I forked hoisie/mustache because it does not appear to be maintained, and I wanted to add the following functionality:
- Update the API to follow the idiomatic Go convention of returning errors (this is a breaking change)
- Add option to treat missing variables as errors
➜ ~ go install github.com/cbroglie/mustache/cmd/mustache@latest
➜ ~ mustache
Usage:
mustache [data] template [flags]
Examples:
$ mustache data.yml template.mustache
$ cat data.yml | mustache template.mustache
$ mustache --layout wrapper.mustache data template.mustache
$ mustache --overide over.yml data.yml template.mustache
Flags:
-h, --help help for mustache
--layout a file to use as the layout template
--override a data.yml file whose definitions supercede data.yml
➜ ~
This library is an implementation of the Mustache template language in Go.
mustache/spec contains the formal standard for Mustache, and it is included as a submodule (using v1.2.1) for testing compliance. All of the tests pass (big thanks to kei10in), with the exception of the null interpolation tests added in v1.2.1. There is experimental support for a subset of the optional lambda functionality (thanks to fromhut). The optional inheritance functionality has not been implemented.
For more information about mustache, check out the mustache project page or the mustache manual.
Also check out some example mustache files.
To install the CLI, run go install github.com/cbroglie/mustache/cmd/mustache@latest
. To use it in a program, run go get github.com/cbroglie/mustache
and use import "github.com/cbroglie/mustache"
.
There are four main methods in this package:
Render(data string, context ...interface{}) (string, error)
RenderFile(filename string, context ...interface{}) (string, error)
ParseString(data string) (*Template, error)
ParseFile(filename string) (*Template, error)
There are also two additional methods for using layouts (explained below); as well as several more that can provide a custom Partial retrieval.
The Render method takes a string and a data source, which is generally a map or struct, and returns the output string. If the template file contains an error, the return value is a description of the error. There's a similar method, RenderFile, which takes a filename as an argument and uses that for the template contents.
data, err := mustache.Render("hello {{c}}", map[string]string{"c": "world"})
If you're planning to render the same template multiple times, you do it efficiently by compiling the template first:
tmpl, _ := mustache.ParseString("hello {{c}}")
var buf bytes.Buffer
for i := 0; i < 10; i++ {
tmpl.FRender(&buf, map[string]string{"c": "world"})
}
For more example usage, please see mustache_test.go
mustache.go follows the official mustache HTML escaping rules. That is, if you enclose a variable with two curly brackets, {{var}}
, the contents are HTML-escaped. For instance, strings like 5 > 2
are converted to 5 > 2
. To use raw characters, use three curly brackets {{{var}}}
.
It is a common pattern to include a template file as a "wrapper" for other templates. The wrapper may include a header and a footer, for instance. Mustache.go supports this pattern with the following two methods:
RenderInLayout(data string, layout string, context ...interface{}) (string, error)
RenderFileInLayout(filename string, layoutFile string, context ...interface{}) (string, error)
The layout file must have a variable called {{content}}
. For example, given the following files:
layout.html.mustache:
<html>
<head><title>Hi</title></head>
<body>
{{{content}}}
</body>
</html>
template.html.mustache:
<h1>Hello World!</h1>
A call to RenderFileInLayout("template.html.mustache", "layout.html.mustache", nil)
will produce:
<html>
<head><title>Hi</title></head>
<body>
<h1>Hello World!</h1>
</body>
</html>
Mustache.go has been extended to support a user-defined repository for mustache partials, instead of the default of requiring file-based templates.
Several new top-level functions have been introduced to take advantage of this:
func RenderPartials(data string, partials PartialProvider, context ...interface{}) (string, error)
func RenderInLayoutPartials(data string, layoutData string, partials PartialProvider, context ...interface{}) (string, error)
func ParseStringPartials(data string, partials PartialProvider) (*Template, error)
func ParseFilePartials(filename string, partials PartialProvider) (*Template, error)
A PartialProvider
is any object that responds to Get(string) (*Template,error)
, and two examples are provided- a FileProvider
that
recreates the old behavior (and is indeed used internally for backwards
compatibility); and a StaticProvider
alias for a map[string]string
. Using
either of these is simple:
fp := &FileProvider{
Paths: []string{ "", "/opt/mustache", "templates/" },
Extensions: []string{ "", ".stache", ".mustache" },
}
tmpl, err := ParseStringPartials("This partial is loaded from a file: {{>foo}}", fp)
sp := StaticProvider(map[string]string{
"foo": "{{>bar}}",
"bar": "some data",
})
tmpl, err := ParseStringPartials("This partial is loaded from a map: {{>foo}}", sp)
Mustache.go supports calling methods on objects, but you have to be aware of Go's limitations. For example, lets's say you have the following type:
type Person struct {
FirstName string
LastName string
}
func (p *Person) Name1() string {
return p.FirstName + " " + p.LastName
}
func (p Person) Name2() string {
return p.FirstName + " " + p.LastName
}
While they appear to be identical methods, Name1
has a pointer receiver, and Name2
has a value receiver. Objects of type Person
(non-pointer) can only access Name2
, while objects of type *Person
(person) can access both. This is by design in the Go language.
So if you write the following:
mustache.Render("{{Name1}}", Person{"John", "Smith"})
It'll be blank. You either have to use &Person{"John", "Smith"}
, or call Name2
- Variables
- Comments
- Change delimiter
- Sections (boolean, enumerable, and inverted)
- Partials