ConDecl(..), Sig(..), NewOrData(..), ResType(..),
tyClDeclTyVars, isSynDecl, isClassDecl, isIdxTyDecl,
isKindSigDecl, hsConArgs, LTyClDecl, tcdName,
- hsTyVarName, LHsTyVarBndr, LHsType
+ hsTyVarName, LHsTyVarBndr, LHsType, HsType(..),
+ mkHsAppTy
)
import HsTypes ( HsBang(..), getBangStrictness )
import BasicTypes ( RecFlag(..), StrictnessMark(..) )
tyConDataCons, mkForeignTyCon, isProductTyCon,
isRecursiveTyCon, isOpenTyCon,
tyConStupidTheta, synTyConRhs, isSynTyCon, tyConName,
- isNewTyCon, tyConKind )
+ isNewTyCon, tyConKind, makeTyConAssoc, isAssocTyCon )
import DataCon ( DataCon, dataConUserType, dataConName,
dataConFieldLabels, dataConTyCon, dataConAllTyVars,
dataConFieldType, dataConResTys )
data types (and GADTs).
\begin{code}
-tcIdxTyInstDecl :: LTyClDecl Name -> TcM (Maybe InstInfo) -- Nothing if error
+tcIdxTyInstDecl :: LTyClDecl Name
+ -> TcM (Maybe InstInfo, Maybe TyThing) -- Nothing if error
tcIdxTyInstDecl (L loc decl)
= -- Prime error recovery, set source location
- recoverM (returnM Nothing) $
- setSrcSpan loc $
- tcAddDeclCtxt decl $
+ recoverM (returnM (Nothing, Nothing)) $
+ setSrcSpan loc $
+ tcAddDeclCtxt decl $
do { -- indexed data types require -fglasgow-exts and can't be in an
-- hs-boot file
; gla_exts <- doptM Opt_GlasgowExts
; tcIdxTyInstDecl1 decl
}
-tcIdxTyInstDecl1 :: TyClDecl Name -> TcM (Maybe InstInfo) -- Nothing if error
+tcIdxTyInstDecl1 :: TyClDecl Name
+ -> TcM (Maybe InstInfo, Maybe TyThing) -- Nothing if error
tcIdxTyInstDecl1 (decl@TySynonym {})
- = kcIdxTyPats decl $ \k_tvs k_typats resKind ->
+ = kcIdxTyPats decl $ \k_tvs k_typats resKind _ ->
do { -- (1) kind check the right hand side of the type equation
; k_rhs <- kcCheckHsType (tcdSynRhs decl) resKind
-- construct type rewrite rule
-- !!!of the form: forall t_tvs. (tcdLName decl) t_typats = t_rhs
- ; return Nothing -- !!!TODO: need InstInfo for indexed types
+ ; return (Nothing, Nothing) -- !!!TODO: need InstInfo for eq axioms
}}
-tcIdxTyInstDecl1 (decl@TyData {tcdND = new_or_data, tcdLName = L _ tc_name,
+tcIdxTyInstDecl1 (decl@TyData {tcdND = new_or_data, tcdLName = L loc tc_name,
tcdCons = cons})
- = kcIdxTyPats decl $ \k_tvs k_typats resKind ->
+ = kcIdxTyPats decl $ \k_tvs k_typats resKind family ->
do { -- (1) kind check the data declaration as usual
; k_decl <- kcDataDecl decl k_tvs
- ; let k_ctxt = tcdCtxt decl
- k_cons = tcdCons decl
+ ; let k_ctxt = tcdCtxt k_decl
+ k_cons = tcdCons k_decl
-- result kind must be '*' (otherwise, we have too few patterns)
; checkTc (isLiftedTypeKind resKind) $ tooFewParmsErr tc_name
; checkTc h98_syntax (badGadtIdxTyDecl tc_name)
-- Check that a newtype has exactly one constructor
- ; checkTc (new_or_data == DataType || isSingleton cons) $
- newtypeConError tc_name (length cons)
+ ; checkTc (new_or_data == DataType || isSingleton k_cons) $
+ newtypeConError tc_name (length k_cons)
; t_typats <- mappM tcHsKindedType k_typats
; stupid_theta <- tcHsKindedContext k_ctxt
+
; tycon <- fixM (\ tycon -> do
{ data_cons <- mappM (addLocM (tcConDecl unbox_strict new_or_data
- tycon t_tvs))
+ tycon t_tvs))
k_cons
; tc_rhs <-
case new_or_data of
NewType ->
ASSERT( isSingleton data_cons )
mkNewTyConRhs tc_name tycon (head data_cons)
- --vvvvvvv !!! need a new derived tc_name here
; buildAlgTyCon tc_name t_tvs stupid_theta tc_rhs Recursive
- False h98_syntax
+ False h98_syntax (Just (family, t_typats))
-- We always assume that indexed types are recursive. Why?
-- (1) Due to their open nature, we can never be sure that a
-- further instance might not introduce a new recursive
})
-- construct result
- -- !!!twofold: (1) (ATyCon tycon) and (2) an equality axiom
- ; return Nothing -- !!!TODO: need InstInfo for indexed types
+ ; return (Nothing, Just (ATyCon tycon))
}}
where
h98_syntax = case cons of -- All constructors have same shape
-- check is only required for type functions.
--
kcIdxTyPats :: TyClDecl Name
- -> ([LHsTyVarBndr Name] -> [LHsType Name] -> Kind -> TcM a)
+ -> ([LHsTyVarBndr Name] -> [LHsType Name] -> Kind -> TyCon -> TcM a)
-- ^^kinded tvs ^^kinded ty pats ^^res kind
-> TcM a
kcIdxTyPats decl thing_inside
= kcHsTyVars (tcdTyVars decl) $ \tvs ->
do { tc_ty_thing <- tcLookupLocated (tcdLName decl)
- ; let { tc_kind = case tc_ty_thing of
- AGlobal (ATyCon tycon) -> tyConKind tycon
- ; (kinds, resKind) = splitKindFunTys tc_kind
+ ; let { family = case tc_ty_thing of
+ AGlobal (ATyCon family) -> family
+ ; (kinds, resKind) = splitKindFunTys (tyConKind family)
; hs_typats = fromJust $ tcdTyPats decl }
-- we may not have more parameters than the kind indicates
-- type functions can have a higher-kinded result
; let resultKind = mkArrowKinds (drop (length hs_typats) kinds) resKind
; typats <- zipWithM kcCheckHsType hs_typats kinds
- ; thing_inside tvs typats resultKind
+ ; thing_inside tvs typats resultKind family
}
where
\end{code}
tcTyClDecl1 _calc_isrec
(TyFunction {tcdLName = L _ tc_name, tcdTyVars = tvs, tcdKind = kind})
= tcTyVarBndrs tvs $ \ tvs' -> do
- { gla_exts <- doptM Opt_GlasgowExts
+ { traceTc (text "type family: " <+> ppr tc_name)
+ ; gla_exts <- doptM Opt_GlasgowExts
-- Check that we don't use kind signatures without Glasgow extensions
; checkTc gla_exts $ badSigTyDecl tc_name
- ; return [ATyCon (buildSynTyCon tc_name tvs' (OpenSynTyCon kind))]
+ ; return [ATyCon $ buildSynTyCon tc_name tvs' (OpenSynTyCon kind)]
}
-- kind signature for an indexed data type
tcTyClDecl1 _calc_isrec
(TyData {tcdND = new_or_data, tcdCtxt = ctxt, tcdTyVars = tvs,
- tcdLName = L _ tc_name, tcdKindSig = mb_ksig, tcdCons = []})
+ tcdLName = L _ tc_name, tcdKindSig = Just ksig, tcdCons = []})
= tcTyVarBndrs tvs $ \ tvs' -> do
- { extra_tvs <- tcDataKindSig mb_ksig
+ { traceTc (text "data/newtype family: " <+> ppr tc_name)
+ ; extra_tvs <- tcDataKindSig (Just ksig)
; let final_tvs = tvs' ++ extra_tvs -- we may not need these
; checkTc (null . unLoc $ ctxt) $ badKindSigCtxt tc_name
(case new_or_data of
DataType -> OpenDataTyCon
NewType -> OpenNewTyCon)
- Recursive False True
+ Recursive False True Nothing
; return [ATyCon tycon]
}
ASSERT( isSingleton data_cons )
mkNewTyConRhs tc_name tycon (head data_cons)
; buildAlgTyCon tc_name final_tvs stupid_theta tc_rhs is_rec
- (want_generic && canDoGenerics data_cons) h98_syntax
+ (want_generic && canDoGenerics data_cons) h98_syntax Nothing
})
; return [ATyCon tycon]
}
{ ctxt' <- tcHsKindedContext ctxt
; fds' <- mappM (addLocM tc_fundep) fundeps
; atss <- mappM (addLocM (tcTyClDecl1 (const Recursive))) ats
- ; let ats' = concat atss
+ ; let ats' = map makeTyThingAssoc . concat $ atss
; sig_stuff <- tcClassSigs class_name sigs meths
; clas <- fixM (\ clas ->
let -- This little knot is just so we can get
tc_fundep (tvs1, tvs2) = do { tvs1' <- mappM tcLookupTyVar tvs1 ;
; tvs2' <- mappM tcLookupTyVar tvs2 ;
; return (tvs1', tvs2') }
+ makeTyThingAssoc (ATyCon tycon) = ATyCon (makeTyConAssoc tycon)
+ makeTyThingAssoc _ = panic "makeTyThingAssoc"
tcTyClDecl1 calc_isrec
-----------------------------------
tcConDecl :: Bool -- True <=> -funbox-strict_fields
- -> NewOrData -> TyCon -> [TyVar]
- -> ConDecl Name -> TcM DataCon
+ -> NewOrData
+ -> TyCon -> [TyVar]
+ -> ConDecl Name
+ -> TcM DataCon
tcConDecl unbox_strict NewType tycon tc_tvs -- Newtypes
(ConDecl name _ ex_tvs ex_ctxt details ResTyH98)
; checkTc (null ex_tvs && null (unLoc ex_ctxt)) (newtypeExError name)
; case details of
- PrefixCon [arg_ty] -> tc_datacon [] arg_ty
+ PrefixCon [arg_ty] -> tc_datacon [] arg_ty
RecCon [(field_lbl, arg_ty)] -> tc_datacon [field_lbl] arg_ty
- other -> failWithTc (newtypeFieldErr name (length (hsConArgs details)))
+ other ->
+ failWithTc (newtypeFieldErr name (length (hsConArgs details)))
-- Check that the constructor has exactly one field
}
(map unLoc field_lbls)
univ_tvs ex_tvs eq_preds ctxt' arg_tys
data_tc }
- -- NB: we put data_tc, the type constructor gotten from the constructor
- -- type signature into the data constructor; that way
- -- checkValidDataCon can complain if it's wrong.
+ -- NB: we put data_tc, the type constructor gotten from the
+ -- constructor type signature into the data constructor;
+ -- that way checkValidDataCon can complain if it's wrong.
; case details of
PrefixCon btys -> tc_datacon False [] btys