Advanced Typescript

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title

Advanced Typescript Training Course

author

Łukasz Sokołowski

</slideshow>

Advanced Typescript

Advanced Typescript Training Materials

Introduction ⌘

• Overview of TypeScript features and advantages
• Programming best practices and tips
  • We'll cover some of them during the day

Getting Started ⌘

• Installing TypeScript, Nodejs, and Visual Studio Code
• Initializing the server
• Configuring access modifiers and compiler options
• Setting up a Node.js project
• Building and debugging Node.js TypeScript

Configuring access modifiers and compiler options ⌘

• Example with Angular - jwt
• Related docs - aka.ms/tsconfig.json

Setting up a Node.js project ⌘

• Example - other_/node_/

Configuring Webpack and TypeScript ⌘

• Enabling source maps
• Using third-party libraries
• Importing non-code assets
• Building the application

Initial setup ⌘

• Exercise - webpack_/with_ts
• Compiler and loader
  • npm install --save-dev typescript ts-loader
• Directories and configuration
  • index.ts - new file with content from 'index.js' and change first line: import * as _ from 'lodash';
  • tsconfig.json - 'tsc --init' and later apply these changes

    {
      "compilerOptions": {
        "outDir": "./dist/",
        "noImplicitAny": true,
        "module": "es6",
        "target": "es5",
        "jsx": "react",
        "allowJs": true,
        "moduleResolution": "node"
      }
    }
    

  • webpack.config.js

    const path = require('path');
    
    module.exports = {
      entry: './src/index.ts',
      module: {
        rules: [
          {
            test: /\.tsx?$/,
            use: 'ts-loader',
            exclude: /node_modules/,
          },
        ],
      },
      resolve: {
        extensions: ['.tsx', '.ts', '.js'],
      },
      output: {
        filename: 'bundle.js',
        path: path.resolve(__dirname, 'dist'),
      },
    };
    

Enabling source maps ⌘

• Exercise - webpack_/with_ts
• TypeScript will output inline source maps to our compiled JavaScript files
• tsconfig.json - uncomment line with "sourceMap": true,
• Telling webpack to extract source maps and include in final bundle
  • webpack.config.js - put this just below entry: devtool: 'inline-source-map',

Using third-party libraries ⌘

• When installing new lib from npm
  • Always remember to install it's typing definition (.d.ts files)
  • Definitions can be found here Types for TS
• Example - npm install --save-dev @types/lodash
• Exercise - install jquery with it's typings
  • when we click on our div it should shout with popup: "TS rulezzzzz!"

Importing non-code assets ⌘

• We need to defer the type
  • custom.d.ts - new file
  • example setup for .svg

    declare module '*.svg' {
      const content: any;
      export default content;
    }
    

• Same concept applies to other assets - CSS, SCSS, JSON, etc
• Exercise - setup for .jpg and add bearHigh5.jpg in our div
  • webpack.config.js - add this to rules array

          {
            test: /\.(png|svg|jpg|jpeg|gif)$/i,
            type: 'asset/resource',
          },
    

  • index.ts - new image element

        //// at the top
        import MyBear from './bear.jpg';
        (...)
        //// in 'component()' function
        // Add the image to our existing div
        const myIcon = new Image();
        myIcon.src = MyBear;
    
        element.appendChild(myIcon);
    

Building the application ⌘

• Some good practices (performance, etc)
  • https://webpack.js.org/guides/build-performance/#typescript-loader
• npm run build
• npm run start

Creating Custom Data Types ⌘

• Union, Intersection, and Tuple Types
• Type Guards, Type Casting, and Type Assertions
• Creating arrays for custom types
• Other types and examples

Custom Data Types ⌘

• Usually a combination of primitive types (strings, numbers, Booleans) with objects
• Building blocks of advanced types – type alias, string, and number literals
• Allow to write code
  • easier to understand for myself and easier to work with
  • and for any others working with me
  • or those who are inheriting the project
• Oftenly web applications become more complex
  • it is necessary to be able to model that complexity
  • TypeScript makes that easy with advanced types
  • types that are conditional and flexible

Type Aliases ⌘

• Allow to declare references to any type – advanced or primitive
• Make code easier to read - allow to be less verbose
• We declare our type once and reuse it throughout application
• Code is more readable and maintainable
• Syntax: type OnlyStrings = string;
  • The type keyword is followed by the alias, OnlyStrings, and then the string type
• Exercise - customdt_/exerc_/ex1

Type Literals ⌘

• Allow to create a type based on a specific string or number
• Not very useful in itself, but with more complex types such as union types
• Syntax: type Success = 200;
• Example - customdt_/examp_/e2
• Exercise - customdt_/exerc_/ex2

Intersection ⌘

• Allows to combine types to form a new type
  • with the properties of the combined types
  • it is an and type
• Similar to multi-class inheritance
  • child object can have more than one parent object that it derives its properties from
• Helps to keep the cod DRY (Don't Repeat Yourself)
• Merged properties should be of the same type
• Syntax: type CourseEvaluation = TrainingEvaluationForm & CourseEventEvaluationByTrainer;
• Example - customdt_/examp_/e3
• Exercise - customdt_/exerc_/ex3

Union ⌘

• Similar to intersection
  • but it is an or type
  • do not merges types
• Similar to the ternary operator in JavaScript
  • types are separated by the | (pipe)
• Syntax: type Lead = General | Price | Course;
• Example - customdt_/examp_/e4
• Exercise - customdt_/exerc_/ex4

Index Types ⌘

• Allow to create objects with flexible number of properties
  • We define a signature for our type using an interface
• Syntax: [ msg: number ]: string;
• Example - customdt_/examp_/e5
• Exercise - customdt_/exerc_/ex5

Tuple ⌘

• Array which contains multiple types
  • fixed indexed order - the order and length are guaranteed
  • data is connected with less syntax than keyed objects
• A good pattern for short bits of connected data or for fixtures
• Example from 'Reactjs' - useState returns a tuple of the value and a setter function
• Syntax: const closedLead: [Invoice, Payment] = ["Consultancy23032021", {paid:1, paymentType:"transfer"} ];
• Example - customdt_/examp_/e6
• Exercise - customdt_/exerc_/ex6

Type Guards ⌘

• Participate in the code flow analysis
  • We influence the code flow
• TS uses existing JS behavior which validates our objects at runtime
• We can prep also custom functions - type predicate functions
• Syntax/operators - in, instanceof, typeof, is
  • Full list of possible typeof values developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/typeof
• Example - customdt_/examp_/e7
• Exercise - customdt_/exerc_/ex7

Type Casting, Assertions ⌘

Two syntaxes

• xml <> - this way won't work with JSX (.tsx, etc.) and Reactjs
  • Assertions
• ... as ...
  • Casting with 'as'

Generics ⌘

• Generics basics
• Example - customdt_/examp_/e8_
• Exercise - together with 'Conditional Types'

Conditional Types ⌘

• Allow complex type expressions
  • drive some of the built-in types
• Really powerful - allow to write logic inside our types
• Similar to the regular JS ternary operator (inline conditions)
  • differences: in the syntax (extends keyword), check is done at compile time and not runtime
• Syntax: T extends U ? X : Y
• Example - customdt_/exerc_/e9
• Exercise - customdt_/exerc_/ex8_9

Applying Decorators ⌘

• Enabling decorators
• Creating class, parameter, and method decorators
• Using property descriptors
• Using metadata

Reflection, tightly coupled with ⌘

• Reflection is the capability of a certain piece of code to examine and be introspective about itself (navel-gazing)
  • a piece of code can have access to things such as the variables, functions, and classes defined inside it
• Most languages provide some kind of reflection API that enables us to treat the code itself as if it was data
  • TypeScript is built upon JavaScript - inherits the JavaScript reflection capabilities

Decorators intro ⌘

• Decorators (from js proposal)
  • can be used to metaprogram and add functionality to a value
  • without fundamentally changing its external behavior
• Have three primary capabilities
  • Can replace the value that is being decorated with a matching value that has the same semantics
    • e.g. a method with another method, a field with another field, a class with another class, etc
  • Can provide access to the value that is being decorated via accessor functions (can be shared)
  • Can initialize the value that is being decorated, running additional code after the value has been fully defined
    • when the value is a member of class, initialized once per instance

Decorators intro con't ⌘

• Special kind of declaration
• Can be attached to
  • a class declaration, method, accessor, property, or parameter
• Uses @expression
  • expression must evaluate to a function
  • such function will be called at runtime with information about the decorated declaration
• To transpile

tsc --target ES5 --experimentalDecorators

• tsconfig.json

"experimentalDecorators": true,                   /* Enable experimental support for TC39 stage 2 draft decorators. */
"emitDecoratorMetadata": true,                    /* Emit design-type metadata for decorated declarations in source files. */

Decorator types, syntax ⌘

@ClassDecorator
class ExampleClass {
    @PropertyDecorator
    public exampleProperty:number = 0;
    private _exampleField: number = 0;
    @AccessorDecorator
    public get exampleField() { return this._exampleField; }
    @MethodDecorator
    public exampleMethod(@ParameterDecorator paramName: string) {}
}

//// 'PascalCase' instead of 'lowerCamelCase' 
function ClassDecorator (constructor: Function) {}
function AccessorDecorator (target: any, propertyName: string, descriptor: PropertyDescriptor) {}
function MethodDecorator (target: any, propertyName: string, descriptor: PropertyDescriptor) {}
function PropertyDecorator (target: any, propertyName: string) {}
function ParameterDecorator (target: any, propertyName: string, parameterIndex: number) {}

Class Decorator ⌘

interface Invoice {
	id: string;
	clientId: number;
}

interface HasNewProperty {
  newProp: string;
}

// decorator definition can look like this
function SignedInv<T extends {new(...args:any[]):{}}>(constructor:T) {
    // return class extends constructor {
      return class extends constructor implements HasNewProperty {
        newProp = "new prop";
        invSign = "my_new_name_template";
    }
}

// Decorator 'factory' - common practice to pass custom params
function InvoiceDescr(limit: number) { 
  return function (constructor: Function) { 
    constructor.prototype.invType = 'Consultancy' + limit
  }
}

@SignedInv
@InvoiceDescr(3)
class FranchiseeAccountancyTool {
	private _invoice;
        invSign: string;

	constructor(public accToolKey: string, public taxRate: string) {
              this.invSign = accToolKey + 'inv_code';
	}

	get invoice() {
		return this._invoice;
	}

	set invoice(inv: Invoice) {
		this._invoice = inv;
	}
}

let franAcc = new FranchiseeAccountancyTool('cnaj837tjdhsu#jd9_fd8', '204');
console.log(franAcc);
console.log(franAcc.invSign);
console.log(franAcc.newProp);
console.log(franAcc.invType);

Class Decorator examples

• decorators_
• In 'Angular' application
  • Angular_2_Fundamentals#Example_1_.E2.8C.98
  • jwt example - angular-login-jwt

Decorator exercises

• Ex 1-5 (class, method, accessor)
• Act1
• Ex 6-8 (field, param)
  • metadata, with 'reflect-metadata' pollyfill-lib
• Act2

Implementing Asynchronous Code and APIs ⌘

• Using callbacks, promises, and async/await
• Writing a REST API with Node.js and TypeScript

Using callbacks, promises, and async/await ⌘

• JavaScript runtime is single threaded (on both web browser and server via node)
  • One, and only one, piece of code will be running at a particular time - main thread
• JavaScript has also been built around an asynchronous approach
  • main thread will not pause when requested to load a resource of some sort
  • will place request onto an internal queue, eventually be processed at a later point in time
  • it does take away the need for in-memory locking mechanisms (other languages)

Callbacks, promises, and async/await con't ⌘

• The callback mechanism - we provide a callback function to an asynchronous request
  • it will be executed once the asynchronous request has been processed
• The Promise mechanism - provides a simplified syntax for writing asynchronous code
  • allows to chain multiple asynchronous calls one after another (fluent syntax)
• Async and await technique - we mark certain functions as asynchronous
  • use the await keyword to pause the execution flow until the asynchronous function returns

Callbacks, promises, and async/await examples ⌘

• Callbacks
  • async_/examp_/callbacks
• Promises
  • async_/examp_/promises
• Async/await
  • async_/examp_/async_and_await
• Comparison of all approaches
  • async_/examp_/callback_vs_..

Callbacks, promises, and async/await exercises ⌘

• Callbacks - async_/exerc_/ex1
• Promises - async_/exerc_/ex2
  • Optional - async_/exerc_/a2
• Ex3 - async/await
  • Optional - async_/exerc_/a3

Writing a REST API with Node.js and TypeScript ⌘

• REST is a very common standard for web traffic
  • Most websites and web APIs operate using REST
• Representational State Transfer
• Defines concepts
  • operations ("methods" or "verbs") - GET, DELETE, POST, PUT, and PATCH
  • resources ("path" or "noun")
• Example - server - rest_/e1
• Exercises - client - rest_/ex1
  • Add missing functionalities
    • Reactjs - deleteOne, searchBy - other_/fe_/react-api-call-ts
  • Discussion/homework - migrate from JS to TS - other_/be_