Several architectures using AngularJS, SPA applications, No virtual routes etc
To get you started you can simply clone the repository and install the dependencies:
You need git to clone the repository. You can get git from http://git-scm.com/.
We also use a number of node.js tools to initialize and test. You must have node.js and its package manager (npm) installed. You can get them from http://nodejs.org/.
Clone the repository using git:
git clone https://github.com/jucesarsilva/Architectures-AngularJS.git
cd Architectures-AngularJS
If you just want to start a new project without the commit history then you can do:
git clone --depth=1 https://github.com/jucesarsilva/Architectures-AngularJS.git <your-project-name>The depth=1 tells git to only pull down one commit worth of historical data.
Go to choosed architecture
cd <folder architecture name>
We have two kinds of dependencies in this project: tools and angular framework code. The tools help us manage and test the application.
- We get the tools we depend upon via
npm, the node package manager. - We get the angular code via
bower, a client-side code package manager.
We have preconfigured npm to automatically run bower so we can simply do:
npm install
Behind the scenes this will also call bower install. You should find that you have two new
folders in your project.
node_modules- contains the npm packages for the tools we needbower_components- contains the angular framework files
Note that the bower_components folder would normally be installed in the root folder but changes this location through the .bowerrc file. Putting it in the app folder makes
it easier to serve the files by a webserver.
We have preconfigured the project with a simple development web server. The simplest way to start this server is:
npm start
Now browse to the app at http://localhost:8000/.
There are two kinds of tests in the application: Unit tests and end-to-end tests.
The app comes preconfigured with unit tests. These are written in Jasmine, which we run with the Karma Test Runner. We provide a Karma configuration file to run them.
- the configuration is found at
karma.conf.js - the unit tests are found next to the code they are testing and are named as
..._test.js.
The easiest way to run the unit tests is to use the supplied npm script:
npm test
This script will start the Karma test runner to execute the unit tests. Moreover, Karma will sit and watch the source and test files for changes and then re-run the tests whenever any of them change. This is the recommended strategy; if your unit tests are being run every time you save a file then you receive instant feedback on any changes that break the expected code functionality.
You can also ask Karma to do a single run of the tests and then exit. This is useful if you want to check that a particular version of the code is operating as expected. The project contains a predefined script to do this:
npm run test-single-run
The app comes with end-to-end tests, again written in Jasmine. These tests are run with the Protractor End-to-End test runner. It uses native events and has special features for Angular applications.
- the configuration is found at
e2e-tests/protractor-conf.js - the end-to-end tests are found in
e2e-tests/scenarios.js
Protractor simulates interaction with our web app and verifies that the application responds correctly. Therefore, our web server needs to be serving up the application, so that Protractor can interact with it.
npm start
In addition, since Protractor is built upon WebDriver we need to install this. The project comes with a predefined script to do this:
npm run update-webdriver
This will download and install the latest version of the stand-alone WebDriver tool.
Once you have ensured that the development web server hosting our application is up and running and WebDriver is updated, you can run the end-to-end tests using the supplied npm script:
npm run protractor
This script will execute the end-to-end tests against the application being hosted on the development server.
Note:
Under the hood, Protractor uses the Selenium Standalone Server, which in turn requires
the Java Development Kit (JDK) to be installed on your local machine. Check this by running
java -version from the command line.
If JDK is not already installed, you can download it here.
Previously we recommended that you merge in changes into your own fork of the project. Now that the angular framework library code and tools are acquired through package managers (npm and bower) you can use these tools instead to update the dependencies.
You can update the tool dependencies by running:
npm update
This will find the latest versions that match the version ranges specified in the package.json file.
You can update the Angular dependencies by running:
bower update
This will find the latest versions that match the version ranges specified in the bower.json file.
While angular is client-side-only technology and it's possible to create angular webapps that
don't require a backend server at all, we recommend serving the project files using a local
webserver during development to avoid issues with security restrictions (sandbox) in browsers. The
sandbox implementation varies between browsers, but quite often prevents things like cookies, xhr,
etc to function properly when an html page is opened via file:// scheme instead of http://.
The project comes preconfigured with a local development webserver. It is a node.js
tool called http-server. You can start this webserver with npm start but you may choose to
install the tool globally:
sudo npm install -g http-server
Then you can start your own development web server to serve static files from a folder by running:
http-server -a localhost -p 8000
Alternatively, you can choose to configure your own webserver, such as apache or nginx. Just
configure your server to serve the files under the app/ directory.
This really depends on how complex your app is and the overall infrastructure of your system, but
the general rule is that all you need in production are all the files under the app/ directory.
Everything else should be omitted.
Angular apps are really just a bunch of static html, css and js files that just need to be hosted somewhere they can be accessed by browsers.
If your Angular app is talking to the backend server via xhr or other means, you need to figure out what is the best way to host the static files to comply with the same origin policy if applicable. Usually this is done by hosting the files by the backend server or through reverse-proxying the backend server(s) and webserver(s).
Travis CI is a continuous integration service, which can monitor GitHub for new commits
to your repository and execute scripts such as building the app or running tests. The
project contains a Travis configuration file, .travis.yml, which will cause Travis to run your
tests when you push to GitHub.
You will need to enable the integration between Travis and GitHub. See the Travis website for more instruction on how to do this.
CloudBees have provided a CI/deployment setup:
If you run this, you will get a cloned version of this repo to start working on in a private git repo, along with a CI service (in Jenkins) hosted that will run unit and end to end tests in both Firefox and Chrome.
For more information on AngularJS please check out http://angularjs.org/