Appearance
5.类
一.TS中定义类
class Pointer{
x!:number; // 实例上的属性必须先声明
y!:number;
constructor(x:number,y?:number,...args:number[]){
this.x = x;
this.y = y as number;
}
}
let p = new Pointer(100,200);
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实例上的属性需要先声明在使用,构造函数中的参数可以使用可选参数和剩余参数
二.类中的修饰符
public
修饰符(谁都可以访问到)class Animal { public name!: string; // 不写public默认也是公开的 public age!: number; constructor(name: string, age: number) { this.name = name; this.age = age; } } class Cat extends Animal { constructor(name: string, age: number) { super(name, age); console.log(this.name,this.age); // 子类访问 } } let p = new Cat('Tom', 18); console.log(p.name,p.age); // 外层访问
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16class Animal { constructor(public name: string, public age: number) { this.name = name; this.age = age; } }
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6我们可以通过参数属性来简化父类中的代码
protected
修饰符 (自己和子类可以访问到)class Animal { constructor(protected name: string, protected age: number) { this.name = name; this.age = age; } } class Cat extends Animal { constructor(name: string, age: number) { super(name, age); console.log(this.name, this.age) } } let p = new Cat('Tom', 18); console.log(p.name,p.age);// 无法访问
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14private
修饰符 (除了自己都访问不到)class Animal { constructor(private name: string, private age: number) { this.name = name; this.age = age; } } class Cat extends Animal { constructor(name: string, age: number) { super(name, age); console.log(this.name, this.age); // 无法访问 } } let p = new Cat('Tom', 18); console.log(p.name,p.age);// 无法访问
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14readonly
修饰符 (仅读修饰符)class Animal { constructor(public readonly name: string, public age: number) { this.name = name; this.age = age; } changeName(name:string){ this.name = name; // 仅读属性只能在constructor中被赋值 } } class Cat extends Animal { constructor(name: string, age: number) { super(name, age); } } let p = new Cat('Tom', 18); p.changeName('Jerry');
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三.静态属性和方法
class Animal {
static type = '哺乳动物'; // 静态属性
static getName() { // 静态方法
return '动物类';
}
private _name: string = 'Tom';
get name() { // 属性访问器
return this._name;
}
set name(name: string) {
this._name = name;
}
}
let animal = new Animal();
console.log(animal.name);
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静态属性和静态方法是可以被子类所继承的
四.Super属性
class Animal {
say(message:string){
console.log(message);
}
static getType(){
return '动物'
}
}
class Cat extends Animal {
say(){ // 原型方法中的super指代的是父类的原型
super.say('猫猫叫');
}
static getType(){ // 静态方法中的super指代的是父类
return super.getType()
}
}
let cat = new Cat();
console.log(Cat.getType())
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五.类的装饰器
1.装饰类
function addSay(target:any){
target.prototype.say = function(){console.log('say')}
}
@addSay
class Person {
say!:Function
}
let person = new Person
person.say();
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装饰类可以给类扩展功能,需要开启
experimentalDecorators:true
2.装饰类中属性
function toUpperCase(target:any,key:string){
let value = target[key];
Object.defineProperty(target,key,{
get(){
return value.toUpperCase();
},
set(newValue){
value = newValue
}
})
}
function double(target: any, key: string) {
let value = target[key];
Object.defineProperty(target, key, {
get() {
return value * 2;
},
set(newValue) {value = newValue}
})
}
class Person {
@toUpperCase
name: string = 'JiangWen'
@double
static age: number = 10;
getName() {
return this.name;
}
}
let person = new Person();
console.log(person.getName(),Person.age)
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装饰属性可以对属性的内容进行改写,装饰的是实例属性则target指向类的原型、装饰的是静态属性则target执行类本身~
3.装饰类中方法
function noEnum(target:any,key:string,descriptor:PropertyDescriptor){
console.log(descriptor)
descriptor.enumerable = false;
}
class Person {
@toUpperCase
name: string = 'JiangWen'
@double
static age: number = 10;
@noEnum
getName() {
return this.name;
}
}
let person = new Person();
console.log(person); // getName 不可枚举
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4.装饰参数
function addPrefix(target:any,key:string,paramIndex:number){
console.log(target,key,paramIndex); // Person.prototype getName 0
}
class Person {
@toUpperCase
name: string = 'JiangWen'
@double
static age: number = 10;
prefix!:string
@noEnum
getName(@addPrefix prefix:string) {
return this.name;
}
}
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六.抽象类
抽象类无法被实例化,只能被继承,抽象方法不能在抽象类中实现,只能在抽象类的具体子类中实现,而且必须实现。
abstract class Animal{
name!:string;
abstract speak():void
}
class Cat extends Animal {
speak(){
console.log('猫猫叫');
}
}
class Dog extends Animal{
speak():string{
console.log('汪汪叫');
return 'wangwang'
}
}
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定义类型时
void
表示函数的返回值为空(不关心返回值类型,所有在定义函数时也不关心函数返回值类型)