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-rw-r--r--haddock-api/src/Haddock/Interface/Specialize.hs162
1 files changed, 75 insertions, 87 deletions
diff --git a/haddock-api/src/Haddock/Interface/Specialize.hs b/haddock-api/src/Haddock/Interface/Specialize.hs
index 6d2888d3..18d93fae 100644
--- a/haddock-api/src/Haddock/Interface/Specialize.hs
+++ b/haddock-api/src/Haddock/Interface/Specialize.hs
@@ -28,20 +28,18 @@ import Data.Set (Set)
import qualified Data.Set as Set
-- | Instantiate all occurrences of given names with corresponding types.
-specialize :: forall name a. (Ord (IdP name), DataId name, NamedThing (IdP name))
- => Data a
- => [(IdP name, HsType name)] -> a -> a
+specialize :: Data a => [(Name, HsType GhcRn)] -> a -> a
specialize specs = go
where
go :: forall x. Data x => x -> x
- go = everywhereButType @name $ mkT $ sugar . strip_kind_sig . specialize_ty_var
+ go = everywhereButType @Name $ mkT $ sugar . strip_kind_sig . specialize_ty_var
strip_kind_sig :: HsType name -> HsType name
- strip_kind_sig (HsKindSig (L _ t) _) = t
+ strip_kind_sig (HsKindSig _ (L _ t) _) = t
strip_kind_sig typ = typ
- specialize_ty_var :: HsType name -> HsType name
- specialize_ty_var (HsTyVar _ (L _ name'))
+ specialize_ty_var :: HsType GhcRn -> HsType GhcRn
+ specialize_ty_var (HsTyVar _ _ (L _ name'))
| Just t <- Map.lookup name' spec_map = t
specialize_ty_var typ = typ
-- This is a tricky recursive definition that is guaranteed to terminate
@@ -54,35 +52,33 @@ specialize specs = go
--
-- Again, it is just a convenience function around 'specialize'. Note that
-- length of type list should be the same as the number of binders.
-specializeTyVarBndrs :: (Ord (IdP name), DataId name, NamedThing (IdP name))
- => Data a
- => LHsQTyVars name -> [HsType name]
+specializeTyVarBndrs :: Data a
+ => LHsQTyVars GhcRn -> [HsType GhcRn]
-> a -> a
specializeTyVarBndrs bndrs typs =
specialize $ zip bndrs' typs
where
bndrs' = map (bname . unLoc) . hsq_explicit $ bndrs
- bname (UserTyVar (L _ name)) = name
- bname (KindedTyVar (L _ name) _) = name
+ bname (UserTyVar _ (L _ name)) = name
+ bname (KindedTyVar _ (L _ name) _) = name
+ bname (XTyVarBndr _) = error "haddock:specializeTyVarBndrs"
-specializePseudoFamilyDecl :: (Ord (IdP name), DataId name, NamedThing (IdP name))
- => LHsQTyVars name -> [HsType name]
- -> PseudoFamilyDecl name
- -> PseudoFamilyDecl name
+specializePseudoFamilyDecl :: LHsQTyVars GhcRn -> [HsType GhcRn]
+ -> PseudoFamilyDecl GhcRn
+ -> PseudoFamilyDecl GhcRn
specializePseudoFamilyDecl bndrs typs decl =
decl {pfdTyVars = map (specializeTyVarBndrs bndrs typs) (pfdTyVars decl)}
-specializeSig :: forall name . (Ord (IdP name), DataId name, SetName (IdP name), NamedThing (IdP name))
- => LHsQTyVars name -> [HsType name]
- -> Sig name
- -> Sig name
+specializeSig :: LHsQTyVars GhcRn -> [HsType GhcRn]
+ -> Sig GhcRn
+ -> Sig GhcRn
specializeSig bndrs typs (TypeSig lnames typ) =
TypeSig lnames (typ {hswc_body = (hswc_body typ) {hsib_body = noLoc typ'}})
where
- true_type :: HsType name
+ true_type :: HsType GhcRn
true_type = unLoc (hsSigWcType typ)
- typ' :: HsType name
+ typ' :: HsType GhcRn
typ' = rename fv $ specializeTyVarBndrs bndrs typs true_type
fv = foldr Set.union Set.empty . map freeVariables $ typs
specializeSig _ _ sig = sig
@@ -90,8 +86,7 @@ specializeSig _ _ sig = sig
-- | Make all details of instance head (signatures, associated types)
-- specialized to that particular instance type.
-specializeInstHead :: (Ord (IdP name), DataId name, SetName (IdP name), NamedThing (IdP name))
- => InstHead name -> InstHead name
+specializeInstHead :: InstHead GhcRn -> InstHead GhcRn
specializeInstHead ihd@InstHead { ihdInstType = clsi@ClassInst { .. }, .. } =
ihd { ihdInstType = instType' }
where
@@ -110,27 +105,26 @@ specializeInstHead ihd = ihd
-- and tuple literals resulting in types like @[] a@ or @(,,) a b c@. This
-- can be fixed using 'sugar' function, that will turn such types into @[a]@
-- and @(a, b, c)@.
-sugar :: forall name. (NamedThing (IdP name), DataId name)
- => HsType name -> HsType name
+sugar :: HsType GhcRn -> HsType GhcRn
sugar = sugarOperators . sugarTuples . sugarLists
-sugarLists :: NamedThing (IdP name) => HsType name -> HsType name
-sugarLists (HsAppTy (L _ (HsTyVar _ (L _ name))) ltyp)
- | isBuiltInSyntax name' && strName == "[]" = HsListTy ltyp
+sugarLists :: NamedThing (IdP (GhcPass p)) => HsType (GhcPass p) -> HsType (GhcPass p)
+sugarLists (HsAppTy _ (L _ (HsTyVar _ _ (L _ name))) ltyp)
+ | isBuiltInSyntax name' && strName == "[]" = HsListTy PlaceHolder ltyp
where
name' = getName name
strName = occNameString . nameOccName $ name'
sugarLists typ = typ
-sugarTuples :: NamedThing (IdP name) => HsType name -> HsType name
+sugarTuples :: NamedThing (IdP (GhcPass p)) => HsType (GhcPass p) -> HsType (GhcPass p)
sugarTuples typ =
aux [] typ
where
- aux apps (HsAppTy (L _ ftyp) atyp) = aux (atyp:apps) ftyp
- aux apps (HsParTy (L _ typ')) = aux apps typ'
- aux apps (HsTyVar _ (L _ name))
- | isBuiltInSyntax name' && suitable = HsTupleTy HsBoxedTuple apps
+ aux apps (HsAppTy _ (L _ ftyp) atyp) = aux (atyp:apps) ftyp
+ aux apps (HsParTy _ (L _ typ')) = aux apps typ'
+ aux apps (HsTyVar _ _ (L _ name))
+ | isBuiltInSyntax name' && suitable = HsTupleTy PlaceHolder HsBoxedTuple apps
where
name' = getName name
strName = occNameString . nameOccName $ name'
@@ -140,10 +134,10 @@ sugarTuples typ =
aux _ _ = typ
-sugarOperators :: NamedThing (IdP name) => HsType name -> HsType name
-sugarOperators (HsAppTy (L _ (HsAppTy (L _ (HsTyVar _ (L l name))) la)) lb)
+sugarOperators :: NamedThing (IdP (GhcPass p)) => HsType (GhcPass p) -> HsType (GhcPass p)
+sugarOperators (HsAppTy _ (L _ (HsAppTy _ (L _ (HsTyVar _ _ (L l name))) la)) lb)
| isSymOcc $ getOccName name' = mkHsOpTy la (L l name) lb
- | isBuiltInSyntax name' && getOccString name == "(->)" = HsFunTy la lb
+ | isBuiltInSyntax name' && getOccString name == "(->)" = HsFunTy PlaceHolder la lb
where
name' = getName name
sugarOperators typ = typ
@@ -208,15 +202,14 @@ setInternalOccName occ name =
-- | Compute set of free variables of given type.
-freeVariables :: forall name. (NamedThing (IdP name), DataId name)
- => HsType name -> Set Name
+freeVariables :: HsType GhcRn -> Set Name
freeVariables =
everythingWithState Set.empty Set.union query
where
- query term ctx = case cast term :: Maybe (HsType name) of
- Just (HsForAllTy bndrs _) ->
+ query term ctx = case cast term :: Maybe (HsType GhcRn) of
+ Just (HsForAllTy _ bndrs _) ->
(Set.empty, Set.union ctx (bndrsNames bndrs))
- Just (HsTyVar _ (L _ name))
+ Just (HsTyVar _ _ (L _ name))
| getName name `Set.member` ctx -> (Set.empty, ctx)
| otherwise -> (Set.singleton $ getName name, ctx)
_ -> (Set.empty, ctx)
@@ -231,8 +224,7 @@ freeVariables =
-- different type variable than latter one. Applying 'rename' function
-- will fix that type to be visually unambiguous again (making it something
-- like @(a -> b0) -> b@).
-rename :: (Eq (IdP name), DataId name, SetName (IdP name))
- => Set Name-> HsType name -> HsType name
+rename :: Set Name -> HsType GhcRn -> HsType GhcRn
rename fv typ = evalState (renameType typ) env
where
env = RenameEnv
@@ -252,63 +244,58 @@ data RenameEnv name = RenameEnv
}
-renameType :: (Eq (IdP name), SetName (IdP name))
- => HsType name -> Rename (IdP name) (HsType name)
-renameType (HsForAllTy bndrs lt) =
- HsForAllTy
+renameType :: HsType GhcRn -> Rename (IdP GhcRn) (HsType GhcRn)
+renameType (HsForAllTy x bndrs lt) =
+ HsForAllTy x
<$> mapM (located renameBinder) bndrs
<*> renameLType lt
-renameType (HsQualTy lctxt lt) =
- HsQualTy
+renameType (HsQualTy x lctxt lt) =
+ HsQualTy x
<$> located renameContext lctxt
<*> renameLType lt
-renameType (HsTyVar ip name) = HsTyVar ip <$> located renameName name
-renameType (HsAppTy lf la) = HsAppTy <$> renameLType lf <*> renameLType la
-renameType (HsFunTy la lr) = HsFunTy <$> renameLType la <*> renameLType lr
-renameType (HsListTy lt) = HsListTy <$> renameLType lt
-renameType (HsPArrTy lt) = HsPArrTy <$> renameLType lt
-renameType (HsTupleTy srt lt) = HsTupleTy srt <$> mapM renameLType lt
-renameType (HsSumTy lt) = HsSumTy <$> mapM renameLType lt
-renameType (HsOpTy la lop lb) =
- HsOpTy <$> renameLType la <*> located renameName lop <*> renameLType lb
-renameType (HsParTy lt) = HsParTy <$> renameLType lt
-renameType (HsIParamTy ip lt) = HsIParamTy ip <$> renameLType lt
-renameType (HsEqTy la lb) = HsEqTy <$> renameLType la <*> renameLType lb
-renameType (HsKindSig lt lk) = HsKindSig <$> renameLType lt <*> pure lk
+renameType (HsTyVar x ip name) = HsTyVar x ip <$> located renameName name
+renameType (HsAppTy x lf la) = HsAppTy x <$> renameLType lf <*> renameLType la
+renameType (HsFunTy x la lr) = HsFunTy x <$> renameLType la <*> renameLType lr
+renameType (HsListTy x lt) = HsListTy x <$> renameLType lt
+renameType (HsPArrTy x lt) = HsPArrTy x <$> renameLType lt
+renameType (HsTupleTy x srt lt) = HsTupleTy x srt <$> mapM renameLType lt
+renameType (HsSumTy x lt) = HsSumTy x <$> mapM renameLType lt
+renameType (HsOpTy x la lop lb) =
+ HsOpTy x <$> renameLType la <*> located renameName lop <*> renameLType lb
+renameType (HsParTy x lt) = HsParTy x <$> renameLType lt
+renameType (HsIParamTy x ip lt) = HsIParamTy x ip <$> renameLType lt
+renameType (HsEqTy x la lb) = HsEqTy x <$> renameLType la <*> renameLType lb
+renameType (HsKindSig x lt lk) = HsKindSig x <$> renameLType lt <*> pure lk
renameType t@(HsSpliceTy _ _) = pure t
-renameType (HsDocTy lt doc) = HsDocTy <$> renameLType lt <*> pure doc
-renameType (HsBangTy bang lt) = HsBangTy bang <$> renameLType lt
-renameType t@(HsRecTy _) = pure t
-renameType t@(HsCoreTy _) = pure t
-renameType (HsExplicitListTy ip ph ltys) =
- HsExplicitListTy ip ph <$> renameLTypes ltys
-renameType (HsExplicitTupleTy phs ltys) =
- HsExplicitTupleTy phs <$> renameLTypes ltys
-renameType t@(HsTyLit _) = pure t
+renameType (HsDocTy x lt doc) = HsDocTy x <$> renameLType lt <*> pure doc
+renameType (HsBangTy x bang lt) = HsBangTy x bang <$> renameLType lt
+renameType t@(HsRecTy _ _) = pure t
+renameType t@(XHsType (NHsCoreTy _)) = pure t
+renameType (HsExplicitListTy x ip ltys) =
+ HsExplicitListTy x ip <$> renameLTypes ltys
+renameType (HsExplicitTupleTy x ltys) =
+ HsExplicitTupleTy x <$> renameLTypes ltys
+renameType t@(HsTyLit _ _) = pure t
renameType (HsWildCardTy wc) = pure (HsWildCardTy wc)
-renameType (HsAppsTy _) = error "HsAppsTy: Only used before renaming"
+renameType (HsAppsTy _ _) = error "HsAppsTy: Only used before renaming"
-renameLType :: (Eq (IdP name), SetName (IdP name))
- => LHsType name -> Rename (IdP name) (LHsType name)
+renameLType :: LHsType GhcRn -> Rename (IdP GhcRn) (LHsType GhcRn)
renameLType = located renameType
-renameLTypes :: (Eq (IdP name), SetName (IdP name))
- => [LHsType name] -> Rename (IdP name) [LHsType name]
+renameLTypes :: [LHsType GhcRn] -> Rename (IdP GhcRn) [LHsType GhcRn]
renameLTypes = mapM renameLType
-renameContext :: (Eq (IdP name), SetName (IdP name))
- => HsContext name -> Rename (IdP name) (HsContext name)
+renameContext :: HsContext GhcRn -> Rename (IdP GhcRn) (HsContext GhcRn)
renameContext = renameLTypes
-renameBinder :: (Eq (IdP name), SetName (IdP name))
- => HsTyVarBndr name -> Rename (IdP name) (HsTyVarBndr name)
-renameBinder (UserTyVar lname) = UserTyVar <$> located renameName lname
-renameBinder (KindedTyVar lname lkind) =
- KindedTyVar <$> located renameName lname <*> located renameType lkind
-
+renameBinder :: HsTyVarBndr GhcRn -> Rename (IdP GhcRn) (HsTyVarBndr GhcRn)
+renameBinder (UserTyVar x lname) = UserTyVar x <$> located renameName lname
+renameBinder (KindedTyVar x lname lkind) =
+ KindedTyVar x <$> located renameName lname <*> located renameType lkind
+renameBinder (XTyVarBndr _) = error "haddock:renameBinder"
-- | Core renaming logic.
renameName :: (Eq name, SetName name) => name -> Rename name name
@@ -363,5 +350,6 @@ located f (L loc e) = L loc <$> f e
tyVarName :: HsTyVarBndr name -> IdP name
-tyVarName (UserTyVar name) = unLoc name
-tyVarName (KindedTyVar (L _ name) _) = name
+tyVarName (UserTyVar _ name) = unLoc name
+tyVarName (KindedTyVar _ (L _ name) _) = name
+tyVarName (XTyVarBndr _ ) = error "haddock:tyVarName"