/Angular-JumpStart

Angular and TypeScript JumpStart example application

Primary LanguageTypeScriptMIT LicenseMIT

Angular JumpStart with TypeScript

The goal of this jumpstart app is to provide a simple way to get started with Angular 2+ while also showing several key Angular features. The sample relies on the Angular CLI to build the application.

Looking for expert onsite Angular/TypeScript training? We've trained the biggest (and smallest :-)) companies around the world for over 15 years. For more information visit https://codewithdan.com.

Angular Concepts Covered

  • TypeScript version that relies on classes and modules
  • Modules are loaded with System.js
  • Defining routes including child routes and lazy loaded routes
  • Using Custom Components including custom input and output properties
  • Using Custom Directives
  • Using Custom Pipes
  • Defining Properties and Using Events in Components/Directives
  • Using the Http object for Ajax calls along with RxJS observables
  • Working with Utility and Service classes (such as for sorting and Ajax calls)
  • Using Angular databinding Syntax [], () and [()]
  • Using template-driven and reactive forms functionality for capturing and validating data
  • Optional: Webpack functionality is available for module loading and more (see below for details)
  • Optional: Ahead-of-Time (AOT) functionality is available for a production build of the project (see below for details)

Running the Application with Node.js

  1. Install the latest LTS version of Node.js from https://nodejs.org. IMPORTANT: The server uses ES2015 features AND the Angular CLI so you need a current version of Node.js.

  2. Run npm install to install app dependencies

  3. Run ng build --watch to build and bundle the code

  4. Run npm start in a separate terminal window to build the TypeScript, watch for changes and launch the web server

  5. Go to http://localhost:8080 in your browser

Simply clone the project or download and extract the .zip to get started.

Once the app is running you can play around with editing customers after you login. Use any email address and any password that's at least 6 characters long (with 1 digit).

Here are a few screenshots from the app:







Running the Application with Deno

  1. Install the latest version of Deno from https://deno.land

  2. Run npm install to install the Angular dependencies

  3. Run ng build to build and bundle the code

  4. cd into ./deno and run the following command:

    deno run --allow-net --allow-read --unstable server.ts

  5. Go to http://localhost:8080 in your browser

Running Angular Playground

This application includes Angular Playground (http://www.angularplayground.it) which provides a great way to isolate components in a sandbox rather than loading the entire application to see a given component. To run the playground run the following command:

npm run playground

Then open a browser and visit http://localhost:4201 and follow the directions there (or visit their website for more information).

Running in Kubernetes

  1. Install Docker Desktop from https://www.docker.com/get-started
  2. Start Docker and enable Kubernetes in the Docker Desktop preferences/settings
  3. Run docker-compose build to create the images
  4. Run kubectl apply -f .k8s to start Kubernetes
  5. Visit http://localhost
  6. Stop Kubernetes using kubectl delete -f .k8s

Running with Skaffold

If you'd like to use the Skaffold tool to run the project in Kubernetes, install it, and run the following command:

skaffold dev

To generate the skaffold.yaml file that's included in the project the following command was run and the image context paths it defines were modified:

skaffold init -k '.k8s/*.yml' \
  -a '{"builder":"Docker","payload":{"path":".docker/nginx.dev.dockerfile"},"image":"nginx-angular-jumpstart"}' \
  -a '{"builder":"Docker","payload":{"path":".docker/node.dockerfile"},"image":"node-service-jumpstart"}'

If you wanted to generate the initial Kubernetes manifest files from an existing docker-compose.yml file you can use the following command. It uses the Kompose tool behind the scenes to create the YAML files

skaffold init --compose-file docker-compose.yml \
  -a '{"builder":"Docker","payload":{"path":".docker/nginx.dev.dockerfile"},"image":"nginx-angular-jumpstart"}' \
  -a '{"builder":"Docker","payload":{"path":".docker/node.dockerfile"},"image":"node-service-jumpstart"}'

Running in the Azure Static Web Apps Service

Check out my post on Getting Started with Azure Static Web Apps.

Kubernetes Day Zero Webinar: Deploying to Kubernetes

Dan Wahlin

Twitter: @DanWahlin

https://codewithdan.com

Resources mentioned:

Agenda

  1. Container Orchestration Options (Docker Swarm, Kubernetes)

  2. Using Docker Compose

    docker-compose build
    docker-compose up
    docker-compose down
    
  3. Docker Stacks --> Docker Desktop --> Kubernetes

    docker stack deploy -c docker-compose.yml angular-jumpstart
    docker stack ls
    docker stack rm angular-jumpstart
    
  4. Deploying Containers to Kubernetes

    https://kompose.io/

    kompose convert -h
    kompose convert -f docker-compose.yml -o ./[your-folder-goes-here]
    

    Tweak the generated YAML. Then once ready run:

    kubectl apply -f [your-folder-name]
    

My Kubernetes for Developers video courses on Pluralsight.com:

https://pluralsight.pxf.io/danwahlin