%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[TcInstUtil]{Utilities for typechecking instance declarations}
The bits common to TcInstDcls and TcDeriv.
\begin{code}
-#include "HsVersions.h"
-
module TcInstUtil (
InstInfo(..),
- mkInstanceRelatedIds,
- buildInstanceEnvs
+ buildInstanceEnvs,
+ classDataCon
) where
-IMP_Ubiq()
+#include "HsVersions.h"
-import HsSyn ( MonoBinds, Fake, InPat, Sig )
-import RnHsSyn ( SYN_IE(RenamedMonoBinds), RenamedSig(..),
- RenamedInstancePragmas(..) )
+import RnHsSyn ( RenamedMonoBinds, RenamedSig )
-import TcMonad hiding ( rnMtoTcM )
-import Inst ( SYN_IE(InstanceMapper) )
+import CmdLineOpts ( opt_AllowOverlappingInstances )
+import TcMonad
+import Inst ( InstanceMapper )
-import Bag ( bagToList )
-import Class ( GenClass, GenClassOp, SYN_IE(ClassInstEnv),
- classBigSig, classOps, classOpLocalType,
- SYN_IE(ClassOp)
- )
-import CoreSyn ( GenCoreExpr(..), mkValLam, mkTyApp )
-import Id ( GenId, mkDictFunId, mkConstMethodId, mkSysLocal )
-import MatchEnv ( nullMEnv, insertMEnv )
+import Bag ( bagToList, Bag )
+import Class ( Class )
+import Var ( TyVar, Id, idName )
+import InstEnv ( InstEnv, emptyInstEnv, addToInstEnv )
import Maybes ( MaybeErr(..), mkLookupFunDef )
-import Name ( getSrcLoc, Name{--O only-} )
-import PprType ( GenClass, GenType, GenTyVar )
-import Pretty
-import SpecEnv ( SpecEnv, nullSpecEnv, addOneToSpecEnv )
+import Name ( getSrcLoc, nameModule, isLocallyDefined )
import SrcLoc ( SrcLoc )
-import Type ( mkSigmaTy, mkForAllTys, mkDictTy, mkTyVarTys,
- splitForAllTy, instantiateTy, matchTy, SYN_IE(ThetaType) )
-import TyVar ( GenTyVar )
-import Unique ( Unique )
-import Util ( equivClasses, zipWithEqual, panic )
-
-import IdInfo ( noIdInfo )
---import TcPragmas ( tcDictFunPragmas, tcGenPragmas )
+import Type ( ThetaType, Type, ClassContext )
+import PprType ( pprConstraint )
+import Class ( classTyCon )
+import DataCon ( DataCon )
+import TyCon ( tyConDataCons )
+import Unique ( Unique, getUnique )
+import Util ( equivClassesByUniq )
+import Outputable
\end{code}
instance c => k (t tvs) where b
= InstInfo
Class -- Class, k
[TyVar] -- Type variables, tvs
- Type -- The type at which the class is being instantiated
- ThetaType -- inst_decl_theta: the original context, c, from the
+ [Type] -- The types at which the class is being instantiated
+ ClassContext -- inst_decl_theta: the original context, c, from the
-- instance declaration. It constrains (some of)
-- the TyVars above
- ThetaType -- dfun_theta: the inst_decl_theta, plus one
- -- element for each superclass; the "Mark
- -- Jones optimisation"
Id -- The dfun id
- [Id] -- Constant methods (either all or none)
RenamedMonoBinds -- Bindings, b
- Bool -- True <=> local instance decl
- Module -- Name of module where this instance defined
SrcLoc -- Source location assoc'd with this instance's defn
[RenamedSig] -- User pragmas recorded for generating specialised instances
\end{code}
+
%************************************************************************
%* *
\subsection{Creating instance related Ids}
%* *
%************************************************************************
-\begin{code}
-mkInstanceRelatedIds :: Bool
- -> SrcLoc
- -> Module
- -> RenamedInstancePragmas
- -> Class
- -> [TyVar]
- -> Type
- -> ThetaType
- -> [RenamedSig]
- -> TcM s (Id, ThetaType, [Id])
-
-mkInstanceRelatedIds from_here src_loc inst_mod inst_pragmas
- clas inst_tyvars inst_ty inst_decl_theta uprags
- = -- MAKE THE DFUN ID
- let
- dfun_theta = case inst_decl_theta of
- [] -> [] -- If inst_decl_theta is empty, then we don't
- -- want to have any dict arguments, so that we can
- -- expose the constant methods.
-
- other -> inst_decl_theta ++ super_class_theta
- -- Otherwise we pass the superclass dictionaries to
- -- the dictionary function; the Mark Jones optimisation.
-
- dfun_ty = mkSigmaTy inst_tyvars dfun_theta (mkDictTy clas inst_ty)
- in
- tcGetUnique `thenNF_Tc` \ dfun_uniq ->
- fixTc ( \ rec_dfun_id ->
-
-{- LATER
- tcDictFunPragmas dfun_ty rec_dfun_id inst_pragmas
- `thenNF_Tc` \ dfun_pragma_info ->
- let
- dfun_specenv = mkInstSpecEnv clas inst_ty inst_tyvars dfun_theta
- dfun_id_info = dfun_pragma_info `addInfo` dfun_specenv
- in
--}
- let dfun_id_info = noIdInfo in -- For now
-
- returnTc (mkDictFunId dfun_uniq clas inst_ty dfun_ty from_here src_loc inst_mod dfun_id_info)
- ) `thenTc` \ dfun_id ->
-
- -- MAKE THE CONSTANT-METHOD IDS
- -- if there are no type variables involved
- (if (null inst_decl_theta)
- then
- mapTc mk_const_meth_id class_ops
- else
- returnTc []
- ) `thenTc` \ const_meth_ids ->
-
- returnTc (dfun_id, dfun_theta, const_meth_ids)
- where
- (class_tyvar, super_classes, _, class_ops, _, _) = classBigSig clas
- tenv = [(class_tyvar, inst_ty)]
-
- super_class_theta = super_classes `zip` repeat inst_ty
-
- mk_const_meth_id op
- = tcGetUnique `thenNF_Tc` \ uniq ->
- fixTc (\ rec_const_meth_id ->
-
-{- LATER
- -- Figure out the IdInfo from the pragmas
- (case assocMaybe opname_prag_pairs (getName op) of
- Nothing -> returnTc inline_info
- Just prag -> tcGenPragmas (Just meth_ty) rec_const_meth_id prag
- ) `thenNF_Tc` \ id_info ->
--}
- let id_info = noIdInfo -- For now
- in
- returnTc (mkConstMethodId uniq clas op inst_ty meth_ty
- from_here src_loc inst_mod id_info)
- )
- where
- op_ty = classOpLocalType op
- meth_ty = mkForAllTys inst_tyvars (instantiateTy tenv op_ty)
-{- LATER
- inline_me = isIn "mkInstanceRelatedIds" op ops_to_inline
- inline_info = if inline_me
- then noIdInfo `addInfo_UF` (iWantToBeINLINEd UnfoldAlways)
- else noIdInfo
-
- opname_prag_pairs = case inst_pragmas of
- ConstantInstancePragma _ name_prag_pairs -> name_prag_pairs
- other_inst_pragmas -> []
-
- ops_to_inline = [op | (InlineSig op _) <- uprags]
--}
-\end{code}
+A tiny function which doesn't belong anywhere else.
+It makes a nasty mutual-recursion knot if you put it in Class.
+\begin{code}
+classDataCon :: Class -> DataCon
+classDataCon clas = case tyConDataCons (classTyCon clas) of
+ (dict_constr:no_more) -> ASSERT( null no_more ) dict_constr
+\end{code}
%************************************************************************
%* *
\begin{code}
buildInstanceEnvs :: Bag InstInfo
- -> TcM s InstanceMapper
+ -> NF_TcM s InstanceMapper
buildInstanceEnvs info
= let
- icmp :: InstInfo -> InstInfo -> TAG_
- (InstInfo c1 _ _ _ _ _ _ _ _ _ _ _) `icmp` (InstInfo c2 _ _ _ _ _ _ _ _ _ _ _)
- = c1 `cmp` c2
+ i_uniq :: InstInfo -> Unique
+ i_uniq (InstInfo c _ _ _ _ _ _ _) = getUnique c
- info_by_class = equivClasses icmp (bagToList info)
+ info_by_class = equivClassesByUniq i_uniq (bagToList info)
in
- mapTc buildInstanceEnv info_by_class `thenTc` \ inst_env_entries ->
+ mapNF_Tc buildInstanceEnv info_by_class `thenNF_Tc` \ inst_env_entries ->
let
- class_lookup_fn = mkLookupFunDef (==) inst_env_entries
- (nullMEnv, \ o -> nullSpecEnv)
+ class_lookup_fn = mkLookupFunDef (==) inst_env_entries emptyInstEnv
in
- returnTc class_lookup_fn
+ returnNF_Tc class_lookup_fn
\end{code}
\begin{code}
buildInstanceEnv :: [InstInfo] -- Non-empty, and all for same class
- -> TcM s (Class, (ClassInstEnv, (ClassOp -> SpecEnv)))
+ -> NF_TcM s (Class, InstEnv)
-buildInstanceEnv inst_infos@((InstInfo clas _ _ _ _ _ _ _ _ _ _ _) : _)
- = foldlTc addClassInstance
- (nullMEnv, [(op, nullSpecEnv) | op <- classOps clas])
- inst_infos
- `thenTc` \ (class_inst_env, op_inst_envs) ->
- returnTc (clas, (class_inst_env,
- mkLookupFunDef (==) op_inst_envs
- (panic "buildInstanceEnv")))
+buildInstanceEnv inst_infos@((InstInfo clas _ _ _ _ _ _ _) : _)
+ = foldrNF_Tc addClassInstance
+ emptyInstEnv
+ inst_infos `thenNF_Tc` \ class_inst_env ->
+ returnNF_Tc (clas, class_inst_env)
\end{code}
@addClassInstance@ adds the appropriate stuff to the @ClassInstEnv@
\begin{code}
addClassInstance
- :: (ClassInstEnv, [(ClassOp,SpecEnv)])
- -> InstInfo
- -> TcM s (ClassInstEnv, [(ClassOp,SpecEnv)])
-
-addClassInstance
- (class_inst_env, op_spec_envs)
- (InstInfo clas inst_tyvars inst_ty _ _
- dfun_id const_meth_ids _ _ _ src_loc _)
- =
-
--- We only add specialised/overlapped instances
--- if we are specialising the overloading
--- ToDo ... This causes getConstMethodId errors!
---
--- if not (is_plain_instance inst_ty) && not opt_SpecialiseOverloaded
--- then
--- -- Drop this specialised/overlapped instance
--- returnTc (class_inst_env, op_spec_envs)
--- else
-
- -- Add the instance to the class's instance environment
- case insertMEnv matchTy class_inst_env inst_ty dfun_id of {
- Failed (ty', dfun_id') -> dupInstFailure clas (inst_ty, src_loc)
- (ty', getSrcLoc dfun_id');
- Succeeded class_inst_env' ->
-
- -- If there are any constant methods, then add them to
- -- the SpecEnv of each class op (ie selector)
- --
- -- Example. class Foo a where { op :: Baz b => a -> b; ... }
- -- instance Foo (p,q) where { op (x,y) = ... ; ... }
- --
- -- The class decl means that
- -- op :: forall a. Foo a => forall b. Baz b => a -> b
- --
- -- The constant method from the instance decl will be:
- -- op_Pair :: forall p q b. Baz b => (p,q) -> b
- --
- -- What we put in op's SpecEnv is
- -- (p,q) |--> (\d::Foo (p,q) -> op_Pair p q)
- --
- -- Here, [p,q] are the inst_tyvars, and d is a dict whose only
- -- purpose is to cancel with the dict to which op is applied.
- --
- -- NOTE THAT this correctly deals with the case where there are
- -- constant methods even though there are type variables in the
- -- instance declaration.
-
- tcGetUnique `thenNF_Tc` \ uniq ->
- let
- dict = mkSysLocal SLIT("dict_tpl") uniq (mkDictTy clas inst_ty) src_loc
- -- Slightly disgusting, but it's only a placeholder for
- -- a dictionary to be chucked away.
-
- op_spec_envs' | null const_meth_ids = op_spec_envs
- | otherwise = zipWithEqual "add_const_meth" add_const_meth op_spec_envs const_meth_ids
-
- add_const_meth (op,spec_env) meth_id
- = (op, case addOneToSpecEnv spec_env [inst_ty] rhs of
- Failed (tys', rhs') -> panic "TcInstDecls:add_const_meth"
- Succeeded spec_env' -> spec_env' )
- where
- rhs = mkValLam [dict] (mkTyApp (Var meth_id) (mkTyVarTys inst_tyvars))
- in
- returnTc (class_inst_env', op_spec_envs')
- }
+ :: InstInfo
+ -> InstEnv
+ -> NF_TcM s InstEnv
+
+addClassInstance
+ (InstInfo clas inst_tyvars inst_tys _
+ dfun_id _ src_loc _)
+ class_inst_env
+ = -- Add the instance to the class's instance environment
+ case addToInstEnv opt_AllowOverlappingInstances
+ class_inst_env inst_tyvars inst_tys dfun_id of
+ Failed (tys', dfun_id') -> addErrTc (dupInstErr clas (inst_tys, dfun_id)
+ (tys', dfun_id'))
+ `thenNF_Tc_`
+ returnNF_Tc class_inst_env
+
+ Succeeded class_inst_env' -> returnNF_Tc class_inst_env'
\end{code}
\begin{code}
-dupInstFailure clas info1@(ty1, locn1) info2@(ty2, locn2)
+dupInstErr clas info1@(tys1, dfun1) info2@(tys2, dfun2)
-- Overlapping/duplicate instances for given class; msg could be more glamourous
- = tcAddErrCtxt ctxt $
- failTc (\sty -> ppStr "Duplicate or overlapping instance declarations")
+ = hang (ptext SLIT("Duplicate or overlapping instance declarations"))
+ 4 (sep [ptext SLIT("for") <+> quotes (pprConstraint clas tys1),
+ nest 4 (sep [ppr_loc dfun1, ptext SLIT("and") <+> ppr_loc dfun2])])
where
- ctxt sty = ppHang (ppSep [ppBesides[ppStr "Class `", ppr sty clas, ppStr "'"],
- ppBesides[ppStr "type `", ppr sty ty1, ppStr "'"]])
- 4 (ppSep [ppBesides [ppStr "at ", ppr sty locn1],
- ppBesides [ppStr "and ", ppr sty locn2]])
+ ppr_loc dfun
+ | isLocallyDefined dfun = ptext SLIT("defined at") <+> ppr (getSrcLoc dfun)
+ | otherwise = ptext SLIT("imported from module") <+> quotes (ppr (nameModule (idName dfun)))
\end{code}