import NameSet
import TyCon
import TcType
+import BuildTyCl
+import BasicTypes
import Var
import VarSet
import PrelNames
import SrcLoc
+import UniqSupply
import Util
import ListSetOps
import Outputable
ds_cls = c, ds_tys = tys, ds_theta = rhs })
= parens (hsep [ppr l, ppr n, ppr tvs, ppr c, ppr tys]
<+> equals <+> ppr rhs)
+
+instance Outputable DerivSpec where
+ ppr = pprDerivSpec
\end{code}
tcDeriving :: [LTyClDecl Name] -- All type constructors
-> [LInstDecl Name] -- All instance declarations
-> [LDerivDecl Name] -- All stand-alone deriving declarations
- -> TcM ([InstInfo Name], -- The generated "instance decls"
- HsValBinds Name, -- Extra generated top-level bindings
- DefUses)
+ -> TcM ([InstInfo Name] -- The generated "instance decls"
+ ,HsValBinds Name -- Extra generated top-level bindings
+ ,DefUses
+ ,[TyCon] -- Extra generated top-level types
+ ,[TyCon]) -- Extra generated type family instances
tcDeriving tycl_decls inst_decls deriv_decls
- = recoverM (return ([], emptyValBindsOut, emptyDUs)) $
+ = recoverM (return ([], emptyValBindsOut, emptyDUs, [], [])) $
do { -- Fish the "deriving"-related information out of the TcEnv
-- And make the necessary "equations".
is_boot <- tcIsHsBoot
; traceTc "tcDeriving" (ppr is_boot)
- ; early_specs <- makeDerivSpecs is_boot tycl_decls inst_decls deriv_decls
+ ; (early_specs, genericsExtras)
+ <- makeDerivSpecs is_boot tycl_decls inst_decls deriv_decls
+ ; let (repMetaTys, repTyCons, metaInsts) = unzip3 genericsExtras
; overlap_flag <- getOverlapFlag
; let (infer_specs, given_specs) = splitEithers early_specs
; insts2 <- mapM (genInst False overlap_flag) final_specs
- -- Generate the generic to/from functions from each type declaration
- ; gen_binds <- mkGenericBinds is_boot tycl_decls
- ; (inst_info, rn_binds, rn_dus) <- renameDeriv is_boot gen_binds (insts1 ++ insts2)
+ -- We no longer generate the old generic to/from functions
+ -- from each type declaration, so this is emptyBag
+ ; gen_binds <- return emptyBag -- mkGenericBinds is_boot tycl_decls
+
+{-
+ -- Generate the generic Representable0 instances
+ -- from each type declaration
+ ; repInstsMeta <- genGenericRepBinds is_boot tycl_decls
+
+ ; let repInsts = concat (map (\(a,_,_) -> a) repInstsMeta)
+ repMetaTys = map (\(_,b,_) -> b) repInstsMeta
+ repTyCons = map (\(_,_,c) -> c) repInstsMeta
+-}
+ ; (inst_info, rn_binds, rn_dus)
+ <- renameDeriv is_boot gen_binds (insts1 ++ insts2 ++ concat metaInsts {- ++ repInsts -})
; dflags <- getDOpts
; liftIO (dumpIfSet_dyn dflags Opt_D_dump_deriv "Derived instances"
(ddump_deriving inst_info rn_binds))
-
- ; return (inst_info, rn_binds, rn_dus) }
+{-
+ ; when (not (null inst_info)) $
+ dumpDerivingInfo (ddump_deriving inst_info rn_binds)
+-}
+ ; return ( inst_info, rn_binds, rn_dus
+ , concat (map metaTyCons2TyCons repMetaTys), repTyCons) }
where
ddump_deriving :: [InstInfo Name] -> HsValBinds Name -> SDoc
ddump_deriving inst_infos extra_binds
- = vcat (map pprInstInfoDetails inst_infos) $$ ppr extra_binds
+ = hang (ptext (sLit "Derived instances"))
+ 2 (vcat (map (\i -> pprInstInfoDetails i $$ text "") inst_infos)
+ $$ ppr extra_binds)
+
renameDeriv :: Bool -> LHsBinds RdrName
-> [(InstInfo RdrName, DerivAuxBinds)]
, mkFVs (map dataConName (tyConDataCons tc)))
-- See Note [Newtype deriving and unused constructors]
- rn_inst_info (InstInfo { iSpec = inst, iBinds = VanillaInst binds sigs standalone_deriv })
+ rn_inst_info inst_info@(InstInfo { iSpec = inst, iBinds = VanillaInst binds sigs standalone_deriv })
= -- Bring the right type variables into
-- scope (yuk), and rename the method binds
ASSERT( null sigs )
bindLocalNames (map Var.varName tyvars) $
- do { (rn_binds, fvs) <- rnMethodBinds clas_nm (\_ -> []) [] binds
+ do { (rn_binds, fvs) <- rnMethodBinds clas_nm (\_ -> []) binds
; let binds' = VanillaInst rn_binds [] standalone_deriv
- ; return (InstInfo { iSpec = inst, iBinds = binds' }, fvs) }
+ ; return (inst_info { iBinds = binds' }, fvs) }
where
(tyvars,_, clas,_) = instanceHead inst
clas_nm = className clas
-----------------------------------------
+{- Now unused
mkGenericBinds :: Bool -> [LTyClDecl Name] -> TcM (LHsBinds RdrName)
mkGenericBinds is_boot tycl_decls
| is_boot
-- We are only interested in the data type declarations,
-- and then only in the ones whose 'has-generics' flag is on
-- The predicate tyConHasGenerics finds both of these
+-}
\end{code}
Note [Newtype deriving and unused constructors]
@makeDerivSpecs@ fishes around to find the info about needed derived instances.
\begin{code}
+{-
+-- Make the EarlyDerivSpec for Representable0
+mkGenDerivSpec :: TyCon -> TcRn (EarlyDerivSpec)
+mkGenDerivSpec tc = do
+ { cls <- tcLookupClass rep0ClassName
+ ; let tc_tvs = tyConTyVars tc
+ ; let tc_app = mkTyConApp tc (mkTyVarTys tc_tvs)
+ ; let cls_tys = []
+ ; let mtheta = Just []
+ ; ds <- mkEqnHelp StandAloneDerivOrigin tc_tvs cls cls_tys tc_app mtheta
+ -- JPM TODO: StandAloneDerivOrigin?...
+ ; return ds }
+-}
+-- Make the "extras" for the generic representation
+mkGenDerivExtras :: TyCon
+ -> TcRn (MetaTyCons, TyCon, [(InstInfo RdrName, DerivAuxBinds)])
+mkGenDerivExtras tc = do
+ { (metaTyCons, rep0TyInst) <- genGenericRepExtras tc
+ ; metaInsts <- genDtMeta (tc, metaTyCons)
+ ; return (metaTyCons, rep0TyInst, metaInsts) }
+
makeDerivSpecs :: Bool
-> [LTyClDecl Name]
- -> [LInstDecl Name]
+ -> [LInstDecl Name]
-> [LDerivDecl Name]
- -> TcM [EarlyDerivSpec]
-
+ -> TcM ( [EarlyDerivSpec]
+ , [(MetaTyCons, TyCon, [(InstInfo RdrName, DerivAuxBinds)])])
makeDerivSpecs is_boot tycl_decls inst_decls deriv_decls
| is_boot -- No 'deriving' at all in hs-boot files
= do { mapM_ add_deriv_err deriv_locs
- ; return [] }
+ ; return ([],[]) }
| otherwise
= do { eqns1 <- mapAndRecoverM deriveTyData all_tydata
; eqns2 <- mapAndRecoverM deriveStandalone deriv_decls
- ; return (eqns1 ++ eqns2) }
+ -- Generate EarlyDerivSpec's for Representable, if asked for
+ -- ; (xGenerics, xDerRep) <- genericsFlags
+ ; xDerRep <- genericsFlag
+ ; let allTyNames = [ tcdName d | L _ d <- tycl_decls, isDataDecl d ]
+ -- ; allTyDecls <- mapM tcLookupTyCon allTyNames
+ -- Select only those types that derive Representable
+ ; let sel_tydata = [ tcdName t | (L _ c, L _ t) <- all_tydata
+ , getClassName c == Just rep0ClassName ]
+ ; let sel_deriv_decls = catMaybes [ getTypeName t
+ | L _ (DerivDecl (L _ t)) <- deriv_decls
+ , getClassName t == Just rep0ClassName ]
+ ; derTyDecls <- mapM tcLookupTyCon $
+ filter (needsExtras xDerRep
+ (sel_tydata ++ sel_deriv_decls)) allTyNames
+ -- We need to generate the extras to add to what has
+ -- already been derived
+ ; generic_extras_deriv <- mapM mkGenDerivExtras derTyDecls
+ -- For the remaining types, if Generics is on, we need to
+ -- generate both the instances and the extras, but only for the
+ -- types we can represent.
+{-
+ ; let repTyDecls = filter canDoGenerics allTyDecls
+ ; let remTyDecls = filter (\x -> not (x `elem` derTyDecls)) repTyDecls
+ ; generic_instances <- if xGenerics
+ then mapM mkGenDerivSpec remTyDecls
+ else return []
+ ; generic_extras_flag <- if xGenerics
+ then mapM mkGenDerivExtras remTyDecls
+ else return []
+-}
+ -- Merge and return everything
+ ; return ( eqns1 ++ eqns2 -- ++ generic_instances
+ , generic_extras_deriv {- ++ generic_extras_flag -}) }
where
+ -- We need extras if the flag DeriveRepresentable is on and this type is
+ -- deriving Representable
+ needsExtras xDerRep tydata tc_name = xDerRep && tc_name `elem` tydata
+
+ -- Extracts the name of the class in the deriving
+ getClassName :: HsType Name -> Maybe Name
+ getClassName (HsPredTy (HsClassP n _)) = Just n
+ getClassName _ = Nothing
+
+ -- Extracts the name of the type in the deriving
+ getTypeName :: HsType Name -> Maybe Name
+ getTypeName (HsTyVar n) = Just n
+ getTypeName (HsOpTy _ (L _ n) _) = Just n
+ getTypeName (HsPredTy (HsClassP _ [L _ n])) = getTypeName n
+ getTypeName _ = Nothing
+
extractTyDataPreds decls
= [(p, d) | d@(L _ (TyData {tcdDerivs = Just preds})) <- decls, p <- preds]
addErr (hang (ptext (sLit "Deriving not permitted in hs-boot file"))
2 (ptext (sLit "Use an instance declaration instead")))
+genericsFlag :: TcM Bool
+genericsFlag = do dOpts <- getDOpts
+ return ( xopt Opt_Generics dOpts
+ || xopt Opt_DeriveRepresentable dOpts)
+
------------------------------------------------------------------
deriveStandalone :: LDerivDecl Name -> TcM EarlyDerivSpec
-- Standalone deriving declarations
= setSrcSpan loc $
addErrCtxt (standaloneCtxt deriv_ty) $
do { traceTc "Standalone deriving decl for" (ppr deriv_ty)
- ; (tvs, theta, tau) <- tcHsInstHead deriv_ty
+ ; (tvs, theta, cls, inst_tys) <- tcHsInstHead deriv_ty
; traceTc "Standalone deriving;" $ vcat
[ text "tvs:" <+> ppr tvs
, text "theta:" <+> ppr theta
- , text "tau:" <+> ppr tau ]
- ; (cls, inst_tys) <- checkValidInstance deriv_ty tvs theta tau
+ , text "cls:" <+> ppr cls
+ , text "tys:" <+> ppr inst_tys ]
+ ; checkValidInstance deriv_ty tvs theta cls inst_tys
-- C.f. TcInstDcls.tcLocalInstDecl1
; let cls_tys = take (length inst_tys - 1) inst_tys
mkEqnHelp orig tvs cls cls_tys tc_app mtheta
| Just (tycon, tc_args) <- tcSplitTyConApp_maybe tc_app
, isAlgTyCon tycon -- Check for functions, primitive types etc
- = do { (rep_tc, rep_tc_args) <- tcLookupDataFamInst tycon tc_args
- -- Be careful to test rep_tc here: in the case of families,
- -- we want to check the instance tycon, not the family tycon
-
- -- For standalone deriving (mtheta /= Nothing),
- -- check that all the data constructors are in scope.
- -- No need for this when deriving Typeable, becuase we don't need
- -- the constructors for that.
- ; rdr_env <- getGlobalRdrEnv
- ; let hidden_data_cons = isAbstractTyCon rep_tc || any not_in_scope (tyConDataCons rep_tc)
- not_in_scope dc = null (lookupGRE_Name rdr_env (dataConName dc))
- ; checkTc (isNothing mtheta ||
- not hidden_data_cons ||
- className cls `elem` typeableClassNames)
- (derivingHiddenErr tycon)
-
- ; dflags <- getDOpts
- ; if isDataTyCon rep_tc then
- mkDataTypeEqn orig dflags tvs cls cls_tys
- tycon tc_args rep_tc rep_tc_args mtheta
- else
- mkNewTypeEqn orig dflags tvs cls cls_tys
- tycon tc_args rep_tc rep_tc_args mtheta }
+ = mk_alg_eqn tycon tc_args
| otherwise
= failWithTc (derivingThingErr False cls cls_tys tc_app
(ptext (sLit "The last argument of the instance must be a data or newtype application")))
+
+ where
+ bale_out msg = failWithTc (derivingThingErr False cls cls_tys tc_app msg)
+
+ mk_alg_eqn tycon tc_args
+ | className cls `elem` typeableClassNames
+ = do { dflags <- getDOpts
+ ; case checkTypeableConditions (dflags, tycon) of
+ Just err -> bale_out err
+ Nothing -> mk_typeable_eqn orig tvs cls tycon tc_args mtheta }
+
+ | isDataFamilyTyCon tycon
+ , length tc_args /= tyConArity tycon
+ = bale_out (ptext (sLit "Unsaturated data family application"))
+
+ | otherwise
+ = do { (rep_tc, rep_tc_args) <- tcLookupDataFamInst tycon tc_args
+ -- Be careful to test rep_tc here: in the case of families,
+ -- we want to check the instance tycon, not the family tycon
+
+ -- For standalone deriving (mtheta /= Nothing),
+ -- check that all the data constructors are in scope.
+ ; rdr_env <- getGlobalRdrEnv
+ ; let hidden_data_cons = isAbstractTyCon rep_tc ||
+ any not_in_scope (tyConDataCons rep_tc)
+ not_in_scope dc = null (lookupGRE_Name rdr_env (dataConName dc))
+ ; unless (isNothing mtheta || not hidden_data_cons)
+ (bale_out (derivingHiddenErr tycon))
+
+ ; dflags <- getDOpts
+ ; if isDataTyCon rep_tc then
+ mkDataTypeEqn orig dflags tvs cls cls_tys
+ tycon tc_args rep_tc rep_tc_args mtheta
+ else
+ mkNewTypeEqn orig dflags tvs cls cls_tys
+ tycon tc_args rep_tc rep_tc_args mtheta }
\end{code}
go_for_it = mk_data_eqn orig tvs cls tycon tc_args rep_tc rep_tc_args mtheta
bale_out msg = failWithTc (derivingThingErr False cls cls_tys (mkTyConApp tycon tc_args) msg)
-mk_data_eqn, mk_typeable_eqn
- :: CtOrigin -> [TyVar] -> Class
- -> TyCon -> [TcType] -> TyCon -> [TcType] -> DerivContext
- -> TcM EarlyDerivSpec
+mk_data_eqn :: CtOrigin -> [TyVar] -> Class
+ -> TyCon -> [TcType] -> TyCon -> [TcType] -> DerivContext
+ -> TcM EarlyDerivSpec
mk_data_eqn orig tvs cls tycon tc_args rep_tc rep_tc_args mtheta
- | getName cls `elem` typeableClassNames
- = mk_typeable_eqn orig tvs cls tycon tc_args rep_tc rep_tc_args mtheta
-
- | otherwise
= do { dfun_name <- new_dfun_name cls tycon
; loc <- getSrcSpanM
; let inst_tys = [mkTyConApp tycon tc_args]
; return (if isJust mtheta then Right spec -- Specified context
else Left spec) } -- Infer context
-mk_typeable_eqn orig tvs cls tycon tc_args rep_tc rep_tc_args mtheta
+----------------------
+mk_typeable_eqn :: CtOrigin -> [TyVar] -> Class
+ -> TyCon -> [TcType] -> DerivContext
+ -> TcM EarlyDerivSpec
+mk_typeable_eqn orig tvs cls tycon tc_args mtheta
-- The Typeable class is special in several ways
-- data T a b = ... deriving( Typeable )
-- gives
= do { checkTc (cls `hasKey` typeableClassKey)
(ptext (sLit "Use deriving( Typeable ) on a data type declaration"))
; real_cls <- tcLookupClass (typeableClassNames !! tyConArity tycon)
- ; mk_typeable_eqn orig tvs real_cls tycon [] rep_tc [] (Just []) }
+ ; mk_typeable_eqn orig tvs real_cls tycon [] (Just []) }
| otherwise -- standaone deriving
= do { checkTc (null tc_args)
; return (Right $
DS { ds_loc = loc, ds_orig = orig, ds_name = dfun_name, ds_tvs = []
, ds_cls = cls, ds_tys = [mkTyConApp tycon []]
- , ds_tc = rep_tc, ds_tc_args = rep_tc_args
+ , ds_tc = tycon, ds_tc_args = []
, ds_theta = mtheta `orElse` [], ds_newtype = False }) }
-
+----------------------
inferConstraints :: [TyVar] -> Class -> [TcType] -> TyCon -> [TcType] -> ThetaType
-- Generate a sufficiently large set of constraints that typechecking the
-- generated method definitions should succeed. This set will be simplified
-- before being used in the instance declaration
inferConstraints _ cls inst_tys rep_tc rep_tc_args
+ -- Representable0 constraints are easy
+ | cls `hasKey` rep0ClassKey
+ = []
+ -- The others are a bit more complicated
+ | otherwise
= ASSERT2( equalLength rep_tc_tvs all_rep_tc_args, ppr cls <+> ppr rep_tc )
stupid_constraints ++ extra_constraints
++ sc_constraints ++ con_arg_constraints
get_constrained_tys :: [Type] -> [Type]
get_constrained_tys tys
- | is_functor_like = concatMap (deepSubtypesContaining last_tv) tys
+ | is_functor_like = concatMap (deepSubtypesContaining last_tv) tys
| otherwise = tys
rep_tc_tvs = tyConTyVars rep_tc
where
ty_args_why = quotes (ppr (mkClassPred cls cls_tys)) <+> ptext (sLit "is not a class")
+checkTypeableConditions :: Condition
+checkTypeableConditions = checkFlag Opt_DeriveDataTypeable `andCond` cond_typeableOK
+
nonStdErr :: Class -> SDoc
nonStdErr cls = quotes (ppr cls) <+> ptext (sLit "is not a derivable class")
cond_functorOK False) -- Functor/Fold/Trav works ok for rank-n types
| cls_key == traversableClassKey = Just (checkFlag Opt_DeriveTraversable `andCond`
cond_functorOK False)
- | getName cls `elem` typeableClassNames = Just (checkFlag Opt_DeriveDataTypeable `andCond` cond_typeableOK)
+ | cls_key == rep0ClassKey = Just (cond_RepresentableOk `andCond`
+ (checkFlag Opt_DeriveRepresentable `orCond`
+ checkFlag Opt_Generics))
| otherwise = Nothing
where
cls_key = getUnique cls
Nothing -> Nothing -- c1 succeeds
Just x -> case c2 tc of -- c1 fails
Nothing -> Nothing
- Just y -> Just (x $$ ptext (sLit " and") $$ y)
+ Just y -> Just (x $$ ptext (sLit " or") $$ y)
-- Both fail
andCond :: Condition -> Condition -> Condition
no_cons_why rep_tc = quotes (pprSourceTyCon rep_tc) <+>
ptext (sLit "has no data constructors")
+-- JPM TODO: should give better error message
+cond_RepresentableOk :: Condition
+cond_RepresentableOk (_,t) | canDoGenerics t = Nothing
+ | otherwise = Just (ptext (sLit "Cannot derive Representable for type") <+> ppr t)
+
cond_enumOrProduct :: Condition
cond_enumOrProduct = cond_isEnumeration `orCond`
(cond_isProduct `andCond` cond_noUnliftedArgs)
where
why = sep [ quotes (pprSourceTyCon rep_tc) <+>
ptext (sLit "is not an enumeration type")
- , nest 2 $ ptext (sLit "(an enumeration consists of one or more nullary constructors)") ]
+ , ptext (sLit "(an enumeration consists of one or more nullary, non-GADT constructors)") ]
-- See Note [Enumeration types] in TyCon
cond_isProduct :: Condition
-- OK for Typeable class
-- Currently: (a) args all of kind *
-- (b) 7 or fewer args
-cond_typeableOK (_, rep_tc)
- | tyConArity rep_tc > 7 = Just too_many
- | not (all (isSubArgTypeKind . tyVarKind) (tyConTyVars rep_tc))
- = Just bad_kind
- | isFamInstTyCon rep_tc = Just fam_inst -- no Typable for family insts
- | otherwise = Nothing
+cond_typeableOK (_, tc)
+ | tyConArity tc > 7 = Just too_many
+ | not (all (isSubArgTypeKind . tyVarKind) (tyConTyVars tc))
+ = Just bad_kind
+ | otherwise = Nothing
where
- too_many = quotes (pprSourceTyCon rep_tc) <+>
+ too_many = quotes (pprSourceTyCon tc) <+>
ptext (sLit "has too many arguments")
- bad_kind = quotes (pprSourceTyCon rep_tc) <+>
+ bad_kind = quotes (pprSourceTyCon tc) <+>
ptext (sLit "has arguments of kind other than `*'")
- fam_inst = quotes (pprSourceTyCon rep_tc) <+>
- ptext (sLit "is a type family")
-
functorLikeClassKeys :: [Unique]
functorLikeClassKeys = [functorClassKey, foldableClassKey, traversableClassKey]
-- (c) don't use argument in the wrong place, e.g. data T a = T (X a a)
-- (d) optionally: don't use function types
-- (e) no "stupid context" on data type
-cond_functorOK allowFunctions (dflags, rep_tc)
- | not (xopt Opt_DeriveFunctor dflags)
- = Just (ptext (sLit "You need -XDeriveFunctor to derive an instance for this class"))
-
+cond_functorOK allowFunctions (_, rep_tc)
| null tc_tvs
= Just (ptext (sLit "Data type") <+> quotes (ppr rep_tc)
<+> ptext (sLit "has no parameters"))
non_iso_class :: Class -> Bool
--- *Never* derive Read,Show,Typeable,Data by isomorphism,
+-- *Never* derive Read,Show,Typeable,Data,Representable0 by isomorphism,
-- even with -XGeneralizedNewtypeDeriving
non_iso_class cls
- = classKey cls `elem` ([readClassKey, showClassKey, dataClassKey] ++
- typeableClassKeys)
+ = classKey cls `elem` ([ readClassKey, showClassKey, dataClassKey
+ , rep0ClassKey] ++ typeableClassKeys)
typeableClassKeys :: [Unique]
typeableClassKeys = map getUnique typeableClassNames
gen_soln (DS { ds_loc = loc, ds_orig = orig, ds_tvs = tyvars
, ds_cls = clas, ds_tys = inst_tys, ds_theta = deriv_rhs })
= setSrcSpan loc $
- addErrCtxt (derivInstCtxt clas inst_tys) $
+ addErrCtxt (derivInstCtxt the_pred) $
do { -- Check for a bizarre corner case, when the derived instance decl should
-- have form instance C a b => D (T a) where ...
-- Note that 'b' isn't a parameter of T. This gives rise to all sorts
, not (tyVarsOfPred pred `subVarSet` tv_set)]
; mapM_ (addErrTc . badDerivedPred) weird_preds
- ; theta <- simplifyDeriv orig tyvars deriv_rhs
+ ; theta <- simplifyDeriv orig the_pred tyvars deriv_rhs
-- checkValidInstance tyvars theta clas inst_tys
-- Not necessary; see Note [Exotic derived instance contexts]
-- in TcSimplify
-- Hence no need to call:
-- checkValidInstance tyvars theta clas inst_tys
; return (sortLe (<=) theta) } -- Canonicalise before returning the solution
+ where
+ the_pred = mkClassPred clas inst_tys
------------------------------------------------------------------
mkInstance :: OverlapFlag -> ThetaType -> DerivSpec -> Instance
genInst :: Bool -- True <=> standalone deriving
-> OverlapFlag
-> DerivSpec -> TcM (InstInfo RdrName, DerivAuxBinds)
-genInst standalone_deriv oflag spec
- | ds_newtype spec
- = return (InstInfo { iSpec = mkInstance oflag (ds_theta spec) spec
- , iBinds = NewTypeDerived co rep_tycon }, [])
+genInst standalone_deriv oflag
+ spec@(DS { ds_tc = rep_tycon, ds_tc_args = rep_tc_args
+ , ds_theta = theta, ds_newtype = is_newtype
+ , ds_name = name, ds_cls = clas })
+ | is_newtype
+ = return (InstInfo { iSpec = inst_spec
+ , iBinds = NewTypeDerived co rep_tycon }, [])
| otherwise
- = do { let loc = getSrcSpan (ds_name spec)
- inst = mkInstance oflag (ds_theta spec) spec
- clas = ds_cls spec
-
- -- In case of a family instance, we need to use the representation
- -- tycon (after all, it has the data constructors)
- ; fix_env <- getFixityEnv
- ; let (meth_binds, aux_binds) = genDerivBinds loc fix_env clas rep_tycon
- binds = VanillaInst meth_binds [] standalone_deriv
- ; return (InstInfo { iSpec = inst, iBinds = binds }, aux_binds)
- }
+ = do { fix_env <- getFixityEnv
+ ; let loc = getSrcSpan name
+ (meth_binds, aux_binds) = genDerivBinds loc fix_env clas rep_tycon
+ -- In case of a family instance, we need to use the representation
+ -- tycon (after all, it has the data constructors)
+
+ ; return (InstInfo { iSpec = inst_spec
+ , iBinds = VanillaInst meth_binds [] standalone_deriv }
+ , aux_binds) }
where
- rep_tycon = ds_tc spec
- rep_tc_args = ds_tc_args spec
+ inst_spec = mkInstance oflag theta spec
co1 = case tyConFamilyCoercion_maybe rep_tycon of
Just co_con -> ACo (mkTyConApp co_con rep_tc_args)
Nothing -> id_co
Nothing -> pprPanic "genDerivBinds: bad derived class" (ppr clas)
where
gen_list :: [(Unique, SrcSpan -> TyCon -> (LHsBinds RdrName, DerivAuxBinds))]
- gen_list = [(eqClassKey, gen_Eq_binds)
- ,(ordClassKey, gen_Ord_binds)
- ,(enumClassKey, gen_Enum_binds)
- ,(boundedClassKey, gen_Bounded_binds)
- ,(ixClassKey, gen_Ix_binds)
- ,(showClassKey, gen_Show_binds fix_env)
- ,(readClassKey, gen_Read_binds fix_env)
- ,(dataClassKey, gen_Data_binds)
- ,(functorClassKey, gen_Functor_binds)
- ,(foldableClassKey, gen_Foldable_binds)
- ,(traversableClassKey, gen_Traversable_binds)
+ gen_list = [(eqClassKey, gen_Eq_binds)
+ ,(ordClassKey, gen_Ord_binds)
+ ,(enumClassKey, gen_Enum_binds)
+ ,(boundedClassKey, gen_Bounded_binds)
+ ,(ixClassKey, gen_Ix_binds)
+ ,(showClassKey, gen_Show_binds fix_env)
+ ,(readClassKey, gen_Read_binds fix_env)
+ ,(dataClassKey, gen_Data_binds)
+ ,(functorClassKey, gen_Functor_binds)
+ ,(foldableClassKey, gen_Foldable_binds)
+ ,(traversableClassKey, gen_Traversable_binds)
+ ,(rep0ClassKey, gen_Rep0_binds)
]
\end{code}
+%************************************************************************
+%* *
+\subsection[TcDeriv-generic-binds]{Bindings for the new generic deriving mechanism}
+%* *
+%************************************************************************
+
+For the generic representation we need to generate:
+\begin{itemize}
+\item A Representable0 instance
+\item A Rep0 type instance
+\item Many auxiliary datatypes and instances for them (for the meta-information)
+\end{itemize}
+
+@gen_Rep0_binds@ does (1)
+@genGenericRepExtras@ does (2) and (3)
+@genGenericRepBind@ does all of them
+
+\begin{code}
+{-
+genGenericRepBinds :: Bool -> [LTyClDecl Name]
+ -> TcM [([(InstInfo RdrName, DerivAuxBinds)]
+ , MetaTyCons, TyCon)]
+genGenericRepBinds isBoot tyclDecls
+ | isBoot = return []
+ | otherwise = do
+ allTyDecls <- mapM tcLookupTyCon [ tcdName d | L _ d <- tyclDecls
+ , isDataDecl d ]
+ let tyDecls = filter tyConHasGenerics allTyDecls
+ inst1 <- mapM genGenericRepBind tyDecls
+ let (_repInsts, metaTyCons, _repTys) = unzip3 inst1
+ metaInsts <- ASSERT (length tyDecls == length metaTyCons)
+ mapM genDtMeta (zip tyDecls metaTyCons)
+ return (ASSERT (length inst1 == length metaInsts)
+ [ (ri : mi, ms, rt)
+ | ((ri, ms, rt), mi) <- zip inst1 metaInsts ])
+-}
+
+gen_Rep0_binds :: SrcSpan -> TyCon -> (LHsBinds RdrName, DerivAuxBinds)
+gen_Rep0_binds _ tc = (mkBindsRep0 tc, [ {- No DerivAuxBinds -} ])
+
+genGenericRepExtras :: TyCon -> TcM (MetaTyCons, TyCon)
+genGenericRepExtras tc =
+ do uniqS <- newUniqueSupply
+ let
+ -- Uniques for everyone
+ (uniqD:uniqs) = uniqsFromSupply uniqS
+ (uniqsC,us) = splitAt (length tc_cons) uniqs
+ uniqsS :: [[Unique]] -- Unique supply for the S datatypes
+ uniqsS = mkUniqsS tc_arits us
+ mkUniqsS [] _ = []
+ mkUniqsS (n:t) us = case splitAt n us of
+ (us1,us2) -> us1 : mkUniqsS t us2
+
+ tc_name = tyConName tc
+ tc_cons = tyConDataCons tc
+ tc_arits = map dataConSourceArity tc_cons
+
+ tc_occ = nameOccName tc_name
+ d_occ = mkGenD tc_occ
+ c_occ m = mkGenC tc_occ m
+ s_occ m n = mkGenS tc_occ m n
+ mod_name = nameModule (tyConName tc)
+ d_name = mkExternalName uniqD mod_name d_occ wiredInSrcSpan
+ c_names = [ mkExternalName u mod_name (c_occ m) wiredInSrcSpan
+ | (u,m) <- zip uniqsC [0..] ]
+ s_names = [ [ mkExternalName u mod_name (s_occ m n) wiredInSrcSpan
+ | (u,n) <- zip us [0..] ] | (us,m) <- zip uniqsS [0..] ]
+
+ mkTyCon name = ASSERT( isExternalName name )
+ buildAlgTyCon name [] [] mkAbstractTyConRhs
+ NonRecursive False NoParentTyCon Nothing
+
+ metaDTyCon <- mkTyCon d_name
+ metaCTyCons <- sequence [ mkTyCon c_name | c_name <- c_names ]
+ metaSTyCons <- mapM sequence
+ [ [ mkTyCon s_name
+ | s_name <- s_namesC ] | s_namesC <- s_names ]
+
+ let metaDts = MetaTyCons metaDTyCon metaCTyCons metaSTyCons
+
+ rep0_tycon <- tc_mkRep0TyCon tc metaDts
+
+ return (metaDts, rep0_tycon)
+{-
+genGenericRepBind :: TyCon
+ -> TcM ((InstInfo RdrName, DerivAuxBinds), MetaTyCons, TyCon)
+genGenericRepBind tc =
+ do (metaDts, rep0_tycon) <- genGenericRepExtras tc
+ clas <- tcLookupClass rep0ClassName
+ dfun_name <- new_dfun_name clas tc
+ let
+ mkInstRep0 = (InstInfo { iSpec = inst, iBinds = binds }
+ , [ {- No DerivAuxBinds -} ])
+ inst = mkLocalInstance dfun NoOverlap
+ binds = VanillaInst (mkBindsRep0 tc) [] False
+
+ tvs = tyConTyVars tc
+ tc_ty = mkTyConApp tc (mkTyVarTys tvs)
+
+ dfun = mkDictFunId dfun_name (tyConTyVars tc) [] clas [tc_ty]
+ return (mkInstRep0, metaDts, rep0_tycon)
+-}
+genDtMeta :: (TyCon, MetaTyCons) -> TcM [(InstInfo RdrName, DerivAuxBinds)]
+genDtMeta (tc,metaDts) =
+ do dClas <- tcLookupClass datatypeClassName
+ d_dfun_name <- new_dfun_name dClas tc
+ cClas <- tcLookupClass constructorClassName
+ c_dfun_names <- sequence [ new_dfun_name cClas tc | _ <- metaC metaDts ]
+ sClas <- tcLookupClass selectorClassName
+ s_dfun_names <- sequence (map sequence [ [ new_dfun_name sClas tc
+ | _ <- x ]
+ | x <- metaS metaDts ])
+ fix_env <- getFixityEnv
+
+ let
+ (dBinds,cBinds,sBinds) = mkBindsMetaD fix_env tc
+
+ -- Datatype
+ d_metaTycon = metaD metaDts
+ d_inst = mkLocalInstance d_dfun NoOverlap
+ d_binds = VanillaInst dBinds [] False
+ d_dfun = mkDictFunId d_dfun_name (tyConTyVars tc) [] dClas
+ [ mkTyConTy d_metaTycon ]
+ d_mkInst = (InstInfo { iSpec = d_inst, iBinds = d_binds }, [])
+
+ -- Constructor
+ c_metaTycons = metaC metaDts
+ c_insts = [ mkLocalInstance (c_dfun c ds) NoOverlap
+ | (c, ds) <- myZip1 c_metaTycons c_dfun_names ]
+ c_binds = [ VanillaInst c [] False | c <- cBinds ]
+ c_dfun c dfun_name = mkDictFunId dfun_name (tyConTyVars tc) [] cClas
+ [ mkTyConTy c ]
+ c_mkInst = [ (InstInfo { iSpec = is, iBinds = bs }, [])
+ | (is,bs) <- myZip1 c_insts c_binds ]
+
+ -- Selector
+ s_metaTycons = metaS metaDts
+ s_insts = map (map (\(s,ds) -> mkLocalInstance (s_dfun s ds) NoOverlap))
+ (myZip2 s_metaTycons s_dfun_names)
+ s_binds = [ [ VanillaInst s [] False | s <- ss ] | ss <- sBinds ]
+ s_dfun s dfun_name = mkDictFunId dfun_name (tyConTyVars tc) [] sClas
+ [ mkTyConTy s ]
+ s_mkInst = map (map (\(is,bs) -> (InstInfo {iSpec=is, iBinds=bs}, [])))
+ (myZip2 s_insts s_binds)
+
+ myZip1 :: [a] -> [b] -> [(a,b)]
+ myZip1 l1 l2 = ASSERT (length l1 == length l2) zip l1 l2
+
+ myZip2 :: [[a]] -> [[b]] -> [[(a,b)]]
+ myZip2 l1 l2 =
+ ASSERT (and (zipWith (>=) (map length l1) (map length l2)))
+ [ zip x1 x2 | (x1,x2) <- zip l1 l2 ]
+
+ return (d_mkInst : c_mkInst ++ concat s_mkInst)
+\end{code}
+
%************************************************************************
%* *
standaloneCtxt ty = hang (ptext (sLit "In the stand-alone deriving instance for"))
2 (quotes (ppr ty))
-derivInstCtxt :: Class -> [Type] -> Message
-derivInstCtxt clas inst_tys
- = ptext (sLit "When deriving the instance for") <+> parens (pprClassPred clas inst_tys)
+derivInstCtxt :: PredType -> Message
+derivInstCtxt pred
+ = ptext (sLit "When deriving the instance for") <+> parens (ppr pred)
badDerivedPred :: PredType -> Message
badDerivedPred pred