{-# LANGUAGE CPP #-} module GHC.Types.Name.Shape ( NameShape(..) , emptyNameShape , mkNameShape , extendNameShape , nameShapeExports , substNameShape , maybeSubstNameShape ) where #include "HsVersions.h" import GHC.Prelude import GHC.Utils.Outputable import GHC.Driver.Types 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.Utils.Misc import GHC.Iface.Env 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 mod_name = NameShape mod_name [] 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 mod_name as = NameShape mod_name as $ mkOccEnv $ do a <- as n <- availName a : availNamesWithSelectors a return (occName n, 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 hsc_env ns as = case uAvailInfos (ns_mod_name ns) (ns_exports ns) as of Left err -> return (Left err) Right nsubst -> do as1 <- mapM (liftIO . substNameAvailInfo hsc_env nsubst) (ns_exports ns) as2 <- mapM (liftIO . substNameAvailInfo hsc_env nsubst) as let new_avails = mergeAvails as1 as2 return . Right $ ns { ns_exports = new_avails, -- TODO: stop repeatedly rebuilding the OccEnv ns_map = mkOccEnv $ do a <- new_avails n <- availName a : availNames a return (occName n, 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 = 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 ns n | nameModule n == ns_module ns , Just n' <- lookupOccEnv (ns_map ns) (occName n) = n' | otherwise = n -- | Like 'substNameShape', but returns @Nothing@ if no substitution -- works. maybeSubstNameShape :: NameShape -> Name -> Maybe Name maybeSubstNameShape ns n | nameModule n == ns_module ns = lookupOccEnv (ns_map ns) (occName n) | otherwise = Nothing -- | The 'Module' of any 'Name's a 'NameShape' has action over. ns_module :: NameShape -> Module ns_module = mkHoleModule . 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 env n | Just n' <- lookupNameEnv env n = n' | otherwise = 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 _ env (Avail n) = return (Avail (substName env n)) substNameAvailInfo hsc_env env (AvailTC n ns fs) = let mb_mod = fmap nameModule (lookupNameEnv env n) in AvailTC (substName env n) <$> mapM (initIfaceLoad hsc_env . setNameModule mb_mod) ns <*> mapM (setNameFieldSelector hsc_env mb_mod) fs -- | Set the 'Module' of a 'FieldSelector' setNameFieldSelector :: HscEnv -> Maybe Module -> FieldLabel -> IO FieldLabel setNameFieldSelector _ Nothing f = return f setNameFieldSelector hsc_env mb_mod (FieldLabel l b sel) = do sel' <- initIfaceLoad hsc_env $ setNameModule mb_mod sel return (FieldLabel l b sel') {- ************************************************************************ * * AvailInfo merging * * ************************************************************************ -} -- | Merges to 'AvailInfo' lists together, assuming the 'AvailInfo's have -- already been unified ('uAvailInfos'). mergeAvails :: [AvailInfo] -> [AvailInfo] -> [AvailInfo] mergeAvails as1 as2 = let mkNE as = mkNameEnv [(availName a, a) | a <- as] in nameEnvElts (plusNameEnv_C plusAvail (mkNE as1) (mkNE 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 flexi as1 as2 = -- pprTrace "uAvailInfos" (ppr as1 $$ ppr as2) $ let mkOE as = listToUFM $ do a <- as n <- availNames a return (nameOccName n, a) in foldM (\subst (a1, a2) -> uAvailInfo flexi subst a1 a2) emptyNameEnv (eltsUFM (intersectUFM_C (,) (mkOE as1) (mkOE as2))) -- Edward: I have to say, this is pretty clever. -- | Unify two 'AvailInfo's, given an existing substitution @subst@, -- with only name holes from @flexi@ unifiable (all other name holes rigid.) uAvailInfo :: ModuleName -> ShNameSubst -> AvailInfo -> AvailInfo -> Either SDoc ShNameSubst uAvailInfo flexi subst (Avail n1) (Avail n2) = uName flexi subst n1 n2 uAvailInfo flexi subst (AvailTC n1 _ _) (AvailTC n2 _ _) = uName flexi subst n1 n2 uAvailInfo _ _ a1 a2 = Left $ text "While merging export lists, could not combine" <+> ppr a1 <+> text "with" <+> ppr a2 <+> parens (text "one is a type, the other is a plain identifier") -- | Unify two 'Name's, given an existing substitution @subst@, -- with only name holes from @flexi@ unifiable (all other name holes rigid.) uName :: ModuleName -> ShNameSubst -> Name -> Name -> Either SDoc ShNameSubst uName flexi subst n1 n2 | n1 == n2 = Right subst | isFlexi n1 = uHoleName flexi subst n1 n2 | isFlexi n2 = uHoleName flexi subst n2 n1 | otherwise = Left (text "While merging export lists, could not unify" <+> ppr n1 <+> text "with" <+> ppr n2 $$ extra) where isFlexi n = isHoleName n && moduleName (nameModule n) == flexi extra | isHoleName n1 || isHoleName n2 = text "Neither name variable originates from the current signature." | otherwise = 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 flexi subst h n = ASSERT( isHoleName h ) case lookupNameEnv subst h of Just n' -> uName flexi subst n' n -- Do a quick check if the other name is substituted. Nothing | Just n' <- lookupNameEnv subst n -> ASSERT( isHoleName n ) uName flexi subst h n' | otherwise -> Right (extendNameEnv subst h n)