Handlebars.js is an extension to the Mustache templating language created by Chris Wanstrath. Handlebars.js and Mustache are both logicless templating languages that keep the view and the code separated like we all know they should be.
Checkout the official Handlebars docs site at http://www.handlebarsjs.com.
Installing Handlebars is easy. Simply download the package from the official site and add it to your web pages (you should usually use the most recent version).
In general, the syntax of Handlebars.js templates is a superset of Mustache templates. For basic syntax, check out the Mustache manpage.
Once you have a template, use the Handlebars.compile
method to compile
the template into a function. The generated function takes a context
argument, which will be used to render the template.
var source = "<p>Hello, my name is {{name}}. I am from {{hometown}}. I have " +
"{{kids.length}} kids:</p>" +
"<ul>{{#kids}}<li>{{name}} is {{age}}</li>{{/kids}}</ul>";
var template = Handlebars.compile(source);
var data = { "name": "Alan", "hometown": "Somewhere, TX",
"kids": [{"name": "Jimmy", "age": "12"}, {"name": "Sally", "age": "4"}]};
var result = template(data);
// Would render:
// <p>Hello, my name is Alan. I am from Somewhere, TX. I have 2 kids:</p>
// <ul>
// <li>Jimmy is 12</li>
// <li>Sally is 4</li>
// </ul>
You can register helpers that Handlebars will use when evaluating your template. Here's an example, which assumes that your objects have a URL embedded in them, as well as the text for a link:
Handlebars.registerHelper('link_to', function() {
return "<a href='" + this.url + "'>" + this.body + "</a>";
});
var context = { posts: [{url: "/hello-world", body: "Hello World!"}] };
var source = "<ul>{{#posts}}<li>{{{link_to}}}</li>{{/posts}}</ul>"
var template = Handlebars.compile(source);
template(context);
// Would render:
//
// <ul>
// <li><a href='/hello-world'>Hello World!</a></li>
// </ul>
Helpers take precedence over fields defined on the context. To access a field
that is masked by a helper, a path reference may be used. In the example above
a field named link_to
on the context
object would be referenced using:
{{./link_to}}
By default, the {{expression}}
syntax will escape its contents. This
helps to protect you against accidental XSS problems caused by malicious
data passed from the server as JSON.
To explicitly not escape the contents, use the triple-mustache
({{{}}}
). You have seen this used in the above example.
Handlebars.js adds a couple of additional features to make writing templates easier and also changes a tiny detail of how partials work.
Handlebars.js supports an extended expression syntax that we call paths. Paths are made up of typical expressions and . characters. Expressions allow you to not only display data from the current context, but to display data from contexts that are descendants and ancestors of the current context.
To display data from descendant contexts, use the .
character. So, for
example, if your data were structured like:
var data = {"person": { "name": "Alan" }, company: {"name": "Rad, Inc." } };
You could display the person's name from the top-level context with the following expression:
{{person.name}}
You can backtrack using ../
. For example, if you've already traversed
into the person object you could still display the company's name with
an expression like {{../company.name}}
, so:
{{#person}}{{name}} - {{../company.name}}{{/person}}
would render:
Alan - Rad, Inc.
When calling a helper, you can pass paths or Strings as parameters. For instance:
Handlebars.registerHelper('link_to', function(title, options) {
return "<a href='/posts" + this.url + "'>" + title + "!</a>"
});
var context = { posts: [{url: "/hello-world", body: "Hello World!"}] };
var source = '<ul>{{#posts}}<li>{{{link_to "Post"}}}</li>{{/posts}}</ul>'
var template = Handlebars.compile(source);
template(context);
// Would render:
//
// <ul>
// <li><a href='/posts/hello-world'>Post!</a></li>
// </ul>
When you pass a String as a parameter to a helper, the literal String gets passed to the helper function.
Handlebars.js also adds the ability to define block helpers. Block helpers are functions that can be called from anywhere in the template. Here's an example:
var source = "<ul>{{#people}}<li>{{#link}}{{name}}{{/link}}</li>{{/people}}</ul>";
Handlebars.registerHelper('link', function(options) {
return '<a href="/people/' + this.id + '">' + options.fn(this) + '</a>';
});
var template = Handlebars.compile(source);
var data = { "people": [
{ "name": "Alan", "id": 1 },
{ "name": "Yehuda", "id": 2 }
]};
template(data);
// Should render:
// <ul>
// <li><a href="/people/1">Alan</a></li>
// <li><a href="/people/2">Yehuda</a></li>
// </ul>
Whenever the block helper is called it is given one or more parameters,
any arguments that are passed in the helper in the call and an options
object containing the fn
function which executes the block's child.
The block's current context may be accessed through this
.
Block helpers have the same syntax as mustache sections but should not be
confused with one another. Sections are akin to an implicit each
or
with
statement depending on the input data and helpers are explicit
pieces of code that are free to implement whatever behavior they like.
The mustache spec
defines the exact behavior of sections. In the case of name conflicts,
helpers are given priority.
You can register additional templates as partials, which will be used by
Handlebars when it encounters a partial ({{> partialName}}
). Partials
can either be String templates or compiled template functions. Here's an
example:
var source = "<ul>{{#people}}<li>{{> link}}</li>{{/people}}</ul>";
Handlebars.registerPartial('link', '<a href="/people/{{id}}">{{name}}</a>')
var template = Handlebars.compile(source);
var data = { "people": [
{ "name": "Alan", "id": 1 },
{ "name": "Yehuda", "id": 2 }
]};
template(data);
// Should render:
// <ul>
// <li><a href="/people/1">Alan</a></li>
// <li><a href="/people/2">Yehuda</a></li>
// </ul>
You can add comments to your templates with the following syntax:
{{! This is a comment }}
You can also use real html comments if you want them to end up in the output.
<div>
{{! This comment will not end up in the output }}
<!-- This comment will show up in the output -->
</div>
Handlebars allows templates to be precompiled and included as javascript code rather than the handlebars template allowing for faster startup time.
The precompiler script may be installed via npm using the npm install -g handlebars
command.
Precompile handlebar templates. Usage: handlebars template... Options: -a, --amd Create an AMD format function (allows loading with RequireJS) [boolean] -f, --output Output File [string] -k, --known Known helpers [string] -o, --knownOnly Known helpers only [boolean] -m, --min Minimize output [boolean] -s, --simple Output template function only. [boolean] -r, --root Template root. Base value that will be stripped from template names. [string]
If using the precompiler's normal mode, the resulting templates will be
stored to the Handlebars.templates
object using the relative template
name sans the extension. These templates may be executed in the same
manner as templates.
If using the simple mode the precompiler will generate a single
javascript method. To execute this method it must be passed to the using
the Handlebars.template
method and the resulting object may be as
normal.
- Rather than using the full handlebars.js library, implementations that do not need to compile templates at runtime may include handlebars.runtime.js whose min+gzip size is approximately 1k.
- If a helper is known to exist in the target environment they may be defined
using the
--known name
argument may be used to optimize accesses to these helpers for size and speed. - When all helpers are known in advance the
--knownOnly
argument may be used to optimize all block helper references.
In a rough performance test, precompiled Handlebars.js templates (in the original version of Handlebars.js) rendered in about half the time of Mustache templates. It would be a shame if it were any other way, since they were precompiled, but the difference in architecture does have some big performance advantages. Justin Marney, a.k.a. gotascii, confirmed that with an independent test. The rewritten Handlebars (current version) is faster than the old version, and we will have some benchmarks in the near future.
To build handlebars, just run rake release
, and you will get two files
in the dist
directory.
When upgrading from the Handlebars 0.9 series, be aware that the signature for passing custom helpers or partials to templates has changed.
Instead of:
template(context, helpers, partials, [data])
Use:
template(context, {helpers: helpers, partials: partials, data: data})
- Handlebars.js can be cryptic when there's an error while rendering.
- Using a variable, helper, or partial named
class
causes errors in IE browsers. (Instead, useclassName
)
- jblotus created http://tryhandlebarsjs.com for anyone who would like to try out Handlebars.js in their browser.
- Don Park wrote an Express.js view engine adapter for Handlebars.js called hbs.
- sammy.js by Aaron Quint, a.k.a. quirkey, supports Handlebars.js as one of its template plugins.
- SproutCore uses Handlebars.js as its main templating engine, extending it with automatic data binding support.
- Ember.js makes Handlebars.js the primary way to structure your views, also with automatic data binding support.
- Les Hill (@leshill) wrote a Rails Asset Pipeline gem named handlebars_assets.
- Gist about Synchronous and asynchronous loading of external handlebars templates
To build Handlebars.js you'll need a few things installed.
- Node.js
- Ruby
- therubyracer, for running tests -
gem install therubyracer
- rspec, for running tests -
gem install rspec
There's a Gemfile in the repo, so you can run bundle
to install rspec
and therubyracer if you've got bundler installed.
To build Handlebars.js from scratch, you'll want to run rake compile
in the root of the project. That will build Handlebars and output the
results to the dist/ folder. To run tests, run rake test
. You can also
run our set of benchmarks with rake bench
. Node tests can be run with
npm test
or rake npm_test
. The default rake target will compile and
run both test suites.
Some environments, notably Windows, have issues running therubyracer. Under these
envrionments the rake compile
and npm test
should be sufficient to test
most handlebars functionality.
If you notice any problems, please report them to the GitHub issue tracker at http://github.com/wycats/handlebars.js/issues. Feel free to contact commondream or wycats through GitHub with any other questions or feature requests. To submit changes fork the project and send a pull request.
Handlebars.js is released under the MIT license.