\begin{code}
mkDataTypeEqn orig gla_exts tvs cls cls_tys tycon tc_args rep_tc rep_tc_args
- | Just err <- checkSideConditions gla_exts cls cls_tys tycon tc_args
+ | Just err <- checkSideConditions gla_exts cls cls_tys rep_tc
+ -- NB: pass the *representation* tycon to checkSideConditions
= baleOut (derivingThingErr cls cls_tys (mkTyConApp tycon tc_args) err)
| otherwise
------------------------------------------------------------------
-- Check side conditions that dis-allow derivability for particular classes
-- This is *apart* from the newtype-deriving mechanism
+--
+-- Here we get the representation tycon in case of family instances as it has
+-- the data constructors - but we need to be careful to fall back to the
+-- family tycon (with indexes) in error messages.
-checkSideConditions :: Bool -> Class -> [TcType] -> TyCon -> [TcType] -> Maybe SDoc
-checkSideConditions gla_exts cls cls_tys tycon tc_tys
+checkSideConditions :: Bool -> Class -> [TcType] -> TyCon -> Maybe SDoc
+checkSideConditions gla_exts cls cls_tys rep_tc
| notNull cls_tys
= Just ty_args_why -- e.g. deriving( Foo s )
| otherwise
= case [cond | (key,cond) <- sideConditions, key == getUnique cls] of
[] -> Just (non_std_why cls)
- [cond] -> cond (gla_exts, tycon)
+ [cond] -> cond (gla_exts, rep_tc)
other -> pprPanic "checkSideConditions" (ppr cls)
where
ty_args_why = quotes (ppr (mkClassPred cls cls_tys)) <+> ptext SLIT("is not a class")
(dataClassKey, cond_glaExts `andCond` cond_std)
]
-type Condition = (Bool, TyCon) -> Maybe SDoc -- Nothing => OK
+type Condition = (Bool, TyCon) -> Maybe SDoc
+ -- Bool is gla-exts flag
+ -- TyCon is the *representation* tycon if the
+ -- data type is an indexed one
+ -- Nothing => OK
orCond :: Condition -> Condition -> Condition
orCond c1 c2 tc
Just x -> Just x -- c1 fails
cond_std :: Condition
-cond_std (gla_exts, tycon)
+cond_std (gla_exts, rep_tc)
| any (not . isVanillaDataCon) data_cons = Just existential_why
| null data_cons = Just no_cons_why
| otherwise = Nothing
where
- data_cons = tyConDataCons tycon
- no_cons_why = quotes (ppr tycon) <+> ptext SLIT("has no data constructors")
- existential_why = quotes (ppr tycon) <+> ptext SLIT("has non-Haskell-98 constructor(s)")
+ data_cons = tyConDataCons rep_tc
+ no_cons_why = quotes (pprSourceTyCon rep_tc) <+>
+ ptext SLIT("has no data constructors")
+ existential_why = quotes (pprSourceTyCon rep_tc) <+>
+ ptext SLIT("has non-Haskell-98 constructor(s)")
cond_isEnumeration :: Condition
-cond_isEnumeration (gla_exts, tycon)
- | isEnumerationTyCon tycon = Nothing
- | otherwise = Just why
+cond_isEnumeration (gla_exts, rep_tc)
+ | isEnumerationTyCon rep_tc = Nothing
+ | otherwise = Just why
where
- why = quotes (ppr tycon) <+> ptext SLIT("has non-nullary constructors")
+ why = quotes (pprSourceTyCon rep_tc) <+>
+ ptext SLIT("has non-nullary constructors")
cond_isProduct :: Condition
-cond_isProduct (gla_exts, tycon)
- | isProductTyCon tycon = Nothing
- | otherwise = Just why
+cond_isProduct (gla_exts, rep_tc)
+ | isProductTyCon rep_tc = Nothing
+ | otherwise = Just why
where
- why = quotes (ppr tycon) <+> ptext SLIT("has more than one constructor")
+ why = (pprSourceTyCon rep_tc) <+>
+ ptext SLIT("has more than one constructor")
cond_typeableOK :: Condition
-- OK for Typeable class
-- Currently: (a) args all of kind *
-- (b) 7 or fewer args
-cond_typeableOK (gla_exts, tycon)
- | tyConArity tycon > 7 = Just too_many
- | not (all (isSubArgTypeKind . tyVarKind) (tyConTyVars tycon))
+cond_typeableOK (gla_exts, rep_tc)
+ | tyConArity rep_tc > 7 = Just too_many
+ | not (all (isSubArgTypeKind . tyVarKind) (tyConTyVars rep_tc))
= Just bad_kind
- | isFamInstTyCon tycon = Just fam_inst -- no Typable for family insts
+ | isFamInstTyCon rep_tc = Just fam_inst -- no Typable for family insts
| otherwise = Nothing
where
- too_many = quotes (ppr tycon) <+> ptext SLIT("has too many arguments")
- bad_kind = quotes (ppr tycon) <+>
+ too_many = quotes (pprSourceTyCon rep_tc) <+>
+ ptext SLIT("has too many arguments")
+ bad_kind = quotes (pprSourceTyCon rep_tc) <+>
ptext SLIT("has arguments of kind other than `*'")
- fam_inst = quotes (ppr tycon) <+> ptext SLIT("is a type family")
+ fam_inst = quotes (pprSourceTyCon rep_tc) <+>
+ ptext SLIT("is a type family")
cond_glaExts :: Condition
-cond_glaExts (gla_exts, tycon) | gla_exts = Nothing
- | otherwise = Just why
+cond_glaExts (gla_exts, _rep_tc) | gla_exts = Nothing
+ | otherwise = Just why
where
why = ptext SLIT("You need -fglasgow-exts to derive an instance for this class")
-std_class gla_exts clas
- = key `elem` derivableClassKeys
- || (gla_exts && (key == typeableClassKey || key == dataClassKey))
- where
- key = classKey clas
-
std_class_via_iso clas -- These standard classes can be derived for a newtype
-- using the isomorphism trick *even if no -fglasgow-exts*
= classKey clas `elem` [eqClassKey, ordClassKey, ixClassKey, boundedClassKey]
-- Not Read/Show because they respect the type
- -- Not Enum, becuase newtypes are never in Enum
+ -- Not Enum, because newtypes are never in Enum
new_dfun_name clas tycon -- Just a simple wrapper
tycon tc_args
rep_tycon rep_tc_args
| can_derive_via_isomorphism && (gla_exts || std_class_via_iso cls)
- = do { traceTc (text "newtype deriving:" <+> ppr tycon <+> ppr rep_tys)
- ; -- Go ahead and use the isomorphism
- dfun_name <- new_dfun_name cls tycon
- ; return (Nothing, Just (InstInfo { iSpec = mk_inst_spec dfun_name,
- iBinds = NewTypeDerived ntd_info })) }
- | std_class gla_exts cls
- = mkDataTypeEqn orig gla_exts tvs cls cls_tys tycon tc_args rep_tycon rep_tc_args -- Go via bale-out route
-
- -- Otherwise its a non-standard instance
+ = do { traceTc (text "newtype deriving:" <+> ppr tycon <+> ppr rep_tys)
+ ; -- Go ahead and use the isomorphism
+ dfun_name <- new_dfun_name cls tycon
+ ; return (Nothing, Just (InstInfo { iSpec = mk_inst_spec dfun_name,
+ iBinds = NewTypeDerived ntd_info })) }
+
+ | isNothing mb_std_err -- Use the standard H98 method
+ = do { loc <- getSrcSpanM
+ ; eqn <- mk_data_eqn loc orig tvs cls tycon tc_args rep_tycon rep_tc_args
+ ; return (Just eqn, Nothing) }
+
+ -- Otherwise we can't derive
| gla_exts = baleOut cant_derive_err -- Too hard
- | otherwise = baleOut non_std_err -- Just complain about being a non-std instance
+ | otherwise = baleOut std_err -- Just complain about being a non-std instance
where
+ mb_std_err = checkSideConditions gla_exts cls cls_tys rep_tycon
+ std_err = derivingThingErr cls cls_tys tc_app $
+ vcat [fromJust mb_std_err,
+ ptext SLIT("Try -fglasgow-exts for GHC's newtype-deriving extension")]
+
-- Here is the plan for newtype derivings. We see
-- newtype T a1...an = MkT (t ak+1...an) deriving (.., C s1 .. sm, ...)
-- where t is a type,
cant_derive_err = derivingThingErr cls cls_tys tc_app
(vcat [ptext SLIT("even with cunning newtype deriving:"),
if isRecursiveTyCon tycon then
- ptext SLIT("the newtype is recursive")
+ ptext SLIT("the newtype may be recursive")
else empty,
if not right_arity then
quotes (ppr (mkClassPred cls cls_tys)) <+> ptext SLIT("does not have arity 1")
ptext SLIT("the eta-reduction property does not hold")
else empty
])
-
- non_std_err = derivingThingErr cls cls_tys tc_app
- (vcat [non_std_why cls,
- ptext SLIT("Try -fglasgow-exts for GHC's newtype-deriving extension")])
\end{code}
; setGblEnv env' thing_inside }
\end{code}
+Note [Deriving context]
+~~~~~~~~~~~~~~~~~~~~~~~
+With -fglasgow-exts, we allow things like (C Int a) in the simplified
+context for a derived instance declaration, because at a use of this
+instance, we might know that a=Bool, and have an instance for (C Int
+Bool)
+
+We nevertheless insist that each predicate meets the termination
+conditions. If not, the deriving mechanism generates larger and larger
+constraints. Example:
+ data Succ a = S a
+ data Seq a = Cons a (Seq (Succ a)) | Nil deriving Show
+
+Note the lack of a Show instance for Succ. First we'll generate
+ instance (Show (Succ a), Show a) => Show (Seq a)
+and then
+ instance (Show (Succ (Succ a)), Show (Succ a), Show a) => Show (Seq a)
+and so on. Instead we want to complain of no instance for (Show (Succ a)).
+
+
%************************************************************************
%* *
\subsection[TcDeriv-normal-binds]{Bindings for the various classes}
nest 2 (ptext SLIT("Offending constraint:") <+> ppr pred)]
\end{code}
+
\ No newline at end of file