3322

I have an object x. I'd like to copy it as object y, such that changes to y do not modify x. I realized that copying objects derived from built-in JavaScript objects will result in extra, unwanted properties. This isn't a problem, since I'm copying one of my own literal-constructed objects.

How do I correctly clone a JavaScript object?

25
  • 31
    See this question: stackoverflow.com/questions/122102/… – Niyaz Jun 21 '11 at 10:13
  • 274
    For JSON, I use mObj=JSON.parse(JSON.stringify(jsonObject)); – Lord Loh. Feb 2 '13 at 10:09
  • 71
    I really don't get why no one suggests Object.create(o), it does everything the author asks? – froginvasion Aug 8 '14 at 15:23
  • 50
    var x = { deep: { key: 1 } }; var y = Object.create(x); x.deep.key = 2; After doing this, y.deep.key will also be 2, hence Object.create CAN NOT BE USED for cloning... – Ruben Stolk Jul 4 '15 at 15:04
  • 19
    @r3wt that will not work... Please post only after doing basic test of the solution.. – user3275211 Feb 16 '16 at 18:54

71 Answers 71

6

I just wanted to add to all the Object.create solutions in this post, that this does not work in the desired way with nodejs.

In Firefox the result of

var a = {"test":"test"};
var b = Object.create(a);
console.log(b);´

is

{test:"test"}.

In nodejs it is

{}
4
  • This is prototypal inheritance, not cloning. – d13 Jan 16 '14 at 16:15
  • 1
    @d13 while your argument is valid, note that there is no standardized way in JavaScript to clone an object. This is prototypical inheritance, but it can be used as clones nevertheless if you understand the concepts. – froginvasion Aug 8 '14 at 15:28
  • @froginvasion. The only problem with using Object.create is that nested objects and arrays are just pointer references to the prototype's nested objects and arrays. jsbin.com/EKivInO/2/edit?js,console. Technically a "cloned" object should have its own unique properties that are not shared references to properties on other objects. – d13 Aug 8 '14 at 18:28
  • @d13 okay, I see your point now. But what I meant is that too many people are alienated with the concept of prototypical inheritance, and to me fail to learn how it works. If I'm not mistaken, your example can be fixed by just calling Object.hasOwnProperty to check whether you own the array or not. Yes this does add additional complexity to deal with prototypical inheritance. – froginvasion Aug 9 '14 at 10:13
6
function clone(src, deep) {

    var toString = Object.prototype.toString;
    if(!src && typeof src != "object"){
        //any non-object ( Boolean, String, Number ), null, undefined, NaN
        return src;
    }

    //Honor native/custom clone methods
    if(src.clone && toString.call(src.clone) == "[object Function]"){
        return src.clone(deep);
    }

    //DOM Elements
    if(src.nodeType && toString.call(src.cloneNode) == "[object Function]"){
        return src.cloneNode(deep);
    }

    //Date
    if(toString.call(src) == "[object Date]"){
        return new Date(src.getTime());
    }

    //RegExp
    if(toString.call(src) == "[object RegExp]"){
        return new RegExp(src);
    }

    //Function
    if(toString.call(src) == "[object Function]"){
        //Wrap in another method to make sure == is not true;
        //Note: Huge performance issue due to closures, comment this :)
        return (function(){
            src.apply(this, arguments);
        });

    }

    var ret, index;
    //Array
    if(toString.call(src) == "[object Array]"){
        //[].slice(0) would soft clone
        ret = src.slice();
        if(deep){
            index = ret.length;
            while(index--){
                ret[index] = clone(ret[index], true);
            }
        }
    }
    //Object
    else {
        ret = src.constructor ? new src.constructor() : {};
        for (var prop in src) {
            ret[prop] = deep
                ? clone(src[prop], true)
                : src[prop];
        }
    }

    return ret;
};
1
  • 3
    if(!src && typeof src != "object"){. I think that should be || not &&. – MikeM Apr 8 '13 at 9:34
6

Since mindeavor stated that the object to be cloned is a 'literal-constructed' object, a solution might be to simply generate the object multiple times rather than cloning an instance of the object:

function createMyObject()
{
    var myObject =
    {
        ...
    };
    return myObject;
}

var myObjectInstance1 = createMyObject();
var myObjectInstance2 = createMyObject();
6

I've written my own implementation. Not sure if it counts as a better solution:

/*
    a function for deep cloning objects that contains other nested objects and circular structures.
    objects are stored in a 3D array, according to their length (number of properties) and their depth in the original object.
                                    index (z)
                                         |
                                         |
                                         |
                                         |
                                         |
                                         |                      depth (x)
                                         |_ _ _ _ _ _ _ _ _ _ _ _
                                        /_/_/_/_/_/_/_/_/_/
                                       /_/_/_/_/_/_/_/_/_/
                                      /_/_/_/_/_/_/...../
                                     /................./
                                    /.....            /
                                   /                 /
                                  /------------------
            object length (y)    /
*/

Following is the implementation:

function deepClone(obj) {
    var depth = -1;
    var arr = [];
    return clone(obj, arr, depth);
}

/**
 *
 * @param obj source object
 * @param arr 3D array to store the references to objects
 * @param depth depth of the current object relative to the passed 'obj'
 * @returns {*}
 */
function clone(obj, arr, depth){
    if (typeof obj !== "object") {
        return obj;
    }

    var length = Object.keys(obj).length; // native method to get the number of properties in 'obj'

    var result = Object.create(Object.getPrototypeOf(obj)); // inherit the prototype of the original object
    if(result instanceof Array){
        result.length = length;
    }

    depth++; // depth is increased because we entered an object here

    arr[depth] = []; // this is the x-axis, each index here is the depth
    arr[depth][length] = []; // this is the y-axis, each index is the length of the object (aka number of props)
    // start the depth at current and go down, cyclic structures won't form on depths more than the current one
    for(var x = depth; x >= 0; x--){
        // loop only if the array at this depth and length already have elements
        if(arr[x][length]){
            for(var index = 0; index < arr[x][length].length; index++){
                if(obj === arr[x][length][index]){
                    return obj;
                }
            }
        }
    }

    arr[depth][length].push(obj); // store the object in the array at the current depth and length
    for (var prop in obj) {
        if (obj.hasOwnProperty(prop)) result[prop] = clone(obj[prop], arr, depth);
    }

    return result;
}
1
  • not working for my object, although my case is a little bit complex. – Sajuuk Jan 2 '19 at 6:33
6

Structured Cloning

The HTML standard includes an internal structured cloning/serialization algorithm that can create deep clones of objects. It is still limited to certain built-in types, but in addition to the few types supported by JSON it also supports Dates, RegExps, Maps, Sets, Blobs, FileLists, ImageDatas, sparse Arrays, Typed Arrays, and probably more in the future. It also preserves references within the cloned data, allowing it to support cyclical and recursive structures that would cause errors for JSON.

Support in Node.js: Experimental 🙂

The v8 module in Node.js currently (as of Node 11) exposes the structured serialization API directly, but this functionality is still marked as "experimental", and subject to change or removal in future versions. If you're using a compatible version, cloning an object is as simple as:

const v8 = require('v8');

const structuredClone = obj => {
  return v8.deserialize(v8.serialize(obj));
};

Direct Support in Browsers: Maybe Eventually? 😐

Browsers do not currently provide a direct interface for the structured cloning algorithm, but a global structuredClone() function has been discussed in whatwg/html#793 on GitHub. As currently proposed, using it for most purposes would be as simple as:

const clone = structuredClone(original);

Unless this is shipped, browsers' structured clone implementations are only exposed indirectly.

Asynchronous Workaround: Usable. 😕

The lower-overhead way to create a structured clone with existing APIs is to post the data through one port of a MessageChannels. The other port will emit a message event with a structured clone of the attached .data. Unfortunately, listening for these events is necessarily asynchronous, and the synchronous alternatives are less practical.

class StructuredCloner {
  constructor() {
    this.pendingClones_ = new Map();
    this.nextKey_ = 0;

    const channel = new MessageChannel();
    this.inPort_ = channel.port1;
    this.outPort_ = channel.port2;

    this.outPort_.onmessage = ({data: {key, value}}) => {
      const resolve = this.pendingClones_.get(key);
      resolve(value);
      this.pendingClones_.delete(key);
    };
    this.outPort_.start();
  }

  cloneAsync(value) {
    return new Promise(resolve => {
      const key = this.nextKey_++;
      this.pendingClones_.set(key, resolve);
      this.inPort_.postMessage({key, value});
    });
  }
}

const structuredCloneAsync = window.structuredCloneAsync =
    StructuredCloner.prototype.cloneAsync.bind(new StructuredCloner);

Example Use:

const main = async () => {
  const original = { date: new Date(), number: Math.random() };
  original.self = original;

  const clone = await structuredCloneAsync(original);

  // They're different objects:
  console.assert(original !== clone);
  console.assert(original.date !== clone.date);

  // They're cyclical:
  console.assert(original.self === original);
  console.assert(clone.self === clone);

  // They contain equivalent values:
  console.assert(original.number === clone.number);
  console.assert(Number(original.date) === Number(clone.date));

  console.log("Assertions complete.");
};

main();

Synchronous Workarounds: Awful! 🤢

There are no good options for creating structured clones synchronously. Here are a couple of impractical hacks instead.

history.pushState() and history.replaceState() both create a structured clone of their first argument, and assign that value to history.state. You can use this to create a structured clone of any object like this:

const structuredClone = obj => {
  const oldState = history.state;
  history.replaceState(obj, null);
  const clonedObj = history.state;
  history.replaceState(oldState, null);
  return clonedObj;
};

Example Use:

'use strict';

const main = () => {
  const original = { date: new Date(), number: Math.random() };
  original.self = original;

  const clone = structuredClone(original);
  
  // They're different objects:
  console.assert(original !== clone);
  console.assert(original.date !== clone.date);

  // They're cyclical:
  console.assert(original.self === original);
  console.assert(clone.self === clone);

  // They contain equivalent values:
  console.assert(original.number === clone.number);
  console.assert(Number(original.date) === Number(clone.date));
  
  console.log("Assertions complete.");
};

const structuredClone = obj => {
  const oldState = history.state;
  history.replaceState(obj, null);
  const clonedObj = history.state;
  history.replaceState(oldState, null);
  return clonedObj;
};

main();

Though synchronous, this can be extremely slow. It incurs all of the overhead associated with manipulating the browser history. Calling this method repeatedly can cause Chrome to become temporarily unresponsive.

The Notification constructor creates a structured clone of its associated data. It also attempts to display a browser notification to the user, but this will silently fail unless you have requested notification permission. In case you have the permission for other purposes, we'll immediately close the notification we've created.

const structuredClone = obj => {
  const n = new Notification('', {data: obj, silent: true});
  n.onshow = n.close.bind(n);
  return n.data;
};

Example Use:

'use strict';

const main = () => {
  const original = { date: new Date(), number: Math.random() };
  original.self = original;

  const clone = structuredClone(original);
  
  // They're different objects:
  console.assert(original !== clone);
  console.assert(original.date !== clone.date);

  // They're cyclical:
  console.assert(original.self === original);
  console.assert(clone.self === clone);

  // They contain equivalent values:
  console.assert(original.number === clone.number);
  console.assert(Number(original.date) === Number(clone.date));
  
  console.log("Assertions complete.");
};

const structuredClone = obj => {
  const n = new Notification('', {data: obj, silent: true});
  n.close();
  return n.data;
};

main();

1
  • 2
    +1 for giving an idea in what form it might become builtin, eventually—even if unusable right now. – Beni Cherniavsky-Paskin Jan 14 '14 at 6:14
5

Jan Turoň's answer above is very close, and may be the best to use in a browser due to compatibility issues, but it will potentially cause some strange enumeration issues. For instance, executing:

for ( var i in someArray ) { ... }

Will assign the clone() method to i after iterating through the elements of the array. Here's an adaptation that avoids the enumeration and works with node.js:

Object.defineProperty( Object.prototype, "clone", {
    value: function() {
        if ( this.cloneNode )
        {
            return this.cloneNode( true );
        }

        var copy = this instanceof Array ? [] : {};
        for( var attr in this )
        {
            if ( typeof this[ attr ] == "function" || this[ attr ] == null || !this[ attr ].clone )
            {
                copy[ attr ] = this[ attr ];
            }
            else if ( this[ attr ] == this )
            {
                copy[ attr ] = copy;
            }
            else
            {
                copy[ attr ] = this[ attr ].clone();
            }
        }
        return copy;
    }
});

Object.defineProperty( Date.prototype, "clone", {
    value: function() {
        var copy = new Date();
        copy.setTime( this.getTime() );
        return copy;
    }
});

Object.defineProperty( Number.prototype, "clone", { value: function() { return this; } } );
Object.defineProperty( Boolean.prototype, "clone", { value: function() { return this; } } );
Object.defineProperty( String.prototype, "clone", { value: function() { return this; } } );

This avoids making the clone() method enumerable because defineProperty() defaults enumerable to false.

5

Use deepcopy from npm. Works in both the browser and in node as an npm module...

https://www.npmjs.com/package/deepcopy

let a = deepcopy(b)

5

Object copy using ( ... )

//bad
const original = { a: 1, b: 2 };
const copy = Object.assign({}, original, { c: 3 }); // copy => { a: 1, b: 2,c: 3 }

//good
const originalObj = { id: 5, name: 'San Francisco'};
const copyObject = {...originalObj, pincode: 4444};
console.log(copyObject)  //{ id: 5, name: 'San Francisco', pincode: 4444 }

Same can be use for copying array from one to other

const itemsCopy = [...items];
5

Simple recursive method to clone an object. Also could use lodash.clone.

let clone = (obj) => {
	let obj2 = Array.isArray(obj) ? [] : {};
	for(let k in obj) {
          obj2[k] = (typeof obj[k] === 'object' ) ? clone(obj[k]) :  obj[k];
        }
        return obj2;
    }

let w = { name: "Apple", types: ["Fuji", "Gala"]};
let x = clone(w);
w.name = "Orange";
w.types = ["Navel"];
console.log(x);
console.log(w);

4

Consult http://www.w3.org/html/wg/drafts/html/master/infrastructure.html#safe-passing-of-structured-data for the W3C's "Safe passing of structured data" algorithm, intended to be implemented by browsers for passing data to eg web workers. However, it has some limitations, in that it does not handle functions. See https://developer.mozilla.org/en-US/docs/DOM/The_structured_clone_algorithm for more information, including an alternative algorithm in JS which gets you part of the way there.

1
  • While this has some great links, it's not really an answer. If it was extended to include an implementation of the algorithms referenced it might be an answer. – RobG Jan 21 '19 at 23:53
4

According to the Airbnb JavaScript Style Guide with 404 contributors:

Prefer the object spread operator over Object.assign to shallow-copy objects. Use the object rest operator to get a new object with certain properties omitted.

// very bad
const original = { a: 1, b: 2 };
const copy = Object.assign(original, { c: 3 }); // this mutates `original` ಠ_ಠ
delete copy.a; // so does this

// bad
const original = { a: 1, b: 2 };
const copy = Object.assign({}, original, { c: 3 }); // copy => { a: 1, b: 2, c: 3 }

// good
const original = { a: 1, b: 2 };
const copy = { ...original, c: 3 }; // copy => { a: 1, b: 2, c: 3 }

const { a, ...noA } = copy; // noA => { b: 2, c: 3 }

Also I'd like to warn you that even though Airbnb hardly recommends the object spread operator approach. Keep in mind that Microsoft Edge still does not support this 2018 feature yet.

ES2016+ Compat table >>

4

Clone an object based on a template. What do you do if you don't want an exact copy, but you do want the robustness of some kind of reliable clone operation but you only want bits cloned or you want to make sure you can control the existence or format of each attribute value cloned?

I am contributing this because it's useful for us and we created it because we could not find something similar. You can use it to clone an object based on a template object which specifies what attributes of the object I want to clone, and the template allows for functions to transform those attributes into something different if they don't exist on the source object or however you want to handle the clone. If it's not useful I am sure someone can delete this answer.

   function isFunction(functionToCheck) {
       var getType = {};
       return functionToCheck && getType.toString.call(functionToCheck) === '[object Function]';
   }

   function cloneObjectByTemplate(obj, tpl, cloneConstructor) {
       if (typeof cloneConstructor === "undefined") {
           cloneConstructor = false;
       }
       if (obj == null || typeof (obj) != 'object') return obj;

       //if we have an array, work through it's contents and apply the template to each item...
       if (Array.isArray(obj)) {
           var ret = [];
           for (var i = 0; i < obj.length; i++) {
               ret.push(cloneObjectByTemplate(obj[i], tpl, cloneConstructor));
           }
           return ret;
       }

       //otherwise we have an object...
       //var temp:any = {}; // obj.constructor(); // we can't call obj.constructor because typescript defines this, so if we are dealing with a typescript object it might reset values.
       var temp = cloneConstructor ? new obj.constructor() : {};

       for (var key in tpl) {
           //if we are provided with a function to determine the value of this property, call it...
           if (isFunction(tpl[key])) {
               temp[key] = tpl[key](obj); //assign the result of the function call, passing in the value
           } else {
               //if our object has this property...
               if (obj[key] != undefined) {
                   if (Array.isArray(obj[key])) {
                       temp[key] = [];
                       for (var i = 0; i < obj[key].length; i++) {
                           temp[key].push(cloneObjectByTemplate(obj[key][i], tpl[key], cloneConstructor));
                       }
                   } else {
                       temp[key] = cloneObjectByTemplate(obj[key], tpl[key], cloneConstructor);
                   }
               }
           }
       }

       return temp;
   }

A simple way to call it would be like this:

var source = {
       a: "whatever",
       b: {
           x: "yeah",
           y: "haha"
       }
   };
   var template = {
       a: true, //we want to clone "a"
       b: {
           x: true //we want to clone "b.x" too
       }
   }; 
   var destination = cloneObjectByTemplate(source, template);

If you wanted to use a function to make sure an attribute is returned or to make sure it's a particular type, use a template like this. Instead of using { ID: true } we are providing a function which still just copies the ID attribute of the source object but it makes sure that it's a number even if it does not exist on the source object.

 var template = {
    ID: function (srcObj) {
        if(srcObj.ID == undefined){ return -1; }
        return parseInt(srcObj.ID.toString());
    }
}

Arrays will clone fine but if you want to you can have your own function handle those individual attributes too, and do something special like this:

 var template = {
    tags: function (srcObj) {
        var tags = [];
        if (process.tags != undefined) {
            for (var i = 0; i < process.tags.length; i++) {

                tags.push(cloneObjectByTemplate(
                  srcObj.tags[i],
                  { a : true, b : true } //another template for each item in the array
                );
            }
        }
        return tags;
    }
 }

So in the above, our template just copies the tags attribute of the source object if it exists, (it's assumed to be an array), and for each element in that array the clone function is called to individually clone it based on a second template which just copies the a and b attributes of each of those tag elements.

If you are taking objects in and out of node and you want to control which attributes of those objects are cloned then this is a great way of controlling that in node.js and the code works in the browser too.

Here is an example of it's use: http://jsfiddle.net/hjchyLt1/

4

Simple

var restore = { name:'charlesi',
age:9}
var prev_data ={
name: 'charles'
age : 10
}

var temp = JSON.stringify(prev_data)
restore = JSON.parse(temp)

restore = {
name:'charlie',
age : 12}

output prev_data:

{
name: 'charles'
age : 10
} 
4

The most correct to copy object is use Object.create:

Object.create(Object.getPrototypeOf(obj), Object.getOwnPropertyDescriptors(obj));

Such a notation will make identically the same object with right prototype and hidden properties.

3

You can use functional closure to gain all the benefits of a deep copy, without a deep copy. It's a very different paradigm, but works well. Instead of trying to copy an existing object, just use a function to instantiate a new object when you need one.

First, create an function that returns an object

function template() {
  return {
    values: [1, 2, 3],
    nest: {x: {a: "a", b: "b"}, y: 100}
  };
}

Then create a simple shallow copy function

function copy(a, b) {
  Object.keys(b).forEach(function(key) {
    a[key] = b[key];
  });
}

Create a new object, and copy the template's properties onto it

var newObject = {}; 
copy(newObject, template());

But the above copy step is not necessary. All you need to do is this:

var newObject = template();

Now that you have a new object, test to see what its properties are:

console.log(Object.keys(newObject));

This displays:

["values", "nest"]

Yes, those are the newObject's own properties, not references to properties on another object. Let's just check:

console.log(newObject.nest.x.b);

This displays:

"b"

The newObject has acquired all of the template object's properties, but is free of any dependency chain.

http://jsbin.com/ISUTIpoC/1/edit?js,console

I added this example to encourage some debate, so please add some comments :)

1
  • 1
    Object.keys wasnt implemented until JavaScript 1.8.5, meaning it is not available in IE 8 and other legacy browsers. So while this answer will work great in Modern browsers, it will fail in IE 8. So if you use this method, you must use a properly emulating Object.keys polyfill. – Blaine Kasten May 14 '14 at 17:20
3

I think, that recurrence with caching is the best what we can do it here without libraries.

And underestimated WeakMap comes to the problem of cycles, wherein storing pairs of references to old and new object can help us to recreate pretty easily whole tree.

I prevented deep cloning of the DOM elements, probably you don't want to clone entire page :)

function deepCopy(object) {
    const cache = new WeakMap(); // Map of old - new references

    function copy(obj) {
        if (typeof obj !== 'object' ||
            obj === null ||
            obj instanceof HTMLElement
        )
            return obj; // primitive value or HTMLElement

        if (obj instanceof Date) 
            return new Date().setTime(obj.getTime());

        if (obj instanceof RegExp) 
            return new RegExp(obj.source, obj.flags);

        if (cache.has(obj)) 
            return cache.get(obj);

        const result = obj instanceof Array ? [] : {};

        cache.set(obj, result); // store reference to object before the recursive starts

        if (obj instanceof Array) {
            for(const o of obj) {
                 result.push(copy(o));
            }
            return result;
        }

        const keys = Object.keys(obj); 

        for (const key of keys)
            result[key] = copy(obj[key]);

        return result;
    }

    return copy(object);
}

Some tests:

// #1
const obj1 = { };
const obj2 = { };
obj1.obj2 = obj2;
obj2.obj1 = obj1; // Trivial circular reference

var copy = deepCopy(obj1);
copy == obj1 // false
copy.obj2 === obj1.obj2 // false
copy.obj2.obj1.obj2 // and so on - no error (correctly cloned).

// #2
const obj = { x: 0 }
const clone = deepCopy({ a: obj, b: obj });
clone.a == clone.b // true

// #3
const arr = [];
arr[0] = arr; // A little bit weird but who cares
clone = deepCopy(arr)
clone == arr // false;
clone[0][0][0][0] == clone // true;

NOTE: I'm using constants, for of loop, => operator and WeakMaps to create more essential code. This syntax (ES6) is supported by today's browsers

3

In my code I frequently define a function (_) to handle copies so that I can pass by value to functions. This code creates a deep copy but maintains inheritance. It also keeps track of sub-copies so that self-referential objects can be copied without an infinite loop. Feel free to use it.

It might not be the most elegant, but it hasn't failed me yet.

_ = function(oReferance) {
  var aReferances = new Array();
  var getPrototypeOf = function(oObject) {
    if(typeof(Object.getPrototypeOf)!=="undefined") return Object.getPrototypeOf(oObject);
    var oTest = new Object();
    if(typeof(oObject.__proto__)!=="undefined"&&typeof(oTest.__proto__)!=="undefined"&&oTest.__proto__===Object.prototype) return oObject.__proto__;
    if(typeof(oObject.constructor)!=="undefined"&&typeof(oTest.constructor)!=="undefined"&&oTest.constructor===Object&&typeof(oObject.constructor.prototype)!=="undefined") return oObject.constructor.prototype;
    return Object.prototype;
  };
  var recursiveCopy = function(oSource) {
    if(typeof(oSource)!=="object") return oSource;
    if(oSource===null) return null;
    for(var i=0;i<aReferances.length;i++) if(aReferances[i][0]===oSource) return aReferances[i][1];
    var Copy = new Function();
    Copy.prototype = getPrototypeOf(oSource);
    var oCopy = new Copy();
    aReferances.push([oSource,oCopy]);
    for(sPropertyName in oSource) if(oSource.hasOwnProperty(sPropertyName)) oCopy[sPropertyName] = recursiveCopy(oSource[sPropertyName]);
    return oCopy;
  };
  return recursiveCopy(oReferance);
};

// Examples:
Wigit = function(){};
Wigit.prototype.bInThePrototype = true;
A = new Wigit();
A.nCoolNumber = 7;
B = _(A);
B.nCoolNumber = 8; // A.nCoolNumber is still 7
B.bInThePrototype // true
B instanceof Wigit // true
3

The solution JSON.parse(JSON.stringify(orig_obj) as stated by many peers here for deep_cloning has several issues which I found, and they are listed below:

  1. It discards the entries while copying whose values are undefined in the original object,
  2. If there are some values like Infinity, NaN etc, they will be converted into null while copying,
  3. If there is a Date type in the original object, it will be stringified in the cloned object (typeof date_entry --> string).

Found an effective way for cloning an object, and it worked well for me in all sort of scenarios. Please have a look at below code, as it has resolved all above mentioned pitfalls of JSON.parse(...), yet resulting in proper deep-cloning:

var orig_obj = {
  string: 'my_str',
  number: 123,
  bool: false,
  nul: null,
  nested : {
    value : true
  },
  nan : NaN,
  date: new Date(), 
  undef: undefined,
  inf: Infinity,
}
console.log("original_obj before modification: ", orig_obj, "\n");
console.log(typeof orig_obj.date, "\n");

var clone_obj = Object.assign({}, orig_obj);

//this below loop will help in deep cloning and solving above issues
for(let prop in orig_obj) {
    if(typeof orig_obj[prop] === "object") {
        if(orig_obj[prop] instanceof Date)
            clone_obj[prop] = orig_obj[prop];
        else {
            clone_obj[prop] = JSON.parse(JSON.stringify(orig_obj[prop]));
        }
    }
}

console.log("cloned_obj before modification: ", orig_obj, "\n");

clone_obj.bool = true;
clone_obj.nested.value = "false";

console.log("original_obj post modification: ", orig_obj, "\n");
console.log("cloned_obj post modification: ", clone_obj, "\n");
console.log(typeof clone_obj.date);
1
  • You check all the top level properties to see if they are Dates, but then you JSON stringify/parse them if they are not. What if the top level property is an object that contains a Date as one of its properties? Your solution needs to work recursively in order to catch all the possible cases of nested objects that can't be JSON.parsed. – A. Levy Jan 24 '20 at 14:06
2

I've tried this in the case of a scalar object and it works for me:

function binder(i) {
  return function () {
    return i;
  };
}

a=1;
b=binder(a)(); // copy value of a into b

alert(++a); // 2
alert(b); // still 1

Regards.

1
  • a=1;b=a;alert(++a);alert(b); // still 1 – dandavis Oct 11 '15 at 3:33
2

Here's a modern solution that doesn't have the pitfalls of Object.assign() (does not copy by reference):

const cloneObj = (obj) => {
    return Object.keys(obj).reduce((dolly, key) => {
        dolly[key] = (obj[key].constructor === Object) ?
            cloneObj(obj[key]) :
            obj[key];
        return dolly;
    }, {});
};
2

Using defaults (historically specific to nodejs but now usable from the browser thanks to modern JS):

import defaults from 'object.defaults';

const myCopy = defaults({}, myObject);
2

To support a better understanding of copying of objects, this illustrative jsbin may be of value

class base {
  get under(){return true}
}

class a extends base {}

const b = {
  get b1(){return true},
  b: true
}

console.log('Object assign')
let t1 = Object.create(b)
t1.x = true
const c = Object.assign(t1, new a())
console.log(c.b1 ? 'prop value copied': 'prop value gone')
console.log(c.x ? 'assigned value copied': 'assigned value gone')
console.log(c.under ? 'inheritance ok': 'inheritance gone')
console.log(c.b1 ? 'get value unchanged' : 'get value lost')
c.b1 = false
console.log(c.b1? 'get unchanged' : 'get lost')
console.log('-----------------------------------')
console.log('Object assign  - order swopped')
t1 = Object.create(b)
t1.x = true
const d = Object.assign(new a(), t1)
console.log(d.b1 ? 'prop value copied': 'prop value gone')
console.log(d.x ? 'assigned value copied': 'assigned value gone')
console.log(d.under ? 'inheritance n/a': 'inheritance gone')
console.log(d.b1 ? 'get value copied' : 'get value lost')
d.b1 = false
console.log(d.b1? 'get copied' : 'get lost')
console.log('-----------------------------------')
console.log('Spread operator')
t1 = Object.create(b)
t2 = new a()
t1.x = true
const e = { ...t1, ...t2 }
console.log(e.b1 ? 'prop value copied': 'prop value gone')
console.log(e.x ? 'assigned value copied': 'assigned value gone')
console.log(e.under ? 'inheritance ok': 'inheritance gone')
console.log(e.b1 ? 'get value copied' : 'get value lost')
e.b1 = false
console.log(e.b1? 'get copied' : 'get lost')
console.log('-----------------------------------')
console.log('Spread operator on getPrototypeOf')
t1 = Object.create(b)
t2 = new a()
t1.x = true
const e1 = { ...Object.getPrototypeOf(t1), ...Object.getPrototypeOf(t2) }
console.log(e1.b1 ? 'prop value copied': 'prop value gone')
console.log(e1.x ? 'assigned value copied': 'assigned value gone')
console.log(e1.under ? 'inheritance ok': 'inheritance gone')
console.log(e1.b1 ? 'get value copied' : 'get value lost')
e1.b1 = false
console.log(e1.b1? 'get copied' : 'get lost')
console.log('-----------------------------------')
console.log('keys, defineProperty, getOwnPropertyDescriptor')
f = Object.create(b)
t2 = new a()
f.x = 'a'
Object.keys(t2).forEach(key=> {
  Object.defineProperty(f,key,Object.getOwnPropertyDescriptor(t2, key))
})
console.log(f.b1 ? 'prop value copied': 'prop value gone')
console.log(f.x ? 'assigned value copied': 'assigned value gone')
console.log(f.under ? 'inheritance ok': 'inheritance gone')
console.log(f.b1 ? 'get value copied' : 'get value lost')
f.b1 = false
console.log(f.b1? 'get copied' : 'get lost')
console.log('-----------------------------------')
console.log('defineProperties, getOwnPropertyDescriptors')
let g = Object.create(b)
t2 = new a()
g.x = 'a'
Object.defineProperties(g,Object.getOwnPropertyDescriptors(t2))
console.log(g.b1 ? 'prop value copied': 'prop value gone')
console.log(g.x ? 'assigned value copied': 'assigned value gone')
console.log(g.under ? 'inheritance ok': 'inheritance gone')
console.log(g.b1 ? 'get value copied' : 'get value lost')
g.b1 = false
console.log(g.b1? 'get copied' : 'get lost')
console.log('-----------------------------------')
2

Just as this link says use this code:

let clone = Object.create(Object.getPrototypeOf(obj),
 Object.getOwnPropertyDescriptors(obj));
2
  • Answering questions here is good but this is an old question with many good answers. Any new answer should add significant new information and new insights into the topic. Your answer here is very brief and has no explanation, the link to an offsite page is useful but an answer should be self-contained and have enough detail if the link fails. – AdrianHHH Jun 16 '19 at 16:28
  • this is exactly the same as Object.assign(newObj, obj), its a shallow copy – Exlord Jun 19 '19 at 4:23
1

If there are no circular dependencies in your object, I suggest using one of the other answers or jQuery's copy methods, as they all seem quite effective.

If there are circular dependencies (i.e., two sub-objects link to each other), you are kind of screwed as there is (from a theoretical perspective) no way to solve this issue elegantly.

1
  • 2
    Actually, Python's object serialization handles circular references by keeping track of nodes in the object graph that it has already processed. You could use that approach to implement a robust copy routine. It would be a little more work though! – A. Levy May 20 '10 at 18:21
1

Ok so this might be the very best option for shallow copying. If follows the many examples using assign, but it also keeps the inheritance and prototype. It's so simple too and works for most array-like and Objects except those with constructor requirements or read-only properties. But that means it fails miserably for TypedArrays, RegExp, Date, Maps, Sets and Object versions of primitives (Boolean, String, etc..).

function copy ( a ) { return Object.assign( new a.constructor, a ) }

Where a can be any Object or class constructed instance, but again not be reliable for thingies that use specialized getters and setters or have constructor requirements, but for more simple situations it rocks. It does work on arguments as well.

You can also apply it to primitives to get strange results, but then... unless it just ends up being a useful hack, who cares.

results from basic built-in Object and Array...

> a = { a: 'A', b: 'B', c: 'C', d: 'D' }
{ a: 'A', b: 'B', c: 'C', d: 'D' }
> b = copy( a )
{ a: 'A', b: 'B', c: 'C', d: 'D' }
> a = [1,2,3,4]
[ 1, 2, 3, 4 ]
> b = copy( a )
[ 1, 2, 3, 4 ]

And fails because of mean get/setters, constructor required arguments or read-only properties, and sins against the father.

> a = /\w+/g
/\w+/g
> b = copy( a )  // fails because source and flags are read-only
/(?:)/
> a = new Date ( '1/1/2001' )
2000-12-31T16:00:00.000Z
> b = copy( a )  // fails because Date using methods to get and set things
2017-02-04T14:44:13.990Z
> a = new Boolean( true )
[Boolean: true]
> b = copy( a )  // fails because of of sins against the father
[Boolean: false]
> a = new Number( 37 )
[Number: 37]
> b = copy( a )  // fails because of of sins against the father
[Number: 0]
> a = new String( 'four score and seven years ago our four fathers' )
[String: 'four score and seven years ago our four fathers']
> b = copy( a )  // fails because of of sins against the father
{ [String: ''] '0': 'f', '1': 'o', '2': 'u', '3': 'r', '4': ' ', '5': 's', '6': 'c', '7': 'o', '8': 'r', '9': 'e', '10': ' ', '11': 'a', '12': 'n', '13': 'd', '14': ' ', '15': 's', '16': 'e', '17': 'v', '18': 'e', '19': 'n', '20': ' ', '21': 'y', '22': 'e', '23': 'a', '24': 'r', '25': 's', '26': ' ', '27': 'a', '28': 'g', '29': 'o', '30': ' ', '31': 'o', '32': 'u', '33': 'r', '34': ' ', '35': 'f', '36': 'o', '37': 'u', '38': 'r', '39': ' ', '40': 'f', '41': 'a', '42': 't', '43': 'h', '44': 'e', '45': 'r', '46': 's' } 
1

I don't know which cases this doesn't work for, but it got me a copy of an array. I think its cute :) Hope it helps

copiedArr = origArr.filter(function(x){return true})
1

If your object is a class (e.g. https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Classes):

var copiedObject = jQuery.extend(true, {}, originalObject);
copiedObject.__proto__ = originalObject.__proto__;

Then in copiedObject you have a deep-copied instance of originalObject class with all its methods.

1

If you are using TypeScript, need to support older web browsers (and so can't use Object.assign), and aren't using a library with a clone method build in, you can make yourself a combine helper in a few lines of code. It combines objects, and if you have only one, just clones it.

/** Creates a new object that combines the properties of the specified objects. */
function combine(...objs: {}[]) {
    const combined = {};
    objs.forEach(o => Object.keys(o).forEach(p => combined[p] = o[p]));
    return combined;
}
1

You may clone your Object without modification parent Object -

    /** [Object Extend]*/
    ( typeof Object.extend === 'function' ? undefined : ( Object.extend = function ( destination, source ) {
        for ( var property in source )
            destination[property] = source[property];
        return destination;
    } ) );
    /** [/Object Extend]*/
    /** [Object clone]*/
    ( typeof Object.clone === 'function' ? undefined : ( Object.clone = function ( object ) {
        return this.extend( {}, object );
    } ) );
    /** [/Object clone]*/

    let myObj = {
        a:1, b:2, c:3, d:{
            a:1, b:2, c:3
        }
    };

    let clone = Object.clone( myObj );

    clone.a = 10;

    console.log('clone.a==>', clone.a); //==> 10

    console.log('myObj.a==>', myObj.a); //==> 1 // object not modified here

    let clone2 = Object.clone( clone );

    clone2.a = 20;

    console.log('clone2.a==>', clone2.a); //==> 20

    console.log('clone.a==>', clone.a); //==> 10 // object not modified here
1

I'm providing an answer to this question, because I do not see any native, recursive implementations here that resolve the problem of DOM elements.

The problem there is that <element> has parent and child attributes, that link to other elements with parent and child values, which point back to the original <element>, causing either an infinite recursive or cyclic redundancy.

If your object is something safe and simple like

{
    '123':456
}

...then any other answer here will probably work.

But if you have...

{
    '123':<reactJSComponent>,
    '456':document.createElement('div'),
}

...then you need something like this:

    // cloneVariable() : Clone variable, return null for elements or components.
var cloneVariable = function (args) {
    const variable = args.variable;

    if(variable === null) {
            return null;
    }

    if(typeof(variable) === 'object') {
            if(variable instanceof HTMLElement || variable.nodeType > 0) {
                    return null;
            }

            if(Array.isArray(variable)) {
                    var arrayclone = [];

                    variable.forEach((element) => {
                            arrayclone.push(cloneVariable({'variable':element}));
                    });

                    return arrayclone;
            }

            var objectclone = {};

            Object.keys(variable).forEach((field) => {
                    objectclone[field] = cloneVariable({'variable':variable[field]});
            });

            return objectclone;
    }

    return variable;
}

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