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TypeScript内置类型一览

前文

当下而言,基本TS开发项目可以说是大势所趋,用过TS开发项目的同学都基本表示再也回不去啦,今天就让我们来了解一下TypeScript官方的内置类型,让你的开发效率再上一层楼

Partial(部分的)

/**
 * Make all properties in T optional
 */
type Partial<T> = {
    [P in keyof T]?: T[P];
};

作用是让传入类型中的所有属性变成都是可选的

使用举例
export interface Student {
  name: string;
  age: number;
}

const student1: Student = {}

const student2: Partial<Student> = {}

变量student1的类型是Student,Student默认所有的属性都是不能为空的,所有会报错,student2就不会

Required(必须的)

/**
 * Make all properties in T required
 */
type Required<T> = {
    [P in keyof T]-?: T[P];
};

跟Partial的作用是相反的,是让传入类型中的所有属性变成都是必填的

使用举例
export interface Student {
  name?: string;
  age?: number;
}

const student1: Student = {}

const student2: Required<Student> = {}

变量student1的类型是Student,Student默认所有的属性都是可以为空的,所有不会报错,student2会报错

Readonly(只读的)

/**
 * Make all properties in T readonly
 */
type Readonly<T> = {
    readonly [P in keyof T]: T[P];
};

作用是让传入类型中的所有属性变成都是只读的(不能修改属性)

使用举例
export interface Student {
  name: string;
  age: number;
}

const student1: Student = {
  name: '张三',
  age: 20
}
student1.age = 21

const student2: Readonly<Student> = {
  name: '李四',
  age: 20
}
student2.age = 21

给student1的属性age重新赋值不会报错,给student2的属性age重新赋值就会报错,因为student2所有的属性都是只读的

Pick(选择)

/**
 * From T, pick a set of properties whose keys are in the union K
 */
type Pick<T, K extends keyof T> = {
    [P in K]: T[P];
};

作用是选择传入类型中的部分属性组成新类型

使用举例
export interface Student {
  name: string;
  age: number;
}

const student1: Student = {
  name: '张三',
  age: 20
}

const student2: Pick<Student, 'name'> = {
  name: '李四'
}

const student3: Pick<Student, 'name'> = {
  name: '王五',
  age: 20
}

变量student1可以有所有属性name和age,变量student2就只能有属性name,变量student3加上属性age就会报错

Record(记录)

/**
 * Construct a type with a set of properties K of type T
 */
type Record<K extends keyof any, T> = {
    [P in K]: T;
};

作用是构建一个类型,这个类型用来描述一个对象,这个对象的属性都具有相同的类型

使用举例
export const student1: Record<string, any> = {
  name: '张三',
  age: 20
}

Record应该是日常使用频率较高的内置类型了,主要用来描述对象,一般建议是不用Object来描述对象,而是用Record代替,Record<string, any>几乎可以说是万金油了

Exclude(排除)

/**
 * Exclude from T those types that are assignable to U
 */
type Exclude<T, U> = T extends U ? never : T;

针对联合类型(interface这种没用),用人话说,排除相同的,留下不同的

使用举例
export type PersonAttr = 'name' | 'age'

export type StudentAttr = 'name' | 'age' | 'class' | 'school'

const student1: Exclude<StudentAttr, PersonAttr>

student1就只能被赋值为'class' 或者'school'

Extract(取出)

/**
 * Extract from T those types that are assignable to U
 */
type Extract<T, U> = T extends U ? T : never;

与Exclude相反,针对联合类型,排除不同的的,取出相同的

使用举例
export type PersonAttr = 'name' | 'age'

export type StudentAttr = 'name' | 'age' | 'class' | 'school'

const student1: Extract<StudentAttr, PersonAttr>

student1就只能被赋值为'name'或者'age'

Omit(省略)

/**
 * Construct a type with the properties of T except for those in type K.
 */
type Omit<T, K extends keyof any> = Pick<T, Exclude<keyof T, K>>;

传入一个类型,和这个类型的几个属性,把传入的属性省略掉,组成一个新类型

使用举例
export interface Student {
  name: string;
  age: number;
  class: string;
  school: string;
}

export type PersonAttr = 'name' | 'age'

export type StudentAttr = 'name' | 'age' | 'class' | 'school'

const student1: Omit<Student, PersonAttr> = {}

student1报错,提示没有属性'name'、'age'

NonNullable(不能为null)

/**
 * Exclude null and undefined from T
 */
type NonNullable<T> = T extends null | undefined ? never : T;

字面意思,不能为空

使用举例
export interface Student {
  name: string;
  age: number;
}

const student1: NonNullable<Student | undefined | null> = null

student1赋值为null会报错(在tsconfig.json配置文件中开启类型检查,"skipLibCheck": false

Parameters(参数)

/**
 * Obtain the parameters of a function type in a tuple
 */
type Parameters<T extends (...args: any) => any> = T extends (...args: infer P) => any ? P : never;

获取传入函数的参数组成的类型

使用举例
export interface Student {
  name: string;
  age: number;
}

export interface StudentFunc {
  (name: string, age: number): Student
}

const student1: Parameters<StudentFunc>

student1的类型为[name: string, age: number]

ConstructorParameters(构造参数)

/**
 * Obtain the parameters of a constructor function type in a tuple
 */
type ConstructorParameters<T extends abstract new (...args: any) => any> = T extends abstract new (...args: infer P) => any ? P : never;

获取传入构造函数的参数组成的类型

使用举例
export interface Student {
  name: string;
  age: number;
}

export interface StudentConstructor {
  new (name: string, age: number): Student
}

const student1: ConstructorParameters<StudentConstructor>

student1的类型为[name: string, age: number]

ReturnType(返回类型)

/**
 * Obtain the return type of a function type
 */
type ReturnType<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R : any;

获取传入函数的返回类型

使用举例
export interface Student {
  name: string;
  age: number;
}

export interface StudentFunc {
  (name: string, age: number): Student
}

const student1: ReturnType<StudentFunc> = {}

student1的类型为Student

InstanceType(构造返回类型、实例类型)

/**
 * Obtain the return type of a constructor function type
 */
type InstanceType<T extends abstract new (...args: any) => any> = T extends abstract new (...args: any) => infer R ? R : any;

获取传入构造函数的返回类型

使用举例
const Student = class {
  name: string;
  age: number;
  constructor (name: string, age: number) {
    this.name = name
    this.age = age
  }
  showInfo () {
    console.log('name: ', this.name, 'age: ', this.age);
  }
}

const student1: InstanceType<typeof Student> = new Student('张三', 20)

个人认为这是一个非常好用的内置类型,目前在前端项目中,class是用的越来越多了,在TS中,class其实也是可以用作类型声明空间的,用来描述对象类型,但是一般来说好像很少这样用的,一般用interface或者type居多

export class Student {
  name: string;
  age: number;
}

所以一般就是直接把class用作变量声明空间,但是对于 class new 出的实例,怎么描述它的类型呢,就如上文的,直接const student1: Student那是铁定会报错的,因为Student用作变量声明空间,没有用作类型声明空间(听起来好绕),这时候就可以用到InstanceType,完美解决问题

Uppercase(大写)

/**
 * Convert string literal type to uppercase
 */
type Uppercase<S extends string> = intrinsic;

变大写

使用举例
export type StudentSexType = 'male' | 'female'

const studentSex: Uppercase<StudentSexType> = 'MALE'

Lowercase(小写)

/**
 * Convert string literal type to lowercase
 */
type Lowercase<S extends string> = intrinsic;

变小写

使用举例
export type StudentSexType = 'MALE' | 'FEMALE'

const studentSex: Lowercase<StudentSexType> = ''

Capitalize(首字母大写)

/**
 * Convert first character of string literal type to uppercase
 */
type Capitalize<S extends string> = intrinsic;

首字母变大写

使用举例
export type StudentSexType = 'male' | 'female'

const studentSex: Capitalize<StudentSexType> = ''

Uncapitalize(首字母小写)

/**
 * Convert first character of string literal type to lowercase
 */
type Uncapitalize<S extends string> = intrinsic;

首字母变小写

使用举例
export type StudentSexType = 'MALE' | 'FEMALE'

const studentSex: Uncapitalize<StudentSexType> = ''


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