mirror of
https://github.com/adambard/learnxinyminutes-docs.git
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302 lines
8.4 KiB
Markdown
302 lines
8.4 KiB
Markdown
---
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language: TypeScript
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contributors:
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- ["Philippe Vlérick", "https://github.com/pvlerick"]
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- ["Kiwimoe", "https://github.com/kiwimoe"]
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filename: learntypescript.ts
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---
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TypeScript is a language that aims at easing development of large scale
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applications written in JavaScript. TypeScript adds common concepts such as
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classes, modules, interfaces, generics and (optional) static typing to
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JavaScript. It is a superset of JavaScript: all JavaScript code is valid
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TypeScript code so it can be added seamlessly to any project. The TypeScript
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compiler emits JavaScript.
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This article will focus only on TypeScript extra syntax, as opposed to
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[JavaScript](/docs/javascript).
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To test TypeScript's compiler, head to the
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[Playground](https://www.typescriptlang.org/play) where you will be able
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to type code, have auto completion and directly see the emitted JavaScript.
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```ts
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// There are 3 basic types in TypeScript
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let isDone: boolean = false;
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let lines: number = 42;
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let name: string = "Anders";
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// But you can omit the type annotation if the variables are derived
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// from explicit literals
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let isDone = false;
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let lines = 42;
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let name = "Anders";
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// When it's impossible to know, there is the "Any" type
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let notSure: any = 4;
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notSure = "maybe a string instead";
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notSure = false; // okay, definitely a boolean
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// Use const keyword for constants
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const numLivesForCat = 9;
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numLivesForCat = 1; // Error
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// For collections, there are typed arrays and generic arrays
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let list: number[] = [1, 2, 3];
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// Alternatively, using the generic array type
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let list: Array<number> = [1, 2, 3];
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// For enumerations:
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enum Color { Red, Green, Blue };
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let c: Color = Color.Green;
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console.log(Color[c]); // "Green"
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// Lastly, "void" is used in the special case of a function returning nothing
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function bigHorribleAlert(): void {
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alert("I'm a little annoying box!");
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}
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// Functions are first class citizens, support the lambda "fat arrow" syntax and
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// use type inference
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// The following are equivalent, the same signature will be inferred by the
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// compiler, and same JavaScript will be emitted
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let f1 = function (i: number): number { return i * i; }
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// Return type inferred
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let f2 = function (i: number) { return i * i; }
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// "Fat arrow" syntax
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let f3 = (i: number): number => { return i * i; }
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// "Fat arrow" syntax with return type inferred
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let f4 = (i: number) => { return i * i; }
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// "Fat arrow" syntax with return type inferred, braceless means no return
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// keyword needed
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let f5 = (i: number) => i * i;
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// Functions can accept more than one type
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function f6(i: string | number): void {
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console.log("The value was " + i);
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}
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// Interfaces are structural, anything that has the properties is compliant with
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// the interface
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interface Person {
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name: string;
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// Optional properties, marked with a "?"
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age?: number;
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// And of course functions
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move(): void;
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}
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// Object that implements the "Person" interface
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// Can be treated as a Person since it has the name and move properties
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let p: Person = { name: "Bobby", move: () => { } };
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// Objects that have the optional property:
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let validPerson: Person = { name: "Bobby", age: 42, move: () => { } };
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// Is not a person because age is not a number
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let invalidPerson: Person = { name: "Bobby", age: true };
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// Interfaces can also describe a function type
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interface SearchFunc {
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(source: string, subString: string): boolean;
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}
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// Only the parameters' types are important, names are not important.
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let mySearch: SearchFunc;
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mySearch = function (src: string, sub: string) {
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return src.search(sub) != -1;
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}
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// Classes - members are public by default
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class Point {
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// Properties
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x: number;
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// Constructor - the public/private keywords in this context will generate
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// the boiler plate code for the property and the initialization in the
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// constructor.
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// In this example, "y" will be defined just like "x" is, but with less code
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// Default values are also supported
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constructor(x: number, public y: number = 0) {
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this.x = x;
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}
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// Functions
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dist(): number { return Math.sqrt(this.x * this.x + this.y * this.y); }
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// Static members
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static origin = new Point(0, 0);
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}
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// Classes can be explicitly marked as implementing an interface.
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// Any missing properties will then cause an error at compile-time.
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class PointPerson implements Person {
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name: string
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move() {}
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}
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let p1 = new Point(10, 20);
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let p2 = new Point(25); //y will be 0
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// Inheritance
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class Point3D extends Point {
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constructor(x: number, y: number, public z: number = 0) {
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super(x, y); // Explicit call to the super class constructor is mandatory
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}
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// Overwrite
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dist(): number {
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let d = super.dist();
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return Math.sqrt(d * d + this.z * this.z);
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}
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}
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// Modules, "." can be used as separator for sub modules
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module Geometry {
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export class Square {
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constructor(public sideLength: number = 0) {
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}
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area() {
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return Math.pow(this.sideLength, 2);
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}
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}
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}
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let s1 = new Geometry.Square(5);
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// Local alias for referencing a module
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import G = Geometry;
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let s2 = new G.Square(10);
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// Generics
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// Classes
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class Tuple<T1, T2> {
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constructor(public item1: T1, public item2: T2) {
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}
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}
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// Interfaces
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interface Pair<T> {
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item1: T;
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item2: T;
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}
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// And functions
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let pairToTuple = function <T>(p: Pair<T>) {
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return new Tuple(p.item1, p.item2);
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};
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let tuple = pairToTuple({ item1: "hello", item2: "world" });
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// Including references to a definition file:
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/// <reference path="jquery.d.ts" />
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// Template Strings (strings that use backticks)
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// String Interpolation with Template Strings
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let name = 'Tyrone';
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let greeting = `Hi ${name}, how are you?`
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// Multiline Strings with Template Strings
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let multiline = `This is an example
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of a multiline string`;
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// READONLY: New Feature in TypeScript 3.1
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interface Person {
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readonly name: string;
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readonly age: number;
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}
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var p1: Person = { name: "Tyrone", age: 42 };
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p1.age = 25; // Error, p1.age is read-only
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var p2 = { name: "John", age: 60 };
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var p3: Person = p2; // Ok, read-only alias for p2
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p3.age = 35; // Error, p3.age is read-only
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p2.age = 45; // Ok, but also changes p3.age because of aliasing
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class Car {
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readonly make: string;
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readonly model: string;
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readonly year = 2018;
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constructor() {
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this.make = "Unknown Make"; // Assignment permitted in constructor
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this.model = "Unknown Model"; // Assignment permitted in constructor
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}
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}
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let numbers: Array<number> = [0, 1, 2, 3, 4];
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let moreNumbers: ReadonlyArray<number> = numbers;
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moreNumbers[5] = 5; // Error, elements are read-only
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moreNumbers.push(5); // Error, no push method (because it mutates array)
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moreNumbers.length = 3; // Error, length is read-only
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numbers = moreNumbers; // Error, mutating methods are missing
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// Tagged Union Types for modelling state that can be in one of many shapes
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type State =
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| { type: "loading" }
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| { type: "success", value: number }
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| { type: "error", message: string };
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declare const state: State;
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if (state.type === "success") {
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console.log(state.value);
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} else if (state.type === "error") {
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console.error(state.message);
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}
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// Template Literal Types
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// Use to create complex string types
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type OrderSize = "regular" | "large";
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type OrderItem = "Espresso" | "Cappuccino";
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type Order = `A ${OrderSize} ${OrderItem}`;
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let order1: Order = "A regular Cappuccino";
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let order2: Order = "A large Espresso";
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let order3: Order = "A small Espresso"; // Error
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// Iterators and Generators
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// for..of statement
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// iterate over the list of values on the object being iterated
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let arrayOfAnyType = [1, "string", false];
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for (const val of arrayOfAnyType) {
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console.log(val); // 1, "string", false
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}
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let list = [4, 5, 6];
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for (const i of list) {
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console.log(i); // 4, 5, 6
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}
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// for..in statement
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// iterate over the list of keys on the object being iterated
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for (const i in list) {
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console.log(i); // 0, 1, 2
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}
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// Type Assertion
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let foo = {} // Creating foo as an empty object
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foo.bar = 123 // Error: property 'bar' does not exist on `{}`
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foo.baz = 'hello world' // Error: property 'baz' does not exist on `{}`
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// Because the inferred type of foo is `{}` (an object with 0 properties), you
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// are not allowed to add bar and baz to it. However with type assertion,
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// the following will pass:
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interface Foo {
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bar: number;
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baz: string;
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}
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let foo = {} as Foo; // Type assertion here
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foo.bar = 123;
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foo.baz = 'hello world'
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```
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## Further Reading
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* [Official TypeScript website](https://www.typescriptlang.org/)
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* [Source code on GitHub](https://github.com/microsoft/TypeScript)
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* [Learn TypeScript](https://learntypescript.dev/)
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