ngPartyLabs I. - migrate es5 ng 1.x to typescript + ngMetadata

Prerequisites

• finished AngularJS Phone Catalog Tutorial Application by following AngulaJS Styleguide (components tree)
• there should be one component per file. This not only makes components easy to navigate and find, but will also allow us to migrate them between languages and frameworks one at a time. In this example application, each controller, factory, and filter is in its own source file.
• The Folders-by-Feature Structure and Modularity rules define similar principles on a higher level of abstraction: Different parts of the application should reside in different directories and Angular modules.

When an application is laid out feature per feature in this way, it can also be migrated one feature at a time. For applications that don't already look like this, applying the rules in the Angular style guide is a highly recommended preparation step. And this is not just for the sake of the upgrade - it is just solid advice in general!

Git

• Download.
• A good place to learn about setting up git is here.

Node.js and Tools

• Download.

Install npm dependencies

• $ npm i

CLI preparation

Run this command to set system path to lookup project npm packages binaries, so you won't need to install anything globally.

echo 'export PATH="./node_modules/.bin:$PATH"' >> ~/.bash_profile

Commits

Each tagged commit is a separate lesson teaching a single step of refactoring process.

You can check out any point of the tutorial using git checkout step-?

To see the changes which between any two lessons use the git diff command. git diff step-?..step-?

Step init

Alrighty yo.

Lets clone this repo git clone https://github.com/ngParty/ng1-migration-workshop

And reset to inital step: git checkout -f init

Now your refactor journey can start! May the ForceCode be with you!

Step 0 - replace bower with npm

Each controller, factory, and filter is in its own source file, as per the Rule of 1. The core, phoneDetail, and phoneList modules are each in their own subdirectory. Those subdirectories contain the JavaScript code as well as the HTML templates that go with each particular feature. This is in line with the Folders-by-Feature Structure and Modularity rules.

We will also start to gradually phase out the Bower package manager in favor of NPM. We'll install all new dependencies using NPM, and will eventually be able to remove Bower from the project.

• replace bower_components with ../node_modules/ in index.html
• replace app/bower_components with node_modules in test/karma.conf.js
• remove bower related files rm -rf app/bower_components,rm .bowerrc bower.json app/.bowerrc, npm rm bower -D
• remove "postinstall": "bower install" task from npm scripts
• remove "prestart": "npm i" task from npm scripts
• install packages via npm npm i -S angular angular-mocks angular-route angular-resource angular-animate jquery bootstrap

run:

• $ npm start and check your browser
• $ npm test and check if tests are passing

Step 1 - add typescript

• install typescript $ npm i -D typescript
• add "tsc": "tsc -p . -w" to npm scripts so we can run tsc and start watching for file changes from editor.
• run $ tsc init to create tsconfig.json
• update tsconfig.json to

{
 "compilerOptions": {
    "target": "es5",
    "noImplicitAny": false,
    "sourceMap": true,
    "outDir": "ts-output",
    "allowJs": true
  },
  "exclude": [
    "node_modules",   
    "scripts",
    "ts-output"
  ]
}  

• replace all custom js paths js with ../ts-output/app/js in index.html
• replace all custom js paths app/js and test/unit with ts-output/app/js and ts-output/app/js in test/karma.conf.js
• create clean npm script :"clean":"rm -rf ts-output"
• remove bower_components/ and add ts-output to .gitignore
• update start npm script to "start": "npm run clean && npm run tsc && http-server -a 0.0.0.0 -p 8000"

run:

• $ npm start and open your broser at localhost:8000 check your browser
• $ npm test and check if tests are passing

Step 2 - add typings

install the Typings type definition manager. It will allow us to install type definitions for libraries that don't come with prepackaged types.

• install typings $ npm i typings -D
• install type definitions for our project

$ typings install jquery --save --ambient
$ typings install angular --save --ambient
$ typings install angular-route --save --ambient
$ typings install angular-resource --save --ambient
$ typings install angular-animate --save --ambient
$ typings install angular-mocks --save --ambient
$ typings install jasmine --save --ambient

• add typings to .gitignore
• update tsconfig.json

{
"exclude": [
    "node_modules",
    "scripts",
    "ts-output",
    "typings/main",
    "typings/main.d.ts"       
  ]
}  

Step 3 - introduce module loader and bundler ( webpack )

• install webpack, it's loaders and dev-server

$ npm i -D webpack webpack-dev-server copy-webpack-plugin html-webpack-plugin style-loader css-loader raw-loader ts-loader file-loader url-loader

• create webpack.config.js with content:

const webpack = require( 'webpack' );

const CopyWebpackPlugin = require( 'copy-webpack-plugin' );
const HtmlWebpackPlugin = require( 'html-webpack-plugin' );

const ENV = ( process.env.NODE_ENV || 'development' );

const webpackConfigEntryPoints = {
  app: './app/bootstrap.ts'
};

const webpackConfigLoaders = [

  // Scripts
  {
    test: /\.ts$/,
    exclude: [ /node_modules/ ],
    loader: 'ts-loader'
  },

  // Styles
  {
    test: /\.css$/,
    loaders: [ 'style-loader', 'css-loader' ]
  },

  // Fonts
  {
    test: /\.woff(2)?(\?v=[0-9]\.[0-9]\.[0-9])?$/,
    loader: 'url-loader?limit=10000&minetype=application/font-woff'
  },
  {
    test: /\.(ttf|eot|svg)(\?v=[0-9]\.[0-9]\.[0-9])?$/,
    loader: 'file-loader'
  },

  //HTML
  {
    test: /\.html$/,
    loader: 'raw-loader'
  }

];

const webpackConfigPlugins = [

  new HtmlWebpackPlugin({
    template: 'app/index.html',
    inject: 'body',
    hash: true,
    env: ENV,
    host: '0.0.0.0',
    port: process.env.npm_package_config_port
  }),

  new CopyWebpackPlugin([
    {
      from: 'app/assets',
      to: './'
    }
  ])

];


module.exports = {
  devtool: 'source-map',
  entry: webpackConfigEntryPoints,
  output: {
    path: '/',
    publicPath: '/',
    filename: '[name].js'
  },
  resolve: {
    // Add `.ts` as a resolvable extension.
    extensions: [ '', '.webpack.js', '.web.js', '.ts', '.js' ]
  },
  watch: true,
  module: {
    loaders: webpackConfigLoaders
  },
  plugins: webpackConfigPlugins
};

• replace npm scripts start with: "start": "webpack-dev-server --port 9000 --watch --colors --inline --hot --content-base app/"

• add user config to package.json for server

{
 "config": {
    "port": "9000"
  }
}  

• update tsconfig.js be excluding files that we create, which TS should not touch:

{
  "exclude": [
    "node_modules",
    "typings/main",
    "typings/main.d.ts",    
    "scripts",
    "ts-output",
    "webpack.config.js"
  ]
}

• remove http-server ( we have now webpack-dev-server) by running npm rm -D http-server

Step 4 - load everything via Webpack and es2015 empty imports

• create app/bootstrap.ts where all files will be loaded via empty imports:

import '../node_modules/bootstrap/dist/css/bootstrap.css';
import './css/app.css';
import './css/animations.css';

import 'jquery';
import 'angular';
import 'angular-route';
import 'angular-resource';
import 'angular-animate';

import './js/core/core.module'
import './js/core/phone.factory'
import './js/core/checkmark.filter'

import './js/phone_detail/phone_detail.module'
import './js/phone_detail/phone_detail.controller'
import './js/phone_detail/phone_detail.component'
import './js/phone_detail/phone.animation'

import './js/phone_list/phone_list.module'
import './js/phone_list/phone_list.controller'
import './js/phone_list/phone_list.component'

import './js/app.module'

• remove all script tags and stylesheets from index.html

• run $ npm start and open browser http://localhost:9000

Step 5 - introduce es2015 modules

we will convert root App Module we will switch to manual angular bootstrap

• update tsconfig.json to

{
 "compilerOptions": {
    "target": "es5",
    "modules": "commonjs",    
    "noImplicitAny": false,
    "sourceMap": true,
    "outDir": "ts-output",
    "allowJs": true
  }
}  

• rename app.module.js to app.module.ts
• import angular and router and remove those from bootstrap.ts:

import * as angular from 'angular';
import * as ngRoute from 'angular-route';

• use those imports and export our root module:

export const PhonecatApp = angular
  .module( 'phonecatApp', [
    ngRoute,
    'phonecat.core',
    'phonecat.phoneList',
    'phonecat.phoneDetail'
  ] )

• extract config to separate file app.config.ts
• properly annotate via $inject
• import it back to main module and register with angular container

Now we will switch to a JavaScript-driven bootstrap instead. As it happens, this is also how Angular 2 apps are bootstrapped, so the switch brings us one step closer to Angular as well.

• remove ng-app from index.html
• import PhonecatApp to bootstrap.ts and remove empty import
• manually bootstrap via angular.bootstrap :

document.addEventListener( 'DOMContentLoaded', ()=> {
  angular.bootstrap( document, [ PhonecatApp.name ] );
} );

Introduce Typescript types:

• add type annotations for app.config

Step 6 - introduce ngMetadata and start migration from js to ts

• update tsconfig.json to

{
 "compilerOptions": {
    "target": "es5",
    "modules": "commonjs",    
    "noImplicitAny": false,
    "sourceMap": true,
    "outDir": "ts-output",                  
    "allowJs": true,
    "experimentalDecorators": true,
    "moduleResolution": "node"        
  }
}  

• install $ npm i -S ng-metadata

• boot app via ngMetadata

// app/bootstrap.ts
import { bootstrap } from 'ng-metadata/platform';
import { PhonecatApp } from './js/app.module';
bootstrap( PhonecatApp );

Step 7 - refactor core module

upgrade order

1. module to ts/es2015
2. services
3. filters(pipes)
4. components/directives

Upgrade Core Module

• rename core.module.js to core.module.ts
  • apply TS ng1 module pattern

Upgrade Checkmar Filter

• rename checkmark.filter.js to checkmark.pipe.ts
  • apply ngMetadata/Angular 2 @Pipe
  • register exported class to CoreModule via provide

Upgrade Phone Factory

• rename phone.factory.js to phone.service.ts
  • apply ngMetadata/Angular 2 @Injectable
  • replace obsolete $resource with $http and update related components which use this service
  • create Phone interface for type support
  • register exported class to CoreModule via ...provide( 'Phone', { useClass: PhoneService } )
    • we need to maintain old string injection which is used by other modules

END

• register refactored CoreModule within PhonecatApp root module
• remove empty imports from bootstrap
• remove ngResource module

Step 8 - Bring tests up

Config webpack for test and setup Karma

• install $ npm i -D karma-sourcemap-loader karma-webpack

• create spec.bundle.js for webpack test bundling

require('angular');
require('angular-mocks/ngMock');

const testContext = require.context('./app', true, /\.spec\.ts/);
testContext.keys().forEach(testContext);

• create new karma.conf.js in project root

const path = require('path')

const webpackConfig = require('./webpack.config');
const entry = 'spec.bundle.js';

const files = [ { pattern: entry, watched: false } ];

const preprocessors = {
  [entry]: [
    'webpack',
    'sourcemap'
  ]
};
const plugins = [
  require('karma-jasmine'),
  require('karma-chrome-launcher'),
  require('karma-webpack'),
  require('karma-sourcemap-loader')
];
const frameworks = [
  'jasmine'
];

module.exports = function (config) {
  config.set({

    // base path that will be used to resolve all patterns (eg. files, exclude)
    basePath: '',

    // frameworks to use
    // available frameworks: https://npmjs.org/browse/keyword/karma-adapter
    frameworks: frameworks,

    // list of files to exclude
    exclude: [],

    // list of files / patterns to load in the browser
    // we are building the test environment in ./spec-bundle.js
    files: files,

    // preprocess matching files before serving them to the browser
    // available preprocessors: https://npmjs.org/browse/keyword/karma-preprocessor
    preprocessors: preprocessors,
    webpack: webpackConfig,

    webpackServer: {
      noInfo: true // prevent console spamming when running in Karma!
    },


    // test results reporter to use
    // possible values: 'dots', 'progress'
    // available reporters: https://npmjs.org/browse/keyword/karma-reporter
    junitReporter : {
      outputFile: 'test_out/unit.xml',
      suite: 'unit'
    },


    // web server port
    port: 9876,


    // enable / disable colors in the output (reporters and logs)
    colors: true,


    // level of logging
    // possible values: config.LOG_DISABLE || config.LOG_ERROR || config.LOG_WARN || config.LOG_INFO || config.LOG_DEBUG
    logLevel: config.LOG_INFO,


    // enable / disable watching file and executing tests whenever any file changes
    autoWatch: false,


    // start these browsers
    // available browser launchers: https://npmjs.org/browse/keyword/karma-launcher
    browsers: ['Chrome'],

    // Timeout for capturing a browser (in ms)
    captureTimeout: 6000,


    // Continuous Integration mode
    // if true, Karma captures browsers, runs the tests and exits
    singleRun: true,

    // Concurrency level
    // how many browser should be started simultanous
    concurrency: Infinity,

    plugins: plugins
  })
};

• change npm scripts for test:

{
  ...
  "test": "test karma start karma.conf.js",
  "test:watch": "karma start karma.conf.js --auto-watch --no-single-run",
}

• update tsconfig.js by excluding files that we've created, which shouldn't be touched by TS:

{
  "exclude": [
    "node_modules",
    "typings/main",
    "typings/main.d.ts",    
    "scripts",
    "ts-output",
    "webpack.config.js",
    // old tests
    "test",
    // new karma config
    "karma.conf.js",
    // main test bundle - webpack specific
    "spec.bundle.js"    
  ]
}

Upgrade Checkmark Pipe test

• move test/unit/checkmark.filter.spec.js to app/js/core/checkmark.pipe.spec.ts
• upgrade test to use only vanilla js/ts no angular needed yo! (Angular 2 style)

Upgrade Phone Service test

• move test/unit/phone.factory.spec.js to app/js/core/phone.service.spec.ts
• upgrade test to use only vanilla js/ts no angular needed yo! (Angular 2 style)
• additionaly mock $http and check if it gets called

End

• run $ npm test and watch it pass!

Step 9 - refactor phone list module

Upgrade PhoneList Module

• rename phone_list.module.js to phone-list.module.ts
  • apply TS ng1 module pattern
• import CoreModule and get rid of strings
• import newly TSified PhoneListModule to PhoneCatApp root module

Upgrade PhoneList Component

Next, let's upgrade our Angular 1 controllers to Angular 2 style components via ngMetadata.

Let's look at the phone list controller first. Right now it is a ES5 constructor function, which is paired with an HTML template by the route configuration in app.module.ts.

We'll be turning it into an Angular 2 style component.

• rename phone_list.controller.js to phone-list.component.ts
• rename phone_list.html to phone-list.html so we have consisten naming with component file
• refactor the controller function inside to exported class PhoneListComponent and decorate it as a @Component

So you should have

import { Component } from 'ng-metadata/core';

@Component({
  selector: 'pc-phone-list',
  template: require('./phone-list.html')
})
export class PhoneListComponent{}

The selector attribute is a CSS selector that defines where on the page the component should go. It will match elements by the name of pc-phone-list. It is a good idea to always use application-specific prefixes in selectors so that they never clash with built-in ones, and here we're using pc-, which is short for "PhoneCat".

The template: require('./phone-list.html') loads static asset(html file) via webpack, in this case that's external HTML template for our component Thanks to this we have modular component, whe we move it everything is moved togehtr

Both of these attributes(selector and template) are things, that were defined externally for the controller, but for the component are things that it defines itself. This will affect how we use the component in the router.

• we need to define internal component state which consists od 2 props:

phones: Phone[];
orderProp: string = 'age';

• now we need to add back DI and inject here PhoneService via 'Phone' string ( this is how it's registered in core.module )
• use @Inject decorator within constructor as a parameter

export class PhoneListComponent{
  
  phones: Phone[];
  orderProp: string = 'age';
  
  constructor(
    @Inject('Phone') private phoneSvc: PhoneService
  ){}
}

• last thing we need to get back is to fetch phone service to get all phones
• let's do this in ngOnInit life cycle hook ( this is executed from preLink in ng1 terms )

import { Component, OnInit, Inject } from 'ng-metadata/core';
import { Phones, Phone, PhoneService } from '../core/phone.service';

@Component({
  selector: 'pc-phone-list',
  template: require('./phone_list.html')
})
export class PhoneListComponent implements OnInit{

  phones: Phone[];
  orderProp: string = 'age';

  constructor(
    @Inject('Phone') private phoneSvc: PhoneService
  ){}

  ngOnInit(){

    this.phoneSvc
      .query()
      .then( ( phones ) => this.phones = phones );

  }
}

• register the refactored component to angular module phone-list.module.ts via provide

import { provide } from 'ng-metadata/core';

PhoneListModule
  .directive( ...provide(PhoneListComponent) )

• remove old angular-component.js
• hop to app.config.ts and update route template with new selector name:

$routeProvider
  .when('/phones', {
    template: '<pc-phone-list></pc-phone-list>'
  }).

• remove empty imports from bootstrap.ts

import './js/phone_list/phone-list.module.ts'
import './js/phone_list/phone_list.controller'
import './js/phone_list/phone_list.component'

• boom! run the app to check if everything works

Upgrade PhoneList Tests

• move test/unit/phone_list.controller.spec.js to app/js/phone_list/phone-list.component.spec.ts
• upgrade test to use only vanilla js/ts no angular needed yo! (Angular 2 style)
• use $injector for injecting angular specific services if you don't wanna mock them

  let ctrl: PhoneListComponent;
  let $httpBackend: ng.IHttpBackendService;
  
    beforeEach( angular.mock.inject( ( $injector: ng.auto.IInjectorService ) => {

    const $http = $injector.get<ng.IHttpService>( '$http' );
    const phoneSvc = new PhoneService( $http );

    $httpBackend = $injector.get<ng.IHttpBackendService>( '$httpBackend' );
    $httpBackend
      .expectGET('phones/phones.json')
      .respond([{name: 'Nexus S'}, {name: 'Motorola DROID'}]);

    ctrl = new PhoneListComponent( phoneSvc );

    ctrl.ngOnInit();

  } ) )

• run $ npm test and watch it pass ;)

Step 10 - refactor phone detail module

Upgrade PhoneDetail Module

• rename phone_detail.module.js to phone-detail.module.ts
  • apply TS ng1 module pattern
• import CoreModule and get rid of strings
• import newly TSified PhoneDetailModule to PhoneCatApp root module

Upgrade PhoneDetail Component

Again, let's upgrade our Angular 1 controllers to Angular 2 style components via ngMetadata.

• rename phone_detail.controller.js to phone-detail.component.ts
• rename phone_detail.html to phone-detail.html so we have consisten naming with component file
• refactor the controller function inside to exported class PhoneDetailComponent and decorate it as a @Component

So you should have:

import { Component } from 'ng-metadata/core';
import { CheckmarkPipe } from '../core/checkmark.pipe';

@Component( {
  selector: 'pc-phone-detail',
  template: require( './phone-detail.html' ),
  pipes: [ CheckmarkPipe ]
} )
export class PhoneDetailComponent {}

NOTE what about that pipes property?

• well in Angular 2 we are telling the compiler which pipes or other directives does the view include and should compile.

• there is no such machinery in ngMetadata/Angular 1 so this is just cosmetics

• we want inject $routeParams which consist our special defined phoneId property. Let's define custom interface which extends from routeParams and add there our prop

interface PhoneRouteParams extends ng.route.IRouteParamsService {
  phoneId: string
}

Again we need to include back the original logic. This time we don't use OnInit lifecyce, instead we call PhoneService directly when component is instantiated

Finished component:

import { Component, Inject } from 'ng-metadata/core';
import { Phone, PhoneService } from '../core/phone.service';
import { CheckmarkPipe } from '../core/checkmark.pipe';

interface PhoneRouteParams extends ng.route.IRouteParamsService {
  phoneId: string
}

@Component( {
  selector: 'pc-phone-detail',
  template: require( './phone-detail.html' ),
  pipes: [ CheckmarkPipe ]
} )
export class PhoneDetailComponent {

  phone: Phone = null;
  mainImageUrl: string;

  constructor(
    @Inject( '$routeParams' ) private $routeParams: PhoneRouteParams,
    @Inject( 'Phone' ) private phoneSvc: PhoneService
  ) {
    phoneSvc.get( $routeParams.phoneId )
      .then( phone => {
        this.phone = phone;
        this.mainImageUrl = phone.images[ 0 ];
      } );
  }

  setImage( url: string ) {
    this.mainImageUrl = url;
  }

}

• register the refactored component to angular module phone-detail.module.ts via provide

import { provide } from 'ng-metadata/core';

PhoneDetailModule
  .directive( ...provide(PhoneDetailComponent) )

• remove old angular-component.js
• hop to app.config.ts and update route template with new selector name:

$routeProvider
  .when('/phones', {
    template: '<pc-phone-detail></pc-phone-detail>'
  }).

• remove empty imports from bootstrap.ts

import './js/phone_detail/phone-list.module.ts'
import './js/phone_detail/phone_detail.controller'
import './js/phone_detail/phone_detail.component'
import './js/phone_detail/phone.animation'

• boom! run the app to check if everything works

Upgrade PhoneDetail Tests

• move test/unit/phone_detail.controller.spec.js to app/js/phone_detail/phone-detail.component.spec.ts
• upgrade test to use only vanilla js/ts no angular needed yo! (Angular 2 style)
• use $injector for injecting angular specific services if you don't wanna mock them

  let ctrl: PhoneDetailComponent;
  let $httpBackend: ng.IHttpBackendService;

  const xyzPhoneData = () => {
    return {
      name: 'phone xyz',
      images: [ 'image/url1.png', 'image/url2.png' ]
    }
  };

  beforeEach(function(){
    jasmine.addCustomEqualityTester(angular.equals);
  });

  beforeEach( angular.mock.inject( ( $injector: ng.auto.IInjectorService ) => {

    const $http = $injector.get<ng.IHttpService>( '$http' );
    const phoneSvc = new PhoneService( $http );
    const $routeParams = {} as PhoneRouteParams;

    $httpBackend = $injector.get<ng.IHttpBackendService>( '$httpBackend' );
    $httpBackend
      .expectGET( 'phones/xyz.json' )
      .respond( xyzPhoneData() );

    $routeParams.phoneId = 'xyz';

    ctrl = new PhoneDetailComponent( $routeParams, phoneSvc );

  } ) );

• run $ npm test and watch it pass ;)

Upgrade PhoneDetail Animation

• just rename phone.animation.js to phone.animation.ts
• remove angular module registration, instead just export function
• import jQuery so animations machinery knows what jQuery means
• register to PhoneDetailModule
• remove jQuery empty import from bootstrap.ts

Step 11 - create PcApp Component

Before we begin let's remove remaining magic string from DI

• rember PhoneService registration in CoreModule? .service( ...provide( 'Phone', { useClass: PhoneService } ) )

• we needed this because it was used in non TS/NgMetadata files/modules

• now we are 100% TSified, let's get rid of that: .service( ...provide( PhoneService ) )

• update components which are using it

• nice let's create PcApp Component

• create AppComponent class and decorate it with @Component

• this time we introduce inline templates

• you know the drill already:

  • export class
  • register via provide

Finally let's update index.html:

<!doctype html>
<html lang="en">
<head>
  <meta charset="utf-8">
  <title>Google Phone Gallery</title>
</head>
<body class="container-fluid">

  <pc-app></pc-app>

</body>
</html>

For the last time hop to your browser and see that amazing component based angular 1 app via your best new friend Typescript + ngMetadata

Step X - start migration via ngUpgrade by bootstraping hybrid ng1/ng2 app

Contact

For more information on ngMetadata/Typescript/Angular you can ask us on our Slack. Join us