function intersectKeys(first, ...rest) {
const restKeys = rest.map(o => Object.keys(o));
return Object.fromEntries(Object.entries(first).filter(entry => restKeys.every(rk => rk.includes(entry[0]))));
}
``````

Expanded here for better explanation and commenting

``````function intersectKeys(first, ...rest) {
// extract the keys of the other objects first so that won't be done again for each check
const restKeys = rest.map(o => Object.keys(o));
// In my version I am returning the first objects values under the intersect keys
return Object.fromEntries(
// extract [key, value] sets for each key and filter them, Object.fromEntries() reverses this back into an object of the remaining fields after the filter
Object.entries(first).filter(
// make sure each of the other object key sets includes the current key, or filter it out
entry => restKeys.every(
rk => rk.includes(entry[0])
)
)
);
// to get JUST the keys as OP requested the second line would simplify down to this
return Object.keys(first).filter(key => restKeys.every(rk => rk.includes(key)));
}
``````

It's important to note that this solution only works on string keys, Symbol keys will be ignored and the final object will not contain any. Though a similar function could be written to compare Symbol intersect as well.

I know this is an old post, however, I want to share a solution I wrote today that I believe is efficient and clean.

``````function intersectingKeys(...objects) {
return objects
.map((object) => Object.keys(object))
.sort((a, b) => a.length - b.length)
.reduce((a, b) => a.filter((key) => b.includes(key)));
}
``````

This function can take in n number of objects, and find the intersecting keys.

This is how it works.

1. Map the objects, creating an array of key arrays.
2. Sort the array by length, this puts the smallest key arrays first.
3. Finally, reduce our key arrays, by filtering each list of keys against the next list.

I think the clever part of this algorithm is the pre sorting of the key arrays. By starting with the smallest list of keys, we have less work to do comparing keys.

Here is the usuage:

``````var firstObject = {
x: 0,
y: 1,
z: 2,

a: 10,
b: 20,
e: 30,
};

var secondObject = {
x: 0,
y: 1,
z: 2,

a: 10,
c: 20,
d: 30,
};

intersectingKeys(firstObject, secondObject);
// [ 'x', 'y', 'z', 'a' ]
``````
• Very interesting and functional idea that pre sorting of the key arrays! Oct 15, 2020 at 2:05