{-# LANGUAGE CPP #-}

module GHC.Types.Name.Shape
   ( NameShape(..)
   , emptyNameShape
   , mkNameShape
   , extendNameShape
   , nameShapeExports
   , substNameShape
   , maybeSubstNameShape
   )
where

#include "HsVersions.h"

import GHC.Prelude

import GHC.Driver.Env

import GHC.Unit.Module

import GHC.Types.Unique.FM
import GHC.Types.Avail
import GHC.Types.FieldLabel
import GHC.Types.Name
import GHC.Types.Name.Env

import GHC.Tc.Utils.Monad
import GHC.Iface.Env

import GHC.Utils.Outputable
import GHC.Utils.Misc
import GHC.Utils.Panic

import Control.Monad

-- Note [NameShape]
-- ~~~~~~~~~~~~~~~~
-- When we write a declaration in a signature, e.g., data T, we
-- ascribe to it a *name variable*, e.g., {m.T}.  This
-- name variable may be substituted with an actual original
-- name when the signature is implemented (or even if we
-- merge the signature with one which reexports this entity
-- from another module).

-- When we instantiate a signature m with a module M,
-- we also need to substitute over names.  To do so, we must
-- compute the *name substitution* induced by the *exports*
-- of the module in question.  A NameShape represents
-- such a name substitution for a single module instantiation.
-- The "shape" in the name comes from the fact that the computation
-- of a name substitution is essentially the *shaping pass* from
-- Backpack'14, but in a far more restricted form.

-- The name substitution for an export list is easy to explain.  If we are
-- filling the module variable <m>, given an export N of the form
-- M.n or {m'.n} (where n is an OccName), the induced name
-- substitution is from {m.n} to N.  So, for example, if we have
-- A=impl:B, and the exports of impl:B are impl:B.f and
-- impl:C.g, then our name substitution is {A.f} to impl:B.f
-- and {A.g} to impl:C.g




-- The 'NameShape' type is defined in GHC.Tc.Types, because GHC.Tc.Types
-- needs to refer to NameShape, and having GHC.Tc.Types import
-- NameShape (even by SOURCE) would cause a large number of
-- modules to be pulled into the DynFlags cycle.
{-
data NameShape = NameShape {
        ns_mod_name :: ModuleName,
        ns_exports :: [AvailInfo],
        ns_map :: OccEnv Name
    }
-}

-- NB: substitution functions need 'HscEnv' since they need the name cache
-- to allocate new names if we change the 'Module' of a 'Name'

-- | Create an empty 'NameShape' (i.e., the renaming that
-- would occur with an implementing module with no exports)
-- for a specific hole @mod_name@.
emptyNameShape :: ModuleName -> NameShape
emptyNameShape :: ModuleName -> NameShape
emptyNameShape ModuleName
mod_name = ModuleName -> [AvailInfo] -> OccEnv Name -> NameShape
NameShape ModuleName
mod_name [] OccEnv Name
forall a. OccEnv a
emptyOccEnv

-- | Create a 'NameShape' corresponding to an implementing
-- module for the hole @mod_name@ that exports a list of 'AvailInfo's.
mkNameShape :: ModuleName -> [AvailInfo] -> NameShape
mkNameShape :: ModuleName -> [AvailInfo] -> NameShape
mkNameShape ModuleName
mod_name [AvailInfo]
as =
    ModuleName -> [AvailInfo] -> OccEnv Name -> NameShape
NameShape ModuleName
mod_name [AvailInfo]
as (OccEnv Name -> NameShape) -> OccEnv Name -> NameShape
forall a b. (a -> b) -> a -> b
$ [(OccName, Name)] -> OccEnv Name
forall a. [(OccName, a)] -> OccEnv a
mkOccEnv ([(OccName, Name)] -> OccEnv Name)
-> [(OccName, Name)] -> OccEnv Name
forall a b. (a -> b) -> a -> b
$ do
        AvailInfo
a <- [AvailInfo]
as
        Name
n <- AvailInfo -> Name
availName AvailInfo
a Name -> [Name] -> [Name]
forall a. a -> [a] -> [a]
: AvailInfo -> [Name]
availNamesWithSelectors AvailInfo
a
        (OccName, Name) -> [(OccName, Name)]
forall (m :: * -> *) a. Monad m => a -> m a
return (Name -> OccName
forall name. HasOccName name => name -> OccName
occName Name
n, Name
n)

-- | Given an existing 'NameShape', merge it with a list of 'AvailInfo's
-- with Backpack style mix-in linking.  This is used solely when merging
-- signatures together: we successively merge the exports of each
-- signature until we have the final, full exports of the merged signature.
--
-- What makes this operation nontrivial is what we are supposed to do when
-- we want to merge in an export for M.T when we already have an existing
-- export {H.T}.  What should happen in this case is that {H.T} should be
-- unified with @M.T@: we've determined a more *precise* identity for the
-- export at 'OccName' @T@.
--
-- Note that we don't do unrestricted unification: only name holes from
-- @ns_mod_name ns@ are flexible.  This is because we have a much more
-- restricted notion of shaping than in Backpack'14: we do shaping
-- *as* we do type-checking.  Thus, once we shape a signature, its
-- exports are *final* and we're not allowed to refine them further,
extendNameShape :: HscEnv -> NameShape -> [AvailInfo] -> IO (Either SDoc NameShape)
extendNameShape :: HscEnv -> NameShape -> [AvailInfo] -> IO (Either SDoc NameShape)
extendNameShape HscEnv
hsc_env NameShape
ns [AvailInfo]
as =
    case ModuleName -> [AvailInfo] -> [AvailInfo] -> Either SDoc ShNameSubst
uAvailInfos (NameShape -> ModuleName
ns_mod_name NameShape
ns) (NameShape -> [AvailInfo]
ns_exports NameShape
ns) [AvailInfo]
as of
        Left SDoc
err -> Either SDoc NameShape -> IO (Either SDoc NameShape)
forall (m :: * -> *) a. Monad m => a -> m a
return (SDoc -> Either SDoc NameShape
forall a b. a -> Either a b
Left SDoc
err)
        Right ShNameSubst
nsubst -> do
            [AvailInfo]
as1 <- (AvailInfo -> IO AvailInfo) -> [AvailInfo] -> IO [AvailInfo]
forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM (IO AvailInfo -> IO AvailInfo
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO AvailInfo -> IO AvailInfo)
-> (AvailInfo -> IO AvailInfo) -> AvailInfo -> IO AvailInfo
forall b c a. (b -> c) -> (a -> b) -> a -> c
. HscEnv -> ShNameSubst -> AvailInfo -> IO AvailInfo
substNameAvailInfo HscEnv
hsc_env ShNameSubst
nsubst) (NameShape -> [AvailInfo]
ns_exports NameShape
ns)
            [AvailInfo]
as2 <- (AvailInfo -> IO AvailInfo) -> [AvailInfo] -> IO [AvailInfo]
forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM (IO AvailInfo -> IO AvailInfo
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO AvailInfo -> IO AvailInfo)
-> (AvailInfo -> IO AvailInfo) -> AvailInfo -> IO AvailInfo
forall b c a. (b -> c) -> (a -> b) -> a -> c
. HscEnv -> ShNameSubst -> AvailInfo -> IO AvailInfo
substNameAvailInfo HscEnv
hsc_env ShNameSubst
nsubst) [AvailInfo]
as
            let new_avails :: [AvailInfo]
new_avails = [AvailInfo] -> [AvailInfo] -> [AvailInfo]
mergeAvails [AvailInfo]
as1 [AvailInfo]
as2
            Either SDoc NameShape -> IO (Either SDoc NameShape)
forall (m :: * -> *) a. Monad m => a -> m a
return (Either SDoc NameShape -> IO (Either SDoc NameShape))
-> (NameShape -> Either SDoc NameShape)
-> NameShape
-> IO (Either SDoc NameShape)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. NameShape -> Either SDoc NameShape
forall a b. b -> Either a b
Right (NameShape -> IO (Either SDoc NameShape))
-> NameShape -> IO (Either SDoc NameShape)
forall a b. (a -> b) -> a -> b
$ NameShape
ns {
                ns_exports :: [AvailInfo]
ns_exports = [AvailInfo]
new_avails,
                -- TODO: stop repeatedly rebuilding the OccEnv
                ns_map :: OccEnv Name
ns_map = [(OccName, Name)] -> OccEnv Name
forall a. [(OccName, a)] -> OccEnv a
mkOccEnv ([(OccName, Name)] -> OccEnv Name)
-> [(OccName, Name)] -> OccEnv Name
forall a b. (a -> b) -> a -> b
$ do
                            AvailInfo
a <- [AvailInfo]
new_avails
                            Name
n <- AvailInfo -> Name
availName AvailInfo
a Name -> [Name] -> [Name]
forall a. a -> [a] -> [a]
: AvailInfo -> [Name]
availNames AvailInfo
a
                            (OccName, Name) -> [(OccName, Name)]
forall (m :: * -> *) a. Monad m => a -> m a
return (Name -> OccName
forall name. HasOccName name => name -> OccName
occName Name
n, Name
n)
                }

-- | The export list associated with this 'NameShape' (i.e., what
-- the exports of an implementing module which induces this 'NameShape'
-- would be.)
nameShapeExports :: NameShape -> [AvailInfo]
nameShapeExports :: NameShape -> [AvailInfo]
nameShapeExports = NameShape -> [AvailInfo]
ns_exports

-- | Given a 'Name', substitute it according to the 'NameShape' implied
-- substitution, i.e. map @{A.T}@ to @M.T@, if the implementing module
-- exports @M.T@.
substNameShape :: NameShape -> Name -> Name
substNameShape :: NameShape -> Name -> Name
substNameShape NameShape
ns Name
n | HasDebugCallStack => Name -> Module
Name -> Module
nameModule Name
n Module -> Module -> Bool
forall a. Eq a => a -> a -> Bool
== NameShape -> Module
ns_module NameShape
ns
                    , Just Name
n' <- OccEnv Name -> OccName -> Maybe Name
forall a. OccEnv a -> OccName -> Maybe a
lookupOccEnv (NameShape -> OccEnv Name
ns_map NameShape
ns) (Name -> OccName
forall name. HasOccName name => name -> OccName
occName Name
n)
                    = Name
n'
                    | Bool
otherwise
                    = Name
n

-- | Like 'substNameShape', but returns @Nothing@ if no substitution
-- works.
maybeSubstNameShape :: NameShape -> Name -> Maybe Name
maybeSubstNameShape :: NameShape -> Name -> Maybe Name
maybeSubstNameShape NameShape
ns Name
n
    | HasDebugCallStack => Name -> Module
Name -> Module
nameModule Name
n Module -> Module -> Bool
forall a. Eq a => a -> a -> Bool
== NameShape -> Module
ns_module NameShape
ns
    = OccEnv Name -> OccName -> Maybe Name
forall a. OccEnv a -> OccName -> Maybe a
lookupOccEnv (NameShape -> OccEnv Name
ns_map NameShape
ns) (Name -> OccName
forall name. HasOccName name => name -> OccName
occName Name
n)
    | Bool
otherwise
    = Maybe Name
forall a. Maybe a
Nothing

-- | The 'Module' of any 'Name's a 'NameShape' has action over.
ns_module :: NameShape -> Module
ns_module :: NameShape -> Module
ns_module = ModuleName -> Module
forall u. ModuleName -> GenModule (GenUnit u)
mkHoleModule (ModuleName -> Module)
-> (NameShape -> ModuleName) -> NameShape -> Module
forall b c a. (b -> c) -> (a -> b) -> a -> c
. NameShape -> ModuleName
ns_mod_name

{-
************************************************************************
*                                                                      *
                        Name substitutions
*                                                                      *
************************************************************************
-}

-- | Substitution on @{A.T}@.  We enforce the invariant that the
-- 'nameModule' of keys of this map have 'moduleUnit' @hole@
-- (meaning that if we have a hole substitution, the keys of the map
-- are never affected.)  Alternatively, this is isomorphic to
-- @Map ('ModuleName', 'OccName') 'Name'@.
type ShNameSubst = NameEnv Name

-- NB: In this module, we actually only ever construct 'ShNameSubst'
-- at a single 'ModuleName'.  But 'ShNameSubst' is more convenient to
-- work with.

-- | Substitute names in a 'Name'.
substName :: ShNameSubst -> Name -> Name
substName :: ShNameSubst -> Name -> Name
substName ShNameSubst
env Name
n | Just Name
n' <- ShNameSubst -> Name -> Maybe Name
forall a. NameEnv a -> Name -> Maybe a
lookupNameEnv ShNameSubst
env Name
n = Name
n'
                | Bool
otherwise                      = Name
n

-- | Substitute names in an 'AvailInfo'.  This has special behavior
-- for type constructors, where it is sufficient to substitute the 'availName'
-- to induce a substitution on 'availNames'.
substNameAvailInfo :: HscEnv -> ShNameSubst -> AvailInfo -> IO AvailInfo
substNameAvailInfo :: HscEnv -> ShNameSubst -> AvailInfo -> IO AvailInfo
substNameAvailInfo HscEnv
_ ShNameSubst
env (Avail (NormalGreName Name
n)) = AvailInfo -> IO AvailInfo
forall (m :: * -> *) a. Monad m => a -> m a
return (GreName -> AvailInfo
Avail (Name -> GreName
NormalGreName (ShNameSubst -> Name -> Name
substName ShNameSubst
env Name
n)))
substNameAvailInfo HscEnv
_ ShNameSubst
env (Avail (FieldGreName FieldLabel
fl)) =
    AvailInfo -> IO AvailInfo
forall (m :: * -> *) a. Monad m => a -> m a
return (GreName -> AvailInfo
Avail (FieldLabel -> GreName
FieldGreName FieldLabel
fl { flSelector :: Name
flSelector = ShNameSubst -> Name -> Name
substName ShNameSubst
env (FieldLabel -> Name
flSelector FieldLabel
fl) }))
substNameAvailInfo HscEnv
hsc_env ShNameSubst
env (AvailTC Name
n [GreName]
ns) =
    let mb_mod :: Maybe Module
mb_mod = (Name -> Module) -> Maybe Name -> Maybe Module
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap HasDebugCallStack => Name -> Module
Name -> Module
nameModule (ShNameSubst -> Name -> Maybe Name
forall a. NameEnv a -> Name -> Maybe a
lookupNameEnv ShNameSubst
env Name
n)
    in Name -> [GreName] -> AvailInfo
AvailTC (ShNameSubst -> Name -> Name
substName ShNameSubst
env Name
n) ([GreName] -> AvailInfo) -> IO [GreName] -> IO AvailInfo
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> (GreName -> IO GreName) -> [GreName] -> IO [GreName]
forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
mapM (HscEnv -> Maybe Module -> GreName -> IO GreName
setNameGreName HscEnv
hsc_env Maybe Module
mb_mod) [GreName]
ns

setNameGreName :: HscEnv -> Maybe Module -> GreName -> IO GreName
setNameGreName :: HscEnv -> Maybe Module -> GreName -> IO GreName
setNameGreName HscEnv
hsc_env Maybe Module
mb_mod GreName
gname = case GreName
gname of
    NormalGreName Name
n -> Name -> GreName
NormalGreName (Name -> GreName) -> IO Name -> IO GreName
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> HscEnv -> IfG Name -> IO Name
forall a. HscEnv -> IfG a -> IO a
initIfaceLoad HscEnv
hsc_env (Maybe Module -> Name -> IfG Name
forall m n. Maybe Module -> Name -> TcRnIf m n Name
setNameModule Maybe Module
mb_mod Name
n)
    FieldGreName FieldLabel
fl -> FieldLabel -> GreName
FieldGreName  (FieldLabel -> GreName) -> IO FieldLabel -> IO GreName
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> HscEnv -> Maybe Module -> FieldLabel -> IO FieldLabel
setNameFieldSelector HscEnv
hsc_env Maybe Module
mb_mod FieldLabel
fl

-- | Set the 'Module' of a 'FieldSelector'
setNameFieldSelector :: HscEnv -> Maybe Module -> FieldLabel -> IO FieldLabel
setNameFieldSelector :: HscEnv -> Maybe Module -> FieldLabel -> IO FieldLabel
setNameFieldSelector HscEnv
_ Maybe Module
Nothing FieldLabel
f = FieldLabel -> IO FieldLabel
forall (m :: * -> *) a. Monad m => a -> m a
return FieldLabel
f
setNameFieldSelector HscEnv
hsc_env Maybe Module
mb_mod (FieldLabel FieldLabelString
l DuplicateRecordFields
b FieldSelectors
has_sel Name
sel) = do
    Name
sel' <- HscEnv -> IfG Name -> IO Name
forall a. HscEnv -> IfG a -> IO a
initIfaceLoad HscEnv
hsc_env (IfG Name -> IO Name) -> IfG Name -> IO Name
forall a b. (a -> b) -> a -> b
$ Maybe Module -> Name -> IfG Name
forall m n. Maybe Module -> Name -> TcRnIf m n Name
setNameModule Maybe Module
mb_mod Name
sel
    FieldLabel -> IO FieldLabel
forall (m :: * -> *) a. Monad m => a -> m a
return (FieldLabelString
-> DuplicateRecordFields -> FieldSelectors -> Name -> FieldLabel
FieldLabel FieldLabelString
l DuplicateRecordFields
b FieldSelectors
has_sel Name
sel')

{-
************************************************************************
*                                                                      *
                        AvailInfo merging
*                                                                      *
************************************************************************
-}

-- | Merges to 'AvailInfo' lists together, assuming the 'AvailInfo's have
-- already been unified ('uAvailInfos').
mergeAvails :: [AvailInfo] -> [AvailInfo] -> [AvailInfo]
mergeAvails :: [AvailInfo] -> [AvailInfo] -> [AvailInfo]
mergeAvails [AvailInfo]
as1 [AvailInfo]
as2 =
    let mkNE :: [AvailInfo] -> NameEnv AvailInfo
mkNE [AvailInfo]
as = [(Name, AvailInfo)] -> NameEnv AvailInfo
forall a. [(Name, a)] -> NameEnv a
mkNameEnv [(AvailInfo -> Name
availName AvailInfo
a, AvailInfo
a) | AvailInfo
a <- [AvailInfo]
as]
    in NameEnv AvailInfo -> [AvailInfo]
forall a. NameEnv a -> [a]
nameEnvElts ((AvailInfo -> AvailInfo -> AvailInfo)
-> NameEnv AvailInfo -> NameEnv AvailInfo -> NameEnv AvailInfo
forall a. (a -> a -> a) -> NameEnv a -> NameEnv a -> NameEnv a
plusNameEnv_C AvailInfo -> AvailInfo -> AvailInfo
plusAvail ([AvailInfo] -> NameEnv AvailInfo
mkNE [AvailInfo]
as1) ([AvailInfo] -> NameEnv AvailInfo
mkNE [AvailInfo]
as2))

{-
************************************************************************
*                                                                      *
                        AvailInfo unification
*                                                                      *
************************************************************************
-}

-- | Unify two lists of 'AvailInfo's, given an existing substitution @subst@,
-- with only name holes from @flexi@ unifiable (all other name holes rigid.)
uAvailInfos :: ModuleName -> [AvailInfo] -> [AvailInfo] -> Either SDoc ShNameSubst
uAvailInfos :: ModuleName -> [AvailInfo] -> [AvailInfo] -> Either SDoc ShNameSubst
uAvailInfos ModuleName
flexi [AvailInfo]
as1 [AvailInfo]
as2 = -- pprTrace "uAvailInfos" (ppr as1 $$ ppr as2) $
    let mkOE :: [AvailInfo] -> UniqFM OccName AvailInfo
mkOE [AvailInfo]
as = [(OccName, AvailInfo)] -> UniqFM OccName AvailInfo
forall key elt. Uniquable key => [(key, elt)] -> UniqFM key elt
listToUFM ([(OccName, AvailInfo)] -> UniqFM OccName AvailInfo)
-> [(OccName, AvailInfo)] -> UniqFM OccName AvailInfo
forall a b. (a -> b) -> a -> b
$ do AvailInfo
a <- [AvailInfo]
as
                                 Name
n <- AvailInfo -> [Name]
availNames AvailInfo
a
                                 (OccName, AvailInfo) -> [(OccName, AvailInfo)]
forall (m :: * -> *) a. Monad m => a -> m a
return (Name -> OccName
nameOccName Name
n, AvailInfo
a)
    in (ShNameSubst -> (AvailInfo, AvailInfo) -> Either SDoc ShNameSubst)
-> ShNameSubst
-> [(AvailInfo, AvailInfo)]
-> Either SDoc ShNameSubst
forall (t :: * -> *) (m :: * -> *) b a.
(Foldable t, Monad m) =>
(b -> a -> m b) -> b -> t a -> m b
foldM (\ShNameSubst
subst (AvailInfo
a1, AvailInfo
a2) -> ModuleName
-> ShNameSubst -> AvailInfo -> AvailInfo -> Either SDoc ShNameSubst
uAvailInfo ModuleName
flexi ShNameSubst
subst AvailInfo
a1 AvailInfo
a2) ShNameSubst
forall a. NameEnv a
emptyNameEnv
             (UniqFM OccName (AvailInfo, AvailInfo) -> [(AvailInfo, AvailInfo)]
forall key elt. UniqFM key elt -> [elt]
eltsUFM ((AvailInfo -> AvailInfo -> (AvailInfo, AvailInfo))
-> UniqFM OccName AvailInfo
-> UniqFM OccName AvailInfo
-> UniqFM OccName (AvailInfo, AvailInfo)
forall elt1 elt2 elt3 key.
(elt1 -> elt2 -> elt3)
-> UniqFM key elt1 -> UniqFM key elt2 -> UniqFM key elt3
intersectUFM_C (,) ([AvailInfo] -> UniqFM OccName AvailInfo
mkOE [AvailInfo]
as1) ([AvailInfo] -> UniqFM OccName AvailInfo
mkOE [AvailInfo]
as2)))
             -- Edward: I have to say, this is pretty clever.

-- | Unify two 'AvailInfo's, given an existing substitution @subst@,
-- with only name holes from @flexi@ unifiable (all other name holes rigid.)
uAvailInfo :: ModuleName -> ShNameSubst -> AvailInfo -> AvailInfo
           -> Either SDoc ShNameSubst
uAvailInfo :: ModuleName
-> ShNameSubst -> AvailInfo -> AvailInfo -> Either SDoc ShNameSubst
uAvailInfo ModuleName
flexi ShNameSubst
subst (Avail (NormalGreName Name
n1)) (Avail (NormalGreName Name
n2)) = ModuleName
-> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uName ModuleName
flexi ShNameSubst
subst Name
n1 Name
n2
uAvailInfo ModuleName
flexi ShNameSubst
subst (AvailTC Name
n1 [GreName]
_) (AvailTC Name
n2 [GreName]
_) = ModuleName
-> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uName ModuleName
flexi ShNameSubst
subst Name
n1 Name
n2
uAvailInfo ModuleName
_ ShNameSubst
_ AvailInfo
a1 AvailInfo
a2 = SDoc -> Either SDoc ShNameSubst
forall a b. a -> Either a b
Left (SDoc -> Either SDoc ShNameSubst)
-> SDoc -> Either SDoc ShNameSubst
forall a b. (a -> b) -> a -> b
$ String -> SDoc
text String
"While merging export lists, could not combine"
                           SDoc -> SDoc -> SDoc
<+> AvailInfo -> SDoc
forall a. Outputable a => a -> SDoc
ppr AvailInfo
a1 SDoc -> SDoc -> SDoc
<+> String -> SDoc
text String
"with" SDoc -> SDoc -> SDoc
<+> AvailInfo -> SDoc
forall a. Outputable a => a -> SDoc
ppr AvailInfo
a2
                           SDoc -> SDoc -> SDoc
<+> SDoc -> SDoc
parens (String -> SDoc
text String
"one is a type, the other is a plain identifier")

-- | Unify two 'Name's, given an existing substitution @subst@,
-- with only name holes from @flexi@ unifiable (all other name holes rigid.)
uName :: ModuleName -> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uName :: ModuleName
-> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uName ModuleName
flexi ShNameSubst
subst Name
n1 Name
n2
    | Name
n1 Name -> Name -> Bool
forall a. Eq a => a -> a -> Bool
== Name
n2      = ShNameSubst -> Either SDoc ShNameSubst
forall a b. b -> Either a b
Right ShNameSubst
subst
    | Name -> Bool
isFlexi Name
n1    = ModuleName
-> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uHoleName ModuleName
flexi ShNameSubst
subst Name
n1 Name
n2
    | Name -> Bool
isFlexi Name
n2    = ModuleName
-> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uHoleName ModuleName
flexi ShNameSubst
subst Name
n2 Name
n1
    | Bool
otherwise     = SDoc -> Either SDoc ShNameSubst
forall a b. a -> Either a b
Left (String -> SDoc
text String
"While merging export lists, could not unify"
                         SDoc -> SDoc -> SDoc
<+> Name -> SDoc
forall a. Outputable a => a -> SDoc
ppr Name
n1 SDoc -> SDoc -> SDoc
<+> String -> SDoc
text String
"with" SDoc -> SDoc -> SDoc
<+> Name -> SDoc
forall a. Outputable a => a -> SDoc
ppr Name
n2 SDoc -> SDoc -> SDoc
$$ SDoc
extra)
  where
    isFlexi :: Name -> Bool
isFlexi Name
n = Name -> Bool
isHoleName Name
n Bool -> Bool -> Bool
&& Module -> ModuleName
forall unit. GenModule unit -> ModuleName
moduleName (HasDebugCallStack => Name -> Module
Name -> Module
nameModule Name
n) ModuleName -> ModuleName -> Bool
forall a. Eq a => a -> a -> Bool
== ModuleName
flexi
    extra :: SDoc
extra | Name -> Bool
isHoleName Name
n1 Bool -> Bool -> Bool
|| Name -> Bool
isHoleName Name
n2
          = String -> SDoc
text String
"Neither name variable originates from the current signature."
          | Bool
otherwise
          = SDoc
empty

-- | Unify a name @h@ which 'isHoleName' with another name, given an existing
-- substitution @subst@, with only name holes from @flexi@ unifiable (all
-- other name holes rigid.)
uHoleName :: ModuleName -> ShNameSubst -> Name {- hole name -} -> Name
          -> Either SDoc ShNameSubst
uHoleName :: ModuleName
-> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uHoleName ModuleName
flexi ShNameSubst
subst Name
h Name
n =
    ASSERT( isHoleName h )
    case ShNameSubst -> Name -> Maybe Name
forall a. NameEnv a -> Name -> Maybe a
lookupNameEnv ShNameSubst
subst Name
h of
        Just Name
n' -> ModuleName
-> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst
uName ModuleName
flexi ShNameSubst
subst Name
n' Name
n
                -- Do a quick check if the other name is substituted.
        Maybe Name
Nothing | Just Name
n' <- ShNameSubst -> Name -> Maybe Name
forall a. NameEnv a -> Name -> Maybe a
lookupNameEnv ShNameSubst
subst Name
n ->
                    ASSERT( isHoleName n ) uName flexi subst h n'
                | Bool
otherwise ->
                    ShNameSubst -> Either SDoc ShNameSubst
forall a b. b -> Either a b
Right (ShNameSubst -> Name -> Name -> ShNameSubst
forall a. NameEnv a -> Name -> a -> NameEnv a
extendNameEnv ShNameSubst
subst Name
h Name
n)