Our volunteers haven't translated this article into فارسی yet. Join us and help get the job done!
The delete
operator removes a property from an object.
Syntax
delete expression
where expression should evaluate to a property reference, e.g.:
delete object.property delete object['property']
Parameters
object
- The name of an object, or an expression evaluating to an object.
property
- The property to delete.
Return value
true
for all cases except when the property is an own non-configurable property, in which case, false
is returned in non-strict mode.
Exceptions
Throws Global_objects/SyntaxError
in strict mode if the property is an own non-configurable property.
Description
Unlike what common belief suggests, the delete
operator has nothing to do with directly freeing memory. Memory management is done indirectly via breaking references, see the memory management page for more details.
The delete
operator removes a given property from an object. On successful deletion, it will return true,
else false
will be returned. However, it is important to consider the following scenarios:
- If the property which you are trying to delete does not exist,
delete
will not have any effect and will returntrue
- If a property with the same name exists on the object's prototype chain, then, after deletion, the object will use the property from the prototype chain (in other words,
delete
only has an effect on own properties). - Any property declared with
var
cannot be deleted from the global scope or from a function's scope.- As such,
delete
cannot delete any functions in the global scope (whether this is part from a function definition or a function expression). - Functions which are part of an object (apart from the global scope) can be deleted with
delete
.
- As such,
- Any property declared with
let
orconst
cannot be deleted from the scope within which they were defined. - Non-configurable properties cannot be removed. This includes properties of built-in objects like
Math
,Array
,Object
and properties that are created as non-configurable with methods likeObject.defineProperty()
.
The following snippet gives a simple example:
var Employee = { age: 28, name: 'abc', designation: 'developer' } console.log(delete Employee.name) // returns true console.log(delete Employee.age) // returns true // When trying to delete a property that does // not exist, true is returned console.log(delete Employee.salary) // returns true
Non-configurable properties
When a property is marked as non-configurable, delete
won't have any effect, and will return false
. In strict mode this will raise a SyntaxError
.
var Employee = {}; Object.defineProperty(Employee, 'name', {configurable: false}) console.log(delete Employee.name); // returns false
var
, let
and const
create non-configurable properties that cannot be deleted with the delete
operator:
var name = 'XYZ'; // We can access this global property using: Object.getOwnPropertyDescriptor(window, 'name') // output: Object {value: "", writable: true, enumerable: true, configurable: false} // Since "name" is added using with the // var keyword, it is marked as "non-configurable" delete name; // return false
In strict mode, this would have risen an exception.
Strict vs. non-strict mode
When in strict mode, if delete
is used on a direct reference to a variable, a function argument or a function name, it will throw a SyntaxError
.
Any variable defined with var
is marked as non-configurable. In the following example, salary
is non-configurable and cannot be deleted. In non-strict mode, the delete
operation will return false
.
function Employee() { delete salary; var salary; } Employee()
Let's see how the same code behaves in strict mode. Instead of returning false
, the statement raises a SyntaxError
.
"use strict"; function Employee() { delete salary; // SyntaxError var salary; } // Similarly, any direct access to a function // with delete will raise a SyntaxError function DemoFunction() { //some code } delete DemoFunction; // SyntaxError
Examples
// creates the property adminName on the global scope adminName = 'xyz'; // creates the property empCount on the global scope // Since we are using var, this is marked as non-configurable. The same is true of let and const. var empCount = 43; EmployeeDetails = { name: 'xyz', age: 5, designation: 'Developer' }; // adminName is a property of the global scope. // It can be deleted since it is created without var. // Therefore, it is configurable. delete adminName; // returns true // On the contrary, empCount is not configurable, // since var was used. delete empCount; // returns false // delete can be used to remove properties from objects delete EmployeeDetails.name; // returns true // Even when the property does not exists, it returns "true" delete EmployeeDetails.salary; // returns true // delete does not affect built-in static properties delete Math.PI; // returns false // EmployeeDetails is a property of the global scope. // Since it defined without "var", it is marked configurable delete EmployeeDetails; // returns true function f() { var z = 44; // delete doesn't affect local variable names delete z; // returns false }
delete
and the prototype chain
In the following example, we delete an own property of an object while a property with the same name is available on the prototype chain:
function Foo(){ this.bar = 10; } Foo.prototype.bar = 42; var foo = new Foo(); // Returns true, since the own property // has been deleted on the foo object delete foo.bar; // foo.bar is still available, since it // is available in the prototype chain. console.log(foo.bar); // We delete the property on the prototype delete Foo.prototype.bar; // logs "undefined" since the property // is no longer inherited console.log(foo.bar);
Deleting array elements
When you delete an array element, the array length is not affected. This holds even if you delete the last element of the array.
When the delete
operator removes an array element, that element is no longer in the array. In the following example, trees[3]
is removed with delete
.
var trees = ["redwood","bay","cedar","oak","maple"]; delete trees[3]; if (3 in trees) { // this does not get executed }
If you want an array element to exist but have an undefined value, use the undefined
value instead of the delete
operator. In the following example, trees[3]
is assigned the value undefined, but the array element still exists:
var trees = ["redwood","bay","cedar","oak","maple"]; trees[3] = undefined; if (3 in trees) { // this gets executed }
Specifications
Specification | Status | Comment |
---|---|---|
ECMAScript 2017 Draft (ECMA-262) The definition of 'The delete Operator' in that specification. |
Draft | |
ECMAScript 2015 (6th Edition, ECMA-262) The definition of 'The delete Operator' in that specification. |
Standard | |
ECMAScript 5.1 (ECMA-262) The definition of 'The delete Operator' in that specification. |
Standard | |
ECMAScript 1st Edition (ECMA-262) The definition of 'The delete Operator' in that specification. |
Standard | Initial definition. Implemented in JavaScript 1.2. |
Browser compatibility
Feature | Chrome | Firefox (Gecko) | Internet Explorer | Opera | Safari |
---|---|---|---|---|---|
Basic support | (Yes) | (Yes) | (Yes) | (Yes) | (Yes) |
Temporal dead zone | ? | 36 (36) | ? | ? | ? |
Feature | Android | Chrome for Android | Firefox Mobile (Gecko) | IE Mobile | Opera Mobile | Safari Mobile |
---|---|---|---|---|---|---|
Basic support | (Yes) | (Yes) | (Yes) | (Yes) | (Yes) | (Yes) |
Temporal dead zone | ? | ? | 36.0 (36) | ? | ? | ? |
Cross-browser notes
Although ECMAScript makes iteration order of objects implementation-dependent, it may appear that all major browsers support an iteration order based on the earliest added property coming first (at least for properties not on the prototype). However, in the case of Internet Explorer, when one uses delete
on a property, some confusing behavior results, preventing other browsers from using simple objects like object literals as ordered associative arrays. In Explorer, while the property value is indeed set to undefined, if one later adds back a property with the same name, the property will be iterated in its old position--not at the end of the iteration sequence as one might expect after having deleted the property and then added it back.
So, if you want to simulate an ordered associative array in a cross-browser environment, you are forced to either use two separate arrays (one for the keys and the other for the values), or build an array of single-property objects, etc.