Say I have an object:
elmo = {
color: 'red',
annoying: true,
height: 'unknown',
meta: { one: '1', two: '2'}
};
I want to make a new object with a subset of its properties.
// pseudo code
subset = elmo.slice('color', 'height')
//=> { color: 'red', height: 'unknown' }
How may I achieve this?
Using Object Destructuring and Property Shorthand
const object = { a: 5, b: 6, c: 7 };
const picked = (({ a, c }) => ({ a, c }))(object);
console.log(picked); // { a: 5, c: 7 }From Philipp Kewisch:
This is really just an anonymous function being called instantly. All of this can be found on the Destructuring Assignment page on MDN. Here is an expanded form
let unwrap = ({a, c}) => ({a, c});
let unwrap2 = function({a, c}) { return { a, c }; };
let picked = unwrap({ a: 5, b: 6, c: 7 });
let picked2 = unwrap2({a: 5, b: 6, c: 7})
console.log(picked)
console.log(picked2)
let unwrap = ({a, c}) => ({a, c}); let unwrap2 = function({a, c}) { return { a, c }; }; let picked = unwrap({ a: 5, b: 6, c: 7 });
Jan 27, 2017 at 11:41
const { b, ...picked } = object would create picked as { a: 5, c: 7 }. You've specified simply to remove b. Your eslint will probably be annoyed at you for declaring a var that you're not using, though.
Aug 28, 2017 at 2:13
Two common approaches are destructuring and conventional Lodash-like pick/omit implementation. The major practical difference between them is that destructuring requires a list of keys to be static, can't omit them, includes non-existent picked keys, i.e. it's inclusive. This may or not be desirable and cannot be changed for destructuring syntax.
Given:
var obj = { 'foo-bar': 1, bar: 2, qux: 3 };
The expected result for regular picking of foo-bar, bar, baz keys:
{ 'foo-bar': 1, bar: 2 }
The expected result for inclusive picking:
{ 'foo-bar': 1, bar: 2, baz: undefined }
Destructuring syntax allows to destructure and recombine an object, with either function parameters or variables.
The limitation is that a list of keys is predefined, they cannot be listed as strings, as described in the question. Destructuring becomes more complicated if a key is non-alphanumeric, e.g. foo-bar.
The upside is that it's performant solution that is natural to ES6.
The downside is that a list of keys is duplicated, this results in verbose code in case a list is long. Since destructuring duplicates object literal syntax in this case, a list can be copied and pasted as is.
const subset = (({ 'foo-bar': foo, bar, baz }) => ({ 'foo-bar': foo, bar, baz }))(obj);
Can cause the collision of variable names in current scope:
const { 'foo-bar': foo, bar, baz } = obj;
const subset = { 'foo-bar': foo, bar, baz };
Block-level scope can be used to avoid this:
let subset;
{
const { 'foo-bar': foo, bar, baz } = obj;
subset = { 'foo-bar': foo, bar, baz };
}
Arbitrary list of picked keys consists of strings, as the question requires. This allows to not predefine them and use variables that contain key names, ['foo-bar', someKey, ...moreKeys].
ECMAScript 2017 has Object.entries and Array.prototype.includes, ECMAScript 2019 has Object.fromEntries, they can be polyfilled when needed.
Considering that an object to pick contains extra keys, it's generally more efficient to iterate over keys from a list rather than object keys, and vice versa if keys need to be omitted.
var subset = ['foo-bar', 'bar', 'baz']
.reduce(function (obj2, key) {
if (key in obj) // line can be removed to make it inclusive
obj2[key] = obj[key];
return obj2;
}, {});
var subset = Object.keys(obj)
.filter(function (key) {
return ['baz', 'qux'].indexOf(key) < 0;
})
.reduce(function (obj2, key) {
obj2[key] = obj[key];
return obj2;
}, {});
const subset = ['foo-bar', 'bar', 'baz']
.filter(key => key in obj) // line can be removed to make it inclusive
.reduce((obj2, key) => (obj2[key] = obj[key], obj2), {});
const subset = Object.keys(obj)
.filter(key => ['baz', 'qux'].indexOf(key) < 0)
.reduce((obj2, key) => (obj2[key] = obj[key], obj2), {});
const subset = Object.fromEntries(
['foo-bar', 'bar', 'baz']
.filter(key => key in obj) // line can be removed to make it inclusive
.map(key => [key, obj[key]])
);
const subset = Object.fromEntries(
Object.entries(obj)
.filter(([key]) => !['baz', 'qux'].includes(key))
);
One-liners can be represented as reusable helper functions similar to Lodash pick or omit, where a list of keys is passed through arguments, pick(obj, 'foo-bar', 'bar', 'baz').
const pick = (obj, ...keys) => Object.fromEntries(
keys
.filter(key => key in obj)
.map(key => [key, obj[key]])
);
const inclusivePick = (obj, ...keys) => Object.fromEntries(
keys.map(key => [key, obj[key]])
);
const omit = (obj, ...keys) => Object.fromEntries(
Object.entries(obj)
.filter(([key]) => !keys.includes(key))
);
Credit goes to @Claude.
const pick = <T extends {}, K extends keyof T>(obj: T, ...keys: K[]) => (
Object.fromEntries(
keys
.filter(key => key in obj)
.map(key => [key, obj[key]])
) as Pick<T, K>
);
const inclusivePick = <T extends {}, K extends (string | number | symbol)>(
obj: T, ...keys: K[]
) => (
Object.fromEntries(
keys
.map(key => [key, obj[key as unknown as keyof T]])
) as {[key in K]: key extends keyof T ? T[key] : undefined}
)
const omit = <T extends {}, K extends keyof T>(
obj: T, ...keys: K[]
) =>(
Object.fromEntries(
Object.entries(obj)
.filter(([key]) => !keys.includes(key as K))
) as Omit<T, K>
)
.indexOf/.includes solutions -- that's doing an O(keys) lookup on every iteration = O(entries*keys). Better to flip the logic around and just iterate the keys, then you get O(keys) total.
arguments
Mar 8, 2022 at 7:03
I suggest taking a look at Lodash; it has a lot of great utility functions.
For example pick() would be exactly what you seek:
var subset = _.pick(elmo, ['color', 'height']);
_.omit(elmo, ['voice']) to return everything but voice
If you are using ES6 there is a very concise way to do this using destructuring. Destructuring allows you to easily add on to objects using a spread, but it also allows you to make subset objects in the same way.
const object = {
a: 'a',
b: 'b',
c: 'c',
d: 'd',
}
// Remove "c" and "d" fields from original object:
const {c, d, ...partialObject} = object;
const subset = {c, d};
console.log(partialObject) // => { a: 'a', b: 'b'}
console.log(subset) // => { c: 'c', d: 'd'};
While it's a bit more verbose, you can accomplish what everyone else was recommending underscore/lodash for 2 years ago, by using Array.prototype.reduce.
var subset = ['color', 'height'].reduce(function(o, k) { o[k] = elmo[k]; return o; }, {});
This approach solves it from the other side: rather than take an object and pass property names to it to extract, take an array of property names and reduce them into a new object.
While it's more verbose in the simplest case, a callback here is pretty handy, since you can easily meet some common requirements, e.g. change the 'color' property to 'colour' on the new object, flatten arrays, etc. -- any of the things you need to do when receiving an object from one service/library and building a new object needed somewhere else. While underscore/lodash are excellent, well-implemented libs, this is my preferred approach for less vendor-reliance, and a simpler, more consistent approach when my subset-building logic gets more complex.
edit: es7 version of the same:
const subset = ['color', 'height'].reduce((a, e) => (a[e] = elmo[e], a), {});
edit: A nice example for currying, too! Have a 'pick' function return another function.
const pick = (...props) => o => props.reduce((a, e) => ({ ...a, [e]: o[e] }), {});
The above is pretty close to the other method, except it lets you build a 'picker' on the fly. e.g.
pick('color', 'height')(elmo);
What's especially neat about this approach, is you can easily pass in the chosen 'picks' into anything that takes a function, e.g. Array#map:
[elmo, grover, bigBird].map(pick('color', 'height'));
// [
// { color: 'red', height: 'short' },
// { color: 'blue', height: 'medium' },
// { color: 'yellow', height: 'tall' },
// ]
function showToy({ color, height }) { would put only what you need in scope. The reduce approach mainly makes sense when you're simplifying objects for serialization.
Apr 8, 2016 at 16:43
const pick = (obj, props) => props.reduce((a, e) => (a[e] = obj[e], a), {});
fetch), so I'd recommend adding a comment explaining the comma operator use.
Jul 11, 2017 at 11:30
One more solution:
var subset = {
color: elmo.color,
height: elmo.height
}
This looks far more readable to me than pretty much any answer so far, but maybe that's just me!
subset = {color: elmo.color, height: elmo.color}, I'd have had at least a ... well, a dime perhaps.
I am adding this answer because none of the answer used Comma operator.
It's very easy with destructuring assignment and , operator
const object = { a: 5, b: 6, c: 7 };
const picked = ({a,c} = object, {a,c})
console.log(picked);
'use strict'). I get a ReferenceError: a is not defined.
a and c - be careful not to randomly overwrite local or global vars depending on the context. (The accepted answer avoids this issue by using two local variables in an inline function, which falls out of scope after immediate execution.)
Aug 15, 2019 at 12:12
let a, c; const picked = ({a,c} = object, {a,c}). Unfortunately, comma operator wasn't suggested in other answers for a very good reason, it doesn't make this any easier than const {a, c} = object; const picked = {a,c}.
May 12, 2020 at 8:17
There is nothing like that built-in to the core library, but you can use object destructuring to do it...
const {color, height} = sourceObject;
const newObject = {color, height};
You could also write a utility function do it...
const cloneAndPluck = function(sourceObject, keys) {
const newObject = {};
keys.forEach((obj, key) => { newObject[key] = sourceObject[key]; });
return newObject;
};
const subset = cloneAndPluck(elmo, ["color", "height"]);
Libraries such as Lodash also have _.pick().
TypeScript solution:
function pick<T extends object, U extends keyof T>(
obj: T,
paths: Array<U>
): Pick<T, U> {
const ret = Object.create(null);
for (const k of paths) {
ret[k] = obj[k];
}
return ret;
}
The typing information even allows for auto-completion:
Credit to DefinitelyTyped for U extends keyof T trick!
function pick<T extends object, U extends keyof T>(obj: T, paths: Array<U>): Pick<T, U> that Pick<T,U> will correctly type the returned object, which is inferred as any
Oct 2, 2020 at 19:48
I want to mention that very good curation here:
Object.fromEntries(
Object.entries(obj)
.filter(([key]) => ['whitelisted', 'keys'].includes(key))
);
Object.entries(obj)
.filter(([key]) => ['whitelisted', 'keys'].includes(key))
.reduce((obj, [key, val]) => Object.assign(obj, { [key]: val }), {});
Object.keys(obj)
.filter((key) => ['whitelisted', 'keys'].indexOf(key) >= 0)
.reduce((newObj, key) => Object.assign(newObj, { [key]: obj[key] }), {})
Object.fromEntries(
Object.entries(obj)
.filter(([key]) => !['blacklisted', 'keys'].includes(key))
);
Object.entries(obj)
.filter(([key]) => !['blacklisted', 'keys'].includes(key))
.reduce((obj, [key, val]) => Object.assign(obj, { [key]: val }), {});
Object.keys(obj)
.filter((key) => ['blacklisted', 'keys'].indexOf(key) < 0)
.reduce((newObj, key) => Object.assign(newObj, { [key]: obj[key] }), {})
You can use Lodash also.
var subset = _.pick(elmo ,'color', 'height');
Complementing, let's say you have an array of "elmo"s :
elmos = [{
color: 'red',
annoying: true,
height: 'unknown',
meta: { one: '1', two: '2'}
},{
color: 'blue',
annoying: true,
height: 'known',
meta: { one: '1', two: '2'}
},{
color: 'yellow',
annoying: false,
height: 'unknown',
meta: { one: '1', two: '2'}
}
];
If you want the same behavior, using lodash, you would just:
var subsets = _.map(elmos, function(elm) { return _.pick(elm, 'color', 'height'); });
Destructuring into dynamically named variables is impossible in JavaScript as discussed in this question.
To set keys dynamically, you can use reduce function without mutating object as follows:
const getSubset = (obj, ...keys) => keys.reduce((a, c) => ({ ...a, [c]: obj[c] }), {});
const elmo = {
color: 'red',
annoying: true,
height: 'unknown',
meta: { one: '1', two: '2'}
}
const subset = getSubset(elmo, 'color', 'annoying')
console.log(subset)Should note that you're creating a new object on every iteration though instead of updating a single clone. – mpen
below is a version using reduce with single clone (updating initial value passed in to reduce).
const getSubset = (obj, ...keys) => keys.reduce((acc, curr) => {
acc[curr] = obj[curr]
return acc
}, {})
const elmo = {
color: 'red',
annoying: true,
height: 'unknown',
meta: { one: '1', two: '2'}
}
const subset = getSubset(elmo, 'annoying', 'height', 'meta')
console.log(subset)['color', 'height'].reduce((a,b) => (a[b]=elmo[b],a), {})
let subset= (obj,keys)=> keys.reduce((a,b)=> (a[b]=obj[b],a),{});
// TEST
let elmo = {
color: 'red',
annoying: true,
height: 'unknown',
meta: { one: '1', two: '2'}
};
console.log( subset(elmo, ['color', 'height']) );
Use pick method of lodash library if you are already using.
var obj = { 'a': 1, 'b': '2', 'c': 3 };
_.pick(object, ['a', 'c']);
// => { 'a': 1, 'c': 3 }
The easiest way I found, which doesn't create unnecessary variables, is a function you can call and works identically to lodash is the following:
pick(obj, keys){
return Object.assign({}, ...keys.map(key => ({ [key]: obj[key] })))
}
For example:
pick(obj, keys){
return Object.assign({}, ...keys.map(key => ({ [key]: obj[key] })))
}
const obj = {a:1, b:2, c:3, d:4}
const keys = ['a', 'c', 'f']
const picked = pick(obj,keys)
console.log(picked)
pick = (obj, keys) => {
return Object.assign({}, ...keys.map(key => ({
[key]: obj[key]
})))
}
const obj = {
a: 1,
b: 2,
c: 3,
d: 4
}
const keys = ['a', 'c', 'f']
const picked = pick(obj, keys)
console.log(picked)
An Array of Objects
const aListOfObjects = [{
prop1: 50,
prop2: "Nothing",
prop3: "hello",
prop4: "What's up",
},
{
prop1: 88,
prop2: "Whatever",
prop3: "world",
prop4: "You get it",
},
]
Making a subset of an object or objects can be achieved by destructuring the object this way.
const sections = aListOfObjects.map(({prop1, prop2}) => ({prop1, prop2}));
Nobody has demonstrated this method yet, probably because it's terrible and you shouldn't do it, but I feel like it has to be listed.
var o = {a:1,b:2,c:3,d:4,e:4,f:5}
with(o){
var output = {a,b,f}
}
console.log(output)Pro: You don't have to type the property names twice.
Cons: The "with" statement is not recommended for many reasons.
Conclusion: It works great, but don't use it.
with is a bit much. Sometimes it's the right tool for the job, possibly including this one, another one being when rendering a template where all it's values are coming from this or some other object. Don't believe me? Just ask John Resig, author of jQuery.
with statement. Don't get me wrong, I think it's powerful and has its uses. There actually are some problems that I've seen where you can't seem to solve them without using it. Let me rephrase, don't use it casually. It's sort of like eval, everyone says it's bad and you should never use it, but that's not true, there are places where eval needs to be used, but it should always be used with careful forethought to make sure you're adding security holes or crippling code optimisation.
Just another way...
var elmo = {
color: 'red',
annoying: true,
height: 'unknown',
meta: { one: '1', two: '2'}
}
var subset = [elmo].map(x => ({
color: x.color,
height: x.height
}))[0]
You can use this function with an array of Objects =)
If you want to keep more properties than the ones you want to remove, you could use the rest parameter syntax:
const obj = {
a:1,
b:2,
c:3,
d:4
};
const { a, ...newObj } = obj;
console.log(newObj); // {b: 2, c: 3, d: 4}
To add another esoteric way, this works aswell:
var obj = {a: 1, b:2, c:3}
var newobj = {a,c}=obj && {a,c}
// {a: 1, c:3}
but you have to write the prop names twice.
How about:
function sliceObj(obj) {
var o = {}
, keys = [].slice.call(arguments, 1);
for (var i=0; i<keys.length; i++) {
if (keys[i] in obj) o[keys[i]] = obj[keys[i]];
}
return o;
}
var subset = sliceObj(elmo, 'color', 'height');
false (or falsy). jsfiddle.net/nfAs8
This works for me in Chrome console. Any problem with this?
var { color, height } = elmo
var subelmo = { color, height }
console.log(subelmo) // {color: "red", height: "unknown"}
convert arguments to array
use Array.forEach() to pick the property
Object.prototype.pick = function(...args) {
var obj = {};
args.forEach(k => obj[k] = this[k])
return obj
}
var a = {0:"a",1:"b",2:"c"}
var b = a.pick('1','2') //output will be {1: "b", 2: "c"}
Like several on this thread I agree with evert that the most obvious old school way of doing this is actually the best available, however for fun let me provide one other inadvisable way of doing it in certain circumstances, say when you already have your subset defined and you want to copy properties to it from another object that contains a superset or intersecting set of its properties.
let set = { a : 1, b : 2, c : 3 };
let subset = { a : null, b : null };
try {
Object.assign(Object.seal(subset), set);
} catch (e) {
console.log('its ok I meant to do that <(^.^)^');
}
console.log(subset);I think this is your answer. (and everyone who is looking for it).
const object = { a: 5, b: 6, c: 7 };
const subset = (({ a, c }) => ({ a, c }))(object);
console.log(subset); // { a: 5, c: 7 }
picked to subset?
Jan 27 at 17:35
Good-old Array.prototype.reduce:
const selectable = {a: null, b: null};
const v = {a: true, b: 'yes', c: 4};
const r = Object.keys(selectable).reduce((a, b) => {
return (a[b] = v[b]), a;
}, {});
console.log(r);
this answer uses the magical comma-operator, also: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Comma_Operator
if you want to get really fancy, this is more compact:
const r = Object.keys(selectable).reduce((a, b) => (a[b] = v[b], a), {});
Putting it all together into a reusable function:
const getSelectable = function (selectable, original) {
return Object.keys(selectable).reduce((a, b) => (a[b] = original[b], a), {})
};
const r = getSelectable(selectable, v);
console.log(r);
I've got the same problem and solved it easily by using the following libs:
https://www.npmjs.com/package/object.pick
pick({a: 'a', b: 'b', c: 'c'}, ['a', 'b'])
//=> {a: 'a', b: 'b'}
https://www.npmjs.com/package/object.omit
omit({a: 'a', b: 'b', c: 'c'}, ['a', 'c'])
//=> { b: 'b' }
I know it isn't the cleanest, but it's simple and easy to understand.
function obj_multi_select(obj, keys){
let return_obj = {};
for (let k = 0; k < keys.length; k++){
return_obj[keys[k]] = obj[keys[k]];
};
return return_obj;
};
for (let key of keys) return_obj[key] = obj[key];. Also snake_case is pretty unconventional for javascript
Nov 20, 2021 at 20:56
function splice()
{
var ret = new Object();
for(i = 1; i < arguments.length; i++)
ret[arguments[i]] = arguments[0][arguments[i]];
return ret;
}
var answer = splice(elmo, "color", "height");
Adding my 2 cents to Ivan Nosov answer:
In my case I needed many keys to be 'sliced' out of the object so it's becoming ugly very fast and not a very dynamic solution:
const object = { a: 5, b: 6, c: 7, d: 8, aa: 5, bb: 6, cc: 7, dd: 8, aaa: 5, bbb: 6, ccc: 7, ddd: 8, ab: 5, bc: 6, cd: 7, de: 8 };
const picked = (({ a, aa, aaa, ab, c, cc, ccc, cd }) => ({ a, aa, aaa, ab, c, cc, ccc, cd }))(object);
console.log(picked);
So here is a dynamic solution using eval:
const slice = (k, o) => eval(`(${k} => ${k})(o)`);
const object = { a: 5, b: 6, c: 7, d: 8, aa: 5, bb: 6, cc: 7, dd: 8, aaa: 5, bbb: 6, ccc: 7, ddd: 8, ab: 5, bc: 6, cd: 7, de: 8 };
const sliceKeys = '({ a, aa, aaa, ab, c, cc, ccc, cd })';
console.log( slice(sliceKeys, object) );
emo.sliceat first glance.