This boilerplate is the product of much research and frustration. Existing boilerplates exist that modify Backbone core, don't have a build process, or are very prescriptive; this boilerplate changes that.
Organize your application in a logical filesystem, develop your Models/Collections/Views/Routers inside modules, and build knowing you have efficient code that will not bottleneck your users.
Thanks to our Contributors!
Special Thanks to: cowboy, iros, nimbupani and wookiehangover
- HTML5 Boilerplate foundation
- Elegant filesystem structure for
- App code, assets, tests, and distribution
- Snippets to make common tasks easier
- For modules, HTML5 History API/Hash navigation, loading templates and application events
- Very flexible and pluginable build process that works in Windows!
- Concatenate and minify all your libraries, application code, templates and CSS
- Compiles underscore templates out of the box
There are several ways to install and intimately enjoy the benefits Backbone Boilerplate provides. The easiest is to download an archive and extract into your new application folder:
If you would rather use git, you can simply:
cd myproject
git clone https://github.com/tbranyen/backbone-boilerplate.git .
rm -rf .git
This will download the latest boilerplate into your application directory and clean out all the unnecessary git remnants.
If you would like to use the ahem awesome bundled build tool, you will need to install Node.js for your platform. Don't worry! It's super easy now! If not, you can simply delete the build folder.
Navigate to: http://nodejs.org/ and click Download. Once you've downloaded scroll down to the Build section to see how to configure and use it.
Once you have the boilerplate downloaded and extracted, run the following:
node build/server
And launch your web browser to http://localhost:8000/
, this will
load up the tutorial.
This boilerplate started with an HTML5 Boilerplate base. It has been stripped of most of the comments and files, which you can see by visiting the H5BP repo.
https://github.com/h5bp/html5-boilerplate
This structure is very basic and yet offers many advantages such as isolation of concerns whereas libraries and application code are separated completely.
Application code and templates are placed inside the app
directory. The
index.js
file serves as the entry-point into the application and defines
the namespace as well as initializing the main application Router. Make
sure you change the namespace name here.
The static assets are placed inside the assets
directory. The H5BP files
are already included here. Place all new JavaScript libraries inside the
assets/js/libs
directory. If you are dealing with many jQuery plugins,
you may want to create a separate plugins
folder inside assets/js
.
Default structure:
.
├── app
│ ├── index.js
│ ├── modules
│ └── templates
├── assets
│ ├── css
│ ├── img
│ └── js
├── build
├── favicon.ico
├── index.html
└── test
Modules are placed in the app/modules/
directory. There is an example module
there named: example.js
. The actual module definition function is located
inside the app/index.js
file. You create and reference modules with the same
function call: namespace.module("<module_name>")
.
Typically a module contains a single Model/Collection/Router and many Views. Therefore the returned module object is empty except for a Views object property that can be used to attach many Views to, like:
MyModule.Views.Detailed = Backbone.View.extend({ /* ... */ });
MyModule.Views.Main = Backbone.View.extend({ /* ... */ });
Attaching Models/Collections/Routers happen on the same level of the module, like so:
MyModule.Model = Backbone.Model.extend({ /* ... */ });
MyModule.Router = Backbone.Router.extend({ /* ... */ });
Application wide events provide a convenient way for modules to communicate with each other. namespace.app
references a copy of the Backbone.Events object, providing access to .on()
, .off()
, and .trigger()
, that are documented in Backbone.js Events
For example, to add a callback to the "all" event:
namespace.app.on("all", function(){}, this);
Out the box Backbone Boilerplate enables pushState
. It also supplies a script
inside app/index.js
which attaches a click handler that monitors all links and
will automatically route all relative urls through your Backbone application.
It is designed to only route urls that are defined inside your app.Router
and
not Routers that may be defined elsewhere.
Absolute urls such as http://google.com/
will be routed normally. So if
your application contains links to pages or files that you do not want to
route through Backbone's router, make them absolute.
In order to test pushState
use the development server explained below.
While writing an application that leverages pushState
you can run the
following command to run a server that will always resolve to the index.html
node build/server
This will spawn up an HTTP server on port 8000
. This server is intended
for development and not production. You should use url rewriting or forwarding
all requests in your production server to achieve this same effect.
If you are using the build tool in conjunction with this development server
you can optionally update the index.html
file to remove the existing script
tags and uncomment out the scripts tag at the bottom to load the dist/debug
or dist/release
assets. You can achieve this by specifying either debug
or release after the server command, like so:
node build/server release
The Backbone Boilerplate build process is a state-of-the-art, task-driven Node.js application that utilizes @cowboy's grunt project.
To run the defaults, execute the following command from the project root, and not from inside the build folder.
node build
This will do a number of things for you. First it will concatenate all your
libs, app code, and templates into separate files inside the dist/debug
folder. It will then minify those files and your CSS into production ready
files inside the dist/release
folder.
To customize and configure the build tool, open build/config.js
and tweak
the settings.
If you are perpetually working on the application and making many changes, you may find it convenient to have the build process watch your directory structure and automatically re-run the tasks after a file has changed.
Use the following command to build to the debug folder:
node build watch
Use the following command to build to the debug and release folders:
node build watch:min
These watch commands can operate in parallel to the above development server for an efficient work process of editting files and testing the output.
The build process incorporates a plugin architecture that makes adding premade or custom-built tasks very easy.
To install a custom task, simply copy the JavaScript file into the build/tasks
folder. If the task is an archive simply extract it into the same folder.
After the task has been loaded into the tasks directory, you will need to
configure it in build/config.js
per the task instructions.
Until proper tutorials and documentation have been created for Grunt, look
at the build/tasks/__template.js
file for inspiration =)