docs.rodeo

MDN Web Docs mirror

get

{{jsSidebar("Functions")}} 

The get syntax binds an object property to a function that will be called when that property is looked up. It can also be used in classes.

{{InteractiveExample("JavaScript Demo: Functions Getter")}} 

const obj = {
  log: ["a", "b", "c"],
  get latest() {
    return this.log[this.log.length - 1];
  },
};

console.log(obj.latest);
// Expected output: "c"

Syntax

{ get prop() { /* … */ } }
{ get [expression]() { /* … */ } }

There are some additional syntax restrictions:

Parameters

Description

Sometimes, it is desirable to allow access to a property that returns a dynamically computed value, or you may want to reflect the status of an internal variable without requiring the use of explicit method calls. In JavaScript, this can be accomplished with the use of a getter.

An object property is either a data property or an accessor property, but it cannot simultaneously be both. Read {{jsxref("Object.defineProperty()")}}  for more information. The getter syntax allows you to specify the getter function in an object initializer.

const obj = {
  get prop() {
    // getter, the code executed when reading obj.prop
    return someValue;
  },
};

Properties defined using this syntax are own properties of the created object, and they are configurable and enumerable.

Examples

Defining a getter on new objects in object initializers

This will create a pseudo-property latest for object obj, which will return the last array item in log.

const obj = {
  log: ["example", "test"],
  get latest() {
    return this.log.at(-1);
  },
};
console.log(obj.latest); // "test"

Note that attempting to assign a value to latest will not change it.

Using getters in classes

You can use the exact same syntax to define public instance getters that are available on class instances. In classes, you don’t need the comma separator between methods.

class ClassWithGetSet {
  #msg = "hello world";
  get msg() {
    return this.#msg;
  }
  set msg(x) {
    this.#msg = `hello ${x}`;
  }
}

const instance = new ClassWithGetSet();
console.log(instance.msg); // "hello world"

instance.msg = "cake";
console.log(instance.msg); // "hello cake"

Getter properties are defined on the prototype property of the class and are thus shared by all instances of the class. Unlike getter properties in object literals, getter properties in classes are not enumerable.

Static getters and private getters use similar syntaxes, which are described in the static and private properties pages.

Deleting a getter using the delete operator

If you want to remove the getter, you can just {{jsxref("Operators/delete", "delete")}}  it:

delete obj.latest;

Defining a getter on existing objects using defineProperty

To append a getter to an existing object later at any time, use {{jsxref("Object.defineProperty()")}} .

const o = { a: 0 };

Object.defineProperty(o, "b", {
  get() {
    return this.a + 1;
  },
});

console.log(o.b); // Runs the getter, which yields a + 1 (which is 1)

Using a computed property name

const expr = "foo";

const obj = {
  get [expr]() {
    return "bar";
  },
};

console.log(obj.foo); // "bar"

Defining static getters

class MyConstants {
  static get foo() {
    return "foo";
  }
}

console.log(MyConstants.foo); // 'foo'
MyConstants.foo = "bar";
console.log(MyConstants.foo); // 'foo', a static getter's value cannot be changed

Smart / self-overwriting / lazy getters

Getters give you a way to define a property of an object, but they do not calculate the property’s value until it is accessed. A getter defers the cost of calculating the value until the value is needed. If it is never needed, you never pay the cost.

An additional optimization technique to lazify or delay the calculation of a property value and cache it for later access are smart (or memoized) getters. The value is calculated the first time the getter is called and is then cached so subsequent accesses return the cached value without recalculating it. This is useful in the following situations:

[!NOTE] This means that you shouldn’t write a lazy getter for a property whose value you expect to change, because if the getter is lazy, then it will not recalculate the value.

Note that getters are not “lazy” or “memoized” by nature; you must implement this technique if you desire this behavior.

In the following example, the object has a getter as its own property. On getting the property, the property is removed from the object and re-added, but implicitly as a data property this time. Finally, the value gets returned.

const obj = {
  get notifier() {
    delete this.notifier;
    this.notifier = document.getElementById("bookmarked-notification-anchor");
    return this.notifier;
  },
};

get vs. defineProperty

While using the get keyword and {{jsxref("Object.defineProperty()")}}  have similar results, there is a subtle difference between the two when used on {{jsxref("classes")}} .

When using get the property will be defined on the instance’s prototype, while using {{jsxref("Object.defineProperty()")}}  the property will be defined on the instance it is applied to.

class Example {
  get hello() {
    return "world";
  }
}

const obj = new Example();
console.log(obj.hello);
// "world"

console.log(Object.getOwnPropertyDescriptor(obj, "hello"));
// undefined

console.log(
  Object.getOwnPropertyDescriptor(Object.getPrototypeOf(obj), "hello"),
);
// { configurable: true, enumerable: false, get: function get hello() { return 'world'; }, set: undefined }

Specifications

{{Specifications}} 

Browser compatibility

{{Compat}} 

See also

In this article

View on MDN