{-# LANGUAGE CPP, TypeFamilies, MultiParamTypeClasses, FunctionalDependencies, FlexibleContexts, FlexibleInstances, UndecidableInstances, TypeSynonymInstances, GeneralizedNewtypeDeriving #-} ----------------------------------------------------------------------------- -- | -- Module : HSX.XMLGenerator -- Copyright : (c) Niklas Broberg 2008 -- License : BSD-style (see the file LICENSE.txt) -- -- Maintainer : Niklas Broberg, niklas.broberg@chalmers.se -- Stability : experimental -- Portability : requires newtype deriving and MPTCs with fundeps -- -- The class and monad transformer that forms the basis of the literal XML -- syntax translation. Literal tags will be translated into functions of -- the GenerateXML class, and any instantiating monads with associated XML -- types can benefit from that syntax. ----------------------------------------------------------------------------- module HSX.XMLGenerator where import Control.Applicative (Applicative, Alternative) import Control.Monad.Trans (MonadTrans(lift), MonadIO) import Control.Monad.Cont (MonadCont) import Control.Monad.Error (MonadError) import Control.Monad.Reader(MonadReader) import Control.Monad.Writer(MonadWriter) import Control.Monad.State (MonadState) import Control.Monad.RWS (MonadRWS) import Control.Monad (MonadPlus(..),liftM) ---------------------------------------------- -- General XML Generation -- | The monad transformer that allows a monad to generate XML values. newtype XMLGenT m a = XMLGenT (m a) deriving (Applicative, Alternative, Monad, Functor, MonadIO, MonadPlus, MonadWriter w, MonadReader r, MonadState s, MonadRWS r w s, MonadCont, MonadError e) -- | un-lift. unXMLGenT :: XMLGenT m a -> m a unXMLGenT (XMLGenT ma) = ma -- | map the inner monad mapXMLGenT :: (m a -> n b) -> XMLGenT m a -> XMLGenT n b mapXMLGenT f (XMLGenT m) = XMLGenT (f m) instance MonadTrans XMLGenT where lift = XMLGenT type Name = (Maybe String, String) -- | Generate XML values in some XMLGenerator monad. class Monad m => XMLGen m where type XMLType m data ChildType m data AttributeType m genElement :: Name -> [XMLGenT m [AttributeType m]] -> [XMLGenT m [ChildType m]] -> XMLGenT m (XMLType m) genEElement :: Name -> [XMLGenT m [AttributeType m]] -> XMLGenT m (XMLType m) genEElement n ats = genElement n ats [] xmlToChild :: XMLType m -> ChildType m pcdataToChild :: String -> ChildType m -- | Type synonyms to avoid writing out the XMLnGenT all the time type GenXML m = XMLGenT m (XMLType m) type GenXMLList m = XMLGenT m [XMLType m] type GenChild m = XMLGenT m (ChildType m) type GenChildList m = XMLGenT m [ChildType m] type GenAttribute m = XMLGenT m (AttributeType m) type GenAttributeList m = XMLGenT m [AttributeType m] -- | Embed values as child nodes of an XML element. The parent type will be clear -- from the context so it is not mentioned. class XMLGen m => EmbedAsChild m c where asChild :: c -> GenChildList m #if __GLASGOW_HASKELL__ >= 610 instance (EmbedAsChild m c, m ~ n) => EmbedAsChild m (XMLGenT n c) where asChild m = asChild =<< m #else instance (EmbedAsChild m c, TypeCastM m1 m) => EmbedAsChild m (XMLGenT m1 c) where asChild (XMLGenT m1a) = do a <- XMLGenT $ typeCastM m1a asChild a #endif instance EmbedAsChild m c => EmbedAsChild m [c] where asChild = liftM concat . mapM asChild instance XMLGen m => EmbedAsChild m (ChildType m) where asChild = return . return #if __GLASGOW_HASKELL__ >= 610 instance (XMLGen m, XMLType m ~ x) => EmbedAsChild m x where #else instance (XMLGen m) => EmbedAsChild m (XMLType m) where #endif asChild = return . return . xmlToChild instance XMLGen m => EmbedAsChild m String where asChild = return . return . pcdataToChild instance XMLGen m => EmbedAsChild m () where asChild _ = return [] -- | Similarly embed values as attributes of an XML element. class XMLGen m => EmbedAsAttr m a where asAttr :: a -> GenAttributeList m instance (XMLGen m, EmbedAsAttr m a) => EmbedAsAttr m (XMLGenT m a) where asAttr ma = ma >>= asAttr instance (EmbedAsAttr m (Attr a v), TypeCastM m1 m) => EmbedAsAttr m (Attr a (XMLGenT m1 v)) where asAttr (a := (XMLGenT m1a)) = do v <- XMLGenT $ typeCastM m1a asAttr (a := v) instance XMLGen m => EmbedAsAttr m (AttributeType m) where asAttr = return . return instance EmbedAsAttr m a => EmbedAsAttr m [a] where asAttr = liftM concat . mapM asAttr class (XMLGen m, SetAttr m (XMLType m), AppendChild m (XMLType m), EmbedAsChild m (XMLType m), EmbedAsChild m [XMLType m], EmbedAsChild m String, EmbedAsChild m Char, -- for overlap purposes EmbedAsChild m (), EmbedAsAttr m (Attr String String), EmbedAsAttr m (Attr String Int), EmbedAsAttr m (Attr String Bool) ) => XMLGenerator m {- -- This is certainly true, but we want the various generators to explicitly state it, -- in order to get the error messages right. instance (XMLGen m, SetAttr m (XMLType m), AppendChild m (XMLType m), EmbedAsChild m (XMLType m), EmbedAsChild m [XMLType m], EmbedAsChild m String, EmbedAsChild m Char, EmbedAsChild m (), EmbedAsAttr m (Attr String String), EmbedAsAttr m (Attr String Int), EmbedAsAttr m (Attr String Bool) ) => XMLGenerator m -} data Attr n a = n := a deriving Show ------------------------------------- -- Setting attributes -- | Set attributes on XML elements class XMLGen m => SetAttr m elem where setAttr :: elem -> GenAttribute m -> GenXML m setAll :: elem -> GenAttributeList m -> GenXML m setAttr e a = setAll e $ liftM return a (<@), set :: (SetAttr m elem, EmbedAsAttr m attr) => elem -> attr -> GenXML m set xml attr = setAll xml (asAttr attr) (<@) = set (<<@) :: (SetAttr m elem, EmbedAsAttr m a) => elem -> [a] -> GenXML m xml <<@ ats = setAll xml (liftM concat $ mapM asAttr ats) instance (TypeCastM m1 m, SetAttr m x) => SetAttr m (XMLGenT m1 x) where setAll (XMLGenT m1x) ats = (XMLGenT $ typeCastM m1x) >>= (flip setAll) ats ------------------------------------- -- Appending children class XMLGen m => AppendChild m elem where appChild :: elem -> GenChild m -> GenXML m appAll :: elem -> GenChildList m -> GenXML m appChild e c = appAll e $ liftM return c (<:), app :: (AppendChild m elem, EmbedAsChild m c) => elem -> c -> GenXML m app xml c = appAll xml $ asChild c (<:) = app (<<:) :: (AppendChild m elem, EmbedAsChild m c) => elem -> [c] -> GenXML m xml <<: chs = appAll xml (liftM concat $ mapM asChild chs) instance (AppendChild m x, TypeCastM m1 m) => AppendChild m (XMLGenT m1 x) where appAll (XMLGenT m1x) chs = (XMLGenT $ typeCastM m1x) >>= (flip appAll) chs ------------------------------------- -- Names -- | Names can be simple or qualified with a domain. We want to conveniently -- use both simple strings or pairs wherever a Name is expected. class Show n => IsName n where toName :: n -> Name -- | Names can represent names, of course. instance IsName Name where toName = id -- | Strings can represent names, meaning a simple name with no domain. instance IsName String where toName s = (Nothing, s) -- | Pairs of strings can represent names, meaning a name qualified with a domain. instance IsName (String, String) where toName (ns, s) = (Just ns, s) --------------------------------------- -- TypeCast, in lieu of ~ constraints -- literally lifted from the HList library class TypeCast a b | a -> b, b -> a where typeCast :: a -> b class TypeCast' t a b | t a -> b, t b -> a where typeCast' :: t->a->b class TypeCast'' t a b | t a -> b, t b -> a where typeCast'' :: t->a->b instance TypeCast' () a b => TypeCast a b where typeCast x = typeCast' () x instance TypeCast'' t a b => TypeCast' t a b where typeCast' = typeCast'' instance TypeCast'' () a a where typeCast'' _ x = x class TypeCastM ma mb | ma -> mb, mb -> ma where typeCastM :: ma x -> mb x class TypeCastM' t ma mb | t ma -> mb, t mb -> ma where typeCastM' :: t -> ma x -> mb x class TypeCastM'' t ma mb | t ma -> mb, t mb -> ma where typeCastM'' :: t -> ma x -> mb x instance TypeCastM' () ma mb => TypeCastM ma mb where typeCastM mx = typeCastM' () mx instance TypeCastM'' t ma mb => TypeCastM' t ma mb where typeCastM' = typeCastM'' instance TypeCastM'' () ma ma where typeCastM'' _ x = x