mutable type variables
\begin{code}
+{-# OPTIONS -w #-}
+-- The above warning supression flag is a temporary kludge.
+-- While working on this module you are encouraged to remove it and fix
+-- any warnings in the module. See
+-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
+-- for details
+
module TcMType (
TcTyVar, TcKind, TcType, TcTauType, TcThetaType, TcTyVarSet,
Rank, UserTypeCtxt(..), checkValidType,
SourceTyCtxt(..), checkValidTheta, checkFreeness,
checkValidInstHead, checkValidInstance, checkAmbiguity,
- checkInstTermination,
+ checkInstTermination, checkValidTypeInst, checkTyFamFreeness,
arityErr,
--------------------------------
zonkTcKindToKind, zonkTcKind, zonkTopTyVar,
readKindVar, writeKindVar
-
) where
#include "HsVersions.h"
-- Make a new meta tyvar out of thin air
newMetaTyVar box_info kind
= do { uniq <- newUnique
- ; ref <- newMutVar Flexi ;
+ ; ref <- newMutVar Flexi
; let name = mkSysTvName uniq fs
fs = case box_info of
BoxTv -> FSLIT("t")
-- come from an existing TyVar
instMetaTyVar box_info tyvar
= do { uniq <- newUnique
- ; ref <- newMutVar Flexi ;
+ ; ref <- newMutVar Flexi
; let name = setNameUnique (tyVarName tyvar) uniq
kind = tyVarKind tyvar
; return (mkTcTyVar name kind (MetaTv box_info ref)) }
| otherwise
= ASSERT( isMetaTyVar tyvar )
- ASSERT2( k2 `isSubKind` k1, (ppr tyvar <+> ppr k1) $$ (ppr ty <+> ppr k2) )
+ -- TOM: It should also work for coercions
+ -- ASSERT2( k2 `isSubKind` k1, (ppr tyvar <+> ppr k1) $$ (ppr ty <+> ppr k2) )
do { ASSERTM2( do { details <- readMetaTyVar tyvar; return (isFlexi details) }, ppr tyvar )
; writeMutVar (metaTvRef tyvar) (Indirect ty) }
where
readFilledBox box_tv = ASSERT( isBoxyTyVar box_tv )
do { cts <- readMetaTyVar box_tv
; case cts of
- Flexi -> pprPanic "readFilledBox" (ppr box_tv)
+ Flexi -> pprPanic "readFilledBox" (ppr box_tv)
Indirect ty -> return ty }
tcInstBoxyTyVar :: TyVar -> TcM BoxyTyVar
MetaTv _ ref -> do { meta_details <- readMutVar ref
; case meta_details of
Indirect ty -> return (IndirectTv ty)
- Flexi -> return (DoneTv details) }
+ Flexi -> return (DoneTv details) }
where
details = tcTyVarDetails tyvar
-- Check that instance inference will terminate (if we care)
-- For Haskell 98 this will already have been done by checkValidTheta,
- -- but as we may be using other extensions we need to check.
+ -- but as we may be using other extensions we need to check.
; unless undecidable_ok $
mapM_ addErrTc (checkInstTermination inst_tys theta)
nomoreMsg = ptext SLIT("Variable occurs more often in a constraint than in the instance head")
smallerMsg = ptext SLIT("Constraint is no smaller than the instance head")
undecidableMsg = ptext SLIT("Use -fallow-undecidable-instances to permit this")
+\end{code}
+
+
+%************************************************************************
+%* *
+\subsection{Checking type instance well-formedness and termination}
+%* *
+%************************************************************************
+
+\begin{code}
+-- Check that a "type instance" is well-formed (which includes decidability
+-- unless -fallow-undecidable-instances is given).
+--
+checkValidTypeInst :: [Type] -> Type -> TcM ()
+checkValidTypeInst typats rhs
+ = do { -- left-hand side contains no type family applications
+ -- (vanilla synonyms are fine, though)
+ ; mappM_ checkTyFamFreeness typats
+
+ -- the right-hand side is a tau type
+ ; checkTc (isTauTy rhs) $
+ polyTyErr rhs
+
+ -- we have a decidable instance unless otherwise permitted
+ ; undecidable_ok <- doptM Opt_UndecidableInstances
+ ; unless undecidable_ok $
+ mapM_ addErrTc (checkFamInst typats (tyFamInsts rhs))
+ }
+
+-- Make sure that each type family instance is
+-- (1) strictly smaller than the lhs,
+-- (2) mentions no type variable more often than the lhs, and
+-- (3) does not contain any further type family instances.
+--
+checkFamInst :: [Type] -- lhs
+ -> [(TyCon, [Type])] -- type family instances
+ -> [Message]
+checkFamInst lhsTys famInsts
+ = mapCatMaybes check famInsts
+ where
+ size = sizeTypes lhsTys
+ fvs = fvTypes lhsTys
+ check (tc, tys)
+ | not (all isTyFamFree tys)
+ = Just (famInstUndecErr famInst nestedMsg $$ parens undecidableMsg)
+ | not (null (fvTypes tys \\ fvs))
+ = Just (famInstUndecErr famInst nomoreVarMsg $$ parens undecidableMsg)
+ | size <= sizeTypes tys
+ = Just (famInstUndecErr famInst smallerAppMsg $$ parens undecidableMsg)
+ | otherwise
+ = Nothing
+ where
+ famInst = TyConApp tc tys
+-- Ensure that no type family instances occur in a type.
+--
+checkTyFamFreeness :: Type -> TcM ()
+checkTyFamFreeness ty
+ = checkTc (isTyFamFree ty) $
+ tyFamInstInIndexErr ty
+
+-- Check that a type does not contain any type family applications.
+--
+isTyFamFree :: Type -> Bool
+isTyFamFree = null . tyFamInsts
+
+-- Error messages
+
+tyFamInstInIndexErr ty
+ = hang (ptext SLIT("Illegal type family application in type instance") <>
+ colon) 4 $
+ ppr ty
+
+polyTyErr ty
+ = hang (ptext SLIT("Illegal polymorphic type in type instance") <> colon) 4 $
+ ppr ty
+
+famInstUndecErr ty msg
+ = sep [msg,
+ nest 2 (ptext SLIT("in the type family application:") <+>
+ pprType ty)]
+
+nestedMsg = ptext SLIT("Nested type family application")
+nomoreVarMsg = ptext SLIT("Variable occurs more often than in instance head")
+smallerAppMsg = ptext SLIT("Application is no smaller than the instance head")
+\end{code}
+
+
+%************************************************************************
+%* *
+\subsection{Auxiliary functions}
+%* *
+%************************************************************************
+
+\begin{code}
-- Free variables of a type, retaining repetitions, and expanding synonyms
fvType :: Type -> [TyVar]
fvType ty | Just exp_ty <- tcView ty = fvType exp_ty
sizePred (ClassP _ tys') = sizeTypes tys'
sizePred (IParam _ ty) = sizeType ty
sizePred (EqPred ty1 ty2) = sizeType ty1 + sizeType ty2
+
+-- Type family instances occuring in a type after expanding synonyms
+tyFamInsts :: Type -> [(TyCon, [Type])]
+tyFamInsts ty
+ | Just exp_ty <- tcView ty = tyFamInsts exp_ty
+tyFamInsts (TyVarTy _) = []
+tyFamInsts (TyConApp tc tys)
+ | isOpenSynTyCon tc = [(tc, tys)]
+ | otherwise = concat (map tyFamInsts tys)
+tyFamInsts (FunTy ty1 ty2) = tyFamInsts ty1 ++ tyFamInsts ty2
+tyFamInsts (AppTy ty1 ty2) = tyFamInsts ty1 ++ tyFamInsts ty2
+tyFamInsts (ForAllTy _ ty) = tyFamInsts ty
\end{code}