第六章 类
类
介绍
- 传统的JavaScript程序使用函数和基于原型的继承来创建可重用的组件,但对于熟悉使用面向对象方式的程序员来讲就有些棘手,因为他们用的是基于类的继承并且对象是由类构建出来的。 从ECMAScript 2015,也就是ECMAScript 6开始,JavaScript程序员将能够使用基于类的面向对象的方式。 使用TypeScript,我们允许开发者现在就使用这些特性,并且编译后的JavaScript可以在所有主流浏览器和平台上运行,而不需要等到下个JavaScript版本
类
class Greeter {
greeting: string;
constructor(message: string) {
this.greeting = message;
}
greet() {
return "Hello, " + this.greeting;
}
}
let greeter = new Greeter("world");
继承
class Animal {
name: string;
constructor(theName: string) { this.name = theName; }
move(distanceInMeters: number = 0) {
console.log(`${this.name} moved ${distanceInMeters}m.`);
}
}
class Snake extends Animal {
constructor(name: string) { super(name); }
move(distanceInMeters = 5) {
console.log("Slithering...");
super.move(distanceInMeters);
}
}
class Horse extends Animal {
constructor(name: string) { super(name); }
move(distanceInMeters = 45) {
console.log("Galloping...");
super.move(distanceInMeters);
}
}
let sam = new Snake("Sammy the Python");
let tom: Animal = new Horse("Tommy the Palomino");
sam.move();
tom.move(34);
公共,私有与受保护的修饰符
- 默认为 public
- 当成员被标记成 private时,它就不能在声明它的类的外部访问
- protected修饰符与 private修饰符的行为很相似,但有一点不同, protected成员在派生类中仍然可以访问
class Person {
protected name: string;
protected constructor(theName: string) { this.name = theName; }
}
// Employee 能够继承 Person
class Employee extends Person {
private department: string;
constructor(name: string, department: string) {
super(name);
this.department = department;
}
public getElevatorPitch() {
return `Hello, my name is ${this.name} and I work in ${this.department}.`;
}
}
let howard = new Employee("Howard", "Sales");
let john = new Person("John"); // 错误: 'Person' 的构造函数是被保护的.
readonly修饰符
- 你可以使用 readonly关键字将属性设置为只读的。 只读属性必须在声明时或构造函数里被初始化
class Octopus {
readonly name: string;
readonly numberOfLegs: number = 8;
constructor (theName: string) {
this.name = theName;
}
}
let dad = new Octopus("Man with the 8 strong legs");
dad.name = "Man with the 3-piece suit"; // 错误! name 是只读的.
参数属性
class Animal {
constructor(private name: string) { }
move(distanceInMeters: number) {
console.log(`${this.name} moved ${distanceInMeters}m.`);
}
}
存取器
let passcode = "secret passcode";
class Employee {
private _fullName: string;
get fullName(): string {
return this._fullName;
}
set fullName(newName: string) {
if (passcode && passcode == "secret passcode") {
this._fullName = newName;
}
else {
console.log("Error: Unauthorized update of employee!");
}
}
}
let employee = new Employee();
employee.fullName = "Bob Smith";
if (employee.fullName) {
alert(employee.fullName);
}
-
对于存取器有下面几点需要注意的:
- 首先,存取器要求你将编译器设置为输出ECMAScript 5或更高。 不支持降级到ECMAScript 3。 其次,只带有 get不带有 set的存取器自动被推断为 readonly。 这在从代码生成 .d.ts文件时是有帮助的,因为利用这个属性的用户会看到不允许够改变它的值
静态属性
class Grid {
static origin = {x: 0, y: 0};
calculateDistanceFromOrigin(point: {x: number; y: number;}) {
//这里我们使用 Grid.来访问静态属性
let xDist = (point.x - Grid.origin.x);
let yDist = (point.y - Grid.origin.y);
return Math.sqrt(xDist * xDist + yDist * yDist) / this.scale;
}
constructor (public scale: number) { }
}
let grid1 = new Grid(1.0); // 1x scale
let grid2 = new Grid(5.0); // 5x scale
console.log(grid1.calculateDistanceFromOrigin({x: 10, y: 10}));
console.log(grid2.calculateDistanceFromOrigin({x: 10, y: 10}));
抽象类
-
抽象类做为其它派生类的基类使用。 它们一般不会直接被实例化。 不同于接口,抽象类可以包含成员的实现细节。 abstract关键字是用于定义抽象类和在抽象类内部定义抽象方法
-
抽象类中的抽象方法不包含具体实现并且必须在派生类中实现。 抽象方法的语法与接口方法相似。 两者都是定义方法签名但不包含方法体。 然而,抽象方法必须包含 abstract关键字并且可以包含访问修饰符
abstract class Department {
constructor(public name: string) {
}
printName(): void {
console.log('Department name: ' + this.name);
}
abstract printMeeting(): void; // 必须在派生类中实现
}
class AccountingDepartment extends Department {
constructor() {
super('Accounting and Auditing'); // 在派生类的构造函数中必须调用 super()
}
printMeeting(): void {
console.log('The Accounting Department meets each Monday at 10am.');
}
generateReports(): void {
console.log('Generating accounting reports...');
}
}
let department: Department; // 允许创建一个对抽象类型的引用
department = new Department(); // 错误: 不能创建一个抽象类的实例
department = new AccountingDepartment(); // 允许对一个抽象子类进行实例化和赋值
department.printName();
department.printMeeting();
department.generateReports(); // 错误: 方法在声明的抽象类中不存在
- 把类当做接口使用
class Point {
x: number;
y: number;
}
interface Point3d extends Point {
z: number;
}
let point3d: Point3d = {x: 1, y: 2, z: 3};