AngularJS CRUD application demo
The idea is to demonstrate how to write a typical, non-trivial CRUD application using AngularJS. To showcase AngularJS in its most advantageous environment we've set out to write a simplified project management tool supporting teams using the SCRUM methodology. The sample application tries to show best practices when it comes to: folders structure, using modules, testing, communicating with a REST back-end, organizing navigation, addressing security concerns (authentication / authorization).
We've learned a lot while using and supporting AngularJS on the mailing list and would like to share our experience.
- Persistence store: MongoDB hosted on MongoLab
- Backend: Node.js
- Awesome AngularJS on the client
- CSS based on Twitter's bootstrap
It is a complete project with a build system focused on AngularJS apps and tightly integrated with other tools commonly used in the AngularJS community:
- powered by Grunt.js
- test written using Jasmine syntax
- test are executed by Karma Test Runner (integrated with the Grunt.js build)
- build supporting JS, CSS and AngularJS templates minification
- Twitter's bootstrap with LESS templates processing integrated into the build
- Travis-CI integration
You need to install Node.js and then the development tools. Node.js comes with a package manager called npm for installing NodeJS applications and libraries.
-
Install node.js (requires node.js version >= 0.8.4)
-
Install Grunt-CLI and Karma as global npm modules:
npm install -g grunt-cli karma
(Note that you may need to uninstall grunt 0.3 globally before installing grunt-cli)
Our backend application server is a NodeJS application that relies upon some 3rd Party npm packages. You need to install these:
-
Install local dependencies:
cd server npm install cd ..
Our client application is a straight HTML/Javascript application but our development process uses a Node.js build tool Grunt.js. Grunt relies upon some 3rd party libraries that we need to install as local dependencies using npm.
-
Install local dependencies:
cd client npm install cd ..
If you are using Windows then you must run grunt
as grunt.cmd
. Throughout the rest of this README we will just write grunt
.
The app made up of a number of javascript, css and html files that need to be merged into a final distribution for running. We use the Grunt build tool to do this.
- Build client application:
grunt build
The server stores its data in a MongoLab database.
-
Create an account at MongoLab - it's free: [https://mongolab.com/signup/].
-
Create a database to use for this application: [https://mongolab.com/newdb]
-
Grab your API key: [https://mongolab.com/user?username=YOUR_USERNAME_HERE]
-
Edit
server/config.js
to set your MongoLab API Key and the name of the database you created.mongo: { dbUrl: 'https://api.mongolab.com/api/1', // The base url of the MongoLab DB server apiKey: 'YOUR_API_KEY_HERE', // Our MongoLab API key }, security: { dbName: 'YOUR_DB_NAME_HERE', // The name of database that contains the security information usersCollection: 'users' // The name of the collection contains user information },
-
Run our initialization script to initialize the database with a first admin user ([email protected] : changeme).
`node server/initDB.js`
The client specifies the name of the MongoDB to use in client/src/app/app.js
. If your DB is not called "ascrum" then you need to change the MONGOLAB_CONFIG constant:
angular.module('app').constant('MONGOLAB_CONFIG', {
baseUrl: 'http://localhost:3000/databases/',
dbName: 'ascrum'
});
- Run the server
node server/server.js
- Browse to the application at [http://localhost:3000]
At the top level, the repository is split into a client folder and a server folder. The client folder contains all the client-side AngularJS application. The server folder contains a very basic Express based webserver that delivers and supports the application. Within the client folder you have the following structure:
build
contains build tasks for Gruntdist
contains build resultssrc
contains application's sourcestest
contains test sources, configuration and dependenciesvendor
contains external dependencies for the application
The default grunt task will build (checks the javascript (lint), runs the unit tests (test:unit) and builds distributable files) and run all unit tests: grunt
(or grunt.cmd
on Windows). The tests are run by karma and need one or more browsers open to actually run the tests.
grunt
orgrunt.cmd
(on Windows)- Open one or more browsers and point them to [http://localhost:8080/__test/]. Once the browsers connect the tests will run and the build will complete.
- If you leave the browsers open at this url then future runs of
grunt
will automatically run the tests against these browsers.
The watch grunt task will monitor the source files and run the default build task every time a file changes: grunt watch
.
If for some reason you don't want to run the test but just generate the files - not a good idea(!!) - you can simply run the build task: grunt build
.
You can build a release version of the app, with minified files. This task will also run the "end to end" (e2e) tests. The e2e tests require the server to be started and also one or more browsers open to run the tests. (You can use the same browsers as for the unit tests.)
- Run
grunt release
- Open one or more browsers and point them to [http://localhost:8080/__test/]. Once the browsers connect the tests will run and the build will complete.
- If you leave the browsers open at this url then future runs of
grunt
will automatically run the tests against these browsers.
You can have grunt (karma) continuously watch for file changes and automatically run all the tests on every change, without rebuilding the distribution files. This can make the test run faster when you are doing test driven development and don't need to actually run the application itself.
- Run
grunt test-watch
. - Open one or more browsers and point them to [http://localhost:8080/__test/].
- Each time a file changes the tests will be run against each browser.