A course recommendation project built in AngularJS.
Install Node.js and then:
$ git clone https://github.com/ursamajor/telebuddies
$ cd telebuddies
$ sudo npm -g install grunt-cli karma bower
$ npm install
$ bower install
$ grunt watch
Open another shell and start a python server
$ python3 -m http.server
open localhost:8000 in your browser to start!
Happy hacking!
ngBoilerplate
is designed to make life easy by providing a basic framework
with which to kickstart AngularJS projects. It contains a best-practice
directory structure to ensure code reusability and maximum scalability.
ngBoilerplate also comes prepackaged with the most popular design frameworks
around: Twitter Bootstrap,
Angular UI,
Angular Bootstrap,
Font Awesome, and
LESS. Lastly, it contains a sophisticated
Grunt-based build system to ensure maximum productivity.
All you have to do is clone it and start coding!
The principal goal of ngBoilerplate
is to set projects up for long-term
success. So ngBoilerplate
tries to follow best practices everywhere it can.
These are:
- Properly orchestrated modules to encourage drag-and-drop component re-use.
- Tests exist alongside the component they are testing with no separate
test
directory required; the build process should be sophisticated enough to handle this. - Speaking of which, the build system should work automagically, without involvement from the developer. It should do what needs to be done, while staying out of the way. Components should end up tested, linted, compiled, and minified, ready for use in a production environment.
- Integration with popular tools like Bower, Karma, and LESS.
- Encourages test-driven development. It's the only way to code.
- A directory structure that is cogent, meaningful to new team members, and supporting of the above points.
- Well-documented, to show new developers why things are set up the way they are.
- It should be responsive to evidence. Community feedback is therefore crucial
to the success of
ngBoilerplate
.
But ngBoilerplate
is not an example of an AngularJS app: this is a
kickstarter. If you're looking for an example of what a complete, non-trivial
AngularJS app that does something real looks like, complete with a REST backend
and authentication and authorization, then take a look at
angular-app
, which does just
that - and does it well.
At a high level, the structure looks roughly like this:
ng-boilerplate/
|- grunt-tasks/
|- karma/
|- src/
| |- app/
| | |- <app logic>
| |- assets/
| | |- <static files>
| |- common/
| | |- <reusable code>
| |- less/
| | |- main.less
|- vendor/
| |- angular-bootstrap/
| |- bootstrap/
| |- placeholders/
|- .bowerrc
|- bower.json
|- build.config.js
|- Gruntfile.js
|- module.prefix
|- module.suffix
|- package.json
What follows is a brief description of each entry, but most directories contain
their own README.md
file with additional documentation, so browse around to
learn more.
karma/
- test configuration.src/
- our application sources. Read more »vendor/
- third-party libraries. Bower will install packages here. Anything added to this directory will need to be manually added tobuild.config.js
andkarma/karma-unit.js
to be picked up by the build system..bowerrc
- the Bower configuration file. This tells Bower to install components into thevendor/
directory.bower.json
- this is our project configuration for Bower and it contains the list of Bower dependencies we need.build.config.js
- our customizable build settings; see "The Build System" below.Gruntfile.js
- our build script; see "The Build System" below.module.prefix
andmodule.suffix
- our compiled application script is wrapped in these, which by default are used to place the application inside a self-executing anonymous function to ensure no clashes with other libraries.package.json
- metadata about the app, used by NPM and our build script. Our NPM dependencies are listed here.
This section provides a little more detailed understanding of what goes into
getting ngBoilerplate
up and running. Though ngBoilerplate
is really simple
to use, it might help to have an understanding of the tools involved here, like
Node.js and Grunt and Bower. If you're completely new to highly organized,
modern JavaScript development, take a few short minutes to read this overview
of the tools before continuing with this section.
Okay, ready to go? Here it is:
ngBoilerplate
uses Grunt as its build system, so
Node.js is required. Also, Grunt by default no longer comes
with a command-line utility and Karma and Bower must end up in your global path
for the build system to find it, so they must be installed independently. Once
you have Node.js installed, you can simply use npm
to make it all happen:
$ npm -g install grunt-cli karma bower
If you're on Linux (like I am) then throw sudo
in front of that command. If
you're on Windows, then you're on your own.
Next, you can either clone this repository using Git, download it as a zip file from GitHub, or merge the branch into your existing repository. Assuming you're starting from scratch, simply clone this repository using git:
$ git clone git://github.com/joshdmiller/ng-boilerplate my-project-name
$ cd my-project-name
And then install the remaining build dependencies locally:
$ npm install
This will read the dependencies
(empty by default) and the devDependencies
(which contains our build requirements) from package.json
and install
everything needed into a folder called node_modules/
.
There are many Bower packages used by ngBoilerplate
, like Twitter Bootstrap
and Angular UI, which are listed in bower.js
. To install them into the
vendor/
directory, simply run:
$ bower install
In the future, should you want to add a new Bower package to your app, run the
install
command:
$ bower install packagename --save-dev
The --save-dev
flag tells Bower to add the package at its current version to
our project's bower.js
file so should another developer download our
application (or we download it from a different computer), we can simply run the
bower install
command as above and all our dependencies will be installed for
us. Neat!
Technically, ngBoilerplate
is now ready to go.
However, prior to hacking on your application, you will want to modify the
package.json
file to contain your project's information. Do not remove any
items from the devDependencies
array as all are needed for the build process
to work.
To ensure your setup works, launch grunt:
$ grunt watch
The built files are placed in the build/
directory by default. Open the
build/index.html
file in your browser and check it out! Because everything is
compiled, no XHR requests are needed to retrieve templates, so until this needs
to communicate with your backend there is no need to run it from a web server.
watch
is actually an alias of the grunt-contrib-watch
that will first run a
partial build before watching for file changes. With this setup, any file that
changes will trigger only those build tasks necessary to bring the app up to
date. For example, when a template file changes, the templates are recompiled
and concatenated, but when a test/spec file changes, only the tests are run.
This allows the watch command to complete in a fraction of the time it would
ordinarily take.
In addition, if you're running a Live Reload plugin in your browser (see below),
you won't even have to refresh to see the changes! When the watch
task detects
a file change, it will reload the page for you. Sweet.
When you're ready to push your app into production, just run the compile
command:
$ grunt compile
This will concatenate and minify your sources and place them by default into the
bin/
directory. There will only be three files: index.html
,
your-app-name.js
, and your-app-name.css
. All of the vendor dependencies like
Bootstrap styles and AngularJS itself have been added to them for super-easy
deploying. If you use any assets (src/assets/
) then they will be copied to
bin/
as is.
Lastly, a complete build is always available by simply running the default
task, which runs build
and then compile
:
$ grunt
The best way to learn about the build system is by familiarizing yourself with
Grunt and then reading through the heavily documented build script,
Gruntfile.js
. But you don't need to do that to be very productive with
ngBoilerplate
. What follows in this section is a quick introduction to the
tasks provided and should be plenty to get you started.
The driver of the process is the delta
multi-task, which watches for file
changes using grunt-contrib-watch
and executes one of nine tasks when a file
changes:
delta:gruntfile
- WhenGruntfile.js
changes, this task runs the linter (jshint
) on that one file and reloads the configuration.delta:assets
- When any file withinsrc/assets/
changes, all asset files are copied tobuild/assets/
.delta:html
- Whensrc/index.html
changes, it is compiled as a Grunt template, so script names, etc., are dynamically replaced with the correct values configured dynamically by Grunt.delta:less
- When any*.less
file withinsrc/
changes, thesrc/less/main.less
file is linted and copied intobuild/assets/ng-boilerplate.css
.delta:jssrc
- When any JavaScript file withinsrc/
that does not end in.spec.js
changes, all JavaScript sources are linted, all unit tests are run, and the all source files are re-copied tobuild/src
.delta:coffeesrc
- When any*.coffee
file insrc/
that doesn't match*.spec.coffee
changes, the Coffee scripts are compiled independently intobuild/src
in a structure mirroring where they were insrc/
so it's easy to locate problems. For example, the filesrc/common/titleService/titleService.coffee
is compiled tobuild/src/common/titleService/titleService.js
.delta:tpls
- When any*.tpl.html
file withinsrc/
changes, all templates are put into strings in a JavaScript file (technically two, one forsrc/common/
and another forsrc/app/
) that will add the template to AngularJS's$templateCache
so template files are part of the initial JavaScript payload and do not require any future XHR. The template cache files arebuild/template-app.js
andbuild/template-common.js
.delta:jsunit
- When any*.spec.js
file insrc/
changes, the test files are linted and the unit tests are executed.delta:coffeeunit
- When any*.spec.coffee
file insrc/
changes, the test files are linted, compiled their tests executed.
As covered in the previous section, grunt watch
will execute a full build
up-front and then run any of the aforementioned delta:*
tasks as needed to
ensure the fastest possible build. So whenever you're working on your project,
start with:
$ grunt watch
And everything will be done automatically!
To make the build even faster, tasks are placed into two categories: build and compile. The build tasks (like those we've been discussing) are the minimal tasks required to run your app during development.
Compile tasks, however, get your app ready for production. The compile tasks include concatenation, minification, compression, etc. These tasks take a little bit longer to run and are not at all necessary for development so are not called automatically during build or watch.
To initiate a full compile, you simply run the default task:
$ grunt
This will perform a build and then a compile. The compiled site - ready for
uploading to the server! - is located in bin/
, taking a cue from
traditional software development. To test that your full site works as
expected, open the bin/index.html
file in your browser. Voila!
ngBoilerplate
also includes Live Reload, so you no
longer have to refresh your page after making changes! You need a Live Reload
browser plugin for this:
- Chrome - Chrome Webstore
- Firefox - Download from Live Reload
- Safari - Download from Live Reload
- Internet Explorer - Surely you jest.
Note that if you're using the Chrome version with file://
URLs (as is the
default with ngBoilerplate
) you need to tell Live Reload to allow it. Go to
Menu -> Tools -> Extensions
and check the "Allow access to file URLs" box next
to the Live Reload plugin.
When you load your page, click the Live Reload icon in your toolbar and everything should work magically. w00t!
If you'd prefer to not install a browser extension, then you must add the
following to the end of the body
tag in index.html
:
<script src="http://localhost:35729/livereload.js"></script>
Boom!
This is a project that is not broad in scope, so there's not really much of a wish list here. But I would like to see a couple of things:
I'd like it to be a little simpler. I want this to be a universal starting point. If someone is starting a new AngularJS project, she should be able to clone, merge, or download its source and immediately start doing what she needs without renaming a bunch of files and methods or deleting spare parts. What I have works for a first release, but I just think there is a little too much here right now.
I'd also like to see a simple generator. Nothing like Yeoman, as there already is one of those, but just something that allows the user to say "I want Bootstrap but not Font Awesome and my app is called 'coolApp'. Gimme." Perhaps a custom download builder like UI Bootstrap has. Like that. Then again, perhaps some Yeoman generators wouldn't be out of line. I don't know. What do you think?
Naturally, I am open to all manner of ideas and suggestions. See the "Contributing" section below.
See the issues list. And feel free to submit your own!
This is an opinionated kickstarter, but the opinions are fluid and evidence-based. Don't like the way I did something? Think you know of a better way? Have an idea to make this more useful? Let me know! You can contact me through all the usual channels or you can open an issue on the GitHub page. If you're feeling ambitious, you can even submit a pull request - how thoughtful of you!
So join the team! We're good people.