TypeScript Classes
TypeScript adds types and visibility modifiers to JavaScript classes.
Learn more about JavaScript classes here: JS Classes.
Members: Types
The members of a class (properties & methods) are typed using type annotations, similar to variables.
Example
class Person {
name: string;
}
const person = new Person();
person.name = "Jane";
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Members: Visibility
Class members also be given special modifiers which affect visibility.
There are three main visibility modifiers in TypeScript.
public
- (default) allows access to the class member from anywhereprivate
- only allows access to the class member from within the classprotected
- allows access to the class member from itself and any classes that inherit it, which is covered in the inheritance section below
Example
class Person {
private name: string;
public constructor(name: string) {
this.name = name;
}
public getName(): string {
return this.name;
}
}
const person = new Person("Jane");
console.log(person.getName()); // person.name isn't accessible from outside the class since it's private
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The this
keyword in a class usually refers to the instance of the class. Read more about this
here: JS this keyword.
Parameter Properties
TypeScript provides a convenient way to define class members in the constructor, by adding a visibility modifiers to the parameter.
Example
class Person {
// name is a private member variable
public constructor(private name: string) {}
public getName(): string {
return this.name;
}
}
const person = new Person("Jane");
console.log(person.getName());
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Readonly
Similar to arrays, the readonly
keyword can prevent class members from being changed.
Example
class Person {
private readonly name: string;
public constructor(name: string) {
// name cannot be changed after this initial definition, which has to be either at it's declaration or in the constructor.
this.name = name;
}
public getName(): string {
return this.name;
}
}
const person = new Person("Jane");
console.log(person.getName());
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Inheritance: Implements
Interfaces (covered here) can be used to define the type a class must follow through the implements
keyword.
Example
interface Shape {
getArea: () => number;
}
class Rectangle implements Shape {
public constructor(protected readonly width: number, protected readonly height: number) {}
public getArea(): number {
return this.width * this.height;
}
}
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A class can implement multiple interfaces by listing each one after implements
, separated by a comma like so: class Rectangle implements Shape, Colored {
Inheritance: Extends
Classes can extend each other through the extends
keyword. A class can only extend one other class.
Example
interface Shape {
getArea: () => number;
}
class Rectangle implements Shape {
public constructor(protected readonly width: number, protected readonly height: number) {}
public getArea(): number {
return this.width * this.height;
}
}
class Square extends Rectangle {
public constructor(width: number) {
super(width, width);
}
// getArea gets inherited from Rectangle
}
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Override
When a class extends another class, it can replace the members of the parent class with the same name.
Newer versions of TypeScript allow explicitly marking this with the override
keyword.
Example
interface Shape {
getArea: () => number;
}
class Rectangle implements Shape {
// using protected for these members allows access from classes that extend from this class, such as Square
public constructor(protected readonly width: number, protected readonly height: number) {}
public getArea(): number {
return this.width * this.height;
}
public toString(): string {
return `Rectangle[width=${this.width}, height=${this.height}]`;
}
}
class Square extends Rectangle {
public constructor(width: number) {
super(width, width);
}
// this toString replaces the toString from Rectangle
public override toString(): string {
return `Square[width=${this.width}]`;
}
}
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By default the override
keyword is optional when overriding a method, and only helps to prevent accidentally overriding a method that does not exist. Use the setting noImplicitOverride
to force it to be used when overriding.
Abstract Classes
Classes can be written in a way that allows them to be used as a base class for other classes without having to implement all the members. This is done by using the abstract
keyword. Members that are left unimplemented also use the abstract
keyword.
Example
abstract class Polygon {
public abstract getArea(): number;
public toString(): string {
return `Polygon[area=${this.getArea()}]`;
}
}
class Rectangle extends Polygon {
public constructor(protected readonly width: number, protected readonly height: number) {
super();
}
public getArea(): number {
return this.width * this.height;
}
}
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Abstract classes cannot be directly instantiated, as they do not have all their members implemented.