Mutability is the ability to change a value. A mutable value can be changed, and an immutable value cannot be changed. A common misconception is that the "const" keyword makes a variable immutable.
In actuality, "const" only prevents reassignment. For non-object types, values can only be changed via reassignment, so declaring them with "const" actually makes them immutable. Consider, for example, the following code:
const num = 5; num = 7; // illegal reassignment of const variable
There is no way to change the value of num in this code. Note that using ++ or -- are still considered to be reassignments, and that is indicated in the error message if we try to use them on a variable declared with const.
const num = 5; num++;//illegal reassignment of constant
The resulting error is:
Uncaught TypeError: Assignment to constant variable.
Objects are fundamentally different in regard to mutability in that their values can change without reassignment of the variable. Note that reassignment of properties is not prevented by "const". Only the variable name is prevented from reassignment.
const obj = {num: 5}; obj.num = 7; //legal obj = {num: 7}; //illegal reassignment
Objects can also have methods that change the internal values.
const obj = { num: 5, increment(){ this.num++; } } obj.increment(); console.log(obj.num); //6
It is possible to make an object actually immutable by declaring it with "const" and using Object.freeze().
const obj = {num: 5}; Object.freeze(obj); obj.num = 7; // doesn't change console.log(obj.num);// still 5
Note that if we use strict mode, the attempt to change the num value would actually cause a crash with the following error message:
Cannot assign to read only property 'num'
The use of Object.freeze() without "const" is already sufficient to make this object immutable. However, it doesn't make the variable name immutable.
let obj = {num: 5}; Object.freeze(obj); obj = {num: 5}; // new object with old name obj.num = 7; // changes successfully console.log(obj.num);// 7
What happens in this version of the code is that obj gets reassigned. The freeze() was applied to the previous object that shared the same name, but the new object was never frozen, so it is mutable.
There are times when you might want to allow values in an object to change, but you don't want to allow adding or removing properties. This can be achieved by using Object.seal().
let obj = {num: 5}; Object.seal(obj); obj.num = 7; // changes console.log(obj.num);// 7 obj.newValue = 42; //cannot add new property to sealed object console.log(obj.newValue);//undefined delete obj.num; //cannot delete property from sealed object console.log(obj.num);// still exists and is 7
Freezing and sealing apply to the whole object. If you want to make specific properties immutable, that can be done using defineProperty() or defineProperties(). The choice between these two depends on if you want to affect a single property or multiple properties.
const obj = {}; Object.defineProperty(obj, 'num',{ value: 5, writable: false, configurable: false }); obj.num = 7; // Cannot change value because writable is false delete obj.num; // Cannot delete because configurable is false console.log(obj.num);//Still exists and is 5
A new property is being defined in this example, but defineProperty() can also be used on an existing property. Note that if "configurable" was previously set to false, it cannot be changed to true, but if it was originally true, it can be set to false, since this change counts as a type of configuring.
In most cases, you won't need to guarantee that an object is immutable. When such a need arises, it's generally sufficient to freeze the object, but we have additional options for finer controls if such needs arise.
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