%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1995
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[TcClassDcl]{Typechecking class declarations}
\begin{code}
-#include "HsVersions.h"
-
-module TcClassDcl (
- tcClassDecls1, tcClassDecls2,
- ClassInfo -- abstract
- ) where
+module TcClassDcl ( tcClassDecl1, tcClassDecls2, mkImplicitClassBinds,
+ tcMethodBind, badMethodErr
+ ) where
-IMPORT_Trace -- ToDo: rm (debugging)
-import Pretty -- add proper one below
-
-import TcMonad -- typechecking monad machinery
-import TcMonadFns ( newDicts, newClassOpLocals, copyTyVars )
-import AbsSyn -- the stuff being typechecked
+#include "HsVersions.h"
-import AbsPrel ( pAT_ERROR_ID )
-import AbsUniType ( mkClass, getClassKey, getClassBigSig,
- getClassOpString, getClassOps, splitType,
- mkSuperDictSelType, InstTyEnv(..),
- instantiateTy, instantiateThetaTy, UniType
+import HsSyn ( HsDecl(..), TyClDecl(..), Sig(..), MonoBinds(..),
+ HsExpr(..), HsLit(..), HsType(..), HsPred(..),
+ mkSimpleMatch, andMonoBinds, andMonoBindList,
+ isClassDecl, isClassOpSig, isPragSig,
+ fromClassDeclNameList, tyClDeclName
)
-import BackSubst ( applyTcSubstToBinds )
-import CE -- ( nullCE, unitCE, plusCE, CE(..), UniqFM )
-import E ( mkE, getE_TCE, getE_CE, tvOfE, nullGVE, plusGVE, E, TCE(..), UniqFM, GVE(..) )
-import Errors ( confusedNameErr, Error(..) )
-import HsPragmas -- ****** NEED TO SEE CONSTRUCTORS ******
-import Id ( mkSuperDictSelId, mkInstId, getIdUniType,
- Id, DictFun(..)
+import BasicTypes ( NewOrData(..), TopLevelFlag(..), RecFlag(..), EP(..) )
+import RnHsSyn ( RenamedTyClDecl,
+ RenamedClassOpSig, RenamedMonoBinds,
+ RenamedContext, RenamedHsDecl, RenamedSig,
+ RenamedHsExpr, maybeGenericMatch
)
-import IdInfo
-import Inst ( InstOrigin(..), Inst )
-import InstEnv
-import LIE ( nullLIE, mkLIE, plusLIE, LIE )
-import Maybes ( Maybe(..) )
-import Name ( Name(..) )
-import PlainCore ( escErrorMsg )
-import Spec ( specTy )
-import TVE ( mkTVE, TVE(..)
- IF_ATTACK_PRAGMAS(COMMA u2i)
+import TcHsSyn ( TcMonoBinds, idsToMonoBinds )
+
+import Inst ( InstOrigin(..), LIE, emptyLIE, plusLIE, plusLIEs, newDicts, newMethod )
+import TcEnv ( TcId, TcEnv, TyThing(..), TyThingDetails(..), tcAddImportedIdInfo,
+ tcLookupClass, tcExtendTyVarEnvForMeths, tcExtendGlobalTyVars,
+ tcExtendLocalValEnv, tcExtendTyVarEnv, newDefaultMethodName
+ )
+import TcBinds ( tcBindWithSigs, tcSpecSigs )
+import TcMonoType ( tcHsSigType, tcClassContext, checkSigTyVars, sigCtxt, mkTcSig )
+import TcSimplify ( tcSimplifyAndCheck, bindInstsOfLocalFuns )
+import TcType ( TcType, TcTyVar, tcInstTyVars, zonkTcSigTyVars )
+import TcMonad
+import Generics ( mkGenericRhs, validGenericMethodType )
+import PrelInfo ( nO_METHOD_BINDING_ERROR_ID )
+import Class ( classTyVars, classBigSig, classSelIds, classTyCon, Class, ClassOpItem,
+ DefMeth (..) )
+import Bag ( bagToList )
+import MkId ( mkDictSelId, mkDataConId, mkDataConWrapId, mkDefaultMethodId )
+import DataCon ( mkDataCon, notMarkedStrict )
+import Id ( Id, idType, idName )
+import Name ( Name, nameOccName, isLocallyDefined, NamedThing(..), mkSysLocalName,
+ NameEnv, lookupNameEnv, emptyNameEnv, unitNameEnv, plusNameEnv, nameEnvElts )
+import NameSet ( NameSet, mkNameSet, elemNameSet, emptyNameSet )
+import Outputable
+import Type ( Type, ClassContext, mkTyVarTys, mkDictTys, mkSigmaTy, mkClassPred,
+ splitTyConApp_maybe, isTyVarTy
)
-import TcClassSig ( tcClassSigs )
-import TcContext ( tcContext )
-import TcInstDcls ( processInstBinds )
-import TcPragmas ( tcGenPragmas )
-import Util
+import Var ( TyVar )
+import VarSet ( mkVarSet, emptyVarSet )
+import CmdLineOpts
+import ErrUtils ( dumpIfSet )
+import Util ( count )
+import Maybes ( seqMaybe, maybeToBool, orElse )
\end{code}
-@ClassInfo@ communicates the essential information about
-locally-defined classes between passes 1 and 2.
-\begin{code}
-data ClassInfo
- = ClassInfo Class
- RenamedMonoBinds
-\end{code}
+
+Dictionary handling
+~~~~~~~~~~~~~~~~~~~
+Every class implicitly declares a new data type, corresponding to dictionaries
+of that class. So, for example:
+
+ class (D a) => C a where
+ op1 :: a -> a
+ op2 :: forall b. Ord b => a -> b -> b
+
+would implicitly declare
+
+ data CDict a = CDict (D a)
+ (a -> a)
+ (forall b. Ord b => a -> b -> b)
+
+(We could use a record decl, but that means changing more of the existing apparatus.
+One step at at time!)
+
+For classes with just one superclass+method, we use a newtype decl instead:
+
+ class C a where
+ op :: forallb. a -> b -> b
+
+generates
+
+ newtype CDict a = CDict (forall b. a -> b -> b)
+
+Now DictTy in Type is just a form of type synomym:
+ DictTy c t = TyConTy CDict `AppTy` t
+
+Death to "ExpandingDicts".
%************************************************************************
%* *
-\subsection[TcClassDcl]{Does the real work (apart from default methods)}
+\subsection{Type checking}
%* *
%************************************************************************
\begin{code}
-tcClassDecls1
- :: E -- Consult the CE/TCE args only to build knots
- -> InstanceMapper -- Maps class name to its instances,
- -- ...and its ops to their instances,
- -> [RenamedClassDecl]
- -> TcM ([ClassInfo], -- boiled-down info related to classes
- CE, -- env so we can look up classes elsewhere
- GVE) -- env so we can look up class ops elsewhere
-
-tcClassDecls1 e rec_inst_mapper []
- = returnTc ([], nullCE, nullGVE)
-
-tcClassDecls1 e rec_inst_mapper (cd:cds)
- = tc_clas1 cd `thenTc` \ (cinfo1_maybe, ce1, gve1) ->
- tcClassDecls1 e rec_inst_mapper cds `thenTc` \ (cinfo2, ce2, gve2) ->
+tcClassDecl1 :: TcEnv -> RenamedTyClDecl -> TcM (Name, TyThingDetails)
+tcClassDecl1 rec_env
+ (ClassDecl context class_name
+ tyvar_names fundeps class_sigs def_methods pragmas
+ sys_names src_loc)
+ = -- CHECK ARITY 1 FOR HASKELL 1.4
+ doptsTc Opt_GlasgowExts `thenTc` \ glaExts ->
+ checkTc (glaExts || length tyvar_names == 1)
+ (classArityErr class_name) `thenTc_`
+
+ -- LOOK THINGS UP IN THE ENVIRONMENT
+ tcLookupClass class_name `thenTc` \ clas ->
let
- glued_cinfos
- = case cinfo1_maybe of
- Nothing -> cinfo2
- Just xx -> xx : cinfo2
+ tyvars = classTyVars clas
+ op_sigs = filter isClassOpSig class_sigs
+ op_names = [n | ClassOpSig n _ _ _ <- op_sigs]
+ (_, datacon_name, datacon_wkr_name, sc_sel_names) = fromClassDeclNameList sys_names
in
- returnTc (glued_cinfos, ce1 `plusCE` ce2, gve1 `plusGVE` gve2)
- where
- rec_ce = getE_CE e
- rec_tce = getE_TCE e
---FAKE: fake_E = mkE rec_tce rec_ce
-
- tc_clas1 (ClassDecl context class_name
- tyvar_name class_sigs def_methods pragmas src_loc)
-
- = addSrcLocTc src_loc (
-
- -- The knot is needed so that the signatures etc can point
- -- back to the class itself
- fixTc (\ ~(rec_clas, _) ->
- let
- (rec_clas_inst_env, rec_class_op_inst_fn) = rec_inst_mapper rec_clas
- in
- -- Get new (template) type variables for the class
- let (tve, [clas_tyvar], [alpha]) = mkTVE [tyvar_name] in
-
- -- Typecheck the class context; since there is only one type
- -- variable in scope, we are assured that the it will be of
- -- the form (C1 a, C2 a...)
- babyTcMtoTcM (tcContext rec_ce rec_tce tve context) `thenTc` \ theta ->
-
- -- Make the superclass selector ids; the "class" pragmas
- -- may have info about the superclass dict selectors;
- -- so it is only tcClassPragmas that gives back the
- -- final Ids.
- getUniquesTc (length theta) `thenNF_Tc` \ uniqs ->
- let
- super_classes = [ supers | (supers, _) <- theta ]
- super_tys
- = [ mkSuperDictSelType rec_clas super | super <- super_classes ]
- super_info = zip3 super_classes uniqs super_tys
- in
- (case pragmas of
- NoClassPragmas ->
- returnNF_Tc [ mk_super_id rec_clas info noIdInfo | info <- super_info ]
-
- SuperDictPragmas prags ->
--- pprTrace "SuperDictPragmas:" (ppAboves (ppr PprDebug prags : map pp super_info)) (
- mapNF_Tc (mk_super_id_w_info rec_clas) (super_info `zipEqual` prags)
--- )
--- where
--- pp (sc, u, ty) = ppCat [ppr PprDebug sc, ppr PprDebug ty]
-
- ) `thenNF_Tc` \ super_class_sel_ids ->
-
- -- Typecheck the class signatures, checking that each mentions
- -- the class type variable somewhere, and manufacturing
- -- suitable Ids for selectors and default methods.
- babyTcMtoTcM
- (tcClassSigs e tve rec_clas rec_class_op_inst_fn
- clas_tyvar class_sigs)
- `thenTc` \ (ops, ops_gve, op_sel_ids, defm_ids) ->
-
- -- Make the class object itself, producing clas::Class
- let
- clas
- = mkClass class_name clas_tyvar
- super_classes super_class_sel_ids
- ops op_sel_ids defm_ids
- rec_clas_inst_env
- in
- returnTc (clas, ops_gve)
- ) `thenTc` \ (clas, ops_gve) ->
-
- -- Return the class decl for further work if it is
- -- local, otherwise just return the CE
- returnTc (if (isLocallyDefined class_name) then
- Just (ClassInfo clas def_methods)
- else
- Nothing,
- unitCE (getClassKey clas) clas,
- ops_gve
- ))
- where
- -----------
- mk_super_id clas (super_clas, uniq, ty) id_info
- = mkSuperDictSelId uniq clas super_clas ty id_info
-
- -----------
- mk_super_id_w_info clas ((super_clas, uniq, ty), gen_prags)
- = fixNF_Tc ( \ rec_super_id ->
- babyTcMtoNF_TcM
- (tcGenPragmas e{-fake_E-} Nothing{-ty unknown-} rec_super_id gen_prags)
- `thenNF_Tc` \ id_info ->
-
- returnNF_Tc(mkSuperDictSelId uniq clas super_clas ty id_info)
- )
-
-{- SOMETHING LIKE THIS NEEDED? ToDo [WDP]
- tc_clas1 (ClassDecl _ bad_name _ _ _ _ src_loc)
- = failTc (confusedNameErr
- "Bad name for a class (a type constructor, or Prelude name?)"
- bad_name src_loc)
--}
-\end{code}
+ tcExtendTyVarEnv tyvars $
+ -- CHECK THAT THE DEFAULT BINDINGS ARE LEGAL
+ checkDefaultBinds clas op_names def_methods `thenTc` \ dm_info ->
+ checkGenericClassIsUnary clas dm_info `thenTc_`
+
+ -- CHECK THE CONTEXT
+ tcSuperClasses clas context sc_sel_names `thenTc` \ (sc_theta, sc_sel_ids) ->
-%************************************************************************
-%* *
-\subsection[ClassDcl-pass2]{Class decls pass 2: default methods}
-%* *
-%************************************************************************
+ -- CHECK THE CLASS SIGNATURES,
+ mapTc (tcClassSig rec_env clas tyvars dm_info) op_sigs `thenTc` \ sig_stuff ->
-The purpose of pass 2 is
-\begin{enumerate}
-\item
-to beat on the explicitly-provided default-method decls (if any),
-using them to produce a complete set of default-method decls.
-(Omitted ones elicit an error message.)
-\item
-to produce a definition for the selector function for each method
-\end{enumerate}
+ -- MAKE THE CLASS DETAILS
+ let
+ (op_tys, op_items) = unzip sig_stuff
+ sc_tys = mkDictTys sc_theta
+ dict_component_tys = sc_tys ++ op_tys
+
+ dict_con = mkDataCon datacon_name
+ [notMarkedStrict | _ <- dict_component_tys]
+ [{- No labelled fields -}]
+ tyvars
+ [{-No context-}]
+ [{-No existential tyvars-}] [{-Or context-}]
+ dict_component_tys
+ (classTyCon clas)
+ dict_con_id dict_wrap_id
+
+ dict_con_id = mkDataConId datacon_wkr_name dict_con
+ dict_wrap_id = mkDataConWrapId dict_con
+ in
+ returnTc (class_name, ClassDetails sc_theta sc_sel_ids op_items dict_con)
+\end{code}
-Pass~2 only applies to locally-defined class declarations.
+\begin{code}
+checkDefaultBinds :: Class -> [Name] -> RenamedMonoBinds -> TcM (NameEnv (DefMeth Name))
+ -- Check default bindings
+ -- a) must be for a class op for this class
+ -- b) must be all generic or all non-generic
+ -- and return a mapping from class-op to DefMeth info
-The function @tcClassDecls2@ just arranges to apply
-@tcClassDecls2_help@ to each local class decl.
+checkDefaultBinds clas ops EmptyMonoBinds = returnTc emptyNameEnv
-\begin{code}
-tcClassDecls2 e class_info
- = let
- -- Get type variables free in environment. Sadly, there may be
- -- some, because of the dreaded monomorphism restriction
- free_tyvars = tvOfE e
- in
- tcClassDecls2_help e free_tyvars class_info
+checkDefaultBinds clas ops (AndMonoBinds b1 b2)
+ = checkDefaultBinds clas ops b1 `thenTc` \ dm_info1 ->
+ checkDefaultBinds clas ops b2 `thenTc` \ dm_info2 ->
+ returnTc (dm_info1 `plusNameEnv` dm_info2)
+
+checkDefaultBinds clas ops (FunMonoBind op _ matches loc)
+ = tcAddSrcLoc loc $
+
+ -- Check that the op is from this class
+ checkTc (op `elem` ops) (badMethodErr clas op) `thenTc_`
-tcClassDecls2_help
- :: E
- -> [TyVar]
- -> [ClassInfo]
- -> NF_TcM (LIE, TypecheckedBinds)
+ -- Check that all the defns ar generic, or none are
+ checkTc (all_generic || none_generic) (mixedGenericErr op) `thenTc_`
-tcClassDecls2_help e free_tyvars [] = returnNF_Tc (nullLIE, EmptyBinds)
+ -- Make up the right dm_info
+ if all_generic then
+ returnTc (unitNameEnv op GenDefMeth)
+ else
+ -- An explicit non-generic default method
+ newDefaultMethodName op loc `thenNF_Tc` \ dm_name ->
+ returnTc (unitNameEnv op (DefMeth dm_name))
-tcClassDecls2_help e free_tyvars ((ClassInfo clas default_binds) : rest)
- = tcClassDecl2 e free_tyvars clas default_binds `thenNF_Tc` \ (lie1, binds1) ->
- tcClassDecls2_help e free_tyvars rest `thenNF_Tc` \ (lie2, binds2) ->
- returnNF_Tc (lie1 `plusLIE` lie2, binds1 `ThenBinds` binds2)
+ where
+ n_generic = count (maybeToBool . maybeGenericMatch) matches
+ none_generic = n_generic == 0
+ all_generic = n_generic == length matches
+
+checkGenericClassIsUnary clas dm_info
+ = -- Check that if the class has generic methods, then the
+ -- class has only one parameter. We can't do generic
+ -- multi-parameter type classes!
+ checkTc (unary || no_generics) (genericMultiParamErr clas)
+ where
+ unary = length (classTyVars clas) == 1
+ no_generics = null [() | GenDefMeth <- nameEnvElts dm_info]
\end{code}
-@tcClassDecl2@ is the business end of things.
\begin{code}
-tcClassDecl2 :: E
- -> [TyVar] -- Free in the envt
- -> Class
- -> RenamedMonoBinds -- The default decls
- -> NF_TcM (LIE, TypecheckedBinds)
-
-tcClassDecl2 e free_tyvars clas default_binds
- = let
- src_loc = getSrcLoc clas
- origin = ClassDeclOrigin src_loc
- (clas_tyvar_tmpl, scs, sc_sel_ids, ops, op_sel_ids, defm_ids)
- = getClassBigSig clas
+tcSuperClasses :: Class
+ -> RenamedContext -- class context
+ -> [Name] -- Names for superclass selectors
+ -> TcM (ClassContext, -- the superclass context
+ [Id]) -- superclass selector Ids
+
+tcSuperClasses clas context sc_sel_names
+ = -- Check the context.
+ -- The renamer has already checked that the context mentions
+ -- only the type variable of the class decl.
+
+ -- For std Haskell check that the context constrains only tyvars
+ doptsTc Opt_GlasgowExts `thenTc` \ glaExts ->
+ (if glaExts then
+ returnTc ()
+ else
+ mapTc_ check_constraint context
+ ) `thenTc_`
+
+ -- Context is already kind-checked
+ tcClassContext context `thenTc` \ sc_theta ->
+ let
+ sc_sel_ids = [mkDictSelId sc_name clas | sc_name <- sc_sel_names]
in
- -- Prune the substitution when we are finished, and arrange error recovery
- recoverTc (nullLIE, EmptyBinds) (
- addSrcLocTc src_loc (
- pruneSubstTc free_tyvars (
-
- -- Generate bindings for the selector functions
- buildSelectors origin clas clas_tyvar_tmpl scs sc_sel_ids ops op_sel_ids
- `thenNF_Tc` \ sel_binds ->
- -- Ditto for the methods
- buildDefaultMethodBinds e free_tyvars origin clas clas_tyvar_tmpl
- defm_ids default_binds `thenTc` \ (const_insts, meth_binds) ->
-
- -- Back-substitute through the definitions
- applyTcSubstToInsts const_insts `thenNF_Tc` \ final_const_insts ->
- applyTcSubstToBinds (sel_binds `ThenBinds` meth_binds) `thenNF_Tc` \ final_binds ->
- returnTc (mkLIE final_const_insts, final_binds)
- )))
-\end{code}
+ -- Done
+ returnTc (sc_theta, sc_sel_ids)
-%************************************************************************
-%* *
-\subsection[ClassDcl-bld-sels]{Building the selector functions for methods and superclasses}
-%* *
-%************************************************************************
+ where
+ check_constraint sc@(HsPClass c tys)
+ = checkTc (all is_tyvar tys) (superClassErr clas sc)
-\begin{code}
-buildSelectors :: InstOrigin
- -> Class -- The class object
- -> TyVarTemplate -- Class type variable
- -> [Class] -> [Id] -- Superclasses and selectors
- -> [ClassOp] -> [Id] -- Class ops and selectors
- -> NF_TcM TypecheckedBinds
-
-buildSelectors origin clas clas_tyvar_tmpl
- scs sc_sel_ids
- ops op_sel_ids
- =
- -- Instantiate the class variable
- copyTyVars [clas_tyvar_tmpl] `thenNF_Tc` \ (inst_env, [clas_tyvar], [clas_tyvar_ty]) ->
- -- Make an Inst for each class op, and
- -- dicts for the superclasses. These are used to
- -- construct the selector functions
- newClassOpLocals inst_env ops `thenNF_Tc` \ method_ids ->
- newDicts origin [ (super_clas, clas_tyvar_ty)
- | super_clas <- scs
- ] `thenNF_Tc` \ dicts ->
- let dict_ids = map mkInstId dicts in
-
- -- Make suitable bindings for the selectors
- let mk_op_sel op sel_id method_id
- = mkSelExpr origin clas_tyvar dict_ids method_ids method_id `thenNF_Tc` \ rhs ->
- returnNF_Tc (VarMonoBind sel_id rhs)
- mk_sc_sel sc sel_id dict_id
- = mkSelExpr origin clas_tyvar dict_ids method_ids dict_id `thenNF_Tc` \ rhs ->
- returnNF_Tc (VarMonoBind sel_id rhs)
+ is_tyvar (HsTyVar _) = True
+ is_tyvar other = False
+
+
+tcClassSig :: TcEnv -- Knot tying only!
+ -> Class -- ...ditto...
+ -> [TyVar] -- The class type variable, used for error check only
+ -> NameEnv (DefMeth Name) -- Info about default methods
+ -> RenamedClassOpSig
+ -> TcM (Type, -- Type of the method
+ ClassOpItem) -- Selector Id, default-method Id, True if explicit default binding
+
+-- This warrants an explanation: we need to separate generic
+-- default methods and default methods later on in the compiler
+-- so we distinguish them in checkDefaultBinds, and pass this knowledge in the
+-- Class.DefMeth data structure.
+
+tcClassSig rec_env clas clas_tyvars dm_info
+ (ClassOpSig op_name maybe_dm op_ty src_loc)
+ = tcAddSrcLoc src_loc $
+
+ -- Check the type signature. NB that the envt *already has*
+ -- bindings for the type variables; see comments in TcTyAndClassDcls.
+
+ -- NB: Renamer checks that the class type variable is mentioned in local_ty,
+ -- and that it is not constrained by theta
+ tcHsSigType op_ty `thenTc` \ local_ty ->
+ let
+ global_ty = mkSigmaTy clas_tyvars
+ [mkClassPred clas (mkTyVarTys clas_tyvars)]
+ local_ty
+
+ -- Build the selector id and default method id
+ sel_id = mkDictSelId op_name clas
+
+ dm_info_name = maybe_dm `orElse` lookupNameEnv dm_info op_name `orElse` NoDefMeth
+
+ dm_info_id = case dm_info_name of
+ NoDefMeth -> NoDefMeth
+ GenDefMeth -> GenDefMeth
+ DefMeth dm_name -> DefMeth (tcAddImportedIdInfo rec_env dm_id)
+ where
+ dm_id = mkDefaultMethodId dm_name clas global_ty
in
- listNF_Tc (zipWith3 mk_op_sel ops op_sel_ids method_ids) `thenNF_Tc` \ op_sel_binds ->
- listNF_Tc (zipWith3 mk_sc_sel scs sc_sel_ids dict_ids) `thenNF_Tc` \ sc_sel_binds ->
+ -- Check that for a generic method, the type of
+ -- the method is sufficiently simple
+ checkTc (dm_info_name /= GenDefMeth || validGenericMethodType local_ty)
+ (badGenericMethodType op_name op_ty) `thenTc_`
- returnNF_Tc (SingleBind (
- NonRecBind (
- foldr AndMonoBinds EmptyMonoBinds (
- op_sel_binds ++ sc_sel_binds))))
+ returnTc (local_ty, (sel_id, dm_info_id))
\end{code}
+
%************************************************************************
%* *
-\subsection[ClassDcl-misc]{Miscellaneous}
+\subsection[ClassDcl-pass2]{Class decls pass 2: default methods}
%* *
%************************************************************************
-Make a selector expression for @local@ from a dictionary consisting of
-@dicts@ and @op_locals@.
-
-We have to do a bit of jiggery pokery to get the type variables right.
-Suppose we have the class decl:
-\begin{verbatim}
- class Foo a where
- op1 :: Ord b => a -> b -> a
- op2 :: ...
-\end{verbatim}
-Then the method selector for \tr{op1} is like this:
-\begin{verbatim}
- op1_sel = /\ab -> \dFoo -> case dFoo of
- (op1_method,op2_method) -> op1_method b
-\end{verbatim}
-Note that the type variable for \tr{b} is lifted to the top big lambda, and
-\tr{op1_method} is applied to it. This is preferable to the alternative:
-\begin{verbatim}
- op1_sel' = /\a -> \dFoo -> case dFoo of
- (op1_method,op2_method) -> op1_method
-\end{verbatim}
-because \tr{op1_sel'} then has the rather strange type
-\begin{verbatim}
- op1_sel' :: forall a. Foo a -> forall b. Ord b -> a -> b -> a
-\end{verbatim}
-whereas \tr{op1_sel} (the one we use) has the decent type
-\begin{verbatim}
- op1_sel :: forall a b. Foo a -> Ord b -> a -> b -> a
-\end{verbatim}
-
-{\em NOTE:}
-We could do the same thing for the dictionaries, giving
-\begin{verbatim}
- op1_sel = /\ab -> \dFoo -> \dOrd -> case dFoo of
- (m1,m2) -> m1 b dOrd
-\end{verbatim}
-but WE ASSUME THAT DICTIONARY APPLICATION IS CURRIED, so the two are
-precisely equivalent, and have the same type, namely
-\begin{verbatim}
- op1_sel :: forall a b. Foo a -> Ord b -> a -> b -> a
-\end{verbatim}
-
-WDP 95/03: Quite false (``DICTIONARY APPLICATION IS CURRIED'').
-Specialisation now wants to see all type- and dictionary-applications
-absolutely explicitly.
+@mkImplicitClassBinds@ produces a binding for the selector function for each method
+and superclass dictionary.
\begin{code}
-mkSelExpr :: InstOrigin -> TyVar -> [Id] -> [Id] -> Id -> NF_TcM TypecheckedExpr
+mkImplicitClassBinds :: [Class] -> NF_TcM ([Id], TcMonoBinds)
+mkImplicitClassBinds classes
+ = returnNF_Tc (concat cls_ids_s, andMonoBindList binds_s)
+ -- The selector binds are already in the selector Id's unfoldings
+ -- We don't return the data constructor etc from the class,
+ -- because that's done via the class's TyCon
+ where
+ (cls_ids_s, binds_s) = unzip (map mk_implicit classes)
-mkSelExpr origin clas_tyvar dicts op_locals local
- = let
- (op_tyvar_tmpls,local_theta,_) = splitType (getIdUniType local)
- in
- copyTyVars op_tyvar_tmpls `thenNF_Tc` \ (inst_env, op_tyvars, tys) ->
- let
- inst_theta = instantiateThetaTy inst_env local_theta
- in
- newDicts origin inst_theta `thenNF_Tc` \ local_dict_insts ->
- let
- local_dicts = map mkInstId local_dict_insts
- in
- returnNF_Tc (TyLam (clas_tyvar:op_tyvars)
- (ClassDictLam
- dicts
- op_locals
- (mkDictLam local_dicts
- (mkDictApp (mkTyApp (Var local) tys) local_dicts))))
+ mk_implicit clas = (sel_ids, binds)
+ where
+ sel_ids = classSelIds clas
+ binds | isLocallyDefined clas = idsToMonoBinds sel_ids
+ | otherwise = EmptyMonoBinds
\end{code}
+
%************************************************************************
%* *
\subsection[Default methods]{Default methods}
defm.Foo.op1 :: forall a. Foo a => a -> Bool
defm.Foo.op1 = /\a -> \dfoo -> \x -> True
-defm.Foo.op2 :: forall a, b. (Foo a, Ord b) => a -> b -> b -> b
-defm.Foo.op2 = /\ a b -> \ dfoo dord -> \x y z ->
+defm.Foo.op2 :: forall a. Foo a => forall b. Ord b => a -> b -> b -> b
+defm.Foo.op2 = /\ a -> \ dfoo -> /\ b -> \ dord -> \x y z ->
if (op1 a dfoo x) && (< b dord y z) then y else z
\end{verbatim}
-Notice that, like all ids, the foralls of defm.Foo.op2 are at the top.
When we come across an instance decl, we may need to use the default
methods:
const.Foo.Int.op1 = defm.Foo.op1 Int dfun.Foo.Int
const.Foo.Int.op2 :: forall b. Ord b => Int -> b -> b -> b
-const.Foo.Int.op2 = /\b -> defm.Foo.op2 Int b dfun.Foo.Int
+const.Foo.Int.op2 = defm.Foo.op2 Int dfun.Foo.Int
dfun.Foo.Int :: Foo Int
dfun.Foo.Int = (const.Foo.Int.op1, const.Foo.Int.op2)
\end{verbatim}
Notice that, as with method selectors above, we assume that dictionary
application is curried, so there's no need to mention the Ord dictionary
-in const.Foo.Int.op2
+in const.Foo.Int.op2 (or the type variable).
+
\begin{verbatim}
instance Foo a => Foo [a] where {}
= /\ a -> \ dfoo_a ->
let rec
op1 = defm.Foo.op1 [a] dfoo_list
- op2 = /\b -> defm.Foo.op2 [a] b dfoo_list
+ op2 = defm.Foo.op2 [a] dfoo_list
dfoo_list = (op1, op2)
in
dfoo_list
\end{verbatim}
+The function @tcClassDecls2@ just arranges to apply @tcClassDecl2@ to
+each local class decl.
+
\begin{code}
-buildDefaultMethodBinds
- :: E
- -> [TyVar]
- -> InstOrigin
- -> Class
- -> TyVarTemplate
- -> [Id]
- -> RenamedMonoBinds
- -> TcM ([Inst], TypecheckedBinds)
-
-buildDefaultMethodBinds e free_tyvars origin clas clas_tyvar_tmpl
- default_method_ids default_binds
- = -- Deal with the method declarations themselves
- processInstBinds e
- free_tyvars
- (makeClassDeclDefaultMethodRhs clas origin default_method_ids)
- [] -- No tyvars in scope for "this inst decl"
- [] -- No insts available
- default_method_ids
- default_binds `thenTc` \ (dicts_needed, default_binds') ->
-
- returnTc (dicts_needed, SingleBind (NonRecBind default_binds'))
+tcClassDecls2 :: [RenamedHsDecl] -> NF_TcM (LIE, TcMonoBinds)
+
+tcClassDecls2 decls
+ = foldr combine
+ (returnNF_Tc (emptyLIE, EmptyMonoBinds))
+ [tcClassDecl2 cls_decl | TyClD cls_decl <- decls,
+ isClassDecl cls_decl,
+ isLocallyDefined (tyClDeclName cls_decl)]
+ where
+ combine tc1 tc2 = tc1 `thenNF_Tc` \ (lie1, binds1) ->
+ tc2 `thenNF_Tc` \ (lie2, binds2) ->
+ returnNF_Tc (lie1 `plusLIE` lie2,
+ binds1 `AndMonoBinds` binds2)
\end{code}
-@makeClassDeclDefaultMethodRhs@ builds the default method for a
-class declaration when no explicit default method is given.
+@tcClassDecl2@ generates bindings for polymorphic default methods
+(generic default methods have by now turned into instance declarations)
\begin{code}
-makeClassDeclDefaultMethodRhs
+tcClassDecl2 :: RenamedTyClDecl -- The class declaration
+ -> NF_TcM (LIE, TcMonoBinds)
+
+tcClassDecl2 (ClassDecl context class_name
+ tyvar_names _ sigs default_binds pragmas _ src_loc)
+ = -- A locally defined class
+ recoverNF_Tc (returnNF_Tc (emptyLIE, EmptyMonoBinds)) $
+ tcAddSrcLoc src_loc $
+ tcLookupClass class_name `thenNF_Tc` \ clas ->
+
+ -- We make a separate binding for each default method.
+ -- At one time I used a single AbsBinds for all of them, thus
+ -- AbsBind [d] [dm1, dm2, dm3] { dm1 = ...; dm2 = ...; dm3 = ... }
+ -- But that desugars into
+ -- ds = \d -> (..., ..., ...)
+ -- dm1 = \d -> case ds d of (a,b,c) -> a
+ -- And since ds is big, it doesn't get inlined, so we don't get good
+ -- default methods. Better to make separate AbsBinds for each
+ let
+ (tyvars, _, _, op_items) = classBigSig clas
+ prags = filter isPragSig sigs
+ tc_dm = tcDefMeth clas tyvars default_binds prags
+ in
+ mapAndUnzipTc tc_dm op_items `thenTc` \ (defm_binds, const_lies) ->
+
+ returnTc (plusLIEs const_lies, andMonoBindList defm_binds)
+
+
+tcDefMeth clas tyvars binds_in prags (_, NoDefMeth) = returnTc (EmptyMonoBinds, emptyLIE)
+tcDefMeth clas tyvars binds_in prags (_, GenDefMeth) = returnTc (EmptyMonoBinds, emptyLIE)
+ -- Generate code for polymorphic default methods only
+ -- (Generic default methods have turned into instance decls by now.)
+ -- This is incompatible with Hugs, which expects a polymorphic
+ -- default method for every class op, regardless of whether or not
+ -- the programmer supplied an explicit default decl for the class.
+ -- (If necessary we can fix that, but we don't have a convenient Id to hand.)
+
+tcDefMeth clas tyvars binds_in prags op_item@(_, DefMeth dm_id)
+ = tcInstTyVars tyvars `thenNF_Tc` \ (clas_tyvars, inst_tys, _) ->
+ let
+ theta = [(mkClassPred clas inst_tys)]
+ in
+ newDicts origin theta `thenNF_Tc` \ (this_dict, [this_dict_id]) ->
+
+ tcExtendTyVarEnvForMeths tyvars clas_tyvars (
+ tcMethodBind clas origin clas_tyvars inst_tys theta
+ binds_in prags False op_item
+ ) `thenTc` \ (defm_bind, insts_needed, (_, local_dm_id)) ->
+
+ tcAddErrCtxt (defltMethCtxt clas) $
+
+ -- tcMethodBind has checked that the class_tyvars havn't
+ -- been unified with each other or another type, but we must
+ -- still zonk them before passing them to tcSimplifyAndCheck
+ zonkTcSigTyVars clas_tyvars `thenNF_Tc` \ clas_tyvars' ->
+
+ -- Check the context
+ tcSimplifyAndCheck
+ (ptext SLIT("class") <+> ppr clas)
+ (mkVarSet clas_tyvars')
+ this_dict
+ insts_needed `thenTc` \ (const_lie, dict_binds) ->
+
+ let
+ full_bind = AbsBinds
+ clas_tyvars'
+ [this_dict_id]
+ [(clas_tyvars', dm_id, local_dm_id)]
+ emptyNameSet -- No inlines (yet)
+ (dict_binds `andMonoBinds` defm_bind)
+ in
+ returnTc (full_bind, const_lie)
+ where
+ origin = ClassDeclOrigin
+\end{code}
+
+
+
+%************************************************************************
+%* *
+\subsection{Typechecking a method}
+%* *
+%************************************************************************
+
+@tcMethodBind@ is used to type-check both default-method and
+instance-decl method declarations. We must type-check methods one at a
+time, because their signatures may have different contexts and
+tyvar sets.
+
+\begin{code}
+tcMethodBind
:: Class
-> InstOrigin
- -> [Id]
- -> Int
- -> NF_TcM TypecheckedExpr
+ -> [TcTyVar] -- Instantiated type variables for the
+ -- enclosing class/instance decl.
+ -- They'll be signature tyvars, and we
+ -- want to check that they don't get bound
+ -> [TcType] -- Instance types
+ -> TcThetaType -- Available theta; this could be used to check
+ -- the method signature, but actually that's done by
+ -- the caller; here, it's just used for the error message
+ -> RenamedMonoBinds -- Method binding (pick the right one from in here)
+ -> [RenamedSig] -- Pramgas (just for this one)
+ -> Bool -- True <=> This method is from an instance declaration
+ -> ClassOpItem -- The method selector and default-method Id
+ -> TcM (TcMonoBinds, LIE, (LIE, TcId))
+
+tcMethodBind clas origin inst_tyvars inst_tys inst_theta
+ meth_binds prags is_inst_decl (sel_id, dm_info)
+ = tcGetSrcLoc `thenNF_Tc` \ loc ->
+ newMethod origin sel_id inst_tys `thenNF_Tc` \ meth@(_, meth_id) ->
+ mkTcSig meth_id loc `thenNF_Tc` \ sig_info ->
+ let
+ meth_name = idName meth_id
+ sig_msg = ptext SLIT("When checking the expected type for class method") <+> ppr sel_id
+ meth_prags = find_prags (idName sel_id) meth_name prags
+ in
+ -- Figure out what method binding to use
+ -- If the user suppplied one, use it, else construct a default one
+ (case find_bind (idName sel_id) meth_name meth_binds of
+ Just user_bind -> returnTc user_bind
+ Nothing -> mkDefMethRhs is_inst_decl clas inst_tys sel_id loc dm_info `thenTc` \ rhs ->
+ returnTc (FunMonoBind meth_name False -- Not infix decl
+ [mkSimpleMatch [] rhs Nothing loc] loc)
+ ) `thenTc` \ meth_bind ->
+ -- Check the bindings; first add inst_tyvars to the envt
+ -- so that we don't quantify over them in nested places
+ -- The *caller* put the class/inst decl tyvars into the envt
+ tcExtendGlobalTyVars (mkVarSet inst_tyvars)
+ (tcAddErrCtxt (methodCtxt sel_id) $
+ tcBindWithSigs NotTopLevel meth_bind
+ [sig_info] meth_prags NonRecursive
+ ) `thenTc` \ (binds, insts, _) ->
+
+ tcExtendLocalValEnv [(meth_name, meth_id)]
+ (tcSpecSigs meth_prags) `thenTc` \ (prag_binds1, prag_lie) ->
+
+ -- The prag_lie for a SPECIALISE pragma will mention the function
+ -- itself, so we have to simplify them away right now lest they float
+ -- outwards!
+ bindInstsOfLocalFuns prag_lie [meth_id] `thenTc` \ (prag_lie', prag_binds2) ->
+
+ -- Now check that the instance type variables
+ -- (or, in the case of a class decl, the class tyvars)
+ -- have not been unified with anything in the environment
+ --
+ -- We do this for each method independently to localise error messages
+ -- ...and this is why the call to tcExtendGlobalTyVars must be here
+ -- rather than in the caller
+ tcAddErrCtxtM (sigCtxt sig_msg inst_tyvars inst_theta (idType meth_id)) $
+ checkSigTyVars inst_tyvars emptyVarSet `thenTc_`
+
+ returnTc (binds `AndMonoBinds` prag_binds1 `AndMonoBinds` prag_binds2,
+ insts `plusLIE` prag_lie',
+ meth)
+
+ -- The user didn't supply a method binding,
+ -- so we have to make up a default binding
+ -- The RHS of a default method depends on the default-method info
+mkDefMethRhs is_inst_decl clas inst_tys sel_id loc (DefMeth dm_id)
+ = -- An polymorphic default method
+ returnTc (HsVar (idName dm_id))
+
+mkDefMethRhs is_inst_decl clas inst_tys sel_id loc NoDefMeth
+ = -- No default method
+ -- Warn only if -fwarn-missing-methods
+ doptsTc Opt_WarnMissingMethods `thenNF_Tc` \ warn ->
+ warnTc (is_inst_decl && warn)
+ (omittedMethodWarn sel_id clas) `thenNF_Tc_`
+ returnTc error_rhs
+ where
+ error_rhs = HsApp (HsVar (getName nO_METHOD_BINDING_ERROR_ID))
+ (HsLit (HsString (_PK_ error_msg)))
+ error_msg = showSDoc (hcat [ppr loc, text "|", ppr sel_id ])
+
+
+mkDefMethRhs is_inst_decl clas inst_tys sel_id loc GenDefMeth
+ = -- A generic default method
+ -- If the method is defined generically, we can only do the job if the
+ -- instance declaration is for a single-parameter type class with
+ -- a type constructor applied to type arguments in the instance decl
+ -- (checkTc, so False provokes the error)
+ checkTc (not is_inst_decl || simple_inst)
+ (badGenericInstance sel_id clas) `thenTc_`
+
+ ioToTc (dumpIfSet opt_PprStyle_Debug "Generic RHS" stuff) `thenNF_Tc_`
+ returnTc rhs
+ where
+ rhs = mkGenericRhs sel_id clas_tyvar tycon
+
+ stuff = vcat [ppr clas <+> ppr inst_tys,
+ nest 4 (ppr sel_id <+> equals <+> ppr rhs)]
+
+ -- The tycon is only used in the generic case, and in that
+ -- case we require that the instance decl is for a single-parameter
+ -- type class with type variable arguments:
+ -- instance (...) => C (T a b)
+ simple_inst = maybeToBool maybe_tycon
+ clas_tyvar = head (classTyVars clas)
+ Just tycon = maybe_tycon
+ maybe_tycon = case inst_tys of
+ [ty] -> case splitTyConApp_maybe ty of
+ Just (tycon, arg_tys) | all isTyVarTy arg_tys -> Just tycon
+ other -> Nothing
+ other -> Nothing
+\end{code}
-makeClassDeclDefaultMethodRhs clas origin method_ids tag
- = specTy origin (getIdUniType method_id) `thenNF_Tc` \ (tyvars, dicts, tau) ->
- returnNF_Tc (mkTyLam tyvars (
- mkDictLam (map mkInstId dicts) (
- App (mkTyApp (Var pAT_ERROR_ID) [tau])
- (Lit (StringLit (_PK_ error_msg))))))
- where
- method_id = method_ids !! (tag-1)
- class_op = (getClassOps clas) !! (tag-1)
+\begin{code}
+-- The renamer just puts the selector ID as the binder in the method binding
+-- but we must use the method name; so we substitute it here. Crude but simple.
+find_bind sel_name meth_name (FunMonoBind op_name fix matches loc)
+ | op_name == sel_name = Just (FunMonoBind meth_name fix matches loc)
+find_bind sel_name meth_name (AndMonoBinds b1 b2)
+ = find_bind sel_name meth_name b1 `seqMaybe` find_bind sel_name meth_name b2
+find_bind sel_name meth_name other = Nothing -- Default case
+
+ -- Find the prags for this method, and replace the
+ -- selector name with the method name
+find_prags sel_name meth_name [] = []
+find_prags sel_name meth_name (SpecSig name ty loc : prags)
+ | name == sel_name = SpecSig meth_name ty loc : find_prags sel_name meth_name prags
+find_prags sel_name meth_name (InlineSig name phase loc : prags)
+ | name == sel_name = InlineSig meth_name phase loc : find_prags sel_name meth_name prags
+find_prags sel_name meth_name (NoInlineSig name phase loc : prags)
+ | name == sel_name = NoInlineSig meth_name phase loc : find_prags sel_name meth_name prags
+find_prags sel_name meth_name (prag:prags) = find_prags sel_name meth_name prags
+\end{code}
+
+
+Contexts and errors
+~~~~~~~~~~~~~~~~~~~
+\begin{code}
+classArityErr class_name
+ = ptext SLIT("Too many parameters for class") <+> quotes (ppr class_name)
+
+superClassErr clas sc
+ = ptext SLIT("Illegal superclass constraint") <+> quotes (ppr sc)
+ <+> ptext SLIT("in declaration for class") <+> quotes (ppr clas)
+
+defltMethCtxt clas
+ = ptext SLIT("When checking the default methods for class") <+> quotes (ppr clas)
+
+methodCtxt sel_id
+ = ptext SLIT("In the definition for method") <+> quotes (ppr sel_id)
+
+badMethodErr clas op
+ = hsep [ptext SLIT("Class"), quotes (ppr clas),
+ ptext SLIT("does not have a method"), quotes (ppr op)]
+
+omittedMethodWarn sel_id clas
+ = sep [ptext SLIT("No explicit method nor default method for") <+> quotes (ppr sel_id),
+ ptext SLIT("in an instance declaration for") <+> quotes (ppr clas)]
+
+badGenericMethodType op op_ty
+ = hang (ptext SLIT("Generic method type is too complex"))
+ 4 (vcat [ppr op <+> dcolon <+> ppr op_ty,
+ ptext SLIT("You can only use type variables, arrows, and tuples")])
- error_msg = "%D" -- => No default method for \"
- ++ unencoded_part_of_msg
+badGenericInstance sel_id clas
+ = sep [ptext SLIT("Can't derive generic code for") <+> quotes (ppr sel_id),
+ ptext SLIT("because the instance declaration is not for a simple type (T a b c)"),
+ ptext SLIT("(where T is a derivable type constructor)"),
+ ptext SLIT("in an instance declaration for") <+> quotes (ppr clas)]
- unencoded_part_of_msg = escErrorMsg (
- _UNPK_ clas_mod ++ "." ++ _UNPK_ clas_name ++ "."
- ++ (ppShow 80 (ppr PprForUser class_op))
- ++ "\"" )
+mixedGenericErr op
+ = ptext SLIT("Can't mix generic and non-generic equations for class method") <+> quotes (ppr op)
- (clas_mod, clas_name) = getOrigName clas
+genericMultiParamErr clas
+ = ptext SLIT("The multi-parameter class") <+> quotes (ppr clas) <+>
+ ptext SLIT("cannot have generic methods")
\end{code}