aboutsummaryrefslogtreecommitdiff
path: root/haddock-api/src
diff options
context:
space:
mode:
authorƁukasz Hanuszczak <lukasz.hanuszczak@gmail.com>2015-07-22 18:46:10 +0200
committerMateusz Kowalczyk <fuuzetsu@fuuzetsu.co.uk>2015-08-21 18:22:31 +0100
commit3f404ba3c1b36212ae7507874aefb1e8cc107dd8 (patch)
tree40dc5ca7af982b40eaed2d791b397323da3cbb0b /haddock-api/src
parentdfb697b2d41319a6c14134edcd89da2fa49ecd99 (diff)
Refactor type renamer to rebinding and pure renaming phases.
Diffstat (limited to 'haddock-api/src')
-rw-r--r--haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs105
1 files changed, 60 insertions, 45 deletions
diff --git a/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs b/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs
index 47a96b34..69cd939b 100644
--- a/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs
+++ b/haddock-api/src/Haddock/Backends/Xhtml/Specialize.hs
@@ -1,6 +1,7 @@
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE Rank2Types #-}
{-# LANGUAGE ScopedTypeVariables #-}
+{-# LANGUAGE RecordWildCards #-}
module Haddock.Backends.Xhtml.Specialize
@@ -19,7 +20,8 @@ import Name
import FastString
import Control.Monad
-import Control.Monad.Trans.RWS
+import Control.Monad.Trans.Reader
+import Control.Monad.Trans.State
import Data.Data
import qualified Data.List as List
@@ -190,20 +192,26 @@ freeVariables =
-- 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
+rename fv typ = runReader (renameType typ) $ RenameEnv
+ { rneFV = fv
+ , rneCtx = 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
+type Rename name = Reader (RenameEnv name)
+
+-- | Binding generation monad.
+type Rebind name = State (RenameEnv name)
+
+data RenameEnv name = RenameEnv
+ { rneFV :: Set NameRep
+ , rneCtx :: Map Name name
+ }
renameType :: SetName name => HsType name -> Rename name (HsType name)
-renameType (HsForAllTy ex mspan lbndrs lctx lt) = do
- lbndrs' <- renameLTyVarBndrs lbndrs
+renameType (HsForAllTy ex mspan lbndrs lctx lt) = rebind lbndrs $ \lbndrs' ->
HsForAllTy
<$> pure ex
<*> pure mspan
@@ -246,66 +254,73 @@ renameLTypes :: SetName name => [LHsType name] -> Rename name [LHsType name]
renameLTypes = mapM renameLType
-renameContext :: SetName name => HsContext name
- -> Rename name (HsContext name)
+renameContext :: SetName name => HsContext name -> Rename name (HsContext name)
renameContext = renameLTypes
-renameLTyVarBndrs :: SetName name => LHsTyVarBndrs name -> Rename name (LHsTyVarBndrs name)
-renameLTyVarBndrs lbndrs = do
- tys' <- mapM (located renameTyVarBndr) $ hsq_tvs lbndrs
- pure $ lbndrs { hsq_tvs = tys' }
-
-
-renameTyVarBndr :: SetName name => HsTyVarBndr name
- -> Rename name (HsTyVarBndr name)
-renameTyVarBndr (UserTyVar name) =
- UserTyVar <$> renameNameBndr name
-renameTyVarBndr (KindedTyVar name kinds) =
- KindedTyVar <$> located renameNameBndr name <*> pure kinds
-
-
renameLTyOp :: SetName name => LHsTyOp name -> Rename name (LHsTyOp name)
renameLTyOp (wrap, lname) = (,) wrap <$> located renameName lname
-renameNameBndr :: SetName name => name -> Rename name name
-renameNameBndr name = do
- fv <- ask
- env <- get
- case Map.lookup (getName name) env of
- Just name' -> pure name'
- Nothing | getNameRep name `Set.member` fv -> freshName name
- Nothing -> pure name
-
-
renameName :: SetName name => name -> Rename name name
renameName name = do
- env <- get
- pure $ case Map.lookup (getName name) env of
+ RenameEnv { rneCtx = ctx } <- ask
+ pure $ case Map.lookup (getName name) ctx of
Just name' -> name'
Nothing -> name
+rebind :: SetName name
+ => LHsTyVarBndrs name -> (LHsTyVarBndrs name -> Rename name a)
+ -> Rename name a
+rebind lbndrs action = do
+ (lbndrs', env') <- runState (rebindLTyVarBndrs lbndrs) <$> ask
+ local (const env') (action lbndrs')
+
+
+rebindLTyVarBndrs :: SetName name
+ => LHsTyVarBndrs name -> Rebind name (LHsTyVarBndrs name)
+rebindLTyVarBndrs lbndrs = do
+ tys' <- mapM (located rebindTyVarBndr) $ hsq_tvs lbndrs
+ pure $ lbndrs { hsq_tvs = tys' }
+
+
+rebindTyVarBndr :: SetName name
+ => HsTyVarBndr name -> Rebind name (HsTyVarBndr name)
+rebindTyVarBndr (UserTyVar name) =
+ UserTyVar <$> rebindName name
+rebindTyVarBndr (KindedTyVar name kinds) =
+ KindedTyVar <$> located rebindName name <*> pure kinds
+
+
+rebindName :: SetName name => name -> Rebind name name
+rebindName name = do
+ RenameEnv { .. } <- get
+ case Map.lookup (getName name) rneCtx of
+ Just name' -> pure name'
+ Nothing | getNameRep name `Set.member` rneFV -> freshName name
+ Nothing -> pure name
+
+
-- | Generate fresh occurrence name, put it into context and return.
-freshName :: SetName name => name -> Rename name name
+freshName :: SetName name => name -> Rebind name name
freshName name = do
- fv <- ask
- env <- get
- let taken = Set.union fv (Set.fromList . map getNameRep . Map.elems $ env)
- let name' = setInternalNameRep (findFreshName taken occ) name
- put $ Map.insert nname name' env
+ env@RenameEnv { .. } <- get
+ let taken = Set.union rneFV (elems' rneCtx)
+ let name' = setInternalNameRep (findFreshName taken rep) name
+ put $ env { rneCtx = Map.insert nname name' rneCtx }
return name'
where
+ elems' = Set.fromList . map getNameRep . Map.elems
nname = getName name
- occ = getNameRep nname
+ rep = getNameRep nname
findFreshName :: Set NameRep -> NameRep -> NameRep
findFreshName taken =
fromJust . List.find isFresh . alternativeNames
where
- isFresh = not . flip Set.member taken
+ isFresh = not . Set.member taken
alternativeNames :: NameRep -> [NameRep]