{-# LANGUAGE TemplateHaskell, FlexibleInstances, IncoherentInstances, ScopedTypeVariables #-} -------------------------------------------------------------------------------- -- | -- Module : Data.Comp.Param.Multi.Derive.Ordering -- Copyright : (c) 2011 Patrick Bahr, Tom Hvitved -- License : BSD3 -- Maintainer : Tom Hvitved -- Stability : experimental -- Portability : non-portable (GHC Extensions) -- -- Automatically derive instances of @OrdHD@. -- -------------------------------------------------------------------------------- module Data.Comp.Param.Multi.Derive.Ordering ( OrdHD(..), makeOrdHD ) where import Data.Comp.Param.Multi.FreshM hiding (Name) import Data.Comp.Param.Multi.Ordering import Data.Comp.Derive.Utils import Data.Comp.Param.Derive.Utils import Data.Maybe import Data.List import Language.Haskell.TH hiding (Cxt) import Control.Monad (liftM) compList :: [Ordering] -> Ordering compList = fromMaybe EQ . find (/= EQ) {-| Derive an instance of 'OrdHD' for a type constructor of any parametric kind taking at least three arguments. -} makeOrdHD :: Name -> Q [Dec] makeOrdHD fname = do Just (DataInfo _ name args constrs _) <- abstractNewtypeQ $ reify fname let args' = init args -- covariant argument let coArg :: Type = VarT $ tyVarBndrName $ last args' -- contravariant argument let conArg :: Type = VarT $ tyVarBndrName $ last $ init args' let argNames = map (VarT . tyVarBndrName) (init $ init args') let complType = foldl AppT (ConT name) argNames let classType = AppT (ConT ''OrdHD) complType constrs' :: [(Name,[Type], Maybe Type)] <- mapM normalConExp constrs compareHDDecl <- funD 'compareHD (compareHDClauses conArg coArg constrs') let context = map (\arg -> mkClassP ''Ord [arg]) argNames return [mkInstanceD context classType [compareHDDecl]] where compareHDClauses :: Type -> Type -> [(Name,[Type], Maybe Type)] -> [ClauseQ] compareHDClauses _ _ [] = [] compareHDClauses conArg coArg constrs = let constrs' = constrs `zip` [1..] constPairs = [(x,y)| x<-constrs', y <- constrs'] in map (genClause conArg coArg) constPairs genClause conArg coArg ((c,n),(d,m)) | n == m = genEqClause conArg coArg c | n < m = genLtClause c d | otherwise = genGtClause c d genEqClause :: Type -> Type -> (Name,[Type], Maybe Type) -> ClauseQ genEqClause conArg' coArg' (constr, args, gadtTy) = do varXs <- newNames (length args) "x" varYs <- newNames (length args) "y" let patX = ConP constr $ map VarP varXs let patY = ConP constr $ map VarP varYs let (conArg, coArg) = getTernaryFArgs conArg' coArg' gadtTy body <- eqDBody conArg coArg (zip3 varXs varYs args) return $ Clause [patX, patY] (NormalB body) [] eqDBody :: Type -> Type -> [(Name, Name, Type)] -> ExpQ eqDBody conArg coArg x = [|liftM compList (sequence $(listE $ map (eqDB conArg coArg) x))|] eqDB :: Type -> Type -> (Name, Name, Type) -> ExpQ eqDB conArg coArg (x, y, tp) | not (containsType tp conArg) && not (containsType tp coArg) = [| return $ compare $(varE x) $(varE y) |] | otherwise = case tp of AppT a _ | a == coArg -> [| pcompare $(varE x) $(varE y) |] AppT (AppT ArrowT (AppT a _)) _ | a == conArg -> [| withName (\v -> pcompare ($(varE x) $ nameCoerce v) ($(varE y) $ nameCoerce v)) |] SigT tp' _ -> eqDB conArg coArg (x, y, tp') _ -> if containsType tp conArg then [| compareHD $(varE x) $(varE y) |] else [| pcompare $(varE x) $(varE y) |] genLtClause (c, _, _) (d, _, _) = clause [recP c [], recP d []] (normalB [| return LT |]) [] genGtClause (c, _, _) (d, _, _) = clause [recP c [], recP d []] (normalB [| return GT |]) []