view

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README

View

Iris supports 6 template engines out-of-the-box, developers can still use any external golang template engine, as context/context#ResponseWriter() is an io.Writer.

All of these six template engines have common features with common API, like Layout, Template Funcs, Party-specific layout, partial rendering and more.

Examples

You can serve quicktemplate files too, simply by using the context#ResponseWriter, take a look at the iris/_examples/http_responsewriter/quicktemplate example.

Overview

// file: main.go
package main

import "git.jxc1690.top/library/iris"

func main() {
    app := iris.New()
    // Load all templates from the "./views" folder
    // where extension is ".html" and parse them
    // using the standard `html/template` package.
    app.RegisterView(iris.HTML("./views", ".html"))

    // Method:    GET
    // Resource:  http://localhost:8080
    app.Get("/", func(ctx iris.Context) {
        // Bind: {{.message}} with "Hello world!"
        ctx.ViewData("message", "Hello world!")
        // Render template file: ./views/hello.html
        ctx.View("hello.html")
    })

    // Method:    GET
    // Resource:  http://localhost:8080/user/42
    app.Get("/user/{id:long}", func(ctx iris.Context) {
        userID, _ := ctx.Params().GetInt64("id")
        ctx.Writef("User ID: %d", userID)
    })

    // Start the server using a network address.
    app.Run(iris.Addr(":8080"))
}

<!-- file: ./views/hello.html -->
<html>
<head>
    <title>Hello Page</title>
</head>
<body>
    <h1>{{.message}}</h1>
</body>
</html>

Template functions

package main

import "git.jxc1690.top/library/iris"

func main() {
    app := iris.New()
    tmpl := iris.HTML("./templates", ".html")

    // builtin template funcs are:
    //
    // - {{ urlpath "mynamedroute" "pathParameter_ifneeded" }}
    // - {{ render "header.html" }}
    // - {{ render_r "header.html" }} // partial relative path to current page
    // - {{ yield }}
    // - {{ current }}

    // register a custom template func.
    tmpl.AddFunc("greet", func(s string) string {
        return "Greetings " + s + "!"
    })

    // register the view engine to the views, this will load the templates.
    app.RegisterView(tmpl)

    app.Get("/", hi)

    // http://localhost:8080
    app.Run(iris.Addr(":8080"))
}

func hi(ctx iris.Context) {
    // render the template file "./templates/hi.html"
    ctx.View("hi.html")
}

<!-- file: ./templates/hi.html -->
<b>{{greet "kataras"}}</b> <!-- will be rendered as: <b>Greetings kataras!</b> -->

Embedded

View engine supports bundled(https://github.com/go-bindata/go-bindata) template files too. go-bindata gives you two functions, Assset and AssetNames, these can be set to each of the template engines using the .Binary function.

Example code:

package main

import "git.jxc1690.top/library/iris"

func main() {
    app := iris.New()
    // $ go get -u github.com/go-bindata/go-bindata/...
    // $ go-bindata ./templates/...
    // $ go build
    // $ ./embedding-templates-into-app
    // html files are not used, you can delete the folder and run the example
    app.RegisterView(iris.HTML("./templates", ".html").Binary(Asset, AssetNames))
    app.Get("/", hi)

    // http://localhost:8080
    app.Run(iris.Addr(":8080"))
}

type page struct {
    Title, Name string
}

func hi(ctx iris.Context) {
    //                      {{.Page.Title}} and {{Page.Name}}
    ctx.ViewData("Page", page{Title: "Hi Page", Name: "iris"})
    ctx.View("hi.html")
}

A real example can be found here: https://github.com/kataras/iris/tree/master/_examples/view/embedding-templates-into-app.

Reload

Enable auto-reloading of templates on each request. Useful while developers are in dev mode as they no neeed to restart their app on every template edit.

Example code:

pugEngine := iris.Pug("./templates", ".jade")
pugEngine.Reload(true) // <--- set to true to re-build the templates on each request.
app.RegisterView(pugEngine)

Documentation

Index

Constants

View Source 
const JetRuntimeVarsContextKey = "iris.jetvarmap"

JetRuntimeVarsContextKey is the Iris Context key to keep any custom jet runtime variables. See `AddJetRuntimeVars` package-level function and `JetEngine.AddRuntimeVars` method.

View Source 
const NoLayout = "iris.nolayout"

NoLayout disables the configuration's layout for a specific execution.

Variables

View Source 
var AsSafeValue = pongo2.AsSafeValue

AsSafeValue works like AsValue, but does not apply the 'escape' filter. Shortcut for `pongo2.AsSafeValue`.

View Source 
var AsValue = pongo2.AsValue

AsValue converts any given value to a pongo2.Value Usually being used within own functions passed to a template through a Context or within filter functions.

Example: 

AsValue("my string")

Shortcut for `pongo2.AsValue`.

Functions

func AddJetRuntimeVars 

func AddJetRuntimeVars(ctx context.Context, jetVarMap JetRuntimeVars)

AddJetRuntimeVars sets or inserts runtime jet variables through the Iris Context. This gives the ability to add runtime variables from different handlers in the request chain, something that the jet template parser does not offer at all.

Usage: view.AddJetRuntimeVars(ctx, view.JetRuntimeVars{...}). See `JetEngine.AddRuntimeVars` too.

Types

type AmberEngine 

type AmberEngine struct {
	// contains filtered or unexported fields
}

AmberEngine contains the amber view engine structure.

func Amber 

func Amber(directory, extension string) *AmberEngine

Amber creates and returns a new amber view engine.

func (*AmberEngine) AddFunc 

func (s *AmberEngine) AddFunc(funcName string, funcBody interface{})

AddFunc adds the function to the template's function map. It is legal to overwrite elements of the default actions: - url func(routeName string, args ...string) string - urlpath func(routeName string, args ...string) string - render func(fullPartialName string) (template.HTML, error).

func (*AmberEngine) Binary 

func (s *AmberEngine) Binary(assetFn func(name string) ([]byte, error), namesFn func() []string) *AmberEngine

Binary optionally, use it when template files are distributed inside the app executable (.go generated files).

The assetFn and namesFn can come from the go-bindata library.

func (*AmberEngine) ExecuteWriter 

func (s *AmberEngine) ExecuteWriter(w io.Writer, filename string, layout string, bindingData interface{}) error

ExecuteWriter executes a template and writes its result to the w writer. layout here is useless.

func (*AmberEngine) Ext 

func (s *AmberEngine) Ext() string

Ext returns the file extension which this view engine is responsible to render.

func (*AmberEngine) Load 

func (s *AmberEngine) Load() error

Load parses the templates to the engine. It is responsible to add the necessary global functions.

Returns an error if something bad happens, user is responsible to catch it.

func (*AmberEngine) Reload 

func (s *AmberEngine) Reload(developmentMode bool) *AmberEngine

Reload if set to true the templates are reloading on each render, use it when you're in development and you're boring of restarting the whole app when you edit a template file.

Note that if `true` is passed then only one `View -> ExecuteWriter` will be render each time, no concurrent access across clients, use it only on development status. It's good to be used side by side with the https://github.com/kataras/rizla reloader for go source files.

type DjangoEngine 

type DjangoEngine struct {
	// contains filtered or unexported fields
}

DjangoEngine contains the django view engine structure.

func Django 

func Django(directory, extension string) *DjangoEngine

Django creates and returns a new amber view engine.

func (*DjangoEngine) AddFilter 

func (s *DjangoEngine) AddFilter(filterName string, filterBody FilterFunction) *DjangoEngine

AddFilter registers a new filter. If there's already a filter with the same name, RegisterFilter will panic. You usually want to call this function in the filter's init() function: http://golang.org/doc/effective_go.html#init

Same as `RegisterFilter`.

func (*DjangoEngine) AddFunc 

func (s *DjangoEngine) AddFunc(funcName string, funcBody interface{})

AddFunc adds the function to the template's Globals. It is legal to overwrite elements of the default actions: - url func(routeName string, args ...string) string - urlpath func(routeName string, args ...string) string - render func(fullPartialName string) (template.HTML, error).

func (*DjangoEngine) Binary 

func (s *DjangoEngine) Binary(assetFn func(name string) ([]byte, error), namesFn func() []string) *DjangoEngine

Binary optionally, use it when template files are distributed inside the app executable (.go generated files).

The assetFn and namesFn can come from the go-bindata library.

func (*DjangoEngine) ExecuteWriter 

func (s *DjangoEngine) ExecuteWriter(w io.Writer, filename string, layout string, bindingData interface{}) error

ExecuteWriter executes a templates and write its results to the w writer layout here is useless.

func (*DjangoEngine) Ext 

func (s *DjangoEngine) Ext() string

Ext returns the file extension which this view engine is responsible to render.

func (*DjangoEngine) Load 

func (s *DjangoEngine) Load() error

Load parses the templates to the engine. It is responsible to add the necessary global functions.

Returns an error if something bad happens, user is responsible to catch it.

func (*DjangoEngine) RegisterFilter 

func (s *DjangoEngine) RegisterFilter(filterName string, filterBody FilterFunction) *DjangoEngine

RegisterFilter registers a new filter. If there's already a filter with the same name, RegisterFilter will panic. You usually want to call this function in the filter's init() function: http://golang.org/doc/effective_go.html#init

See http://www.florian-schlachter.de/post/pongo2/ for more about writing filters and tags.

func (*DjangoEngine) RegisterTag 

func (s *DjangoEngine) RegisterTag(tagName string, fn TagParser) error

RegisterTag registers a new tag. You usually want to call this function in the tag's init() function: http://golang.org/doc/effective_go.html#init

See http://www.florian-schlachter.de/post/pongo2/ for more about writing filters and tags.

func (*DjangoEngine) Reload 

func (s *DjangoEngine) Reload(developmentMode bool) *DjangoEngine

Reload if set to true the templates are reloading on each render, use it when you're in development and you're boring of restarting the whole app when you edit a template file.

Note that if `true` is passed then only one `View -> ExecuteWriter` will be render each time, no concurrent access across clients, use it only on development status. It's good to be used side by side with the https://github.com/kataras/rizla reloader for go source files.

type Engine 

type Engine interface {
	// Load should load the templates from a physical system directory or by an embedded one (assets/go-bindata).
	Load() error
	// ExecuteWriter should execute a template by its filename with an optional layout and bindingData.
	ExecuteWriter(w io.Writer, filename string, layout string, bindingData interface{}) error
	// Ext should return the final file extension which this view engine is responsible to render.
	Ext() string
}

Engine is the interface which all view engines should be implemented in order to be registered inside iris.

type EngineFuncer 

type EngineFuncer interface {
	// AddFunc should adds a function to the template's function map.
	AddFunc(funcName string, funcBody interface{})
}

EngineFuncer is an addition of a view engine, if a view engine implements that interface then iris can add some closed-relative iris functions like {{ urlpath }} and {{ urlpath }}.

type Error 

type Error = pongo2.Error

Error type alias for pongo2.Error

type FilterFunction 

type FilterFunction = pongo2.FilterFunction

FilterFunction type alias for pongo2.FilterFunction

type HTMLEngine 

type HTMLEngine struct {
	Templates *template.Template
	// contains filtered or unexported fields
}

HTMLEngine contains the html view engine structure.

func HTML 

func HTML(directory, extension string) *HTMLEngine

HTML creates and returns a new html view engine. The html engine used like the "html/template" standard go package but with a lot of extra features.

func Pug 

func Pug(directory, extension string) *HTMLEngine

Pug (or Jade) returns a new pug view engine. It shares the same exactly logic with the html view engine, it uses the same exactly configuration. It has got some features and a lot of functions which will make your life easier. Read more about the Jade Go Parser: https://github.com/Joker/jade

Examples: https://github.com/kataras/iris/tree/master/_examples/view/template_pug_0 https://github.com/kataras/iris/tree/master/_examples/view/template_pug_1 https://github.com/kataras/iris/tree/master/_examples/view/template_pug_2 https://github.com/kataras/iris/tree/master/_examples/view/template_pug_3

func (*HTMLEngine) AddFunc 

func (s *HTMLEngine) AddFunc(funcName string, funcBody interface{})

AddFunc adds the function to the template's function map. It is legal to overwrite elements of the default actions: - url func(routeName string, args ...string) string - urlpath func(routeName string, args ...string) string - render func(fullPartialName string) (template.HTML, error).

func (*HTMLEngine) AddLayoutFunc 

func (s *HTMLEngine) AddLayoutFunc(funcName string, funcBody interface{}) *HTMLEngine

AddLayoutFunc adds the function to the template's layout-only function map. It is legal to overwrite elements of the default layout actions: - yield func() (template.HTML, error) - current func() (string, error) - partial func(partialName string) (template.HTML, error) - partial_r func(partialName string) (template.HTML, error) - render func(fullPartialName string) (template.HTML, error).

func (*HTMLEngine) Binary 

func (s *HTMLEngine) Binary(assetFn func(name string) ([]byte, error), namesFn func() []string) *HTMLEngine

Binary optionally, use it when template files are distributed inside the app executable (.go generated files).

The assetFn and namesFn can come from the go-bindata library.

func (*HTMLEngine) Delims 

func (s *HTMLEngine) Delims(left, right string) *HTMLEngine

Delims sets the action delimiters to the specified strings, to be used in templates. An empty delimiter stands for the corresponding default: {{ or }}.

func (*HTMLEngine) ExecuteWriter 

func (s *HTMLEngine) ExecuteWriter(w io.Writer, name string, layout string, bindingData interface{}) error

ExecuteWriter executes a template and writes its result to the w writer.

func (*HTMLEngine) Ext 

func (s *HTMLEngine) Ext() string

Ext returns the file extension which this view engine is responsible to render.

func (*HTMLEngine) Layout 

func (s *HTMLEngine) Layout(layoutFile string) *HTMLEngine

Layout sets the layout template file which inside should use the {{ yield }} func to yield the main template file and optionally {{partial/partial_r/render}} to render other template files like headers and footers

The 'tmplLayoutFile' is a relative path of the templates base directory, for the template file with its extension.

Example: HTML("./templates", ".html").Layout("layouts/mainLayout.html") 

// mainLayout.html is inside: "./templates/layouts/".

Note: Layout can be changed for a specific call action with the option: "layout" on the iris' context.Render function.

func (*HTMLEngine) Load 

func (s *HTMLEngine) Load() error

Load parses the templates to the engine. It's also responsible to add the necessary global functions.

Returns an error if something bad happens, user is responsible to catch it.

func (*HTMLEngine) Option 

func (s *HTMLEngine) Option(opt ...string) *HTMLEngine

Option sets options for the template. Options are described by strings, either a simple string or "key=value". There can be at most one equals sign in an option string. If the option string is unrecognized or otherwise invalid, Option panics.

Known options:

missingkey: Control the behavior during execution if a map is indexed with a key that is not present in the map. 

"missingkey=default" or "missingkey=invalid"
	The default behavior: Do nothing and continue execution.
	If printed, the result of the index operation is the string
	"<no value>".
"missingkey=zero"
	The operation returns the zero value for the map type's element.
"missingkey=error"
	Execution stops immediately with an error.

func (*HTMLEngine) Reload 

func (s *HTMLEngine) Reload(developmentMode bool) *HTMLEngine

Reload if set to true the templates are reloading on each render, use it when you're in development and you're boring of restarting the whole app when you edit a template file.

Note that if `true` is passed then only one `View -> ExecuteWriter` will be render each time, no concurrent access across clients, use it only on development status. It's good to be used side by side with the https://github.com/kataras/rizla reloader for go source files.

type HandlebarsEngine 

type HandlebarsEngine struct {
	// contains filtered or unexported fields
}

HandlebarsEngine contains the handlebars view engine structure.

func Handlebars 

func Handlebars(directory, extension string) *HandlebarsEngine

Handlebars creates and returns a new handlebars view engine.

func (*HandlebarsEngine) AddFunc 

func (s *HandlebarsEngine) AddFunc(funcName string, funcBody interface{})

AddFunc adds the function to the template's function map. It is legal to overwrite elements of the default actions: - url func(routeName string, args ...string) string - urlpath func(routeName string, args ...string) string - render func(fullPartialName string) (raymond.HTML, error).

func (*HandlebarsEngine) Binary 

func (s *HandlebarsEngine) Binary(assetFn func(name string) ([]byte, error), namesFn func() []string) *HandlebarsEngine

Binary optionally, use it when template files are distributed inside the app executable (.go generated files).

The assetFn and namesFn can come from the go-bindata library.

func (*HandlebarsEngine) ExecuteWriter 

func (s *HandlebarsEngine) ExecuteWriter(w io.Writer, filename string, layout string, bindingData interface{}) error

ExecuteWriter executes a template and writes its result to the w writer.

func (*HandlebarsEngine) Ext 

func (s *HandlebarsEngine) Ext() string

Ext returns the file extension which this view engine is responsible to render.

func (*HandlebarsEngine) Layout 

func (s *HandlebarsEngine) Layout(layoutFile string) *HandlebarsEngine

Layout sets the layout template file which should use the {{ yield }} func to yield the main template file and optionally {{partial/partial_r/render}} to render other template files like headers and footers.

func (*HandlebarsEngine) Load 

func (s *HandlebarsEngine) Load() error

Load parses the templates to the engine. It is responsible to add the necessary global functions.

Returns an error if something bad happens, user is responsible to catch it.

func (*HandlebarsEngine) Reload 

func (s *HandlebarsEngine) Reload(developmentMode bool) *HandlebarsEngine

Reload if set to true the templates are reloading on each render, use it when you're in development and you're boring of restarting the whole app when you edit a template file.

Note that if `true` is passed then only one `View -> ExecuteWriter` will be render each time, no concurrent access across clients, use it only on development status. It's good to be used side by side with the https://github.com/kataras/rizla reloader for go source files.

type INodeTag 

type INodeTag = pongo2.INodeTag

INodeTag type alias for pongo2.InodeTag

type JetArguments 

type JetArguments = jet.Arguments

JetArguments is a type alias of `jet.Arguments`, can be used on `AddFunc$funcBody`.

type JetEngine 

type JetEngine struct {

	// The Set is the `*jet.Set`, exported to offer any custom capabilities that jet users may want.
	// Available after `Load`.
	Set *jet.Set
	// contains filtered or unexported fields
}

JetEngine is the jet template parser's view engine.

func Jet 

func Jet(directory, extension string) *JetEngine

Jet creates and returns a new jet view engine.

func (*JetEngine) AddFunc 

func (s *JetEngine) AddFunc(funcName string, funcBody interface{})

AddFunc should adds a global function to the jet template set.

func (*JetEngine) AddRuntimeVars 

func (s *JetEngine) AddRuntimeVars(ctx context.Context, vars JetRuntimeVars)

AddRuntimeVars sets or inserts runtime jet variables through the Iris Context. This gives the ability to add runtime variables from different handlers in the request chain, something that the jet template parser does not offer at all.

Usage: view.AddJetRuntimeVars(ctx, view.JetRuntimeVars{...}). See `view.AddJetRuntimeVars` if package-level access is more meanful to the code flow.

func (*JetEngine) AddVar 

func (s *JetEngine) AddVar(key string, value interface{})

AddVar adds a global variable to the jet template set.

func (*JetEngine) Binary 

func (s *JetEngine) Binary(assetFn func(name string) ([]byte, error), assetNames func() []string) *JetEngine

Binary optionally, use it when template files are distributed inside the app executable (.go generated files).

The assetFn and namesFn can come from the go-bindata library. Should act before `Load` or `iris.Application#RegisterView`.

func (*JetEngine) Delims 

func (s *JetEngine) Delims(left, right string) *JetEngine

Delims sets the action delimiters to the specified strings, to be used in templates. An empty delimiter stands for the corresponding default: {{ or }}. Should act before `Load` or `iris.Application#RegisterView`.

func (*JetEngine) ExecuteWriter 

func (s *JetEngine) ExecuteWriter(w io.Writer, filename string, layout string, bindingData interface{}) error

ExecuteWriter should execute a template by its filename with an optional layout and bindingData.

func (*JetEngine) Ext 

func (s *JetEngine) Ext() string

Ext should return the final file extension which this view engine is responsible to render.

func (*JetEngine) Load 

func (s *JetEngine) Load() error

Load should load the templates from a physical system directory or by an embedded one (assets/go-bindata).

func (*JetEngine) Reload 

func (s *JetEngine) Reload(developmentMode bool) *JetEngine

Reload if setted to true the templates are reloading on each render, use it when you're in development and you're boring of restarting the whole app when you edit a template file.

Note that if `true` is passed then only one `View -> ExecuteWriter` will be render each time, not safe concurrent access across clients, use it only on development state.

func (*JetEngine) SetLoader 

func (s *JetEngine) SetLoader(loader jet.Loader) *JetEngine

SetLoader can be used when the caller wants to use something like multi.Loader or httpfs.Loader of the jet subpackages, overrides any previous loader may set by `Binary` or the default. Should act before `Load` or `iris.Application#RegisterView`.

func (*JetEngine) String 

func (s *JetEngine) String() string

String returns the name of this view engine, the "jet".

type JetRuntime 

type JetRuntime = jet.Runtime

JetRuntime is a type alias of `jet.Runtime`, can be used on RuntimeVariable input function.

type JetRuntimeVars 

type JetRuntimeVars = jet.VarMap

JetRuntimeVars is a type alias for `jet.VarMap`. Can be used at `AddJetRuntimeVars/JetEngine.AddRuntimeVars` to set a runtime variable ${name} to the executing template.

type Parser 

type Parser = pongo2.Parser

Parser type alias for pongo2.Parser

type TagParser 

type TagParser = pongo2.TagParser

TagParser the function signature of the tag's parser you will have to implement in order to create a new tag.

'doc' is providing access to the whole document while 'arguments' is providing access to the user's arguments to the tag: 

{% your_tag_name some "arguments" 123 %}

start_token will be the *Token with the tag's name in it (here: your_tag_name).

Please see the Parser documentation on how to use the parser. See `RegisterTag` for more information about writing a tag as well.

type Token 

type Token = pongo2.Token

Token type alias for pongo2.Token

type Value 

type Value = pongo2.Value

Value type alias for pongo2.Value

type View 

type View struct {
	// contains filtered or unexported fields
}

View is responsible to load the correct templates for each of the registered view engines.

func (*View) AddFunc 

func (v *View) AddFunc(funcName string, funcBody interface{})

AddFunc adds a function to all registered engines. Each template engine that supports functions has its own AddFunc too.

func (*View) ExecuteWriter 

func (v *View) ExecuteWriter(w io.Writer, filename string, layout string, bindingData interface{}) error

ExecuteWriter calls the correct view Engine's ExecuteWriter func

func (*View) Find 

func (v *View) Find(filename string) Engine

Find receives a filename, gets its extension and returns the view engine responsible for that file extension

func (*View) Len 

func (v *View) Len() int

Len returns the length of view engines registered so far.

func (*View) Load 

func (v *View) Load() error

Load compiles all the registered engines.

func (*View) Register 

func (v *View) Register(e Engine)

Register registers a view engine.

Source Files

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