{-
(c) The University of Glasgow 2006
(c) The GRASP/AQUA Project, Glasgow University, 1992-1998
-}

{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE TypeFamilies #-}

module GHC.Core.Map.Type (
     -- * Re-export generic interface
   TrieMap(..), XT,

     -- * Maps over 'Type's
   TypeMap, emptyTypeMap, extendTypeMap, lookupTypeMap, foldTypeMap,
   LooseTypeMap,
   -- ** With explicit scoping
   CmEnv, lookupCME, extendTypeMapWithScope, lookupTypeMapWithScope,
   mkDeBruijnContext, extendCME, extendCMEs, emptyCME,

   -- * Utilities for use by friends only
   TypeMapG, CoercionMapG,

   DeBruijn(..), deBruijnize,

   BndrMap, xtBndr, lkBndr,
   VarMap, xtVar, lkVar, lkDFreeVar, xtDFreeVar,

   xtDNamed, lkDNamed

   ) where

-- This module is separate from GHC.Core.Map.Expr to avoid a module loop
-- between GHC.Core.Unify (which depends on this module) and GHC.Core

import GHC.Prelude

import GHC.Core.Type
import GHC.Core.Coercion
import GHC.Core.TyCo.Rep
import GHC.Data.TrieMap

import GHC.Data.FastString
import GHC.Types.Name
import GHC.Types.Name.Env
import GHC.Types.Var
import GHC.Types.Var.Env
import GHC.Types.Unique.FM
import GHC.Utils.Outputable

import GHC.Data.Maybe
import GHC.Utils.Panic

import qualified Data.Map    as Map
import qualified Data.IntMap as IntMap

import Control.Monad ( (>=>) )

-- NB: Be careful about RULES and type families (#5821).  So we should make sure
-- to specify @Key TypeMapX@ (and not @DeBruijn Type@, the reduced form)

{-# SPECIALIZE lkG :: Key TypeMapX     -> TypeMapG a     -> Maybe a #-}
{-# SPECIALIZE lkG :: Key CoercionMapX -> CoercionMapG a -> Maybe a #-}

{-# SPECIALIZE xtG :: Key TypeMapX     -> XT a -> TypeMapG a -> TypeMapG a #-}
{-# SPECIALIZE xtG :: Key CoercionMapX -> XT a -> CoercionMapG a -> CoercionMapG a #-}

{-# SPECIALIZE mapG :: (a -> b) -> TypeMapG a     -> TypeMapG b #-}
{-# SPECIALIZE mapG :: (a -> b) -> CoercionMapG a -> CoercionMapG b #-}

{-# SPECIALIZE fdG :: (a -> b -> b) -> TypeMapG a     -> b -> b #-}
{-# SPECIALIZE fdG :: (a -> b -> b) -> CoercionMapG a -> b -> b #-}

{-
************************************************************************
*                                                                      *
                   Coercions
*                                                                      *
************************************************************************
-}

-- We should really never care about the contents of a coercion. Instead,
-- just look up the coercion's type.
newtype CoercionMap a = CoercionMap (CoercionMapG a)

instance TrieMap CoercionMap where
   type Key CoercionMap = Coercion
   emptyTM :: CoercionMap a
emptyTM                     = CoercionMapG a -> CoercionMap a
forall a. CoercionMapG a -> CoercionMap a
CoercionMap CoercionMapG a
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
   lookupTM :: Key CoercionMap -> CoercionMap b -> Maybe b
lookupTM Key CoercionMap
k  (CoercionMap CoercionMapG b
m) = Key (GenMap CoercionMapX) -> CoercionMapG b -> Maybe b
forall (m :: * -> *) b. TrieMap m => Key m -> m b -> Maybe b
lookupTM (Coercion -> DeBruijn Coercion
forall a. a -> DeBruijn a
deBruijnize Coercion
Key CoercionMap
k) CoercionMapG b
m
   alterTM :: Key CoercionMap -> XT b -> CoercionMap b -> CoercionMap b
alterTM Key CoercionMap
k XT b
f (CoercionMap CoercionMapG b
m) = CoercionMapG b -> CoercionMap b
forall a. CoercionMapG a -> CoercionMap a
CoercionMap (Key (GenMap CoercionMapX)
-> XT b -> CoercionMapG b -> CoercionMapG b
forall (m :: * -> *) b. TrieMap m => Key m -> XT b -> m b -> m b
alterTM (Coercion -> DeBruijn Coercion
forall a. a -> DeBruijn a
deBruijnize Coercion
Key CoercionMap
k) XT b
f CoercionMapG b
m)
   foldTM :: (a -> b -> b) -> CoercionMap a -> b -> b
foldTM a -> b -> b
k    (CoercionMap CoercionMapG a
m) = (a -> b -> b) -> CoercionMapG a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k CoercionMapG a
m
   mapTM :: (a -> b) -> CoercionMap a -> CoercionMap b
mapTM a -> b
f     (CoercionMap CoercionMapG a
m) = CoercionMapG b -> CoercionMap b
forall a. CoercionMapG a -> CoercionMap a
CoercionMap ((a -> b) -> CoercionMapG a -> CoercionMapG b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f CoercionMapG a
m)
   filterTM :: (a -> Bool) -> CoercionMap a -> CoercionMap a
filterTM a -> Bool
f  (CoercionMap CoercionMapG a
m) = CoercionMapG a -> CoercionMap a
forall a. CoercionMapG a -> CoercionMap a
CoercionMap ((a -> Bool) -> CoercionMapG a -> CoercionMapG a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f CoercionMapG a
m)

type CoercionMapG = GenMap CoercionMapX
newtype CoercionMapX a = CoercionMapX (TypeMapX a)

instance TrieMap CoercionMapX where
  type Key CoercionMapX = DeBruijn Coercion
  emptyTM :: CoercionMapX a
emptyTM = TypeMapX a -> CoercionMapX a
forall a. TypeMapX a -> CoercionMapX a
CoercionMapX TypeMapX a
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
  lookupTM :: Key CoercionMapX -> CoercionMapX b -> Maybe b
lookupTM = Key CoercionMapX -> CoercionMapX b -> Maybe b
forall a. DeBruijn Coercion -> CoercionMapX a -> Maybe a
lkC
  alterTM :: Key CoercionMapX -> XT b -> CoercionMapX b -> CoercionMapX b
alterTM  = Key CoercionMapX -> XT b -> CoercionMapX b -> CoercionMapX b
forall a.
DeBruijn Coercion -> XT a -> CoercionMapX a -> CoercionMapX a
xtC
  foldTM :: (a -> b -> b) -> CoercionMapX a -> b -> b
foldTM a -> b -> b
f (CoercionMapX TypeMapX a
core_tm) = (a -> b -> b) -> TypeMapX a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
f TypeMapX a
core_tm
  mapTM :: (a -> b) -> CoercionMapX a -> CoercionMapX b
mapTM a -> b
f (CoercionMapX TypeMapX a
core_tm)  = TypeMapX b -> CoercionMapX b
forall a. TypeMapX a -> CoercionMapX a
CoercionMapX ((a -> b) -> TypeMapX a -> TypeMapX b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f TypeMapX a
core_tm)
  filterTM :: (a -> Bool) -> CoercionMapX a -> CoercionMapX a
filterTM a -> Bool
f (CoercionMapX TypeMapX a
core_tm) = TypeMapX a -> CoercionMapX a
forall a. TypeMapX a -> CoercionMapX a
CoercionMapX ((a -> Bool) -> TypeMapX a -> TypeMapX a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f TypeMapX a
core_tm)

instance Eq (DeBruijn Coercion) where
  D CmEnv
env1 Coercion
co1 == :: DeBruijn Coercion -> DeBruijn Coercion -> Bool
== D CmEnv
env2 Coercion
co2
    = CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env1 (Coercion -> Type
coercionType Coercion
co1) DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
==
      CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env2 (Coercion -> Type
coercionType Coercion
co2)

lkC :: DeBruijn Coercion -> CoercionMapX a -> Maybe a
lkC :: DeBruijn Coercion -> CoercionMapX a -> Maybe a
lkC (D CmEnv
env Coercion
co) (CoercionMapX TypeMapX a
core_tm) = DeBruijn Type -> TypeMapX a -> Maybe a
forall a. DeBruijn Type -> TypeMapX a -> Maybe a
lkT (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Type -> DeBruijn Type) -> Type -> DeBruijn Type
forall a b. (a -> b) -> a -> b
$ Coercion -> Type
coercionType Coercion
co)
                                        TypeMapX a
core_tm

xtC :: DeBruijn Coercion -> XT a -> CoercionMapX a -> CoercionMapX a
xtC :: DeBruijn Coercion -> XT a -> CoercionMapX a -> CoercionMapX a
xtC (D CmEnv
env Coercion
co) XT a
f (CoercionMapX TypeMapX a
m)
  = TypeMapX a -> CoercionMapX a
forall a. TypeMapX a -> CoercionMapX a
CoercionMapX (DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
forall a. DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
xtT (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Type -> DeBruijn Type) -> Type -> DeBruijn Type
forall a b. (a -> b) -> a -> b
$ Coercion -> Type
coercionType Coercion
co) XT a
f TypeMapX a
m)

{-
************************************************************************
*                                                                      *
                   Types
*                                                                      *
************************************************************************
-}

-- | @TypeMapG a@ is a map from @DeBruijn Type@ to @a@.  The extended
-- key makes it suitable for recursive traversal, since it can track binders,
-- but it is strictly internal to this module.  If you are including a 'TypeMap'
-- inside another 'TrieMap', this is the type you want. Note that this
-- lookup does not do a kind-check. Thus, all keys in this map must have
-- the same kind. Also note that this map respects the distinction between
-- @Type@ and @Constraint@, despite the fact that they are equivalent type
-- synonyms in Core.
type TypeMapG = GenMap TypeMapX

-- | @TypeMapX a@ is the base map from @DeBruijn Type@ to @a@, but without the
-- 'GenMap' optimization.
data TypeMapX a
  = TM { TypeMapX a -> VarMap a
tm_var    :: VarMap a
       , TypeMapX a -> TypeMapG (TypeMapG a)
tm_app    :: TypeMapG (TypeMapG a)
       , TypeMapX a -> DNameEnv a
tm_tycon  :: DNameEnv a

         -- only InvisArg arrows here
       , TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
tm_funty  :: TypeMapG (TypeMapG (TypeMapG a))
                       -- keyed on the argument, result rep, and result
                       -- constraints are never linear-restricted and are always lifted

       , TypeMapX a -> TypeMapG (BndrMap a)
tm_forall :: TypeMapG (BndrMap a) -- See Note [Binders] in GHC.Core.Map.Expr
       , TypeMapX a -> TyLitMap a
tm_tylit  :: TyLitMap a
       , TypeMapX a -> Maybe a
tm_coerce :: Maybe a
       }
    -- Note that there is no tyconapp case; see Note [Equality on AppTys] in GHC.Core.Type

-- | Squeeze out any synonyms, and change TyConApps to nested AppTys. Why the
-- last one? See Note [Equality on AppTys] in GHC.Core.Type
--
-- Note, however, that we keep Constraint and Type apart here, despite the fact
-- that they are both synonyms of TYPE 'LiftedRep (see #11715).
--
-- We also keep (Eq a => a) as a FunTy, distinct from ((->) (Eq a) a).
trieMapView :: Type -> Maybe Type
trieMapView :: Type -> Maybe Type
trieMapView Type
ty
  -- First check for TyConApps that need to be expanded to
  -- AppTy chains.
  | Just (TyCon
tc, tys :: [Type]
tys@(Type
_:[Type]
_)) <- HasCallStack => Type -> Maybe (TyCon, [Type])
Type -> Maybe (TyCon, [Type])
tcSplitTyConApp_maybe Type
ty
  = Type -> Maybe Type
forall a. a -> Maybe a
Just (Type -> Maybe Type) -> Type -> Maybe Type
forall a b. (a -> b) -> a -> b
$ (Type -> Type -> Type) -> Type -> [Type] -> Type
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl' Type -> Type -> Type
AppTy (TyCon -> Type
mkTyConTy TyCon
tc) [Type]
tys

  -- Then resolve any remaining nullary synonyms.
  | Just Type
ty' <- Type -> Maybe Type
tcView Type
ty = Type -> Maybe Type
forall a. a -> Maybe a
Just Type
ty'
trieMapView Type
_ = Maybe Type
forall a. Maybe a
Nothing

instance TrieMap TypeMapX where
   type Key TypeMapX = DeBruijn Type
   emptyTM :: TypeMapX a
emptyTM  = TypeMapX a
forall a. TypeMapX a
emptyT
   lookupTM :: Key TypeMapX -> TypeMapX b -> Maybe b
lookupTM = Key TypeMapX -> TypeMapX b -> Maybe b
forall a. DeBruijn Type -> TypeMapX a -> Maybe a
lkT
   alterTM :: Key TypeMapX -> XT b -> TypeMapX b -> TypeMapX b
alterTM  = Key TypeMapX -> XT b -> TypeMapX b -> TypeMapX b
forall a. DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
xtT
   foldTM :: (a -> b -> b) -> TypeMapX a -> b -> b
foldTM   = (a -> b -> b) -> TypeMapX a -> b -> b
forall a b. (a -> b -> b) -> TypeMapX a -> b -> b
fdT
   mapTM :: (a -> b) -> TypeMapX a -> TypeMapX b
mapTM    = (a -> b) -> TypeMapX a -> TypeMapX b
forall a b. (a -> b) -> TypeMapX a -> TypeMapX b
mapT
   filterTM :: (a -> Bool) -> TypeMapX a -> TypeMapX a
filterTM = (a -> Bool) -> TypeMapX a -> TypeMapX a
forall a. (a -> Bool) -> TypeMapX a -> TypeMapX a
filterT

instance Eq (DeBruijn Type) where
  env_t :: DeBruijn Type
env_t@(D CmEnv
env Type
t) == :: DeBruijn Type -> DeBruijn Type -> Bool
== env_t' :: DeBruijn Type
env_t'@(D CmEnv
env' Type
t')
    | Just Type
new_t  <- Type -> Maybe Type
tcView Type
t  = CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
new_t DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== DeBruijn Type
env_t'
    | Just Type
new_t' <- Type -> Maybe Type
tcView Type
t' = DeBruijn Type
env_t       DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' Type
new_t'
    | Bool
otherwise
    = case (Type
t, Type
t') of
        (CastTy Type
t1 Coercion
_, Type
_)  -> CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t'
        (Type
_, CastTy Type
t1' Coercion
_) -> CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t  DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1'

        (TyVarTy Var
v, TyVarTy Var
v')
            -> case (CmEnv -> Var -> Maybe BoundVar
lookupCME CmEnv
env Var
v, CmEnv -> Var -> Maybe BoundVar
lookupCME CmEnv
env' Var
v') of
                (Just BoundVar
bv, Just BoundVar
bv') -> BoundVar
bv BoundVar -> BoundVar -> Bool
forall a. Eq a => a -> a -> Bool
== BoundVar
bv'
                (Maybe BoundVar
Nothing, Maybe BoundVar
Nothing)  -> Var
v Var -> Var -> Bool
forall a. Eq a => a -> a -> Bool
== Var
v'
                (Maybe BoundVar, Maybe BoundVar)
_ -> Bool
False
                -- See Note [Equality on AppTys] in GHC.Core.Type
        (AppTy Type
t1 Type
t2, Type
s) | Just (Type
t1', Type
t2') <- HasDebugCallStack => Type -> Maybe (Type, Type)
Type -> Maybe (Type, Type)
repSplitAppTy_maybe Type
s
            -> CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' Type
t1' Bool -> Bool -> Bool
&& CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t2 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' Type
t2'
        (Type
s, AppTy Type
t1' Type
t2') | Just (Type
t1, Type
t2) <- HasDebugCallStack => Type -> Maybe (Type, Type)
Type -> Maybe (Type, Type)
repSplitAppTy_maybe Type
s
            -> CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' Type
t1' Bool -> Bool -> Bool
&& CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t2 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' Type
t2'
        (FunTy AnonArgFlag
v1 Type
w1 Type
t1 Type
t2, FunTy AnonArgFlag
v1' Type
w1' Type
t1' Type
t2')
            -> AnonArgFlag
v1 AnonArgFlag -> AnonArgFlag -> Bool
forall a. Eq a => a -> a -> Bool
== AnonArgFlag
v1' Bool -> Bool -> Bool
&&
               CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
w1 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
w1' Bool -> Bool -> Bool
&&
               CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' Type
t1' Bool -> Bool -> Bool
&&
               CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t2 DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' Type
t2'
        (TyConApp TyCon
tc [Type]
tys, TyConApp TyCon
tc' [Type]
tys')
            -> TyCon
tc TyCon -> TyCon -> Bool
forall a. Eq a => a -> a -> Bool
== TyCon
tc' Bool -> Bool -> Bool
&& CmEnv -> [Type] -> DeBruijn [Type]
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env [Type]
tys DeBruijn [Type] -> DeBruijn [Type] -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> [Type] -> DeBruijn [Type]
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' [Type]
tys'
        (LitTy TyLit
l, LitTy TyLit
l')
            -> TyLit
l TyLit -> TyLit -> Bool
forall a. Eq a => a -> a -> Bool
== TyLit
l'
        (ForAllTy (Bndr Var
tv ArgFlag
_) Type
ty, ForAllTy (Bndr Var
tv' ArgFlag
_) Type
ty')
            -> CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Var -> Type
varType Var
tv)      DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' (Var -> Type
varType Var
tv') Bool -> Bool -> Bool
&&
               CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D (CmEnv -> Var -> CmEnv
extendCME CmEnv
env Var
tv) Type
ty DeBruijn Type -> DeBruijn Type -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D (CmEnv -> Var -> CmEnv
extendCME CmEnv
env' Var
tv') Type
ty'
        (CoercionTy {}, CoercionTy {})
            -> Bool
True
        (Type, Type)
_ -> Bool
False

instance {-# OVERLAPPING #-}
         Outputable a => Outputable (TypeMapG a) where
  ppr :: TypeMapG a -> SDoc
ppr TypeMapG a
m = String -> SDoc
text String
"TypeMap elts" SDoc -> SDoc -> SDoc
<+> [a] -> SDoc
forall a. Outputable a => a -> SDoc
ppr ((a -> [a] -> [a]) -> TypeMapG a -> [a] -> [a]
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM (:) TypeMapG a
m [])

emptyT :: TypeMapX a
emptyT :: TypeMapX a
emptyT = TM :: forall a.
VarMap a
-> TypeMapG (TypeMapG a)
-> DNameEnv a
-> TypeMapG (TypeMapG (TypeMapG a))
-> TypeMapG (BndrMap a)
-> TyLitMap a
-> Maybe a
-> TypeMapX a
TM { tm_var :: VarMap a
tm_var  = VarMap a
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
            , tm_app :: TypeMapG (TypeMapG a)
tm_app  = TypeMapG (TypeMapG a)
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
            , tm_tycon :: DNameEnv a
tm_tycon  = DNameEnv a
forall a. DNameEnv a
emptyDNameEnv
            , tm_funty :: TypeMapG (TypeMapG (TypeMapG a))
tm_funty  = TypeMapG (TypeMapG (TypeMapG a))
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
            , tm_forall :: TypeMapG (BndrMap a)
tm_forall = TypeMapG (BndrMap a)
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
            , tm_tylit :: TyLitMap a
tm_tylit  = TyLitMap a
forall a. TyLitMap a
emptyTyLitMap
            , tm_coerce :: Maybe a
tm_coerce = Maybe a
forall a. Maybe a
Nothing }

mapT :: (a->b) -> TypeMapX a -> TypeMapX b
mapT :: (a -> b) -> TypeMapX a -> TypeMapX b
mapT a -> b
f (TM { tm_var :: forall a. TypeMapX a -> VarMap a
tm_var  = VarMap a
tvar, tm_app :: forall a. TypeMapX a -> TypeMapG (TypeMapG a)
tm_app = TypeMapG (TypeMapG a)
tapp, tm_tycon :: forall a. TypeMapX a -> DNameEnv a
tm_tycon = DNameEnv a
ttycon
           , tm_funty :: forall a. TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
tm_funty = TypeMapG (TypeMapG (TypeMapG a))
tfunty, tm_forall :: forall a. TypeMapX a -> TypeMapG (BndrMap a)
tm_forall = TypeMapG (BndrMap a)
tforall, tm_tylit :: forall a. TypeMapX a -> TyLitMap a
tm_tylit = TyLitMap a
tlit
           , tm_coerce :: forall a. TypeMapX a -> Maybe a
tm_coerce = Maybe a
tcoerce })
  = TM :: forall a.
VarMap a
-> TypeMapG (TypeMapG a)
-> DNameEnv a
-> TypeMapG (TypeMapG (TypeMapG a))
-> TypeMapG (BndrMap a)
-> TyLitMap a
-> Maybe a
-> TypeMapX a
TM { tm_var :: VarMap b
tm_var    = (a -> b) -> VarMap a -> VarMap b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f VarMap a
tvar
       , tm_app :: TypeMapG (TypeMapG b)
tm_app    = (TypeMapG a -> TypeMapG b)
-> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG b)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> b) -> TypeMapG a -> TypeMapG b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f) TypeMapG (TypeMapG a)
tapp
       , tm_tycon :: DNameEnv b
tm_tycon  = (a -> b) -> DNameEnv a -> DNameEnv b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f DNameEnv a
ttycon
       , tm_funty :: TypeMapG (TypeMapG (TypeMapG b))
tm_funty  = (TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG b))
-> TypeMapG (TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG (TypeMapG b))
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((TypeMapG a -> TypeMapG b)
-> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG b)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> b) -> TypeMapG a -> TypeMapG b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f)) TypeMapG (TypeMapG (TypeMapG a))
tfunty
       , tm_forall :: TypeMapG (BndrMap b)
tm_forall = (BndrMap a -> BndrMap b)
-> TypeMapG (BndrMap a) -> TypeMapG (BndrMap b)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> b) -> BndrMap a -> BndrMap b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f) TypeMapG (BndrMap a)
tforall
       , tm_tylit :: TyLitMap b
tm_tylit  = (a -> b) -> TyLitMap a -> TyLitMap b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f TyLitMap a
tlit
       , tm_coerce :: Maybe b
tm_coerce = (a -> b) -> Maybe a -> Maybe b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap a -> b
f Maybe a
tcoerce }

-----------------
lkT :: DeBruijn Type -> TypeMapX a -> Maybe a
lkT :: DeBruijn Type -> TypeMapX a -> Maybe a
lkT (D CmEnv
env Type
ty) TypeMapX a
m = Type -> TypeMapX a -> Maybe a
go Type
ty TypeMapX a
m
  where
    go :: Type -> TypeMapX a -> Maybe a
go Type
ty | Just Type
ty' <- Type -> Maybe Type
trieMapView Type
ty = Type -> TypeMapX a -> Maybe a
go Type
ty'
    go (TyVarTy Var
v)                 = TypeMapX a -> VarMap a
forall a. TypeMapX a -> VarMap a
tm_var    (TypeMapX a -> VarMap a)
-> (VarMap a -> Maybe a) -> TypeMapX a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> CmEnv -> Var -> VarMap a -> Maybe a
forall a. CmEnv -> Var -> VarMap a -> Maybe a
lkVar CmEnv
env Var
v
    go (AppTy Type
t1 Type
t2)               = TypeMapX a -> TypeMapG (TypeMapG a)
forall a. TypeMapX a -> TypeMapG (TypeMapG a)
tm_app    (TypeMapX a -> TypeMapG (TypeMapG a))
-> (TypeMapG (TypeMapG a) -> Maybe a) -> TypeMapX a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> Key TypeMapX -> TypeMapG (TypeMapG a) -> Maybe (TypeMapG a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1)
                                               (TypeMapG (TypeMapG a) -> Maybe (TypeMapG a))
-> (TypeMapG a -> Maybe a) -> TypeMapG (TypeMapG a) -> Maybe a
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=> Key TypeMapX -> TypeMapG a -> Maybe a
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t2)
    go (TyConApp TyCon
tc [])            = TypeMapX a -> DNameEnv a
forall a. TypeMapX a -> DNameEnv a
tm_tycon  (TypeMapX a -> DNameEnv a)
-> (DNameEnv a -> Maybe a) -> TypeMapX a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> TyCon -> DNameEnv a -> Maybe a
forall n a. NamedThing n => n -> DNameEnv a -> Maybe a
lkDNamed TyCon
tc
    go ty :: Type
ty@(TyConApp TyCon
_ (Type
_:[Type]
_))       = String -> SDoc -> TypeMapX a -> Maybe a
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"lkT TyConApp" (Type -> SDoc
forall a. Outputable a => a -> SDoc
ppr Type
ty)
    go (LitTy TyLit
l)                   = TypeMapX a -> TyLitMap a
forall a. TypeMapX a -> TyLitMap a
tm_tylit  (TypeMapX a -> TyLitMap a)
-> (TyLitMap a -> Maybe a) -> TypeMapX a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> TyLit -> TyLitMap a -> Maybe a
forall a. TyLit -> TyLitMap a -> Maybe a
lkTyLit TyLit
l
    go (ForAllTy (Bndr Var
tv ArgFlag
_) Type
ty)   = TypeMapX a -> TypeMapG (BndrMap a)
forall a. TypeMapX a -> TypeMapG (BndrMap a)
tm_forall (TypeMapX a -> TypeMapG (BndrMap a))
-> (TypeMapG (BndrMap a) -> Maybe a) -> TypeMapX a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> Key TypeMapX -> TypeMapG (BndrMap a) -> Maybe (BndrMap a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D (CmEnv -> Var -> CmEnv
extendCME CmEnv
env Var
tv) Type
ty)
                                               (TypeMapG (BndrMap a) -> Maybe (BndrMap a))
-> (BndrMap a -> Maybe a) -> TypeMapG (BndrMap a) -> Maybe a
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=> CmEnv -> Var -> BndrMap a -> Maybe a
forall a. CmEnv -> Var -> BndrMap a -> Maybe a
lkBndr CmEnv
env Var
tv
    go (FunTy AnonArgFlag
InvisArg Type
_ Type
arg Type
res)
      | Just Type
res_rep <- HasDebugCallStack => Type -> Maybe Type
Type -> Maybe Type
getRuntimeRep_maybe Type
res
                                   = TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
forall a. TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
tm_funty (TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a)))
-> (TypeMapG (TypeMapG (TypeMapG a)) -> Maybe a)
-> TypeMapX a
-> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> Key TypeMapX
-> TypeMapG (TypeMapG (TypeMapG a))
-> Maybe (TypeMapG (TypeMapG a))
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
arg)
                                              (TypeMapG (TypeMapG (TypeMapG a)) -> Maybe (TypeMapG (TypeMapG a)))
-> (TypeMapG (TypeMapG a) -> Maybe a)
-> TypeMapG (TypeMapG (TypeMapG a))
-> Maybe a
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=> Key TypeMapX -> TypeMapG (TypeMapG a) -> Maybe (TypeMapG a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
res_rep)
                                              (TypeMapG (TypeMapG a) -> Maybe (TypeMapG a))
-> (TypeMapG a -> Maybe a) -> TypeMapG (TypeMapG a) -> Maybe a
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=> Key TypeMapX -> TypeMapG a -> Maybe a
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
res)
    go ty :: Type
ty@(FunTy {})               = String -> SDoc -> TypeMapX a -> Maybe a
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"lkT FunTy" (Type -> SDoc
forall a. Outputable a => a -> SDoc
ppr Type
ty)
    go (CastTy Type
t Coercion
_)                = Type -> TypeMapX a -> Maybe a
go Type
t
    go (CoercionTy {})             = TypeMapX a -> Maybe a
forall a. TypeMapX a -> Maybe a
tm_coerce

-----------------
xtT :: DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
xtT :: DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
xtT (D CmEnv
env Type
ty) XT a
f TypeMapX a
m | Just Type
ty' <- Type -> Maybe Type
trieMapView Type
ty = DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
forall a. DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
xtT (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
ty') XT a
f TypeMapX a
m

xtT (D CmEnv
env (TyVarTy Var
v))       XT a
f TypeMapX a
m = TypeMapX a
m { tm_var :: VarMap a
tm_var    = TypeMapX a -> VarMap a
forall a. TypeMapX a -> VarMap a
tm_var TypeMapX a
m VarMap a -> (VarMap a -> VarMap a) -> VarMap a
forall a b. a -> (a -> b) -> b
|> CmEnv -> Var -> XT a -> VarMap a -> VarMap a
forall a. CmEnv -> Var -> XT a -> VarMap a -> VarMap a
xtVar CmEnv
env Var
v XT a
f }
xtT (D CmEnv
env (AppTy Type
t1 Type
t2))     XT a
f TypeMapX a
m = TypeMapX a
m { tm_app :: TypeMapG (TypeMapG a)
tm_app    = TypeMapX a -> TypeMapG (TypeMapG a)
forall a. TypeMapX a -> TypeMapG (TypeMapG a)
tm_app TypeMapX a
m TypeMapG (TypeMapG a)
-> (TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG a)
forall a b. a -> (a -> b) -> b
|> Key TypeMapX
-> XT (TypeMapG a)
-> TypeMapG (TypeMapG a)
-> TypeMapG (TypeMapG a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1)
                                                            (XT (TypeMapG a) -> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a))
-> (TypeMapG a -> TypeMapG a)
-> TypeMapG (TypeMapG a)
-> TypeMapG (TypeMapG a)
forall (m2 :: * -> *) a (m1 :: * -> *).
TrieMap m2 =>
(XT (m2 a) -> m1 (m2 a) -> m1 (m2 a))
-> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a)
|>> Key TypeMapX -> XT a -> TypeMapG a -> TypeMapG a
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t2) XT a
f }
xtT (D CmEnv
_   (TyConApp TyCon
tc []))  XT a
f TypeMapX a
m = TypeMapX a
m { tm_tycon :: DNameEnv a
tm_tycon  = TypeMapX a -> DNameEnv a
forall a. TypeMapX a -> DNameEnv a
tm_tycon TypeMapX a
m DNameEnv a -> (DNameEnv a -> DNameEnv a) -> DNameEnv a
forall a b. a -> (a -> b) -> b
|> TyCon -> XT a -> DNameEnv a -> DNameEnv a
forall n a. NamedThing n => n -> XT a -> DNameEnv a -> DNameEnv a
xtDNamed TyCon
tc XT a
f }
xtT (D CmEnv
env (FunTy AnonArgFlag
InvisArg Type
_ Type
t1 Type
t2)) XT a
f TypeMapX a
m = TypeMapX a
m { tm_funty :: TypeMapG (TypeMapG (TypeMapG a))
tm_funty = TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
forall a. TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
tm_funty TypeMapX a
m TypeMapG (TypeMapG (TypeMapG a))
-> (TypeMapG (TypeMapG (TypeMapG a))
    -> TypeMapG (TypeMapG (TypeMapG a)))
-> TypeMapG (TypeMapG (TypeMapG a))
forall a b. a -> (a -> b) -> b
|> Key TypeMapX
-> XT (TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG (TypeMapG a))
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t1)
                                                                    (XT (TypeMapG (TypeMapG a))
 -> TypeMapG (TypeMapG (TypeMapG a))
 -> TypeMapG (TypeMapG (TypeMapG a)))
-> (TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG (TypeMapG a))
forall (m2 :: * -> *) a (m1 :: * -> *).
TrieMap m2 =>
(XT (m2 a) -> m1 (m2 a) -> m1 (m2 a))
-> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a)
|>> Key TypeMapX
-> XT (TypeMapG a)
-> TypeMapG (TypeMapG a)
-> TypeMapG (TypeMapG a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t2_rep)
                                                                    (XT (TypeMapG a) -> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a))
-> (TypeMapG a -> TypeMapG a)
-> TypeMapG (TypeMapG a)
-> TypeMapG (TypeMapG a)
forall (m2 :: * -> *) a (m1 :: * -> *).
TrieMap m2 =>
(XT (m2 a) -> m1 (m2 a) -> m1 (m2 a))
-> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a)
|>> Key TypeMapX -> XT a -> TypeMapG a -> TypeMapG a
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t2) XT a
f }
  where t2_rep :: Type
t2_rep = String -> Maybe Type -> Type
forall a. HasCallStack => String -> Maybe a -> a
expectJust String
"xtT FunTy InvisArg" (HasDebugCallStack => Type -> Maybe Type
Type -> Maybe Type
getRuntimeRep_maybe Type
t2)
xtT (D CmEnv
_   (LitTy TyLit
l))         XT a
f TypeMapX a
m = TypeMapX a
m { tm_tylit :: TyLitMap a
tm_tylit  = TypeMapX a -> TyLitMap a
forall a. TypeMapX a -> TyLitMap a
tm_tylit TypeMapX a
m TyLitMap a -> (TyLitMap a -> TyLitMap a) -> TyLitMap a
forall a b. a -> (a -> b) -> b
|> TyLit -> XT a -> TyLitMap a -> TyLitMap a
forall a. TyLit -> XT a -> TyLitMap a -> TyLitMap a
xtTyLit TyLit
l XT a
f }
xtT (D CmEnv
env (CastTy Type
t Coercion
_))      XT a
f TypeMapX a
m = DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
forall a. DeBruijn Type -> XT a -> TypeMapX a -> TypeMapX a
xtT (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
t) XT a
f TypeMapX a
m
xtT (D CmEnv
_   (CoercionTy {}))   XT a
f TypeMapX a
m = TypeMapX a
m { tm_coerce :: Maybe a
tm_coerce = TypeMapX a -> Maybe a
forall a. TypeMapX a -> Maybe a
tm_coerce TypeMapX a
m Maybe a -> XT a -> Maybe a
forall a b. a -> (a -> b) -> b
|> XT a
f }
xtT (D CmEnv
env (ForAllTy (Bndr Var
tv ArgFlag
_) Type
ty))  XT a
f TypeMapX a
m
  = TypeMapX a
m { tm_forall :: TypeMapG (BndrMap a)
tm_forall = TypeMapX a -> TypeMapG (BndrMap a)
forall a. TypeMapX a -> TypeMapG (BndrMap a)
tm_forall TypeMapX a
m TypeMapG (BndrMap a)
-> (TypeMapG (BndrMap a) -> TypeMapG (BndrMap a))
-> TypeMapG (BndrMap a)
forall a b. a -> (a -> b) -> b
|> Key TypeMapX
-> XT (BndrMap a) -> TypeMapG (BndrMap a) -> TypeMapG (BndrMap a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D (CmEnv -> Var -> CmEnv
extendCME CmEnv
env Var
tv) Type
ty)
                                (XT (BndrMap a) -> TypeMapG (BndrMap a) -> TypeMapG (BndrMap a))
-> (BndrMap a -> BndrMap a)
-> TypeMapG (BndrMap a)
-> TypeMapG (BndrMap a)
forall (m2 :: * -> *) a (m1 :: * -> *).
TrieMap m2 =>
(XT (m2 a) -> m1 (m2 a) -> m1 (m2 a))
-> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a)
|>> CmEnv -> Var -> XT a -> BndrMap a -> BndrMap a
forall a. CmEnv -> Var -> XT a -> BndrMap a -> BndrMap a
xtBndr CmEnv
env Var
tv XT a
f }
xtT (D CmEnv
_   ty :: Type
ty@(TyConApp TyCon
_ (Type
_:[Type]
_))) XT a
_ TypeMapX a
_ = String -> SDoc -> TypeMapX a
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"xtT TyConApp" (Type -> SDoc
forall a. Outputable a => a -> SDoc
ppr Type
ty)
xtT (D CmEnv
_   ty :: Type
ty@(FunTy {}))         XT a
_ TypeMapX a
_ = String -> SDoc -> TypeMapX a
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"xtT FunTy" (Type -> SDoc
forall a. Outputable a => a -> SDoc
ppr Type
ty)

fdT :: (a -> b -> b) -> TypeMapX a -> b -> b
fdT :: (a -> b -> b) -> TypeMapX a -> b -> b
fdT a -> b -> b
k TypeMapX a
m = (a -> b -> b) -> VarMap a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k (TypeMapX a -> VarMap a
forall a. TypeMapX a -> VarMap a
tm_var TypeMapX a
m)
        (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (GenMap TypeMapX a -> b -> b)
-> GenMap TypeMapX (GenMap TypeMapX a) -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM ((a -> b -> b) -> GenMap TypeMapX a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k) (TypeMapX a -> GenMap TypeMapX (GenMap TypeMapX a)
forall a. TypeMapX a -> TypeMapG (TypeMapG a)
tm_app TypeMapX a
m)
        (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (a -> b -> b) -> UniqDFM Name a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k (TypeMapX a -> UniqDFM Name a
forall a. TypeMapX a -> DNameEnv a
tm_tycon TypeMapX a
m)
        (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (GenMap TypeMapX (GenMap TypeMapX a) -> b -> b)
-> GenMap TypeMapX (GenMap TypeMapX (GenMap TypeMapX a)) -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM ((GenMap TypeMapX a -> b -> b)
-> GenMap TypeMapX (GenMap TypeMapX a) -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM ((a -> b -> b) -> GenMap TypeMapX a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k)) (TypeMapX a -> GenMap TypeMapX (GenMap TypeMapX (GenMap TypeMapX a))
forall a. TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
tm_funty TypeMapX a
m)
        (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (BndrMap a -> b -> b) -> GenMap TypeMapX (BndrMap a) -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM ((a -> b -> b) -> BndrMap a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k) (TypeMapX a -> GenMap TypeMapX (BndrMap a)
forall a. TypeMapX a -> TypeMapG (BndrMap a)
tm_forall TypeMapX a
m)
        (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (a -> b -> b) -> TyLitMap a -> b -> b
forall a b. (a -> b -> b) -> TyLitMap a -> b -> b
foldTyLit a -> b -> b
k (TypeMapX a -> TyLitMap a
forall a. TypeMapX a -> TyLitMap a
tm_tylit TypeMapX a
m)
        (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (a -> b -> b) -> Maybe a -> b -> b
forall a b. (a -> b -> b) -> Maybe a -> b -> b
foldMaybe a -> b -> b
k (TypeMapX a -> Maybe a
forall a. TypeMapX a -> Maybe a
tm_coerce TypeMapX a
m)

filterT :: (a -> Bool) -> TypeMapX a -> TypeMapX a
filterT :: (a -> Bool) -> TypeMapX a -> TypeMapX a
filterT a -> Bool
f (TM { tm_var :: forall a. TypeMapX a -> VarMap a
tm_var  = VarMap a
tvar, tm_app :: forall a. TypeMapX a -> TypeMapG (TypeMapG a)
tm_app = TypeMapG (TypeMapG a)
tapp, tm_tycon :: forall a. TypeMapX a -> DNameEnv a
tm_tycon = DNameEnv a
ttycon
              , tm_funty :: forall a. TypeMapX a -> TypeMapG (TypeMapG (TypeMapG a))
tm_funty = TypeMapG (TypeMapG (TypeMapG a))
tfunty, tm_forall :: forall a. TypeMapX a -> TypeMapG (BndrMap a)
tm_forall = TypeMapG (BndrMap a)
tforall, tm_tylit :: forall a. TypeMapX a -> TyLitMap a
tm_tylit = TyLitMap a
tlit
              , tm_coerce :: forall a. TypeMapX a -> Maybe a
tm_coerce = Maybe a
tcoerce })
  = TM :: forall a.
VarMap a
-> TypeMapG (TypeMapG a)
-> DNameEnv a
-> TypeMapG (TypeMapG (TypeMapG a))
-> TypeMapG (BndrMap a)
-> TyLitMap a
-> Maybe a
-> TypeMapX a
TM { tm_var :: VarMap a
tm_var    = (a -> Bool) -> VarMap a -> VarMap a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f VarMap a
tvar
       , tm_app :: TypeMapG (TypeMapG a)
tm_app    = (TypeMapG a -> TypeMapG a)
-> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> Bool) -> TypeMapG a -> TypeMapG a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f) TypeMapG (TypeMapG a)
tapp
       , tm_tycon :: DNameEnv a
tm_tycon  = (a -> Bool) -> DNameEnv a -> DNameEnv a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f DNameEnv a
ttycon
       , tm_funty :: TypeMapG (TypeMapG (TypeMapG a))
tm_funty  = (TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG (TypeMapG a))
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((TypeMapG a -> TypeMapG a)
-> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> Bool) -> TypeMapG a -> TypeMapG a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f)) TypeMapG (TypeMapG (TypeMapG a))
tfunty
       , tm_forall :: TypeMapG (BndrMap a)
tm_forall = (BndrMap a -> BndrMap a)
-> TypeMapG (BndrMap a) -> TypeMapG (BndrMap a)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> Bool) -> BndrMap a -> BndrMap a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f) TypeMapG (BndrMap a)
tforall
       , tm_tylit :: TyLitMap a
tm_tylit  = (a -> Bool) -> TyLitMap a -> TyLitMap a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f TyLitMap a
tlit
       , tm_coerce :: Maybe a
tm_coerce = (a -> Bool) -> Maybe a -> Maybe a
forall a. (a -> Bool) -> Maybe a -> Maybe a
filterMaybe a -> Bool
f Maybe a
tcoerce }

------------------------
data TyLitMap a = TLM { TyLitMap a -> Map Integer a
tlm_number :: Map.Map Integer a
                      , TyLitMap a -> UniqFM FastString a
tlm_string :: UniqFM  FastString a
                      , TyLitMap a -> Map Char a
tlm_char   :: Map.Map Char a
                      }

instance TrieMap TyLitMap where
   type Key TyLitMap = TyLit
   emptyTM :: TyLitMap a
emptyTM  = TyLitMap a
forall a. TyLitMap a
emptyTyLitMap
   lookupTM :: Key TyLitMap -> TyLitMap b -> Maybe b
lookupTM = Key TyLitMap -> TyLitMap b -> Maybe b
forall a. TyLit -> TyLitMap a -> Maybe a
lkTyLit
   alterTM :: Key TyLitMap -> XT b -> TyLitMap b -> TyLitMap b
alterTM  = Key TyLitMap -> XT b -> TyLitMap b -> TyLitMap b
forall a. TyLit -> XT a -> TyLitMap a -> TyLitMap a
xtTyLit
   foldTM :: (a -> b -> b) -> TyLitMap a -> b -> b
foldTM   = (a -> b -> b) -> TyLitMap a -> b -> b
forall a b. (a -> b -> b) -> TyLitMap a -> b -> b
foldTyLit
   mapTM :: (a -> b) -> TyLitMap a -> TyLitMap b
mapTM    = (a -> b) -> TyLitMap a -> TyLitMap b
forall a b. (a -> b) -> TyLitMap a -> TyLitMap b
mapTyLit
   filterTM :: (a -> Bool) -> TyLitMap a -> TyLitMap a
filterTM = (a -> Bool) -> TyLitMap a -> TyLitMap a
forall a. (a -> Bool) -> TyLitMap a -> TyLitMap a
filterTyLit

emptyTyLitMap :: TyLitMap a
emptyTyLitMap :: TyLitMap a
emptyTyLitMap = TLM :: forall a.
Map Integer a -> UniqFM FastString a -> Map Char a -> TyLitMap a
TLM { tlm_number :: Map Integer a
tlm_number = Map Integer a
forall k a. Map k a
Map.empty, tlm_string :: UniqFM FastString a
tlm_string = UniqFM FastString a
forall key elt. UniqFM key elt
emptyUFM, tlm_char :: Map Char a
tlm_char = Map Char a
forall k a. Map k a
Map.empty }

mapTyLit :: (a->b) -> TyLitMap a -> TyLitMap b
mapTyLit :: (a -> b) -> TyLitMap a -> TyLitMap b
mapTyLit a -> b
f (TLM { tlm_number :: forall a. TyLitMap a -> Map Integer a
tlm_number = Map Integer a
tn, tlm_string :: forall a. TyLitMap a -> UniqFM FastString a
tlm_string = UniqFM FastString a
ts, tlm_char :: forall a. TyLitMap a -> Map Char a
tlm_char = Map Char a
tc })
  = TLM :: forall a.
Map Integer a -> UniqFM FastString a -> Map Char a -> TyLitMap a
TLM { tlm_number :: Map Integer b
tlm_number = (a -> b) -> Map Integer a -> Map Integer b
forall a b k. (a -> b) -> Map k a -> Map k b
Map.map a -> b
f Map Integer a
tn, tlm_string :: UniqFM FastString b
tlm_string = (a -> b) -> UniqFM FastString a -> UniqFM FastString b
forall elt1 elt2 key.
(elt1 -> elt2) -> UniqFM key elt1 -> UniqFM key elt2
mapUFM a -> b
f UniqFM FastString a
ts, tlm_char :: Map Char b
tlm_char = (a -> b) -> Map Char a -> Map Char b
forall a b k. (a -> b) -> Map k a -> Map k b
Map.map a -> b
f Map Char a
tc }

lkTyLit :: TyLit -> TyLitMap a -> Maybe a
lkTyLit :: TyLit -> TyLitMap a -> Maybe a
lkTyLit TyLit
l =
  case TyLit
l of
    NumTyLit Integer
n -> TyLitMap a -> Map Integer a
forall a. TyLitMap a -> Map Integer a
tlm_number (TyLitMap a -> Map Integer a)
-> (Map Integer a -> Maybe a) -> TyLitMap a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> Integer -> Map Integer a -> Maybe a
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup Integer
n
    StrTyLit FastString
n -> TyLitMap a -> UniqFM FastString a
forall a. TyLitMap a -> UniqFM FastString a
tlm_string (TyLitMap a -> UniqFM FastString a)
-> (UniqFM FastString a -> Maybe a) -> TyLitMap a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> (UniqFM FastString a -> FastString -> Maybe a
forall key elt. Uniquable key => UniqFM key elt -> key -> Maybe elt
`lookupUFM` FastString
n)
    CharTyLit Char
n -> TyLitMap a -> Map Char a
forall a. TyLitMap a -> Map Char a
tlm_char (TyLitMap a -> Map Char a)
-> (Map Char a -> Maybe a) -> TyLitMap a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> Char -> Map Char a -> Maybe a
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup Char
n

xtTyLit :: TyLit -> XT a -> TyLitMap a -> TyLitMap a
xtTyLit :: TyLit -> XT a -> TyLitMap a -> TyLitMap a
xtTyLit TyLit
l XT a
f TyLitMap a
m =
  case TyLit
l of
    NumTyLit Integer
n ->  TyLitMap a
m { tlm_number :: Map Integer a
tlm_number = XT a -> Integer -> Map Integer a -> Map Integer a
forall k a.
Ord k =>
(Maybe a -> Maybe a) -> k -> Map k a -> Map k a
Map.alter XT a
f Integer
n (TyLitMap a -> Map Integer a
forall a. TyLitMap a -> Map Integer a
tlm_number TyLitMap a
m) }
    StrTyLit FastString
n ->  TyLitMap a
m { tlm_string :: UniqFM FastString a
tlm_string = XT a -> UniqFM FastString a -> FastString -> UniqFM FastString a
forall key elt.
Uniquable key =>
(Maybe elt -> Maybe elt) -> UniqFM key elt -> key -> UniqFM key elt
alterUFM  XT a
f (TyLitMap a -> UniqFM FastString a
forall a. TyLitMap a -> UniqFM FastString a
tlm_string TyLitMap a
m) FastString
n }
    CharTyLit Char
n -> TyLitMap a
m { tlm_char :: Map Char a
tlm_char = XT a -> Char -> Map Char a -> Map Char a
forall k a.
Ord k =>
(Maybe a -> Maybe a) -> k -> Map k a -> Map k a
Map.alter XT a
f Char
n (TyLitMap a -> Map Char a
forall a. TyLitMap a -> Map Char a
tlm_char TyLitMap a
m) }

foldTyLit :: (a -> b -> b) -> TyLitMap a -> b -> b
foldTyLit :: (a -> b -> b) -> TyLitMap a -> b -> b
foldTyLit a -> b -> b
l TyLitMap a
m = (b -> UniqFM FastString a -> b) -> UniqFM FastString a -> b -> b
forall a b c. (a -> b -> c) -> b -> a -> c
flip ((a -> b -> b) -> b -> UniqFM FastString a -> b
forall elt a key. (elt -> a -> a) -> a -> UniqFM key elt -> a
foldUFM a -> b -> b
l) (TyLitMap a -> UniqFM FastString a
forall a. TyLitMap a -> UniqFM FastString a
tlm_string TyLitMap a
m)
              (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (b -> Map Integer a -> b) -> Map Integer a -> b -> b
forall a b c. (a -> b -> c) -> b -> a -> c
flip ((a -> b -> b) -> b -> Map Integer a -> b
forall a b k. (a -> b -> b) -> b -> Map k a -> b
Map.foldr a -> b -> b
l) (TyLitMap a -> Map Integer a
forall a. TyLitMap a -> Map Integer a
tlm_number TyLitMap a
m)
              (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (b -> Map Char a -> b) -> Map Char a -> b -> b
forall a b c. (a -> b -> c) -> b -> a -> c
flip ((a -> b -> b) -> b -> Map Char a -> b
forall a b k. (a -> b -> b) -> b -> Map k a -> b
Map.foldr a -> b -> b
l) (TyLitMap a -> Map Char a
forall a. TyLitMap a -> Map Char a
tlm_char TyLitMap a
m)

filterTyLit :: (a -> Bool) -> TyLitMap a -> TyLitMap a
filterTyLit :: (a -> Bool) -> TyLitMap a -> TyLitMap a
filterTyLit a -> Bool
f (TLM { tlm_number :: forall a. TyLitMap a -> Map Integer a
tlm_number = Map Integer a
tn, tlm_string :: forall a. TyLitMap a -> UniqFM FastString a
tlm_string = UniqFM FastString a
ts, tlm_char :: forall a. TyLitMap a -> Map Char a
tlm_char = Map Char a
tc })
  = TLM :: forall a.
Map Integer a -> UniqFM FastString a -> Map Char a -> TyLitMap a
TLM { tlm_number :: Map Integer a
tlm_number = (a -> Bool) -> Map Integer a -> Map Integer a
forall a k. (a -> Bool) -> Map k a -> Map k a
Map.filter a -> Bool
f Map Integer a
tn, tlm_string :: UniqFM FastString a
tlm_string = (a -> Bool) -> UniqFM FastString a -> UniqFM FastString a
forall elt key. (elt -> Bool) -> UniqFM key elt -> UniqFM key elt
filterUFM a -> Bool
f UniqFM FastString a
ts, tlm_char :: Map Char a
tlm_char = (a -> Bool) -> Map Char a -> Map Char a
forall a k. (a -> Bool) -> Map k a -> Map k a
Map.filter a -> Bool
f Map Char a
tc }

-------------------------------------------------
-- | @TypeMap a@ is a map from 'Type' to @a@.  If you are a client, this
-- is the type you want. The keys in this map may have different kinds.
newtype TypeMap a = TypeMap (TypeMapG (TypeMapG a))

lkTT :: DeBruijn Type -> TypeMap a -> Maybe a
lkTT :: DeBruijn Type -> TypeMap a -> Maybe a
lkTT (D CmEnv
env Type
ty) (TypeMap TypeMapG (TypeMapG a)
m) = Key TypeMapX -> TypeMapG (TypeMapG a) -> Maybe (TypeMapG a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Type -> DeBruijn Type) -> Type -> DeBruijn Type
forall a b. (a -> b) -> a -> b
$ HasDebugCallStack => Type -> Type
Type -> Type
typeKind Type
ty) TypeMapG (TypeMapG a)
m
                          Maybe (TypeMapG a) -> (TypeMapG a -> Maybe a) -> Maybe a
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= Key TypeMapX -> TypeMapG a -> Maybe a
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
ty)

xtTT :: DeBruijn Type -> XT a -> TypeMap a -> TypeMap a
xtTT :: DeBruijn Type -> XT a -> TypeMap a -> TypeMap a
xtTT (D CmEnv
env Type
ty) XT a
f (TypeMap TypeMapG (TypeMapG a)
m)
  = TypeMapG (TypeMapG a) -> TypeMap a
forall a. TypeMapG (TypeMapG a) -> TypeMap a
TypeMap (TypeMapG (TypeMapG a)
m TypeMapG (TypeMapG a)
-> (TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a))
-> TypeMapG (TypeMapG a)
forall a b. a -> (a -> b) -> b
|> Key TypeMapX
-> XT (TypeMapG a)
-> TypeMapG (TypeMapG a)
-> TypeMapG (TypeMapG a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Type -> DeBruijn Type) -> Type -> DeBruijn Type
forall a b. (a -> b) -> a -> b
$ HasDebugCallStack => Type -> Type
Type -> Type
typeKind Type
ty)
               (XT (TypeMapG a) -> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a))
-> (TypeMapG a -> TypeMapG a)
-> TypeMapG (TypeMapG a)
-> TypeMapG (TypeMapG a)
forall (m2 :: * -> *) a (m1 :: * -> *).
TrieMap m2 =>
(XT (m2 a) -> m1 (m2 a) -> m1 (m2 a))
-> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a)
|>> Key TypeMapX -> XT a -> TypeMapG a -> TypeMapG a
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env Type
ty) XT a
f)

-- Below are some client-oriented functions which operate on 'TypeMap'.

instance TrieMap TypeMap where
    type Key TypeMap = Type
    emptyTM :: TypeMap a
emptyTM = TypeMapG (TypeMapG a) -> TypeMap a
forall a. TypeMapG (TypeMapG a) -> TypeMap a
TypeMap TypeMapG (TypeMapG a)
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
    lookupTM :: Key TypeMap -> TypeMap b -> Maybe b
lookupTM Key TypeMap
k TypeMap b
m = DeBruijn Type -> TypeMap b -> Maybe b
forall a. DeBruijn Type -> TypeMap a -> Maybe a
lkTT (Type -> DeBruijn Type
forall a. a -> DeBruijn a
deBruijnize Type
Key TypeMap
k) TypeMap b
m
    alterTM :: Key TypeMap -> XT b -> TypeMap b -> TypeMap b
alterTM Key TypeMap
k XT b
f TypeMap b
m = DeBruijn Type -> XT b -> TypeMap b -> TypeMap b
forall a. DeBruijn Type -> XT a -> TypeMap a -> TypeMap a
xtTT (Type -> DeBruijn Type
forall a. a -> DeBruijn a
deBruijnize Type
Key TypeMap
k) XT b
f TypeMap b
m
    foldTM :: (a -> b -> b) -> TypeMap a -> b -> b
foldTM a -> b -> b
k (TypeMap TypeMapG (TypeMapG a)
m) = (TypeMapG a -> b -> b) -> TypeMapG (TypeMapG a) -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM ((a -> b -> b) -> TypeMapG a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k) TypeMapG (TypeMapG a)
m
    mapTM :: (a -> b) -> TypeMap a -> TypeMap b
mapTM a -> b
f (TypeMap TypeMapG (TypeMapG a)
m) = TypeMapG (TypeMapG b) -> TypeMap b
forall a. TypeMapG (TypeMapG a) -> TypeMap a
TypeMap ((TypeMapG a -> TypeMapG b)
-> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG b)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> b) -> TypeMapG a -> TypeMapG b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f) TypeMapG (TypeMapG a)
m)
    filterTM :: (a -> Bool) -> TypeMap a -> TypeMap a
filterTM a -> Bool
f (TypeMap TypeMapG (TypeMapG a)
m) = TypeMapG (TypeMapG a) -> TypeMap a
forall a. TypeMapG (TypeMapG a) -> TypeMap a
TypeMap ((TypeMapG a -> TypeMapG a)
-> TypeMapG (TypeMapG a) -> TypeMapG (TypeMapG a)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> Bool) -> TypeMapG a -> TypeMapG a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f) TypeMapG (TypeMapG a)
m)

foldTypeMap :: (a -> b -> b) -> b -> TypeMap a -> b
foldTypeMap :: (a -> b -> b) -> b -> TypeMap a -> b
foldTypeMap a -> b -> b
k b
z TypeMap a
m = (a -> b -> b) -> TypeMap a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k TypeMap a
m b
z

emptyTypeMap :: TypeMap a
emptyTypeMap :: TypeMap a
emptyTypeMap = TypeMap a
forall (m :: * -> *) a. TrieMap m => m a
emptyTM

lookupTypeMap :: TypeMap a -> Type -> Maybe a
lookupTypeMap :: TypeMap a -> Type -> Maybe a
lookupTypeMap TypeMap a
cm Type
t = Key TypeMap -> TypeMap a -> Maybe a
forall (m :: * -> *) b. TrieMap m => Key m -> m b -> Maybe b
lookupTM Type
Key TypeMap
t TypeMap a
cm

extendTypeMap :: TypeMap a -> Type -> a -> TypeMap a
extendTypeMap :: TypeMap a -> Type -> a -> TypeMap a
extendTypeMap TypeMap a
m Type
t a
v = Key TypeMap -> XT a -> TypeMap a -> TypeMap a
forall (m :: * -> *) b. TrieMap m => Key m -> XT b -> m b -> m b
alterTM Type
Key TypeMap
t (Maybe a -> XT a
forall a b. a -> b -> a
const (a -> Maybe a
forall a. a -> Maybe a
Just a
v)) TypeMap a
m

lookupTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> Maybe a
lookupTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> Maybe a
lookupTypeMapWithScope TypeMap a
m CmEnv
cm Type
t = DeBruijn Type -> TypeMap a -> Maybe a
forall a. DeBruijn Type -> TypeMap a -> Maybe a
lkTT (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
cm Type
t) TypeMap a
m

-- | Extend a 'TypeMap' with a type in the given context.
-- @extendTypeMapWithScope m (mkDeBruijnContext [a,b,c]) t v@ is equivalent to
-- @extendTypeMap m (forall a b c. t) v@, but allows reuse of the context over
-- multiple insertions.
extendTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> a -> TypeMap a
extendTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> a -> TypeMap a
extendTypeMapWithScope TypeMap a
m CmEnv
cm Type
t a
v = DeBruijn Type -> XT a -> TypeMap a -> TypeMap a
forall a. DeBruijn Type -> XT a -> TypeMap a -> TypeMap a
xtTT (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
cm Type
t) (Maybe a -> XT a
forall a b. a -> b -> a
const (a -> Maybe a
forall a. a -> Maybe a
Just a
v)) TypeMap a
m

-- | Construct a deBruijn environment with the given variables in scope.
-- e.g. @mkDeBruijnEnv [a,b,c]@ constructs a context @forall a b c.@
mkDeBruijnContext :: [Var] -> CmEnv
mkDeBruijnContext :: [Var] -> CmEnv
mkDeBruijnContext = CmEnv -> [Var] -> CmEnv
extendCMEs CmEnv
emptyCME

-- | A 'LooseTypeMap' doesn't do a kind-check. Thus, when lookup up (t |> g),
-- you'll find entries inserted under (t), even if (g) is non-reflexive.
newtype LooseTypeMap a
  = LooseTypeMap (TypeMapG a)

instance TrieMap LooseTypeMap where
  type Key LooseTypeMap = Type
  emptyTM :: LooseTypeMap a
emptyTM = TypeMapG a -> LooseTypeMap a
forall a. TypeMapG a -> LooseTypeMap a
LooseTypeMap TypeMapG a
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
  lookupTM :: Key LooseTypeMap -> LooseTypeMap b -> Maybe b
lookupTM Key LooseTypeMap
k (LooseTypeMap TypeMapG b
m) = Key (GenMap TypeMapX) -> TypeMapG b -> Maybe b
forall (m :: * -> *) b. TrieMap m => Key m -> m b -> Maybe b
lookupTM (Type -> DeBruijn Type
forall a. a -> DeBruijn a
deBruijnize Type
Key LooseTypeMap
k) TypeMapG b
m
  alterTM :: Key LooseTypeMap -> XT b -> LooseTypeMap b -> LooseTypeMap b
alterTM Key LooseTypeMap
k XT b
f (LooseTypeMap TypeMapG b
m) = TypeMapG b -> LooseTypeMap b
forall a. TypeMapG a -> LooseTypeMap a
LooseTypeMap (Key (GenMap TypeMapX) -> XT b -> TypeMapG b -> TypeMapG b
forall (m :: * -> *) b. TrieMap m => Key m -> XT b -> m b -> m b
alterTM (Type -> DeBruijn Type
forall a. a -> DeBruijn a
deBruijnize Type
Key LooseTypeMap
k) XT b
f TypeMapG b
m)
  foldTM :: (a -> b -> b) -> LooseTypeMap a -> b -> b
foldTM a -> b -> b
f (LooseTypeMap TypeMapG a
m) = (a -> b -> b) -> TypeMapG a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
f TypeMapG a
m
  mapTM :: (a -> b) -> LooseTypeMap a -> LooseTypeMap b
mapTM a -> b
f (LooseTypeMap TypeMapG a
m) = TypeMapG b -> LooseTypeMap b
forall a. TypeMapG a -> LooseTypeMap a
LooseTypeMap ((a -> b) -> TypeMapG a -> TypeMapG b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f TypeMapG a
m)
  filterTM :: (a -> Bool) -> LooseTypeMap a -> LooseTypeMap a
filterTM a -> Bool
f (LooseTypeMap TypeMapG a
m) = TypeMapG a -> LooseTypeMap a
forall a. TypeMapG a -> LooseTypeMap a
LooseTypeMap ((a -> Bool) -> TypeMapG a -> TypeMapG a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f TypeMapG a
m)

{-
************************************************************************
*                                                                      *
                   Variables
*                                                                      *
************************************************************************
-}

type BoundVar = Int  -- Bound variables are deBruijn numbered
type BoundVarMap a = IntMap.IntMap a

data CmEnv = CME { CmEnv -> BoundVar
cme_next :: !BoundVar
                 , CmEnv -> VarEnv BoundVar
cme_env  :: VarEnv BoundVar }

emptyCME :: CmEnv
emptyCME :: CmEnv
emptyCME = CME :: BoundVar -> VarEnv BoundVar -> CmEnv
CME { cme_next :: BoundVar
cme_next = BoundVar
0, cme_env :: VarEnv BoundVar
cme_env = VarEnv BoundVar
forall a. VarEnv a
emptyVarEnv }

extendCME :: CmEnv -> Var -> CmEnv
extendCME :: CmEnv -> Var -> CmEnv
extendCME (CME { cme_next :: CmEnv -> BoundVar
cme_next = BoundVar
bv, cme_env :: CmEnv -> VarEnv BoundVar
cme_env = VarEnv BoundVar
env }) Var
v
  = CME :: BoundVar -> VarEnv BoundVar -> CmEnv
CME { cme_next :: BoundVar
cme_next = BoundVar
bvBoundVar -> BoundVar -> BoundVar
forall a. Num a => a -> a -> a
+BoundVar
1, cme_env :: VarEnv BoundVar
cme_env = VarEnv BoundVar -> Var -> BoundVar -> VarEnv BoundVar
forall a. VarEnv a -> Var -> a -> VarEnv a
extendVarEnv VarEnv BoundVar
env Var
v BoundVar
bv }

extendCMEs :: CmEnv -> [Var] -> CmEnv
extendCMEs :: CmEnv -> [Var] -> CmEnv
extendCMEs CmEnv
env [Var]
vs = (CmEnv -> Var -> CmEnv) -> CmEnv -> [Var] -> CmEnv
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
foldl' CmEnv -> Var -> CmEnv
extendCME CmEnv
env [Var]
vs

lookupCME :: CmEnv -> Var -> Maybe BoundVar
lookupCME :: CmEnv -> Var -> Maybe BoundVar
lookupCME (CME { cme_env :: CmEnv -> VarEnv BoundVar
cme_env = VarEnv BoundVar
env }) Var
v = VarEnv BoundVar -> Var -> Maybe BoundVar
forall a. VarEnv a -> Var -> Maybe a
lookupVarEnv VarEnv BoundVar
env Var
v

-- | @DeBruijn a@ represents @a@ modulo alpha-renaming.  This is achieved
-- by equipping the value with a 'CmEnv', which tracks an on-the-fly deBruijn
-- numbering.  This allows us to define an 'Eq' instance for @DeBruijn a@, even
-- if this was not (easily) possible for @a@.  Note: we purposely don't
-- export the constructor.  Make a helper function if you find yourself
-- needing it.
data DeBruijn a = D CmEnv a

-- | Synthesizes a @DeBruijn a@ from an @a@, by assuming that there are no
-- bound binders (an empty 'CmEnv').  This is usually what you want if there
-- isn't already a 'CmEnv' in scope.
deBruijnize :: a -> DeBruijn a
deBruijnize :: a -> DeBruijn a
deBruijnize = CmEnv -> a -> DeBruijn a
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
emptyCME

instance Eq (DeBruijn a) => Eq (DeBruijn [a]) where
    D CmEnv
_   []     == :: DeBruijn [a] -> DeBruijn [a] -> Bool
== D CmEnv
_    []       = Bool
True
    D CmEnv
env (a
x:[a]
xs) == D CmEnv
env' (a
x':[a]
xs') = CmEnv -> a -> DeBruijn a
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env a
x  DeBruijn a -> DeBruijn a -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> a -> DeBruijn a
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' a
x' Bool -> Bool -> Bool
&&
                                      CmEnv -> [a] -> DeBruijn [a]
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env [a]
xs DeBruijn [a] -> DeBruijn [a] -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> [a] -> DeBruijn [a]
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' [a]
xs'
    DeBruijn [a]
_            == DeBruijn [a]
_               = Bool
False

instance Eq (DeBruijn a) => Eq (DeBruijn (Maybe a)) where
    D CmEnv
_   Maybe a
Nothing  == :: DeBruijn (Maybe a) -> DeBruijn (Maybe a) -> Bool
== D CmEnv
_    Maybe a
Nothing   = Bool
True
    D CmEnv
env (Just a
x) == D CmEnv
env' (Just a
x') = CmEnv -> a -> DeBruijn a
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env a
x  DeBruijn a -> DeBruijn a -> Bool
forall a. Eq a => a -> a -> Bool
== CmEnv -> a -> DeBruijn a
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env' a
x'
    DeBruijn (Maybe a)
_              == DeBruijn (Maybe a)
_                = Bool
False

--------- Variable binders -------------

-- | A 'BndrMap' is a 'TypeMapG' which allows us to distinguish between
-- binding forms whose binders have different types.  For example,
-- if we are doing a 'TrieMap' lookup on @\(x :: Int) -> ()@, we should
-- not pick up an entry in the 'TrieMap' for @\(x :: Bool) -> ()@:
-- we can disambiguate this by matching on the type (or kind, if this
-- a binder in a type) of the binder.
--
-- We also need to do the same for multiplicity! Which, since multiplicities are
-- encoded simply as a 'Type', amounts to have a Trie for a pair of types. Tries
-- of pairs are composition.
data BndrMap a = BndrMap (TypeMapG (MaybeMap TypeMapG a))

instance TrieMap BndrMap where
   type Key BndrMap = Var
   emptyTM :: BndrMap a
emptyTM  = TypeMapG (MaybeMap (GenMap TypeMapX) a) -> BndrMap a
forall a. TypeMapG (MaybeMap (GenMap TypeMapX) a) -> BndrMap a
BndrMap TypeMapG (MaybeMap (GenMap TypeMapX) a)
forall (m :: * -> *) a. TrieMap m => m a
emptyTM
   lookupTM :: Key BndrMap -> BndrMap b -> Maybe b
lookupTM = CmEnv -> Var -> BndrMap b -> Maybe b
forall a. CmEnv -> Var -> BndrMap a -> Maybe a
lkBndr CmEnv
emptyCME
   alterTM :: Key BndrMap -> XT b -> BndrMap b -> BndrMap b
alterTM  = CmEnv -> Var -> XT b -> BndrMap b -> BndrMap b
forall a. CmEnv -> Var -> XT a -> BndrMap a -> BndrMap a
xtBndr CmEnv
emptyCME
   foldTM :: (a -> b -> b) -> BndrMap a -> b -> b
foldTM   = (a -> b -> b) -> BndrMap a -> b -> b
forall a b. (a -> b -> b) -> BndrMap a -> b -> b
fdBndrMap
   mapTM :: (a -> b) -> BndrMap a -> BndrMap b
mapTM    = (a -> b) -> BndrMap a -> BndrMap b
forall a b. (a -> b) -> BndrMap a -> BndrMap b
mapBndrMap
   filterTM :: (a -> Bool) -> BndrMap a -> BndrMap a
filterTM = (a -> Bool) -> BndrMap a -> BndrMap a
forall a. (a -> Bool) -> BndrMap a -> BndrMap a
ftBndrMap

mapBndrMap :: (a -> b) -> BndrMap a -> BndrMap b
mapBndrMap :: (a -> b) -> BndrMap a -> BndrMap b
mapBndrMap a -> b
f (BndrMap TypeMapG (MaybeMap (GenMap TypeMapX) a)
tm) = TypeMapG (MaybeMap (GenMap TypeMapX) b) -> BndrMap b
forall a. TypeMapG (MaybeMap (GenMap TypeMapX) a) -> BndrMap a
BndrMap ((MaybeMap (GenMap TypeMapX) a -> MaybeMap (GenMap TypeMapX) b)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
-> TypeMapG (MaybeMap (GenMap TypeMapX) b)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> b)
-> MaybeMap (GenMap TypeMapX) a -> MaybeMap (GenMap TypeMapX) b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f) TypeMapG (MaybeMap (GenMap TypeMapX) a)
tm)

fdBndrMap :: (a -> b -> b) -> BndrMap a -> b -> b
fdBndrMap :: (a -> b -> b) -> BndrMap a -> b -> b
fdBndrMap a -> b -> b
f (BndrMap TypeMapG (MaybeMap (GenMap TypeMapX) a)
tm) = (MaybeMap (GenMap TypeMapX) a -> b -> b)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a) -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM ((a -> b -> b) -> MaybeMap (GenMap TypeMapX) a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
f) TypeMapG (MaybeMap (GenMap TypeMapX) a)
tm


-- We need to use 'BndrMap' for 'Coercion', 'CoreExpr' AND 'Type', since all
-- of these data types have binding forms.

lkBndr :: CmEnv -> Var -> BndrMap a -> Maybe a
lkBndr :: CmEnv -> Var -> BndrMap a -> Maybe a
lkBndr CmEnv
env Var
v (BndrMap TypeMapG (MaybeMap (GenMap TypeMapX) a)
tymap) = do
  MaybeMap (GenMap TypeMapX) a
multmap <- Key TypeMapX
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
-> Maybe (MaybeMap (GenMap TypeMapX) a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> GenMap m a -> Maybe a
lkG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Var -> Type
varType Var
v)) TypeMapG (MaybeMap (GenMap TypeMapX) a)
tymap
  Key (MaybeMap (GenMap TypeMapX))
-> MaybeMap (GenMap TypeMapX) a -> Maybe a
forall (m :: * -> *) b. TrieMap m => Key m -> m b -> Maybe b
lookupTM (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Type -> DeBruijn Type) -> Maybe Type -> Maybe (DeBruijn Type)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Var -> Maybe Type
varMultMaybe Var
v) MaybeMap (GenMap TypeMapX) a
multmap


xtBndr :: forall a . CmEnv -> Var -> XT a -> BndrMap a -> BndrMap a
xtBndr :: CmEnv -> Var -> XT a -> BndrMap a -> BndrMap a
xtBndr CmEnv
env Var
v XT a
xt (BndrMap TypeMapG (MaybeMap (GenMap TypeMapX) a)
tymap)  =
  TypeMapG (MaybeMap (GenMap TypeMapX) a) -> BndrMap a
forall a. TypeMapG (MaybeMap (GenMap TypeMapX) a) -> BndrMap a
BndrMap (TypeMapG (MaybeMap (GenMap TypeMapX) a)
tymap TypeMapG (MaybeMap (GenMap TypeMapX) a)
-> (TypeMapG (MaybeMap (GenMap TypeMapX) a)
    -> TypeMapG (MaybeMap (GenMap TypeMapX) a))
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
forall a b. a -> (a -> b) -> b
|> Key TypeMapX
-> XT (MaybeMap (GenMap TypeMapX) a)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
forall (m :: * -> *) a.
(Eq (Key m), TrieMap m) =>
Key m -> XT a -> GenMap m a -> GenMap m a
xtG (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Var -> Type
varType Var
v)) (XT (MaybeMap (GenMap TypeMapX) a)
 -> TypeMapG (MaybeMap (GenMap TypeMapX) a)
 -> TypeMapG (MaybeMap (GenMap TypeMapX) a))
-> (MaybeMap (GenMap TypeMapX) a -> MaybeMap (GenMap TypeMapX) a)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
forall (m2 :: * -> *) a (m1 :: * -> *).
TrieMap m2 =>
(XT (m2 a) -> m1 (m2 a) -> m1 (m2 a))
-> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a)
|>> (Key (MaybeMap (GenMap TypeMapX))
-> XT a
-> MaybeMap (GenMap TypeMapX) a
-> MaybeMap (GenMap TypeMapX) a
forall (m :: * -> *) b. TrieMap m => Key m -> XT b -> m b -> m b
alterTM (CmEnv -> Type -> DeBruijn Type
forall a. CmEnv -> a -> DeBruijn a
D CmEnv
env (Type -> DeBruijn Type) -> Maybe Type -> Maybe (DeBruijn Type)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Var -> Maybe Type
varMultMaybe Var
v) XT a
xt))

ftBndrMap :: (a -> Bool) -> BndrMap a -> BndrMap a
ftBndrMap :: (a -> Bool) -> BndrMap a -> BndrMap a
ftBndrMap a -> Bool
f (BndrMap TypeMapG (MaybeMap (GenMap TypeMapX) a)
tm) = TypeMapG (MaybeMap (GenMap TypeMapX) a) -> BndrMap a
forall a. TypeMapG (MaybeMap (GenMap TypeMapX) a) -> BndrMap a
BndrMap ((MaybeMap (GenMap TypeMapX) a -> MaybeMap (GenMap TypeMapX) a)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
-> TypeMapG (MaybeMap (GenMap TypeMapX) a)
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM ((a -> Bool)
-> MaybeMap (GenMap TypeMapX) a -> MaybeMap (GenMap TypeMapX) a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f) TypeMapG (MaybeMap (GenMap TypeMapX) a)
tm)

--------- Variable occurrence -------------
data VarMap a = VM { VarMap a -> BoundVarMap a
vm_bvar   :: BoundVarMap a  -- Bound variable
                   , VarMap a -> DVarEnv a
vm_fvar   :: DVarEnv a }      -- Free variable

instance TrieMap VarMap where
   type Key VarMap = Var
   emptyTM :: VarMap a
emptyTM  = VM :: forall a. BoundVarMap a -> DVarEnv a -> VarMap a
VM { vm_bvar :: BoundVarMap a
vm_bvar = BoundVarMap a
forall a. IntMap a
IntMap.empty, vm_fvar :: DVarEnv a
vm_fvar = DVarEnv a
forall a. DVarEnv a
emptyDVarEnv }
   lookupTM :: Key VarMap -> VarMap b -> Maybe b
lookupTM = CmEnv -> Var -> VarMap b -> Maybe b
forall a. CmEnv -> Var -> VarMap a -> Maybe a
lkVar CmEnv
emptyCME
   alterTM :: Key VarMap -> XT b -> VarMap b -> VarMap b
alterTM  = CmEnv -> Var -> XT b -> VarMap b -> VarMap b
forall a. CmEnv -> Var -> XT a -> VarMap a -> VarMap a
xtVar CmEnv
emptyCME
   foldTM :: (a -> b -> b) -> VarMap a -> b -> b
foldTM   = (a -> b -> b) -> VarMap a -> b -> b
forall a b. (a -> b -> b) -> VarMap a -> b -> b
fdVar
   mapTM :: (a -> b) -> VarMap a -> VarMap b
mapTM    = (a -> b) -> VarMap a -> VarMap b
forall a b. (a -> b) -> VarMap a -> VarMap b
mapVar
   filterTM :: (a -> Bool) -> VarMap a -> VarMap a
filterTM = (a -> Bool) -> VarMap a -> VarMap a
forall a. (a -> Bool) -> VarMap a -> VarMap a
ftVar

mapVar :: (a->b) -> VarMap a -> VarMap b
mapVar :: (a -> b) -> VarMap a -> VarMap b
mapVar a -> b
f (VM { vm_bvar :: forall a. VarMap a -> BoundVarMap a
vm_bvar = BoundVarMap a
bv, vm_fvar :: forall a. VarMap a -> DVarEnv a
vm_fvar = DVarEnv a
fv })
  = VM :: forall a. BoundVarMap a -> DVarEnv a -> VarMap a
VM { vm_bvar :: BoundVarMap b
vm_bvar = (a -> b) -> BoundVarMap a -> BoundVarMap b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f BoundVarMap a
bv, vm_fvar :: DVarEnv b
vm_fvar = (a -> b) -> DVarEnv a -> DVarEnv b
forall (m :: * -> *) a b. TrieMap m => (a -> b) -> m a -> m b
mapTM a -> b
f DVarEnv a
fv }

lkVar :: CmEnv -> Var -> VarMap a -> Maybe a
lkVar :: CmEnv -> Var -> VarMap a -> Maybe a
lkVar CmEnv
env Var
v
  | Just BoundVar
bv <- CmEnv -> Var -> Maybe BoundVar
lookupCME CmEnv
env Var
v = VarMap a -> BoundVarMap a
forall a. VarMap a -> BoundVarMap a
vm_bvar (VarMap a -> BoundVarMap a)
-> (BoundVarMap a -> Maybe a) -> VarMap a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> Key IntMap -> BoundVarMap a -> Maybe a
forall (m :: * -> *) b. TrieMap m => Key m -> m b -> Maybe b
lookupTM BoundVar
Key IntMap
bv
  | Bool
otherwise                  = VarMap a -> DVarEnv a
forall a. VarMap a -> DVarEnv a
vm_fvar (VarMap a -> DVarEnv a)
-> (DVarEnv a -> Maybe a) -> VarMap a -> Maybe a
forall a b c. (a -> b) -> (b -> c) -> a -> c
>.> Var -> DVarEnv a -> Maybe a
forall a. Var -> DVarEnv a -> Maybe a
lkDFreeVar Var
v

xtVar :: CmEnv -> Var -> XT a -> VarMap a -> VarMap a
xtVar :: CmEnv -> Var -> XT a -> VarMap a -> VarMap a
xtVar CmEnv
env Var
v XT a
f VarMap a
m
  | Just BoundVar
bv <- CmEnv -> Var -> Maybe BoundVar
lookupCME CmEnv
env Var
v = VarMap a
m { vm_bvar :: BoundVarMap a
vm_bvar = VarMap a -> BoundVarMap a
forall a. VarMap a -> BoundVarMap a
vm_bvar VarMap a
m BoundVarMap a -> (BoundVarMap a -> BoundVarMap a) -> BoundVarMap a
forall a b. a -> (a -> b) -> b
|> Key IntMap -> XT a -> BoundVarMap a -> BoundVarMap a
forall (m :: * -> *) b. TrieMap m => Key m -> XT b -> m b -> m b
alterTM BoundVar
Key IntMap
bv XT a
f }
  | Bool
otherwise                  = VarMap a
m { vm_fvar :: DVarEnv a
vm_fvar = VarMap a -> DVarEnv a
forall a. VarMap a -> DVarEnv a
vm_fvar VarMap a
m DVarEnv a -> (DVarEnv a -> DVarEnv a) -> DVarEnv a
forall a b. a -> (a -> b) -> b
|> Var -> XT a -> DVarEnv a -> DVarEnv a
forall a. Var -> XT a -> DVarEnv a -> DVarEnv a
xtDFreeVar Var
v XT a
f }

fdVar :: (a -> b -> b) -> VarMap a -> b -> b
fdVar :: (a -> b -> b) -> VarMap a -> b -> b
fdVar a -> b -> b
k VarMap a
m = (a -> b -> b) -> IntMap a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k (VarMap a -> IntMap a
forall a. VarMap a -> BoundVarMap a
vm_bvar VarMap a
m)
          (b -> b) -> (b -> b) -> b -> b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (a -> b -> b) -> UniqDFM Var a -> b -> b
forall (m :: * -> *) a b.
TrieMap m =>
(a -> b -> b) -> m a -> b -> b
foldTM a -> b -> b
k (VarMap a -> UniqDFM Var a
forall a. VarMap a -> DVarEnv a
vm_fvar VarMap a
m)

lkDFreeVar :: Var -> DVarEnv a -> Maybe a
lkDFreeVar :: Var -> DVarEnv a -> Maybe a
lkDFreeVar Var
var DVarEnv a
env = DVarEnv a -> Var -> Maybe a
forall a. DVarEnv a -> Var -> Maybe a
lookupDVarEnv DVarEnv a
env Var
var

xtDFreeVar :: Var -> XT a -> DVarEnv a -> DVarEnv a
xtDFreeVar :: Var -> XT a -> DVarEnv a -> DVarEnv a
xtDFreeVar Var
v XT a
f DVarEnv a
m = XT a -> DVarEnv a -> Var -> DVarEnv a
forall a. (Maybe a -> Maybe a) -> DVarEnv a -> Var -> DVarEnv a
alterDVarEnv XT a
f DVarEnv a
m Var
v

ftVar :: (a -> Bool) -> VarMap a -> VarMap a
ftVar :: (a -> Bool) -> VarMap a -> VarMap a
ftVar a -> Bool
f (VM { vm_bvar :: forall a. VarMap a -> BoundVarMap a
vm_bvar = BoundVarMap a
bv, vm_fvar :: forall a. VarMap a -> DVarEnv a
vm_fvar = DVarEnv a
fv })
  = VM :: forall a. BoundVarMap a -> DVarEnv a -> VarMap a
VM { vm_bvar :: BoundVarMap a
vm_bvar = (a -> Bool) -> BoundVarMap a -> BoundVarMap a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f BoundVarMap a
bv, vm_fvar :: DVarEnv a
vm_fvar = (a -> Bool) -> DVarEnv a -> DVarEnv a
forall (m :: * -> *) a. TrieMap m => (a -> Bool) -> m a -> m a
filterTM a -> Bool
f DVarEnv a
fv }

-------------------------------------------------
lkDNamed :: NamedThing n => n -> DNameEnv a -> Maybe a
lkDNamed :: n -> DNameEnv a -> Maybe a
lkDNamed n
n DNameEnv a
env = DNameEnv a -> Name -> Maybe a
forall a. DNameEnv a -> Name -> Maybe a
lookupDNameEnv DNameEnv a
env (n -> Name
forall a. NamedThing a => a -> Name
getName n
n)

xtDNamed :: NamedThing n => n -> XT a -> DNameEnv a -> DNameEnv a
xtDNamed :: n -> XT a -> DNameEnv a -> DNameEnv a
xtDNamed n
tc XT a
f DNameEnv a
m = XT a -> DNameEnv a -> Name -> DNameEnv a
forall a. (Maybe a -> Maybe a) -> DNameEnv a -> Name -> DNameEnv a
alterDNameEnv XT a
f DNameEnv a
m (n -> Name
forall a. NamedThing a => a -> Name
getName n
tc)