diff options
Diffstat (limited to 'haddock-api/src')
-rw-r--r-- | haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs | 95 |
1 files changed, 74 insertions, 21 deletions
diff --git a/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs b/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs index fccdaa95..1da089d9 100644 --- a/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs +++ b/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs @@ -30,23 +30,31 @@ import Data.Set (Set) import qualified Data.Set as Set +-- | Instantiate all occurrences of given name with particular type. specialize :: (Eq name, Typeable name) => Data a => name -> HsType name -> a -> a -specialize name details = everywhere (mkT $ specializeStep name details) +specialize name details = + everywhere $ mkT step + where + step (HsTyVar name') | name == name' = details + step typ = typ +-- | Instantiate all occurrences of given names with corresponding types. +-- +-- It is just a convenience function wrapping 'specialize' that supports more +-- that one specialization. specialize' :: (Eq name, Typeable name) => Data a => [(name, HsType name)] -> a -> a specialize' = flip $ foldr (uncurry specialize) -specializeStep :: Eq name => name -> HsType name -> HsType name -> HsType name -specializeStep name details (HsTyVar name') | name == name' = details -specializeStep _ _ typ = typ - - +-- | Instantiate given binders with corresponding types. +-- +-- 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 :: (Eq name, Typeable name, DataId name) => LHsTyVarBndrs name -> [HsType name] -> HsType name -> HsType name @@ -58,6 +66,12 @@ specializeTyVarBndrs bndrs typs = bname (KindedTyVar (L _ name) _) = name +-- | Make given type use tuple and list literals where appropriate. +-- +-- After applying 'specialize' function some terms may not use idiomatic list +-- 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 name, DataId name) => HsType name -> HsType name sugar = @@ -93,6 +107,19 @@ sugarTuples typ = aux _ _ = typ +-- | Compute arity of given tuple operator. +-- +-- >>> parseTupleArity "(,,)" +-- Just 3 +-- +-- >>> parseTupleArity "(,,,,)" +-- Just 5 +-- +-- >>> parseTupleArity "abc" +-- Nothing +-- +-- >>> parseTupleArity "()" +-- Nothing parseTupleArity :: String -> Maybe Int parseTupleArity ('(':commas) = do n <- parseCommas commas @@ -105,6 +132,17 @@ parseTupleArity ('(':commas) = do parseTupleArity _ = Nothing +-- | Haskell AST type representation. +-- +-- This type is used for renaming (more below), essentially the ambiguous (!) +-- version of 'Name'. So, why is this 'FastString' instead of 'OccName'? Well, +-- it was 'OccName' before, but turned out that 'OccName' sometimes also +-- contains namespace information, differentiating visually same types. +-- +-- And 'FastString' is used because it is /visual/ part of 'OccName' - it is +-- not converted to 'String' or alike to avoid new allocations. Additionally, +-- since it is stored mostly in 'Set', fast comparison of 'FastString' is also +-- quite nice. type NameRep = FastString getNameRep :: NamedThing name => name -> NameRep @@ -127,10 +165,39 @@ setInternalOccName occ name = nname' = mkInternalName (nameUnique nname) occ (nameSrcSpan nname) +-- | Compute set of free variables of given type. +freeVariables :: forall name. (NamedThing name, DataId name) + => HsType name -> Set NameRep +freeVariables = + everythingWithState Set.empty Set.union query + where + query term ctx = case cast term :: Maybe (HsType name) of + Just (HsForAllTy _ _ bndrs _ _) -> + (Set.empty, Set.union ctx (bndrsNames bndrs)) + Just (HsTyVar name) + | getName name `Set.member` ctx -> (Set.empty, ctx) + | otherwise -> (Set.singleton $ getNameRep name, ctx) + _ -> (Set.empty, ctx) + bndrsNames = Set.fromList . map (getName . tyVarName . unLoc) . hsq_tvs + + +-- | Make given type visually unambiguous. +-- +-- After applying 'specialize' method, some free type variables may become +-- visually ambiguous - for example, having @a -> b@ and specializing @a@ to +-- @(a -> b)@ we get @(a -> b) -> b@ where first occurrence of @b@ refers to +-- different type variable than latter one. Applying 'rename' function +-- will fix that type to be visually unambiguous again (making it something +-- like @(a -> c) -> b@). rename :: SetName name => Set NameRep -> HsType name -> HsType name rename fv typ = fst $ evalRWS (renameType typ) fv Map.empty +-- | Renaming monad. +-- +-- This is just a simple RWS instance, where /reader/ part consists of names +-- that are initially taken and cannot change, /state/ part is just context +-- with name bindings and /writer/ part is not used. type Rename name a = RWS (Set NameRep) () (Map Name name) a @@ -171,21 +238,6 @@ renameType HsWildcardTy = pure HsWildcardTy renameType (HsNamedWildcardTy name) = HsNamedWildcardTy <$> renameName name -freeVariables :: forall name. (NamedThing name, DataId name) - => HsType name -> Set NameRep -freeVariables = - everythingWithState Set.empty Set.union query - where - query term ctx = case cast term :: Maybe (HsType name) of - Just (HsForAllTy _ _ bndrs _ _) -> - (Set.empty, Set.union ctx (bndrsNames bndrs)) - Just (HsTyVar name) - | getName name `Set.member` ctx -> (Set.empty, ctx) - | otherwise -> (Set.singleton $ getNameRep name, ctx) - _ -> (Set.empty, ctx) - bndrsNames = Set.fromList . map (getName . tyVarName . unLoc) . hsq_tvs - - renameLType :: SetName name => LHsType name -> Rename name (LHsType name) renameLType = located renameType @@ -235,6 +287,7 @@ renameName name = do Nothing -> name +-- | Generate fresh occurrence name, put it into context and return. freshName :: SetName name => name -> Rename name name freshName name = do fv <- ask |