sprig

package module
v3.0.0-...-a709de1 Latest Latest
Warning

This package is not in the latest version of its module.

Go to latest
Published: Nov 3, 2024 License: MIT Imports: 53 Imported by: 0

README

Sprig: Template functions for Go templates

View all Roadmaps  ·  Best Practices  ·  Questions

The Go language comes with a built-in template language, but not very many template functions. Sprig is a library that provides more than 100 commonly used template functions.

It is inspired by the template functions found in Twig and in various JavaScript libraries, such as underscore.js.

IMPORTANT NOTES

Sprig leverages mergo to handle merges. In its v0.3.9 release, there was a behavior change that impacts merging template functions in sprig. It is currently recommended to use v0.3.10 or later of that package. Using v0.3.9 will cause sprig tests to fail.

Package Versions

There are two active major versions of the sprig package.

  • v3 is currently stable release series on the master branch. The Go API should remain compatible with v2, the current stable version. Behavior change behind some functions is the reason for the new major version.
  • v2 is the previous stable release series. It has been more than three years since the initial release of v2. You can read the documentation and see the code on the release-2 branch. Bug fixes to this major version will continue for some time.

Usage

Template developers: Please use Sprig's function documentation for detailed instructions and code snippets for the >100 template functions available.

Go developers: If you'd like to include Sprig as a library in your program, our API documentation is available at GoDoc.org.

For standard usage, read on.

Load the Sprig library

To load the Sprig FuncMap:


import (
  "github.com/nholuongut/sprig/v3"
  "html/template"
)

// This example illustrates that the FuncMap *must* be set before the
// templates themselves are loaded.
tpl := template.Must(
  template.New("base").Funcs(sprig.FuncMap()).ParseGlob("*.html")
)


Calling the functions inside of templates

By convention, all functions are lowercase. This seems to follow the Go idiom for template functions (as opposed to template methods, which are TitleCase). For example, this:

{{ "hello!" | upper | repeat 5 }}

produces this:

HELLO!HELLO!HELLO!HELLO!HELLO!

Principles Driving Our Function Selection

We followed these principles to decide which functions to add and how to implement them:

  • Use template functions to build layout. The following types of operations are within the domain of template functions:
    • Formatting
    • Layout
    • Simple type conversions
    • Utilities that assist in handling common formatting and layout needs (e.g. arithmetic)
  • Template functions should not return errors unless there is no way to print a sensible value. For example, converting a string to an integer should not produce an error if conversion fails. Instead, it should display a default value.
  • Simple math is necessary for grid layouts, pagers, and so on. Complex math (anything other than arithmetic) should be done outside of templates.
  • Template functions only deal with the data passed into them. They never retrieve data from a source.
  • Finally, do not override core Go template functions.

🚀 I'm are always open to your feedback. Please contact as bellow information:

[Contact ]

ko-fi

License

  • Nho Luong (c). All Rights Reserved.🌟

Documentation

Overview

Package sprig provides template functions for Go.

This package contains a number of utility functions for working with data inside of Go `html/template` and `text/template` files.

To add these functions, use the `template.Funcs()` method:

t := template.New("foo").Funcs(sprig.FuncMap())

Note that you should add the function map before you parse any template files.

In several cases, Sprig reverses the order of arguments from the way they
appear in the standard library. This is to make it easier to pipe
arguments into functions.

See https://github.com/nholuongut/sprig/ for more detailed documentation on each of the available functions.

Example
// Set up variables and template.
vars := map[string]interface{}{"Name": "  John Jacob Jingleheimer Schmidt "}
tpl := `Hello {{.Name | trim | lower}}`

// Get the Sprig function map.
fmap := TxtFuncMap()
t := template.Must(template.New("test").Funcs(fmap).Parse(tpl))

err := t.Execute(os.Stdout, vars)
if err != nil {
	fmt.Printf("Error during template execution: %s", err)
	return
}
Output:

Hello john jacob jingleheimer schmidt

Index

Examples

Constants

View Source
const (
	// HashBCrypt bcrypt - recommended
	HashBCrypt = "bcrypt"
	HashSHA    = "sha"
)

Variables

This section is empty.

Functions

func FuncMap

func FuncMap() template.FuncMap

FuncMap produces the function map.

Use this to pass the functions into the template engine:

tpl := template.New("foo").Funcs(sprig.FuncMap()))

func GenericFuncMap

func GenericFuncMap() map[string]interface{}

GenericFuncMap returns a copy of the basic function map as a map[string]interface{}.

func HermeticHtmlFuncMap

func HermeticHtmlFuncMap() template.FuncMap

HermeticHtmlFuncMap returns an 'html/template'.Funcmap with only repeatable functions.

func HermeticTxtFuncMap

func HermeticTxtFuncMap() ttemplate.FuncMap

HermeticTxtFuncMap returns a 'text/template'.FuncMap with only repeatable functions.

func HtmlFuncMap

func HtmlFuncMap() template.FuncMap

HtmlFuncMap returns an 'html/template'.Funcmap

func TxtFuncMap

func TxtFuncMap() ttemplate.FuncMap

TxtFuncMap returns a 'text/template'.FuncMap

Types

type DSAKeyFormat

type DSAKeyFormat struct {
	Version       int
	P, Q, G, Y, X *big.Int
}

DSAKeyFormat stores the format for DSA keys. Used by pemBlockForKey

type HashAlgorithm

type HashAlgorithm string

HashAlgorithm enum for hashing algorithms

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL