heist-0.8.2: An (x)html templating system

Safe HaskellNone

Text.Templating.Heist

Contents

Description

This module contains the core definitions for the Heist template system.

The Heist template system is based on HTML and XML. It allows you to build custom HTML and XML based markup languages. With Heist you can define your own domain-specific HTML and XML tags implemented with Haskell and use them in your templates.

The most important concept in Heist is the Splice. Splices can be thought of as functions that transform a node into a list of nodes. Heist then substitutes the resulting list of nodes into your template in place of the input node. Splice is implemented as a type synonym type Splice m = HeistT m [Node], and HeistT has a function getParamNode that lets you get the input node.

Suppose you have a place on your page where you want to display a link with the text "Logout username" if the user is currently logged in or a link to the login page if no user is logged in. Assume you have a function getUser :: MyAppMonad (Maybe Text) that gets the current user. You can implement this functionality with a Splice as follows:

 import             Blaze.ByteString.Builder
 import             Data.ByteString.Char8 (ByteString)
 import qualified   Data.ByteString.Char8 as B
 import             Data.Text (Text)
 import qualified   Data.Text as T
 import qualified   Text.XmlHtml as X

 import             Text.Templating.Heist

 link :: Text -> Text -> X.Node
 link target text = X.Element "a" [("href", target)] [X.TextNode text]

 loginLink :: X.Node
 loginLink = link "/login" "Login"

 logoutLink :: Text -> X.Node
 logoutLink user = link "/logout" (T.append "Logout " user)

 loginLogoutSplice :: Splice MyAppMonad
 loginLogoutSplice = do
     user <- lift getUser
     return [maybe loginLink logoutLink user]

Next, you need to bind that splice to a tag. Heist stores information about splices and templates in the HeistState data structure. The following code demonstrates how this splice would be used.

 mySplices = [ ("loginLogout", loginLogoutSplice) ]

 main = do
     ets <- loadTemplates "templates" $
            bindSplices mySplices defaultHeistState
     let ts = either error id ets
     t <- runMyAppMonad $ renderTemplate ts "index"
     print $ maybe "Page not found" (toByteString . fst) t

Here we build up our HeistState by starting with defaultHeistState and applying bindSplice for all the splices we want to add. Then we pass this to loadTemplates our final HeistState wrapped in an Either to handle errors. Then we use this HeistState to render our templates.

Synopsis

Types

type Template = [Node]Source

A Template is a forest of XML nodes. Here we deviate from the single root node constraint of well-formed XML because we want to allow templates to contain fragments of a document that may not have a single root.

type MIMEType = ByteStringSource

MIME Type. The type alias is here to make the API clearer.

type Splice m = HeistT m TemplateSource

A Splice is a HeistT computation that returns a Template.

data HeistT m a Source

HeistT is the monad used for Splice processing. HeistT provides "passthrough" instances for many of the monads you might use in the inner monad.

Instances

MonadTrans HeistT

MonadTrans instance

(Monad (HeistT m), MonadError e m) => MonadError e (HeistT m)

MonadError passthrough instance

(Monad (HeistT m), MonadReader r m) => MonadReader r (HeistT m)

MonadReader passthrough instance

(Monad (HeistT m), MonadState s m) => MonadState s (HeistT m)

MonadState passthrough instance

Monad m => Monad (HeistT m)

Monad instance

Functor m => Functor (HeistT m)

Functor instance

Typeable1 m => Typeable1 (HeistT m) 
(Monad (HeistT m), MonadFix m) => MonadFix (HeistT m)

MonadFix passthrough instance

(Monad (HeistT m), MonadPlus m) => MonadPlus (HeistT m)

MonadPlus passthrough instance

(Functor (HeistT m), Monad m, Functor m) => Applicative (HeistT m)

Applicative instance

(MonadIO (HeistT m), MonadCatchIO m) => MonadCatchIO (HeistT m)

MonadCatchIO instance

(Applicative (HeistT m), Functor m, MonadPlus m) => Alternative (HeistT m)

Alternative passthrough instance

(Monad (HeistT m), MonadIO m) => MonadIO (HeistT m)

MonadIO instance

(Monad (HeistT m), MonadCont m) => MonadCont (HeistT m)

MonadCont passthrough instance

data HeistState m Source

Holds all the state information needed for template processing. You will build a HeistState using any of Heist's HeistState m -> HeistState m "filter" functions. Then you use the resulting HeistState in calls to renderTemplate.

Instances

evalHeistT :: Monad m => HeistT m a -> Node -> HeistState m -> m aSource

Evaluates a template monad as a computation in the underlying monad.

templateNames :: HeistState m -> [TPath]Source

Gets the names of all the templates defined in a HeistState.

spliceNames :: HeistState m -> [Text]Source

Gets the names of all the splices defined in a HeistState.

Functions and declarations on HeistState values

addTemplateSource

Arguments

:: Monad m 
=> ByteString

Path that the template will be referenced by

-> Template

The template's DOM nodes

-> Maybe FilePath

An optional path to the actual file on disk where the template is stored

-> HeistState m 
-> HeistState m 

Adds an HTML format template to the heist state.

addXMLTemplateSource

Arguments

:: Monad m 
=> ByteString

Path that the template will be referenced by

-> Template

The template's DOM nodes

-> Maybe FilePath

An optional path to the actual file on disk where the template is stored

-> HeistState m 
-> HeistState m 

Adds an XML format template to the heist state.

defaultHeistState :: MonadIO m => HeistState mSource

An empty heist state, with Heist's default splices (<apply>, <bind>, <ignore>, and <markdown>) mapped. The cache tag is not mapped here because it must be mapped manually in your application.

bindSpliceSource

Arguments

:: Monad m 
=> Text

tag name

-> Splice m

splice action

-> HeistState m

source state

-> HeistState m 

Binds a new splice declaration to a tag name within a HeistState.

bindSplicesSource

Arguments

:: Monad m 
=> [(Text, Splice m)]

splices to bind

-> HeistState m

start state

-> HeistState m 

Binds a set of new splice declarations within a HeistState.

lookupSplice :: Monad m => Text -> HeistState m -> Maybe (Splice m)Source

Convenience function for looking up a splice.

setTemplates :: Monad m => TemplateMap -> HeistState m -> HeistState mSource

Sets the templateMap in a HeistState.

loadTemplates :: Monad m => FilePath -> HeistState m -> IO (Either String (HeistState m))Source

Traverses the specified directory structure and builds a HeistState by loading all the files with a .tpl or .xtpl extension.

hasTemplate :: Monad m => ByteString -> HeistState m -> BoolSource

Returns True if the given template can be found in the heist state.

addTemplatePathPrefix :: ByteString -> HeistState m -> HeistState mSource

Adds a path prefix to all the templates in the HeistState. If you want to add multiple levels of directories, separate them with slashes as in foo/bar. Using an empty string as a path prefix will leave the HeistState unchanged.

Hook functions

Heist hooks allow you to modify templates when they are loaded and before and after they are run. Every time you call one of the addAbcHook functions the hook is added to onto the processing pipeline. The hooks processes the template in the order that they were added to the HeistState.

The pre-run and post-run hooks are run before and after every template is run/rendered. You should be careful what code you put in these hooks because it can significantly affect the performance of your site.

addOnLoadHook :: Monad m => (Template -> IO Template) -> HeistState m -> HeistState mSource

Adds an on-load hook to a HeistState.

addPreRunHook :: Monad m => (Template -> m Template) -> HeistState m -> HeistState mSource

Adds a pre-run hook to a HeistState.

addPostRunHook :: Monad m => (Template -> m Template) -> HeistState m -> HeistState mSource

Adds a post-run hook to a HeistState.

HeistT functions

stopRecursion :: Monad m => HeistT m ()Source

Stops the recursive processing of splices. Consider the following example:

 <foo>
   <bar>
     ...
   </bar>
 </foo>

Assume that "foo" is bound to a splice procedure. Running the foo splice will result in a list of nodes L. Normally foo will recursively scan L for splices and run them. If foo calls stopRecursion, L will be included in the output verbatim without running any splices.

getParamNode :: Monad m => HeistT m NodeSource

Gets the node currently being processed.

 <speech author="Shakespeare">
   To sleep, perchance to dream.
 </speech>

When you call getParamNode inside the code for the speech splice, it returns the Node for the speech tag and its children. getParamNode >>= childNodes returns a list containing one TextNode containing part of Hamlet's speech. liftM (getAttribute "author") getParamNode would return Just Shakespeare.

runNodeList :: Monad m => [Node] -> Splice mSource

Performs splice processing on a list of nodes.

getContext :: Monad m => HeistT m TPathSource

Gets the current context

getTemplateFilePath :: Monad m => HeistT m (Maybe FilePath)Source

Gets the full path to the file holding the template currently being processed. Returns Nothing if the template is not associated with a file on disk or if there is no template being processed.

localParamNode :: Monad m => (Node -> Node) -> HeistT m a -> HeistT m aSource

HeistT's local.

getsTS :: Monad m => (HeistState m -> r) -> HeistT m rSource

HeistT's gets.

getTS :: Monad m => HeistT m (HeistState m)Source

HeistT's get.

putTS :: Monad m => HeistState m -> HeistT m ()Source

HeistT's put.

modifyTS :: Monad m => (HeistState m -> HeistState m) -> HeistT m ()Source

HeistT's modify.

restoreTS :: Monad m => HeistState m -> HeistT m ()Source

Restores the HeistState. This function is almost like putTS except it preserves the current doctypes. You should use this function instead of putTS to restore an old state. This was needed because doctypes needs to be in a global scope as opposed to the template call local scope of state items such as recursionDepth, curContext, and spliceMap.

localTS :: Monad m => (HeistState m -> HeistState m) -> HeistT m a -> HeistT m aSource

Abstracts the common pattern of running a HeistT computation with a modified heist state.

Functions for running splices and templates

evalTemplate :: Monad m => ByteString -> HeistT m (Maybe Template)Source

Looks up a template name evaluates it by calling runNodeList.

callTemplateSource

Arguments

:: Monad m 
=> ByteString

The name of the template

-> [(Text, Splice m)]

Association list of (name,value) parameter pairs

-> HeistT m Template 

Renders a template with the specified parameters. This is the function to use when you want to call a template and pass in parameters from inside a splice. If the template does not exist, this version simply returns an empty list.

callTemplateWithTextSource

Arguments

:: Monad m 
=> ByteString

The name of the template

-> [(Text, Text)]

Association list of (name,value) parameter pairs

-> HeistT m Template 

Like callTemplate except the splices being bound are constant text splices.

renderTemplate :: Monad m => HeistState m -> ByteString -> m (Maybe (Builder, MIMEType))Source

Renders a template from the specified HeistState to a Builder. The MIME type returned is based on the detected character encoding, and whether the root template was an HTML or XML format template. It will always be texthtml@ or @textxml. If a more specific MIME type is needed for a particular XML application, it must be provided by the application.

renderWithArgs :: Monad m => [(Text, Text)] -> HeistState m -> ByteString -> m (Maybe (Builder, MIMEType))Source

Renders a template with the specified arguments passed to it. This is a convenience function for the common pattern of calling renderTemplate after using bindString, bindStrings, or bindSplice to set up the arguments to the template.

bindStrings :: Monad m => [(Text, Text)] -> HeistState m -> HeistState mSource

Binds a list of constant string splices.

bindString :: Monad m => Text -> Text -> HeistState m -> HeistState mSource

Binds a single constant string splice.

Functions for creating splices

textSplice :: Monad m => Text -> Splice mSource

Converts Text to a splice returning a single TextNode.

runChildren :: Monad m => Splice mSource

Runs the parameter node's children and returns the resulting node list. By itself this function is a simple passthrough splice that makes the spliced node disappear. In combination with locally bound splices, this function makes it easier to pass the desired view into your splices.

runChildrenWithSource

Arguments

:: Monad m 
=> [(Text, Splice m)]

List of splices to bind before running the param nodes.

-> Splice m

Returns the passed in view.

Binds a list of splices before using the children of the spliced node as a view.

runChildrenWithTransSource

Arguments

:: Monad m 
=> (b -> Splice m)

Splice generating function

-> [(Text, b)]

List of tuples to be bound

-> Splice m 

Wrapper around runChildrenWith that applies a transformation function to the second item in each of the tuples before calling runChildrenWith.

runChildrenWithTemplates :: Monad m => [(Text, Template)] -> Splice mSource

Like runChildrenWith but using constant templates rather than dynamic splices.

runChildrenWithText :: Monad m => [(Text, Text)] -> Splice mSource

Like runChildrenWith but using literal text rather than dynamic splices.

mapSplicesSource

Arguments

:: Monad m 
=> (a -> Splice m)

Splice generating function

-> [a]

List of items to generate splices for

-> Splice m

The result of all splices concatenated together.

Maps a splice generating function over a list and concatenates the results.

Misc functions

getDoc :: String -> IO (Either String DocumentFile)Source

Reads an HTML template from disk.

getXMLDoc :: String -> IO (Either String DocumentFile)Source

Reads an XML template from disk.

mkCacheTag :: MonadIO m => IO (HeistState m -> HeistState m, CacheTagState)Source

Returns a function that modifies a HeistState to include a "cache" tag. The cache tag is not bound automatically with the other default Heist tags. This is because this function also returns CacheTagState, so the user will be able to clear it with the clearCacheTagState function.