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Objects can be initialized using new Object()
, Object.create()
, or using the literal notation (initializer notation). An object initializer is a list of zero or more pairs of property names and associated values of an object, enclosed in curly braces ({}
).
Syntax
var o = {}; var o = { a: "foo", b: 42, c: {} }; var a = "foo", b = 42, c = {}; var o = { a: a, b: b, c: c }; var o = { property: function ([parameters]) {}, get property() {}, set property(value) {}, };
New notations in ECMAScript 2015
Please see the compatibility table for support for these notations. In non-supporting environments, these notations will lead to syntax errors.
// Shorthand property names (ES6) var a = "foo", b = 42, c = {}; var o = { a, b, c }; // Shorthand method names (ES6) var o = { property([parameters]) {}, get property() {}, set property(value) {}, * generator() {} }; // Computed property names (ES6) var prop = "foo"; var o = { [prop]: "hey", ["b" + "ar"]: "there", };
Description
An object initializer is an expression that describes the initialization of an Object
. Objects consist of properties, which are used to describe an object. Values of object properties can either contain primitive data types or other objects.
Creating objects
An empty object with no properties can be created like this:
var object = {};
However, the advantage of the literal or initializer notation is, that you are able to quickly create objects with properties inside the curly braces. You simply notate a list of key: value pairs delimited by comma. The following code creates an object with three properties and the keys are "foo", "age" and "baz". The values of these keys are a string "bar", a number 42 and the third property has another object as its value.
var object = { foo: "bar", age: 42, baz: { myProp: 12 }, }
Accessing properties
Once you have created an object, you might want to read or change them. Object properties can be accessed by using the dot notation or the bracket notation. See property accessors for detailed information.
object.foo; // "bar" object["age"]; // 42 object.foo = "baz";
Property definitions
We have already learned how to notate properties using the initializer syntax. Oftentimes, there are variables in your code that you would like to put into an object. You will see code like this:
var a = "foo", b = 42, c = {}; var o = { a: a, b: b, c: c };
With ECMAScript 2015, there is a shorter notation available to achieve the same:
var a = "foo", b = 42, c = {}; // Shorthand property names (ES6) var o = { a, b, c };
Duplicate property names
When using the same name for your properties, the second property will overwrite the first.
var a = {x: 1, x: 2}; console.log(a); // { x: 2}
In ECMAScript 5 strict mode code, duplicate property names were considered a SyntaxError
. With the introduction of computed property names making duplication possible at runtime, ECMAScript 2015 has removed this restriction.
function haveES6DuplicatePropertySemantics(){ "use strict"; try { ({ prop: 1, prop: 2 }); // No error thrown, duplicate property names allowed in strict mode return true; } catch (e) { // Error thrown, duplicates prohibited in strict mode return false; } }
Method definitions
A property of an object can also refer to a function or a getter or setter method.
var o = { property: function ([parameters]) {}, get property() {}, set property(value) {}, };
In ECMAScript 2015, a shorthand notation is available, so that the keyword "function" is no longer necessary.
// Shorthand method names (ES6) var o = { property([parameters]) {}, get property() {}, set property(value) {}, * generator() {} };
In ECMAScript 2015 There is a way to concisely define properties whose values are generator functions:
var o = { * generator() { ........... } };
In ECMAScript 5 you would write it like this (but note that ES5 has no generators):
var o = { generator: function *() { ........... } };
For more information and examples about methods, see method definitions.
Computed property names
Starting with ECMAScript 2015, the object initializer syntax also supports computed property names. That allows you to put an expression in brackets []
, that will be computed as the property name. This is symmetrical to the bracket notation of the property accessor syntax, which you might have used to read and set properties already. Now you can use the same syntax in object literals, too:
// Computed property names (ES6) var i = 0; var a = { ["foo" + ++i]: i, ["foo" + ++i]: i, ["foo" + ++i]: i }; console.log(a.foo1); // 1 console.log(a.foo2); // 2 console.log(a.foo3); // 3 var param = 'size'; var config = { [param]: 12, ["mobile" + param.charAt(0).toUpperCase() + param.slice(1)]: 4 }; console.log(config); // { size: 12, mobileSize: 4 }
Prototype mutation
A property definition of the form __proto__: value
or "__proto__": value
does not create a property with the name __proto__
. Instead, if the provided value is an object or null
, it changes the [[Prototype]]
of the created object to that value. (If the value is not an object or null, the object is not changed.)
var obj1 = {}; assert(Object.getPrototypeOf(obj1) === Object.prototype); var obj2 = { __proto__: null }; assert(Object.getPrototypeOf(obj2) === null); var protoObj = {}; var obj3 = { "__proto__": protoObj }; assert(Object.getPrototypeOf(obj3) === protoObj); var obj4 = { __proto__: "not an object or null" }; assert(Object.getPrototypeOf(obj4) === Object.prototype); assert(!obj4.hasOwnProperty("__proto__"));
Only a single prototype mutation is permitted in an object literal: multiple prototype mutations are a syntax error.
Property definitions that do not use "colon" notation are not prototype mutations: they are property definitions that behave identically to similar definitions using any other name.
var __proto__ = "variable"; var obj1 = { __proto__ }; assert(Object.getPrototypeOf(obj1) === Object.prototype); assert(obj1.hasOwnProperty("__proto__")); assert(obj1.__proto__ === "variable"); var obj2 = { __proto__() { return "hello"; } }; assert(obj2.__proto__() === "hello"); var obj3 = { ["__prot" + "o__"]: 17 }; assert(obj3.__proto__ === 17);
Object literal notation vs JSON
The object literal notation is not the same as the JavaScript Object Notation (JSON). Although they look similar, there are differences between them:
- JSON permits only property definition using
"property": value
syntax. The property name must be double-quoted, and the definition cannot be a shorthand. - In JSON the values can only be strings, numbers, arrays,
true
,false
,null
, or another (JSON) object. - A function value (see "Methods" above) can not be assigned to a value in JSON.
- Objects like
Date
will be a string afterJSON.parse()
. JSON.parse()
will reject computed property names and an error will be thrown.
Specifications
Specification | Status | Comment |
---|---|---|
ECMAScript 1st Edition (ECMA-262) | Standard | initial definition. |
ECMAScript 5.1 (ECMA-262) The definition of 'Object Initializer' in that specification. |
Standard | getter and setter added. |
ECMAScript 2015 (6th Edition, ECMA-262) The definition of 'Object Initializer' in that specification. |
Standard | Shorthand method/property names and computed property names added. |
ECMAScript 2017 Draft (ECMA-262) The definition of 'Object Initializer' in that specification. |
Draft |
Browser compatibility
Feature | Chrome | Firefox (Gecko) | Internet Explorer | Opera | Safari |
---|---|---|---|---|---|
Basic support | 1.0 | 1.0 (1.7 or earlier) | 1 | 1 | 1 |
Computed property names | (Yes) | 34 (34) | No support | No support | 7.1 |
Shorthand property names | (Yes) | 33 (33) | No support | No support | No support |
Shorthand method names | 42.0 | 34 (34) | No support | No support | No support |
Feature | Android | Android Webview | Firefox Mobile (Gecko) | IE Mobile | Opera Mobile | Safari Mobile | Chrome for Android |
---|---|---|---|---|---|---|---|
Basic support | (Yes) | (Yes) | 1.0 (1.0) | 1 | 1 | 1 | 1.0 |
Computed property names | No support | (Yes) | 34.0 (34) | No support | No support | No support | No support |
Shorthand property names | No support | (Yes) | 33.0 (33) | No support | No support | No support | No support |
Shorthand method names | No support | 42.0 | 34.0 (34) | No support | No support | No support | 42.0 |