What could be more logical awesome than no logic at all?
mustache.js is an implementation of the mustache template system in JavaScript.
Mustache is a logic-less template syntax. It can be used for HTML, config files, source code - anything. It works by expanding tags in a template using values provided in a hash or object.
We call it "logic-less" because there are no if statements, else clauses, or for loops. Instead there are only tags. Some tags are replaced with a value, some nothing, and others a series of values.
For a language-agnostic overview of mustache's template syntax, see the mustache(5)
manpage.
You can use mustache.js to render mustache templates anywhere you can use JavaScript. This includes web browsers, server-side environments such as node, and CouchDB views.
mustache.js ships with support for both the CommonJS module API and the Asynchronous Module Definition API, or AMD.
An updated list of mustache.js users is kept on the Github wiki. Add yourself or your company if you use mustache.js!
Below is quick example how to use mustache.js:
var view = {
title: "Joe",
calc: function () {
return 2 + 4;
}
};
var output = Mustache.render("{{title}} spends {{calc}}", view);
In this example, the Mustache.render
function takes two parameters: 1) the mustache template and 2) a view
object that contains the data and code needed to render the template.
A mustache template is a string that contains any number of mustache tags. Tags are indicated by the double mustaches that surround them. {{person}}
is a tag, as is {{#person}}
. In both examples we refer to person
as the tag's key.
There are several types of tags available in mustache.js.
The most basic tag type is a simple variable. A {{name}}
tag renders the value of the name
key in the current context. If there is no such key, nothing is rendered.
All variables are HTML-escaped by default. If you want to render unescaped HTML, use the triple mustache: {{{name}}}
. You can also use &
to unescape a variable.
View:
{
"name": "Chris",
"company": "<b>GitHub</b>"
}
Template:
* {{name}}
* {{age}}
* {{company}}
* {{{company}}}
* {{&company}}
Output:
* Chris
*
* <b>GitHub</b>
* <b>GitHub</b>
* <b>GitHub</b>
JavaScript's dot notation may be used to access keys that are properties of objects in a view.
View:
{
"name": {
"first": "Michael",
"last": "Jackson"
},
"age": "RIP"
}
Template:
* {{name.first}} {{name.last}}
* {{age}}
Output:
* Michael Jackson
* RIP
Sections render blocks of text one or more times, depending on the value of the key in the current context.
A section begins with a pound and ends with a slash. That is, {{#person}}
begins a person
section, while {{/person}}
ends it. The text between the two tags is referred to as that section's "block".
The behavior of the section is determined by the value of the key.
If the person
key does not exist, or exists and has a value of null
, undefined
, or false
, or is an empty list, the block will not be rendered.
View:
{
"person": false
}
Template:
Shown.
{{#person}}
Never shown!
{{/person}}
Output:
Shown.
If the person
key exists and is not null
, undefined
, or false
, and is not an empty list the block will be rendered one or more times.
When the value is a list, the block is rendered once for each item in the list. The context of the block is set to the current item in the list for each iteration. In this way we can loop over collections.
View:
{
"stooges": [
{ "name": "Moe" },
{ "name": "Larry" },
{ "name": "Curly" }
]
}
Template:
{{#stooges}}
<b>{{name}}</b>
{{/stooges}}
Output:
<b>Moe</b>
<b>Larry</b>
<b>Curly</b>
When looping over an array of strings, a .
can be used to refer to the current item in the list.
View:
{
"musketeers": ["Athos", "Aramis", "Porthos", "D'Artagnan"]
}
Template:
{{#musketeers}}
* {{.}}
{{/musketeers}}
Output:
* Athos
* Aramis
* Porthos
* D'Artagnan
If the value of a section variable is a function, it will be called in the context of the current item in the list on each iteration.
View:
{
"beatles": [
{ "firstName": "John", "lastName": "Lennon" },
{ "firstName": "Paul", "lastName": "McCartney" },
{ "firstName": "George", "lastName": "Harrison" },
{ "firstName": "Ringo", "lastName": "Starr" }
],
"name": function () {
return this.firstName + " " + this.lastName;
}
}
Template:
{{#beatles}}
* {{name}}
{{/beatles}}
Output:
* John Lennon
* Paul McCartney
* George Harrison
* Ringo Starr
If the value of a section key is a function, it is called with the section's literal block of text, un-rendered, as its first argument. The second argument is a special rendering function that uses the current view as its view argument. It is called in the context of the current view object.
View:
{
"name": "Tater",
"bold": function () {
return function (text, render) {
return "<b>" + render(text) + "</b>";
}
}
}
Template:
{{#bold}}Hi {{name}}.{{/bold}}
Output:
<b>Hi Tater.</b>
An inverted section opens with {{^section}}
instead of {{#section}}
. The block of an inverted section is rendered only if the value of that section's tag is null
, undefined
, false
, or an empty list.
View:
{
"repos": []
}
Template:
{{#repos}}<b>{{name}}</b>{{/repos}}
{{^repos}}No repos :({{/repos}}
Output:
No repos :(
Comments begin with a bang and are ignored. The following template:
<h1>Today{{! ignore me }}.</h1>
Will render as follows:
<h1>Today.</h1>
Comments may contain newlines.
Partials begin with a greater than sign, like {{> box}}.
Partials are rendered at runtime (as opposed to compile time), so recursive partials are possible. Just avoid infinite loops.
They also inherit the calling context. Whereas in ERB you may have this:
<%= partial :next_more, :start => start, :size => size %>
Mustache requires only this:
{{> next_more}}
Why? Because the next_more.mustache
file will inherit the size
and start
variables from the calling context. In this way you may want to think of partials as includes, or template expansion, even though it's not literally true.
For example, this template and partial:
base.mustache:
<h2>Names</h2>
{{#names}}
{{> user}}
{{/names}}
user.mustache:
<strong>{{name}}</strong>
Can be thought of as a single, expanded template:
<h2>Names</h2>
{{#names}}
<strong>{{name}}</strong>
{{/names}}
In mustache.js an object of partials may be passed as the third argument to Mustache.render
. The object should be keyed by the name of the partial, and its value should be the partial text.
Set Delimiter tags start with an equals sign and change the tag delimiters from {{
and }}
to custom strings.
Consider the following contrived example:
* {{ default_tags }}
{{=<% %>=}}
* <% erb_style_tags %>
<%={{ }}=%>
* {{ default_tags_again }}
Here we have a list with three items. The first item uses the default tag style, the second uses ERB style as defined by the Set Delimiter tag, and the third returns to the default style after yet another Set Delimiter declaration.
According to ctemplates, this "is useful for languages like TeX, where double-braces may occur in the text and are awkward to use for markup."
Custom delimiters may not contain whitespace or the equals sign.
Mustache templates can be compiled into JavaScript functions using Mustache.compile
for improved rendering performance.
If you have template views that are rendered multiple times, compiling your template into a JavaScript function will minimise the amount of work required for each re-render.
Pre-compiled templates can also be generated server-side, for delivery to the browser as ready to use JavaScript functions, further reducing the amount of client side processing required for initialising templates.
Mustache.compile
Use Mustache.compile
to compile standard Mustache string templates into reusable Mustache template functions.
var compiledTemplate = Mustache.compile(stringTemplate);
The function returned from Mustache.compile
can then be called directly, passing in the template data as an argument (with an object of partials as an optional second parameter), to generate the final output.
var templateOutput = compiledTemplate(templateData);
Mustache.compilePartial
Template partials can also be compiled using the Mustache.compilePartial
function. The first parameter of this function, is the name of the partial as it appears within parent templates.
Mustache.compilePartial('partial-name', stringTemplate);
Compiled partials are then available to both Mustache.render
and Mustache.compile
.
mustache.js may be built specifically for several different client libraries, including the following:
These may be built using Rake and one of the following commands:
$ rake jquery
$ rake mootools
$ rake dojo
$ rake yui
$ rake qooxdoo
The mustache.js test suite uses the vows testing framework. In order to run the tests you'll need to install node. Once that's done you can install vows using npm.
$ npm install -g vows
Then run the tests.
$ vows --spec
The test suite consists of both unit and integration tests. If a template isn't rendering correctly for you, you can make a test for it by doing the following:
- Create a template file named
mytest.mustache
in thetest/_files
directory. Replacemytest
with the name of your test. - Create a corresponding view file named
mytest.js
in the same directory. This file should contain a JavaScript object literal enclosed in parentheses. See any of the other view files for an example. - Create a file with the expected output in
mytest.txt
in the same directory.
Then, you can run the test with:
$ TEST=mytest vows test/render_test.js
mustache.js wouldn't kick ass if it weren't for these fine souls:
- Chris Wanstrath / defunkt
- Alexander Lang / langalex
- Sebastian Cohnen / tisba
- J Chris Anderson / jchris
- Tom Robinson / tlrobinson
- Aaron Quint / quirkey
- Douglas Crockford
- Nikita Vasilyev / NV
- Elise Wood / glytch
- Damien Mathieu / dmathieu
- Jakub Kuźma / qoobaa
- Will Leinweber / will
- dpree
- Jason Smith / jhs
- Aaron Gibralter / agibralter
- Ross Boucher / boucher
- Matt Sanford / mzsanford
- Ben Cherry / bcherry
- Michael Jackson / mjijackson