Top Related Projects
CLI tool for Angular
Set up a modern web app by running one command.
🛠️ webpack-based tooling for Vue.js Development
Template for building basic applications with Svelte
The React Framework
Quick Overview
PatrickJS/PatrickJS-starter is a boilerplate project for building modern web applications using Angular and Node.js. It provides a pre-configured development environment with best practices and essential tools to kickstart Angular projects quickly.
Pros
- Comprehensive setup with Angular, Node.js, and essential development tools
- Includes pre-configured testing environment with Karma and Jasmine
- Implements best practices for project structure and code organization
- Provides a solid foundation for scalable and maintainable web applications
Cons
- May include unnecessary dependencies for simpler projects
- Requires familiarity with Angular and Node.js ecosystems
- Might need customization for specific project requirements
- Regular updates may be needed to keep dependencies current
Code Examples
- Component example:
import { Component } from '@angular/core';
@Component({
selector: 'app-hello',
template: '<h1>Hello, {{ name }}!</h1>'
})
export class HelloComponent {
name = 'World';
}
This code defines a simple Angular component that displays a greeting message.
- Service example:
import { Injectable } from '@angular/core';
import { HttpClient } from '@angular/common/http';
import { Observable } from 'rxjs';
@Injectable({
providedIn: 'root'
})
export class DataService {
constructor(private http: HttpClient) {}
getData(): Observable<any> {
return this.http.get('https://api.example.com/data');
}
}
This code creates an Angular service that fetches data from an API using HttpClient.
- Routing example:
import { NgModule } from '@angular/core';
import { RouterModule, Routes } from '@angular/router';
import { HomeComponent } from './home/home.component';
import { AboutComponent } from './about/about.component';
const routes: Routes = [
{ path: '', component: HomeComponent },
{ path: 'about', component: AboutComponent }
];
@NgModule({
imports: [RouterModule.forRoot(routes)],
exports: [RouterModule]
})
export class AppRoutingModule { }
This code sets up basic routing for an Angular application with home and about pages.
Getting Started
-
Clone the repository:
git clone https://github.com/PatrickJS/PatrickJS-starter.git cd PatrickJS-starter
-
Install dependencies:
npm install
-
Start the development server:
npm start
-
Open your browser and navigate to
http://localhost:4200
to see the application running.
Competitor Comparisons
CLI tool for Angular
Pros of angular-cli
- Official Angular tool with extensive documentation and community support
- Provides a complete development environment with built-in testing and optimization features
- Regular updates and maintenance by the Angular team
Cons of angular-cli
- Can be complex for beginners or small projects
- May include unnecessary features for simple applications
- Larger initial project size due to comprehensive tooling
Code Comparison
PatrickJS-starter:
import { NgModule } from '@angular/core';
import { BrowserModule } from '@angular/platform-browser';
import { AppComponent } from './app.component';
@NgModule({
imports: [BrowserModule],
declarations: [AppComponent],
bootstrap: [AppComponent]
})
export class AppModule { }
angular-cli:
import { NgModule } from '@angular/core';
import { BrowserModule } from '@angular/platform-browser';
import { AppRoutingModule } from './app-routing.module';
import { AppComponent } from './app.component';
@NgModule({
declarations: [AppComponent],
imports: [BrowserModule, AppRoutingModule],
providers: [],
bootstrap: [AppComponent]
})
export class AppModule { }
The main difference in the code is that angular-cli includes an AppRoutingModule by default, setting up the project for routing from the start. PatrickJS-starter has a simpler initial setup without built-in routing.
Set up a modern web app by running one command.
Pros of create-react-app
- Widely adopted and maintained by Facebook, ensuring long-term support and updates
- Extensive documentation and community resources available
- Seamless integration with React ecosystem and tools
Cons of create-react-app
- Less flexibility in configuration options without ejecting
- Larger bundle size due to inclusion of unnecessary dependencies
- Steeper learning curve for customizing build process
Code Comparison
create-react-app:
import React from 'react';
import ReactDOM from 'react-dom';
import App from './App';
ReactDOM.render(<App />, document.getElementById('root'));
PatrickJS-starter:
import { platformBrowserDynamic } from '@angular/platform-browser-dynamic';
import { AppModule } from './app/app.module';
platformBrowserDynamic().bootstrapModule(AppModule);
The code snippets highlight the different approaches to bootstrapping applications. create-react-app uses React's rendering method, while PatrickJS-starter utilizes Angular's bootstrapping process.
create-react-app focuses on React development, providing a streamlined setup for React projects. PatrickJS-starter, on the other hand, is built around Angular and offers a more opinionated structure for full-stack development.
While create-react-app excels in simplicity and React-specific optimizations, PatrickJS-starter provides a more comprehensive solution for Angular-based projects with additional features like server-side rendering and PWA support out of the box.
🛠️ webpack-based tooling for Vue.js Development
Pros of vue-cli
- Official Vue.js project scaffolding tool with extensive ecosystem support
- Highly configurable with a plugin-based architecture
- Provides a full-featured GUI for project management
Cons of vue-cli
- Steeper learning curve for beginners due to its extensive features
- Can be overkill for small projects or quick prototypes
Code Comparison
vue-cli:
// vue.config.js
module.exports = {
configureWebpack: {
plugins: [
new MyAwesomeWebpackPlugin()
]
}
}
PatrickJS-starter:
// webpack.config.js
module.exports = {
plugins: [
new webpack.ProgressPlugin(),
new HtmlWebpackPlugin({
template: 'src/index.html'
})
]
}
Key Differences
- vue-cli is specifically designed for Vue.js projects, while PatrickJS-starter is more generic
- vue-cli offers a more comprehensive set of features and integrations out of the box
- PatrickJS-starter may be simpler to set up and customize for experienced developers
Use Cases
- Choose vue-cli for Vue.js projects, especially larger ones requiring extensive tooling
- Consider PatrickJS-starter for quick prototypes or when you need more control over the configuration
Community and Support
- vue-cli has a larger community and more extensive documentation due to its official status
- PatrickJS-starter may require more self-reliance for problem-solving and customization
Template for building basic applications with Svelte
Pros of sveltejs/template
- Lightweight and minimal setup, ideal for quick Svelte project initialization
- Includes basic Svelte configuration and structure out-of-the-box
- Faster initial load times due to Svelte's compilation process
Cons of sveltejs/template
- Limited additional features or tooling compared to more comprehensive starters
- May require more manual setup for complex projects or specific development needs
- Less opinionated, which could lead to inconsistencies in larger projects
Code Comparison
sveltejs/template:
import App from './App.svelte';
const app = new App({
target: document.body,
props: {
name: 'world'
}
});
export default app;
PatrickJS/PatrickJS-starter:
import { platformBrowserDynamic } from '@angular/platform-browser-dynamic';
import { AppModule } from './app/app.module';
platformBrowserDynamic().bootstrapModule(AppModule)
.catch(err => console.error(err));
The sveltejs/template uses Svelte's simple component-based structure, while PatrickJS/PatrickJS-starter employs Angular's module-based architecture. This reflects the fundamental differences between Svelte and Angular frameworks, with Svelte offering a more streamlined approach to component creation and rendering.
The React Framework
Pros of Next.js
- Larger community and ecosystem, with more resources and third-party integrations
- Built-in optimizations for performance, including automatic code splitting and image optimization
- More comprehensive documentation and official examples
Cons of Next.js
- Steeper learning curve for developers new to React or server-side rendering
- Less flexibility in project structure and configuration compared to PatrickJS-starter
- Potentially more complex setup for advanced customizations
Code Comparison
Next.js:
// pages/index.js
export default function Home() {
return <h1>Welcome to Next.js!</h1>
}
PatrickJS-starter:
// src/app/app.component.ts
@Component({
selector: 'app-root',
template: '<h1>Welcome to PatrickJS-starter!</h1>'
})
export class AppComponent {}
The code comparison shows the simplicity of creating a basic page in Next.js versus the Angular-based approach in PatrickJS-starter. Next.js uses a file-based routing system, while PatrickJS-starter follows Angular's component-based structure.
Both frameworks offer powerful features for building modern web applications, but Next.js may be more suitable for React developers, while PatrickJS-starter caters to those familiar with Angular and TypeScript.
Convert designs to code with AI
Introducing Visual Copilot: A new AI model to turn Figma designs to high quality code using your components.
Try Visual CopilotREADME
Please use the Angular CLI if you want an angular app
Angular Webpack Starter
An Angular starter kit featuring Angular 6, Ahead of Time Compile, Router, Forms, Http, Services, Tests, E2E), Karma, Protractor, Jasmine, Istanbul, TypeScript, @types, TsLint, Codelyzer, Hot Module Replacement, and Webpack.
If you're looking for Angular 1.x please use NG6-starter If you're looking to learn about Webpack and ES6 Build Tools check out ES6-build-tools If you're looking to learn TypeScript see TypeStrong/learn-typescript If you're looking for something easier to get started with then see the angular-seed that I also maintain gdi2290/angular-seed
This seed repo serves as an Angular starter for anyone looking to get up and running with Angular and TypeScript fast. Using a Webpack 4 for building our files and assisting with boilerplate. We're also using Protractor for our end-to-end story and Karma for our unit tests.
- Best practices in file and application organization for Angular.
- Ready to go build system using Webpack for working with TypeScript.
- Angular examples that are ready to go when experimenting with Angular.
- A great Angular seed repo for anyone who wants to start their project.
- Ahead of Time (AoT) compile for rapid page loads of your production builds.
- Tree shaking to automatically remove unused code from your production bundle.
- Testing Angular code with Jasmine and Karma.
- Coverage with Istanbul and Karma
- End-to-end Angular app testing using Protractor.
- Type manager with @types
- Hot Module Replacement with Webpack and @gdi2290/hmr and @gdi2290/hmr-loader
Quick start
Make sure you have Node version >= 8.0 and (NPM >= 5 or Yarn )
Clone/Download the repo then edit
app.component.ts
inside/src/app/app.component.ts
# clone our repo
# --depth 1 removes all but one .git commit history
git clone --depth 1 https://github.com/gdi2290/angular-starter.git
# change directory to our repo
cd angular-starter
# install the repo with npm
npm install
# start the server
npm start
# use Hot Module Replacement
npm run server:dev:hmr
# if you're in China use cnpm
# https://github.com/cnpm/cnpm
go to http://0.0.0.0:3000 or http://localhost:3000 in your browser
Table of Contents
- File Structure
- Getting Started
- Configuration
- AoT Don'ts
- External Stylesheets
- Contributing
- TypeScript
- @Types
- Frequently asked questions
- Support, Questions, or Feedback
- Deployment
- License
File Structure
We use the component approach in our starter. This is the new standard for developing Angular apps and a great way to ensure maintainable code by encapsulation of our behavior logic. A component is basically a self contained app usually in a single file or a folder with each concern as a file: style, template, specs, e2e, and component class. Here's how it looks:
angular-starter/
âââconfig/ * our configuration
| âââbuild-utils.js * common config and shared functions for prod and dev
| âââconfig.common.json * config for both environments prod and dev such title and description of index.html
| âââconfig.dev.json * config for development environment
| âââconfig.prod.json * config for production environment
â â (note: you can load your own config file, just set the evn ANGULAR_CONF_FILE with the path of your own file)
| âââhelpers.js * helper functions for our configuration files
| âââspec-bundle.js * ignore this magic that sets up our Angular testing environment
| âââkarma.conf.js * karma config for our unit tests
| âââprotractor.conf.js * protractor config for our end-to-end tests
â âââwebpack.common.js * common tasks for webpack build process shared for dev and prod
â âââwebpack.dev.js * our development webpack config
â âââwebpack.prod.js * our production webpack config
â âââwebpack.test.js * our testing webpack config
â
âââsrc/ * our source files that will be compiled to javascript
| âââmain.browser.ts * our entry file for our browser environment
â â
| âââindex.html * Index.html: where we generate our index page
â â
| âââpolyfills.ts * our polyfills file
â â
â âââapp/ * WebApp: folder
â â âââapp.component.spec.ts * a simple test of components in app.component.ts
â â âââapp.e2e.ts * a simple end-to-end test for /
â â âââapp.component.ts * a simple version of our App component components
â â
â âââassets/ * static assets are served here
â âââicon/ * our list of icons from www.favicon-generator.org
â âââservice-worker.js * ignore this. Web App service worker that's not complete yet
â ââârobots.txt * for search engines to crawl your website
â âââhumans.txt * for humans to know who the developers are
â
â
âââtslint.json * typescript lint config
âââtypedoc.json * typescript documentation generator
âââtsconfig.json * typescript config used outside webpack
âââtsconfig.webpack.json * config that webpack uses for typescript
âââpackage.json * what npm uses to manage its dependencies
âââwebpack.config.js * webpack main configuration file
Getting Started
Dependencies
What you need to run this app:
node
andnpm
(brew install node
)- Ensure you're running the latest versions Node
v8.x.x
+ (orv9.x.x
) and NPM5.x.x
+
If you have
nvm
installed, which is highly recommended (brew install nvm
) you can do anvm install --lts && nvm use
in$
to run with the latest Node LTS. You can also have thiszsh
done for you automatically
Once you have those, you should install these globals with npm install --global
:
webpack
(npm install --global webpack
)webpack-dev-server
(npm install --global webpack-dev-server
)karma
(npm install --global karma-cli
)protractor
(npm install --global protractor
)typescript
(npm install --global typescript
)tslint
(npm install --global tslint@4.5.1
)
Installing
fork
this repoclone
your forknpm install webpack-dev-server rimraf webpack -g
to install required global dependenciesnpm install
to install all dependencies oryarn
npm run server
to start the dev server in another tab
Running the app
After you have installed all dependencies you can now run the app. Run npm run server
to start a local server using webpack-dev-server
which will watch, build (in-memory), and reload for you. The port will be displayed to you as http://0.0.0.0:3000
(or if you prefer IPv6, if you're using express
server, then it's http://[::1]:3000/
).
server
# development
npm run server
# production
npm run build:prod
npm run server:prod
Other commands
the following commands with npm can be used with yarn as well
build files
# development
npm run build:dev
# production (jit)
npm run build:prod
# AoT
npm run build:aot
hot module replacement
npm run server:dev:hmr
watch and build files
npm run watch
run unit tests
npm run test
watch and run our tests
npm run watch:test
run end-to-end tests
# update Webdriver (optional, done automatically by postinstall script)
npm run webdriver:update
# this will start a test server and launch Protractor
npm run e2e
continuous integration (run unit tests and e2e tests together)
# this will test both your JIT and AoT builds
npm run ci
run Protractor's elementExplorer (for end-to-end)
npm run e2e:live
build Docker
npm run build:docker
Configuration
Configuration files live in config/
we are currently using webpack, karma, and protractor for different stages of your application
AoT Don'ts
The following are some things that will make AoT compile fail.
- Donât use require statements for your templates or styles, use styleUrls and templateUrls, the angular2-template-loader plugin will change it to require at build time.
- Donât use default exports.
- Donât use
form.controls.controlName
, useform.get(âcontrolNameâ)
- Donât use
control.errors?.someError
, usecontrol.hasError(âsomeErrorâ)
- Donât use functions in your providers, routes or declarations, export a function and then reference that function name
- @Inputs, @Outputs, View or Content Child(ren), Hostbindings, and any field you use from the template or annotate for Angular should be public
For more detailed guide on AoT's Do's and Don'ts refer to https://github.com/rangle/angular-2-aot-sandbox
External Stylesheets
Any stylesheets (Sass or CSS) placed in the src/styles
directory and imported into your project will automatically be compiled into an external .css
and embedded in your production builds.
For example to use Bootstrap as an external stylesheet:
- Create a
styles.scss
file (name doesn't matter) in thesrc/styles
directory. npm install
the version of Bootstrap you want.- In
styles.scss
add@import '~bootstrap/scss/bootstrap.scss';
- In
src/app/app.module.ts
add underneath the other import statements:import '../styles/styles.scss';
Contributing
You can include more examples as components but they must introduce a new concept such as Home
component (separate folders), and Todo (services). I'll accept pretty much everything so feel free to open a Pull-Request
TypeScript
To take full advantage of TypeScript with autocomplete you would have to install it globally and use an editor with the correct TypeScript plugins.
Use latest TypeScript compiler
TypeScript 2.7.x includes everything you need. Make sure to upgrade, even if you installed TypeScript previously.
npm install --global typescript
Use a TypeScript-aware editor
We have good experience using these editors:
- Visual Studio Code
- Webstorm 2018.1
- Atom with TypeScript plugin
- Sublime Text with Typescript-Sublime-Plugin
Visual Studio Code + Debugger for Chrome
Install Debugger for Chrome and see docs for instructions to launch Chrome
The included .vscode
automatically connects to the webpack development server on port 3000
.
Types
When you include a module that doesn't include Type Definitions inside of the module you can include external Type Definitions with @types
i.e, to have youtube api support, run this command in terminal:
npm i @types/youtube @types/gapi @types/gapi.youtube
In some cases where your code editor doesn't support Typescript 2 yet or these types weren't listed in tsconfig.json
, add these to "src/custom-typings.d.ts" to make peace with the compile check:
import '@types/gapi.youtube';
import '@types/gapi';
import '@types/youtube';
Custom Type Definitions
When including 3rd party modules you also need to include the type definition for the module if they don't provide one within the module. You can try to install it with @types
npm install @types/node
npm install @types/lodash
If you can't find the type definition in the registry we can make an ambient definition in this file for now. For example
declare module "my-module" {
export function doesSomething(value: string): string;
}
If you're prototyping and you will fix the types later you can also declare it as type any
declare var assert: any;
declare var _: any;
declare var $: any;
If you're importing a module that uses Node.js modules which are CommonJS you need to import as
import * as _ from 'lodash';
Frequently asked questions
- What's the current browser support for Angular?
- Please view the updated list of browser support for Angular
- Why is my service, aka provider, is not injecting parameter correctly?
- Please use
@Injectable()
for your service for typescript to correctly attach the metadata (this is a TypeScript problem)
- Please use
- Where do I write my tests?
- You can write your tests next to your component files. See
/src/app/home/home.component.spec.ts
- You can write your tests next to your component files. See
- How do I start the app when I get
EACCES
andEADDRINUSE
errors?- The
EADDRINUSE
error means the port3000
is currently being used andEACCES
is lack of permission for webpack to build files to./dist/
- The
- How to use
sass
for css? -
loaders: ['raw-loader','sass-loader']
and@Component({ styleUrls: ['./filename.scss'] })
see Wiki page How to include SCSS in components, or issue #136 for more information.
- How do I test a Service?
- See issue #130
- How do I add
vscode-chrome-debug
support?- The VS Code chrome debug extension support can be done via
launch.json
see issue #144
- The VS Code chrome debug extension support can be done via
- How do I make the repo work in a virtual machine?
- You need to use
0.0.0.0
so revert these changes #205
- You need to use
- What are the naming conventions for Angular?
- How do I include bootstrap or jQuery?
- How do I async load a component?
- Error: Cannot find module 'tapable'
- Remove
node_modules/
and runnpm cache clean
thennpm install
- Remove
- How do I turn on Hot Module Replacement
- Run
npm run server:dev:hmr
- Run
RangeError: Maximum call stack size exceeded
- This is a problem with minifying Angular and it's recent JIT templates. If you set
mangle
tofalse
then you should be good.
- This is a problem with minifying Angular and it's recent JIT templates. If you set
- Why is the size of my app larger in development?
- We are using inline source-maps and hot module replacement which will increase the bundle size.
- If you're in China
- check out https://github.com/cnpm/cnpm
- node-pre-gyp ERR in npm install (Windows)
- often happens when you're behind proxy and proxy wasn't configured in the npm as it tries to download binary package from the github and if it fails to do so, it will try to compile node-sass from the source codes
- install Python3 x86
Error:Error: Parse tsconfig error [{"messageText":"Unknown compiler option 'lib'.","category":1,"code":5023},{"messageText":"Unknown compiler option 'strictNullChecks'.","category":1,"code":5023},{"messageText":"Unknown compiler option 'baseUrl'.","category":1,"code":5023},{"messageText":"Unknown compiler option 'paths'.","category":1,"code":5023},{"messageText":"Unknown compiler option 'types'.","category":1,"code":5023}]
- remove
node_modules/typescript
and runnpm install typescript@beta
. This repo now uses ts 2.0
- remove
- "There are multiple modules with names that only differ in casing"
- change
c:\[path to angular-starter]
toC:\[path to angular-starter]
see 926#issuecomment-245223547
- change
Support, Questions, or Feedback
Contact us anytime for anything about this repo or Angular
@PatrickJS__
on twitter
Deployment
Docker
To run project you only need host machine with operating system with installed git (to clone this repo) and docker and thats all - any other software is not needed (other software like node.js etc. will be automatically downloaded and installed inside docker container during build step based on dockerfile).
Install docker
MacOS:
brew cask install docker
And run docker by Mac bottom menu> launchpad > docker (on first run docker will ask you about password)
Ubuntu:
sudo apt-get update
sudo apt-key adv --keyserver hkp://p80.pool.sks-keyservers.net:80 --recv-keys 58118E89F3A912897C070ADBF76221572C52609D
sudo apt-add-repository 'deb https://apt.dockerproject.org/repo ubuntu-xenial main'
sudo apt-get update
apt-cache policy docker-engine
sudo apt-get install -y docker-engine
sudo systemctl status docker # test: should be âactiveâ
And add your user to docker group (to avoid sudo
before using docker
command in future):
sudo usermod -aG docker $(whoami)
and logout and login again.
Build image
Because node.js is big memory consumer you need 1-2GB RAM or virtual memory to build docker image (it was successfully tested on machine with 512MB RAM + 2GB virtual memory - building process take 7min)
Go to main project folder. To build image type:
docker build -t angular-starter .
The angular-starter name used in above commands is only example image name. To remove intermediate images created by docker on build process, type:
docker rmi -f $(docker images -f "dangling=true" -q)
Run image
To run created docker image on localhost:8080 type (parameter -p 8080:80
is host:container port mapping)
docker run --name angular-starter -p 8080:80 angular-starter &
And that's all, you can open browser and go to localhost:8080.
Build and Run image using docker-compose
To create and run docker image on localhost:8080 as part of large project you may use docker-compose. Type
docker-compose up
And that's all, you can open browser and go to localhost:8080.
Run image on sub-domain
If you want to run image as virtual-host on sub-domain you must setup proxy. You should install proxy and set sub-domain in this way:
docker run -d -p 80:80 --name nginx-proxy -v /var/run/docker.sock:/tmp/docker.sock:ro jwilder/nginx-proxy:alpine
And in your /etc/hosts
file (linux) add line: 127.0.0.1 angular-starter.your-domain.com
or in yor hosting add
following DNS record (wildchar *
is handy because when you add new sub-domain in future, you don't need to touch/add any DNS record)
Type: CNAME
Hostname: *.your-domain.com
Direct to: your-domain.com
TTL(sec): 43200
And now you are ready to run image on subdomain by:
docker run -e VIRTUAL_HOST=angular-starter.your-domain.com --name angular-starter angular-starter &
Login into docker container
docker exec -t -i angular-starter /bin/bash
Netlify
You can quickly create a free site to get started using this starter kit in production on Netlify:
Optional Integration with SonarQube (for continous code quality)
Assuming you have SonarQube 5.5.6 (LTS) installed
- Setup SonarQube with the Sonar Typescript plugin and the Generic Test Coverage plugin https://docs.sonarqube.org/display/PLUG/Generic+Test+Coverage
- Install sonar-scanner globally
npm install --global sonar-scanner
- Install the Karma plugin for sonarqube as a dev dependency
npm install karma-sonarqube-unit-reporter --save-dev
- Sonar Host URL configuration:
Update
sonar-project.properties
file for the propertysonar.host.url
to point to your SonarQube server. By default this assumes that the SonarQube server is running locally using the default port
sonar.host.url=<Sonar Host URL and Port>
- Run the unit tests with sonar reporter enabled
npm run test:sonar
- The test results collected in the results folder in the sonar compatible format
- Push results to SonarCube
sonar-scanner
- If working with SonarQube 6.x it supports Generic Test Data
- Modify the karma.conf.js to set the appropriate version of the sonarQube
sonarQubeUnitReporter: {
sonarQubeVersion: '6.x',
}
enjoy â PatrickJS
License
Top Related Projects
CLI tool for Angular
Set up a modern web app by running one command.
🛠️ webpack-based tooling for Vue.js Development
Template for building basic applications with Svelte
The React Framework
Convert designs to code with AI
Introducing Visual Copilot: A new AI model to turn Figma designs to high quality code using your components.
Try Visual Copilot