{-# LANGUAGE CPP #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE NondecreasingIndentation #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE ScopedTypeVariables #-} module TcBackpack ( findExtraSigImports', findExtraSigImports, implicitRequirements', implicitRequirements, checkUnitId, tcRnCheckUnitId, tcRnMergeSignatures, mergeSignatures, tcRnInstantiateSignature, instantiateSignature, ) where import BasicTypes (defaultFixity) import Packages import TcRnExports import DynFlags import HsSyn import RdrName import TcRnMonad import TcTyDecls import InstEnv import FamInstEnv import Inst import TcIface import TcMType import TcType import TcSimplify import LoadIface import RnNames import ErrUtils import Id import Module import Name import NameEnv import NameSet import Avail import SrcLoc import HscTypes import Outputable import Type import FastString import RnEnv import Maybes import TcEnv import Var import IfaceSyn import PrelNames import qualified Data.Map as Map import Finder import UniqDSet import NameShape import TcErrors import TcUnify import RnModIface import Util import Control.Monad import Data.List (find, foldl') import {-# SOURCE #-} TcRnDriver #include "HsVersions.h" fixityMisMatch :: TyThing -> Fixity -> Fixity -> SDoc fixityMisMatch real_thing real_fixity sig_fixity = vcat [ppr real_thing <+> text "has conflicting fixities in the module", text "and its hsig file", text "Main module:" <+> ppr_fix real_fixity, text "Hsig file:" <+> ppr_fix sig_fixity] where ppr_fix f = ppr f <+> (if f == defaultFixity then parens (text "default") else empty) checkHsigDeclM :: ModIface -> TyThing -> TyThing -> TcRn () checkHsigDeclM sig_iface sig_thing real_thing = do let name = getName real_thing -- TODO: Distinguish between signature merging and signature -- implementation cases. checkBootDeclM False sig_thing real_thing real_fixity <- lookupFixityRn name let sig_fixity = case mi_fix_fn sig_iface (occName name) of Nothing -> defaultFixity Just f -> f when (real_fixity /= sig_fixity) $ addErrAt (nameSrcSpan name) (fixityMisMatch real_thing real_fixity sig_fixity) -- | Given a 'ModDetails' of an instantiated signature (note that the -- 'ModDetails' must be knot-tied consistently with the actual implementation) -- and a 'GlobalRdrEnv' constructed from the implementor of this interface, -- verify that the actual implementation actually matches the original -- interface. -- -- Note that it is already assumed that the implementation *exports* -- a sufficient set of entities, since otherwise the renaming and then -- typechecking of the signature 'ModIface' would have failed. checkHsigIface :: TcGblEnv -> GlobalRdrEnv -> ModIface -> ModDetails -> TcRn () checkHsigIface tcg_env gr sig_iface ModDetails { md_insts = sig_insts, md_fam_insts = sig_fam_insts, md_types = sig_type_env, md_exports = sig_exports } = do traceTc "checkHsigIface" $ vcat [ ppr sig_type_env, ppr sig_insts, ppr sig_exports ] mapM_ check_export (map availName sig_exports) unless (null sig_fam_insts) $ panic ("TcRnDriver.checkHsigIface: Cannot handle family " ++ "instances in hsig files yet...") -- Delete instances so we don't look them up when -- checking instance satisfiability -- TODO: this should not be necessary tcg_env <- getGblEnv setGblEnv tcg_env { tcg_inst_env = emptyInstEnv, tcg_fam_inst_env = emptyFamInstEnv, tcg_insts = [], tcg_fam_insts = [] } $ do mapM_ check_inst sig_insts failIfErrsM where -- NB: the Names in sig_type_env are bogus. Let's say we have H.hsig -- in package p that defines T; and we implement with himpl:H. Then the -- Name is p[himpl:H]:H.T, NOT himplH:H.T. That's OK but we just -- have to look up the right name. sig_type_occ_env = mkOccEnv . map (\t -> (nameOccName (getName t), t)) $ nameEnvElts sig_type_env dfun_names = map getName sig_insts check_export name -- Skip instances, we'll check them later -- TODO: Actually this should never happen, because DFuns are -- never exported... | name `elem` dfun_names = return () -- See if we can find the type directly in the hsig ModDetails -- TODO: need to special case wired in names | Just sig_thing <- lookupOccEnv sig_type_occ_env (nameOccName name) = do -- NB: We use tcLookupImported_maybe because we want to EXCLUDE -- tcg_env (TODO: but maybe this isn't relevant anymore). r <- tcLookupImported_maybe name case r of Failed err -> addErr err Succeeded real_thing -> checkHsigDeclM sig_iface sig_thing real_thing -- The hsig did NOT define this function; that means it must -- be a reexport. In this case, make sure the 'Name' of the -- reexport matches the 'Name exported here. | [GRE { gre_name = name' }] <- lookupGlobalRdrEnv gr (nameOccName name) = when (name /= name') $ do -- See Note [Error reporting bad reexport] -- TODO: Actually this error swizzle doesn't work let p (L _ ie) = name `elem` ieNames ie loc = case tcg_rn_exports tcg_env of Just es | Just e <- find p es -- TODO: maybe we can be a little more -- precise here and use the Located -- info for the *specific* name we matched. -> getLoc e _ -> nameSrcSpan name dflags <- getDynFlags addErrAt loc (badReexportedBootThing dflags False name name') -- This should actually never happen, but whatever... | otherwise = addErrAt (nameSrcSpan name) (missingBootThing False name "exported by") -- Note [Error reporting bad reexport] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- NB: You want to be a bit careful about what location you report on reexports. -- If the name was declared in the hsig file, 'nameSrcSpan name' is indeed the -- correct source location. However, if it was *reexported*, obviously the name -- is not going to have the right location. In this case, we need to grovel in -- tcg_rn_exports to figure out where the reexport came from. -- | Checks if a 'ClsInst' is "defined". In general, for hsig files we can't -- assume that the implementing file actually implemented the instances (they -- may be reexported from elsewhere). Where should we look for the instances? -- We do the same as we would otherwise: consult the EPS. This isn't perfect -- (we might conclude the module exports an instance when it doesn't, see -- #9422), but we will never refuse to compile something. check_inst :: ClsInst -> TcM () check_inst sig_inst = do -- TODO: This could be very well generalized to support instance -- declarations in boot files. tcg_env <- getGblEnv -- NB: Have to tug on the interface, not necessarily -- tugged... but it didn't work? mapM_ tcLookupImported_maybe (nameSetElemsStable (orphNamesOfClsInst sig_inst)) -- Based off of 'simplifyDeriv' let ty = idType (instanceDFunId sig_inst) skol_info = InstSkol -- Based off of tcSplitDFunTy (tvs, theta, pred) = case tcSplitForAllTys ty of { (tvs, rho) -> case splitFunTys rho of { (theta, pred) -> (tvs, theta, pred) }} origin = InstProvidedOrigin (tcg_semantic_mod tcg_env) sig_inst (skol_subst, tvs_skols) <- tcInstSkolTyVars tvs -- Skolemize (cts, tclvl) <- pushTcLevelM $ do wanted <- newWanted origin (Just TypeLevel) (substTy skol_subst pred) givens <- forM theta $ \given -> do loc <- getCtLocM origin (Just TypeLevel) let given_pred = substTy skol_subst given new_ev <- newEvVar given_pred return CtGiven { ctev_pred = given_pred -- Doesn't matter, make something up , ctev_evar = new_ev , ctev_loc = loc } return $ wanted : givens unsolved <- simplifyWantedsTcM cts (implic, _) <- buildImplicationFor tclvl skol_info tvs_skols [] unsolved reportAllUnsolved (mkImplicWC implic) -- | Return this list of requirement interfaces that need to be merged -- to form @mod_name@, or @[]@ if this is not a requirement. requirementMerges :: DynFlags -> ModuleName -> [IndefModule] requirementMerges dflags mod_name = fromMaybe [] (Map.lookup mod_name (requirementContext (pkgState dflags))) -- | For a module @modname@ of type 'HscSource', determine the list -- of extra "imports" of other requirements which should be considered part of -- the import of the requirement, because it transitively depends on those -- requirements by imports of modules from other packages. The situation -- is something like this: -- -- unit p where -- signature A -- signature B -- import A -- -- unit q where -- dependency p[A=,B=] -- signature A -- signature B -- -- Although q's B does not directly import A, we still have to make sure we -- process A first, because the merging process will cause B to indirectly -- import A. This function finds the TRANSITIVE closure of all such imports -- we need to make. findExtraSigImports' :: HscEnv -> HscSource -> ModuleName -> IO (UniqDSet ModuleName) findExtraSigImports' hsc_env HsigFile modname = fmap unionManyUniqDSets (forM reqs $ \(IndefModule iuid mod_name) -> (initIfaceLoad hsc_env . withException $ moduleFreeHolesPrecise (text "findExtraSigImports") (mkModule (IndefiniteUnitId iuid) mod_name))) where reqs = requirementMerges (hsc_dflags hsc_env) modname findExtraSigImports' _ _ _ = return emptyUniqDSet -- | 'findExtraSigImports', but in a convenient form for "GhcMake" and -- "TcRnDriver". findExtraSigImports :: HscEnv -> HscSource -> ModuleName -> IO [(Maybe FastString, Located ModuleName)] findExtraSigImports hsc_env hsc_src modname = do extra_requirements <- findExtraSigImports' hsc_env hsc_src modname return [ (Nothing, noLoc mod_name) | mod_name <- uniqDSetToList extra_requirements ] -- A version of 'implicitRequirements'' which is more friendly -- for "GhcMake" and "TcRnDriver". implicitRequirements :: HscEnv -> [(Maybe FastString, Located ModuleName)] -> IO [(Maybe FastString, Located ModuleName)] implicitRequirements hsc_env normal_imports = do mns <- implicitRequirements' hsc_env normal_imports return [ (Nothing, noLoc mn) | mn <- mns ] -- Given a list of 'import M' statements in a module, figure out -- any extra implicit requirement imports they may have. For -- example, if they 'import M' and M resolves to p[A=], then -- they actually also import the local requirement B. implicitRequirements' :: HscEnv -> [(Maybe FastString, Located ModuleName)] -> IO [ModuleName] implicitRequirements' hsc_env normal_imports = fmap concat $ forM normal_imports $ \(mb_pkg, L _ imp) -> do found <- findImportedModule hsc_env imp mb_pkg case found of Found _ mod | thisPackage dflags /= moduleUnitId mod -> return (uniqDSetToList (moduleFreeHoles mod)) _ -> return [] where dflags = hsc_dflags hsc_env -- | Given a 'UnitId', make sure it is well typed. This is because -- unit IDs come from Cabal, which does not know if things are well-typed or -- not; a component may have been filled with implementations for the holes -- that don't actually fulfill the requirements. -- -- INVARIANT: the UnitId is NOT a InstalledUnitId checkUnitId :: UnitId -> TcM () checkUnitId uid = do case splitUnitIdInsts uid of (_, Just indef) -> let insts = indefUnitIdInsts indef in forM_ insts $ \(mod_name, mod) -> -- NB: direct hole instantiations are well-typed by construction -- (because we FORCE things to be merged in), so don't check them when (not (isHoleModule mod)) $ do checkUnitId (moduleUnitId mod) _ <- mod `checkImplements` IndefModule indef mod_name return () _ -> return () -- if it's hashed, must be well-typed -- | Top-level driver for signature instantiation (run when compiling -- an @hsig@ file.) tcRnCheckUnitId :: HscEnv -> UnitId -> IO (Messages, Maybe ()) tcRnCheckUnitId hsc_env uid = withTiming (pure dflags) (text "Check unit id" <+> ppr uid) (const ()) $ initTc hsc_env HsigFile -- bogus False mAIN -- bogus (realSrcLocSpan (mkRealSrcLoc (fsLit loc_str) 0 0)) -- bogus $ checkUnitId uid where dflags = hsc_dflags hsc_env loc_str = "Command line argument: -unit-id " ++ showSDoc dflags (ppr uid) -- TODO: Maybe lcl_iface0 should be pre-renamed to the right thing? Unclear... -- | Top-level driver for signature merging (run after typechecking -- an @hsig@ file). tcRnMergeSignatures :: HscEnv -> HsParsedModule -> TcGblEnv {- from local sig -} -> ModIface -> IO (Messages, Maybe TcGblEnv) tcRnMergeSignatures hsc_env hpm orig_tcg_env iface = withTiming (pure dflags) (text "Signature merging" <+> brackets (ppr this_mod)) (const ()) $ initTc hsc_env HsigFile False this_mod real_loc $ mergeSignatures hpm orig_tcg_env iface where dflags = hsc_dflags hsc_env this_mod = mi_module iface real_loc = tcg_top_loc orig_tcg_env thinModIface :: [AvailInfo] -> ModIface -> ModIface thinModIface avails iface = iface { mi_exports = avails, -- mi_fixities = ..., -- mi_warns = ..., -- mi_anns = ..., -- TODO: The use of nameOccName here is a bit dodgy, because -- perhaps there might be two IfaceTopBndr that are the same -- OccName but different Name. Requires better understanding -- of invariants here. mi_decls = exported_decls ++ non_exported_decls ++ dfun_decls -- mi_insts = ..., -- mi_fam_insts = ..., } where decl_pred occs decl = nameOccName (ifName decl) `elemOccSet` occs filter_decls occs = filter (decl_pred occs . snd) (mi_decls iface) exported_occs = mkOccSet [ occName n | a <- avails , n <- availNames a ] exported_decls = filter_decls exported_occs non_exported_occs = mkOccSet [ occName n | (_, d) <- exported_decls , n <- ifaceDeclNeverExportedRefs d ] non_exported_decls = filter_decls non_exported_occs dfun_pred IfaceId{ ifIdDetails = IfDFunId } = True dfun_pred _ = False dfun_decls = filter (dfun_pred . snd) (mi_decls iface) -- | The list of 'Name's of *non-exported* 'IfaceDecl's which this -- 'IfaceDecl' may refer to. A non-exported 'IfaceDecl' should be kept -- after thinning if an *exported* 'IfaceDecl' (or 'mi_insts', perhaps) -- refers to it; we can't decide to keep it by looking at the exports -- of a module after thinning. Keep this synchronized with -- 'rnIfaceDecl'. ifaceDeclNeverExportedRefs :: IfaceDecl -> [Name] ifaceDeclNeverExportedRefs d@IfaceFamily{} = case ifFamFlav d of IfaceClosedSynFamilyTyCon (Just (n, _)) -> [n] _ -> [] ifaceDeclNeverExportedRefs _ = [] -- Note [Blank hsigs for all requirements] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- One invariant that a client of GHC must uphold is that there -- must be an hsig file for every requirement (according to -- @-this-unit-id@); this ensures that for every interface -- file (hi), there is a source file (hsig), which helps grease -- the wheels of recompilation avoidance which assumes that -- source files always exist. {- inheritedSigPvpWarning :: WarningTxt inheritedSigPvpWarning = WarningTxt (noLoc NoSourceText) [noLoc (StringLiteral NoSourceText (fsLit msg))] where msg = "Inherited requirements from non-signature libraries (libraries " ++ "with modules) should not be used, as this mode of use is not " ++ "compatible with PVP-style version bounds. Instead, copy the " ++ "declaration to the local hsig file or move the signature to a " ++ "library of its own and add that library as a dependency." -} -- Note [Handling never-exported TyThings under Backpack] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- DEFINITION: A "never-exported TyThing" is a TyThing whose 'Name' will -- never be mentioned in the export list of a module (mi_avails). -- Unlike implicit TyThings (Note [Implicit TyThings]), non-exported -- TyThings DO have a standalone IfaceDecl declaration in their -- interface file. -- -- Originally, Backpack was designed under the assumption that anything -- you could declare in a module could also be exported; thus, merging -- the export lists of two signatures is just merging the declarations -- of two signatures writ small. Of course, in GHC Haskell, there are a -- few important things which are not explicitly exported but still can -- be used: in particular, dictionary functions for instances, Typeable -- TyCon bindings, and coercion axioms for type families also count. -- -- When handling these non-exported things, there two primary things -- we need to watch out for: -- -- * Signature matching/merging is done by comparing each -- of the exported entities of a signature and a module. These exported -- entities may refer to non-exported TyThings which must be tested for -- consistency. For example, an instance (ClsInst) will refer to a -- non-exported DFunId. In this case, 'checkBootDeclM' directly compares the -- embedded 'DFunId' in 'is_dfun'. -- -- For this to work at all, we must ensure that pointers in 'is_dfun' refer -- to DISTINCT 'DFunId's, even though the 'Name's (may) be the same. -- Unfortunately, this is the OPPOSITE of how we treat most other references -- to 'Name's, so this case needs to be handled specially. -- -- The details are in the documentation for 'typecheckIfacesForMerging'. -- and the Note [Resolving never-exported Names in TcIface]. -- -- * When we rename modules and signatures, we use the export lists to -- decide how the declarations should be renamed. However, this -- means we don't get any guidance for how to rename non-exported -- entities. Fortunately, we only need to rename these entities -- *consistently*, so that 'typecheckIfacesForMerging' can wire them -- up as needed. -- -- The details are in Note [rnIfaceNeverExported] in 'RnModIface'. -- -- The root cause for all of these complications is the fact that these -- logically "implicit" entities are defined indirectly in an interface -- file. #13151 gives a proposal to make these *truly* implicit. merge_msg :: ModuleName -> [IndefModule] -> SDoc merge_msg mod_name [] = text "while checking the local signature" <+> ppr mod_name <+> text "for consistency" merge_msg mod_name reqs = hang (text "while merging the signatures from" <> colon) 2 (vcat [ bullet <+> ppr req | req <- reqs ] $$ bullet <+> text "...and the local signature for" <+> ppr mod_name) -- | Given a local 'ModIface', merge all inherited requirements -- from 'requirementMerges' into this signature, producing -- a final 'TcGblEnv' that matches the local signature and -- all required signatures. mergeSignatures :: HsParsedModule -> TcGblEnv -> ModIface -> TcRn TcGblEnv mergeSignatures (HsParsedModule { hpm_module = L loc (HsModule { hsmodExports = mb_exports }), hpm_src_files = src_files }) orig_tcg_env lcl_iface0 = setSrcSpan loc $ do -- The lcl_iface0 is the ModIface for the local hsig -- file, which is guaranteed to exist, see -- Note [Blank hsigs for all requirements] hsc_env <- getTopEnv dflags <- getDynFlags tcg_env <- getGblEnv let outer_mod = tcg_mod tcg_env inner_mod = tcg_semantic_mod tcg_env mod_name = moduleName (tcg_mod tcg_env) -- STEP 1: Figure out all of the external signature interfaces -- we are going to merge in. let reqs = requirementMerges dflags mod_name addErrCtxt (merge_msg mod_name reqs) $ do -- STEP 2: Read in the RAW forms of all of these interfaces ireq_ifaces0 <- forM reqs $ \(IndefModule iuid mod_name) -> let m = mkModule (IndefiniteUnitId iuid) mod_name im = fst (splitModuleInsts m) in fmap fst . withException $ findAndReadIface (text "mergeSignatures") im m False -- STEP 3: Get the unrenamed exports of all these interfaces, -- thin it according to the export list, and do shaping on them. let extend_ns nsubst as = liftIO $ extendNameShape hsc_env nsubst as -- This function gets run on every inherited interface, and -- it's responsible for: -- -- 1. Merging the exports of the interface into @nsubst@, -- 2. Adding these exports to the "OK to import" set (@oks@) -- if they came from a package with no exposed modules -- (this means we won't report a PVP error in this case), and -- 3. Thinning the interface according to an explicit export -- list. -- gen_subst (nsubst,oks,ifaces) (imod@(IndefModule iuid _), ireq_iface) = do let insts = indefUnitIdInsts iuid as1 <- tcRnModExports insts ireq_iface let inst_uid = fst (splitUnitIdInsts (IndefiniteUnitId iuid)) pkg = getInstalledPackageDetails dflags inst_uid -- Setup the import spec correctly, so that when we apply -- IEModuleContents we pick up EVERYTHING ispec = ImpSpec ImpDeclSpec{ is_mod = mod_name, is_as = mod_name, is_qual = False, is_dloc = loc } ImpAll rdr_env = mkGlobalRdrEnv (gresFromAvails (Just ispec) as1) (thinned_iface, as2) <- case mb_exports of Just (L loc _) | null (exposedModules pkg) -> setSrcSpan loc $ do -- Suppress missing errors; we'll pick em up -- when we test exports on the final thing (msgs, mb_r) <- tryTc $ setGblEnv tcg_env { tcg_rdr_env = rdr_env } $ exports_from_avail mb_exports rdr_env (tcg_imports tcg_env) (tcg_semantic_mod tcg_env) case mb_r of Just (_, as2) -> return (thinModIface as2 ireq_iface, as2) Nothing -> addMessages msgs >> failM _ -> return (ireq_iface, as1) let oks' | null (exposedModules pkg) = extendOccSetList oks (exportOccs as2) | otherwise = oks mb_r <- extend_ns nsubst as2 case mb_r of Left err -> failWithTc err Right nsubst' -> return (nsubst',oks',(imod, thinned_iface):ifaces) nsubst0 = mkNameShape (moduleName inner_mod) (mi_exports lcl_iface0) ok_to_use0 = mkOccSet (exportOccs (mi_exports lcl_iface0)) -- Process each interface, getting the thinned interfaces as well as -- the final, full set of exports @nsubst@ and the exports which are -- "ok to use" (we won't attach 'inheritedSigPvpWarning' to them.) (nsubst, ok_to_use, rev_thinned_ifaces) <- foldM gen_subst (nsubst0, ok_to_use0, []) (zip reqs ireq_ifaces0) let thinned_ifaces = reverse rev_thinned_ifaces exports = nameShapeExports nsubst rdr_env = mkGlobalRdrEnv (gresFromAvails Nothing exports) _warn_occs = filter (not . (`elemOccSet` ok_to_use)) (exportOccs exports) warns = NoWarnings {- -- TODO: Warnings are transitive, but this is not what we want here: -- if a module reexports an entity from a signature, that should be OK. -- Not supported in current warning framework warns | null warn_occs = NoWarnings | otherwise = WarnSome $ map (\o -> (o, inheritedSigPvpWarning)) warn_occs -} setGblEnv tcg_env { -- The top-level GlobalRdrEnv is quite interesting. It consists -- of two components: -- 1. First, we reuse the GlobalRdrEnv of the local signature. -- This is very useful, because it means that if we have -- to print a message involving some entity that the local -- signature imported, we'll qualify it accordingly. -- 2. Second, we need to add all of the declarations we are -- going to merge in (as they need to be in scope for the -- final test of the export list.) tcg_rdr_env = rdr_env `plusGlobalRdrEnv` tcg_rdr_env orig_tcg_env, -- Inherit imports from the local signature, so that module -- rexports are picked up correctly tcg_imports = tcg_imports orig_tcg_env, tcg_exports = exports, tcg_dus = usesOnly (availsToNameSetWithSelectors exports), tcg_warns = warns } $ do tcg_env <- getGblEnv -- Make sure we didn't refer to anything that doesn't actually exist -- pprTrace "mergeSignatures: exports_from_avail" (ppr exports) $ return () (mb_lies, _) <- exports_from_avail mb_exports rdr_env (tcg_imports tcg_env) (tcg_semantic_mod tcg_env) -- If you tried to explicitly export an identifier that has a warning -- attached to it, that's probably a mistake. Warn about it. case mb_lies of Nothing -> return () Just lies -> forM_ (concatMap (\(L loc x) -> map (L loc) (ieNames x)) lies) $ \(L loc n) -> setSrcSpan loc $ unless (nameOccName n `elemOccSet` ok_to_use) $ addWarn NoReason $ vcat [ text "Exported identifier" <+> quotes (ppr n) <+> text "will cause warnings if used.", parens (text "To suppress this warning, remove" <+> quotes (ppr n) <+> text "from the export list of this signature.") ] failIfErrsM -- STEP 4: Rename the interfaces ext_ifaces <- forM thinned_ifaces $ \((IndefModule iuid _), ireq_iface) -> tcRnModIface (indefUnitIdInsts iuid) (Just nsubst) ireq_iface lcl_iface <- tcRnModIface (thisUnitIdInsts dflags) (Just nsubst) lcl_iface0 let ifaces = lcl_iface : ext_ifaces -- STEP 4.1: Merge fixities (we'll verify shortly) tcg_fix_env let fix_env = mkNameEnv [ (gre_name rdr_elt, FixItem occ f) | (occ, f) <- concatMap mi_fixities ifaces , rdr_elt <- lookupGlobalRdrEnv rdr_env occ ] -- STEP 5: Typecheck the interfaces let type_env_var = tcg_type_env_var tcg_env -- typecheckIfacesForMerging does two things: -- 1. It merges the all of the ifaces together, and typechecks the -- result to type_env. -- 2. It typechecks each iface individually, but with their 'Name's -- resolving to the merged type_env from (1). -- See typecheckIfacesForMerging for more details. (type_env, detailss) <- initIfaceTcRn $ typecheckIfacesForMerging inner_mod ifaces type_env_var let infos = zip ifaces detailss -- Test for cycles checkSynCycles (thisPackage dflags) (typeEnvTyCons type_env) [] -- NB on type_env: it contains NO dfuns. DFuns are recorded inside -- detailss, and given a Name that doesn't correspond to anything real. See -- also Note [Signature merging DFuns] -- Add the merged type_env to TcGblEnv, so that it gets serialized -- out when we finally write out the interface. -- -- NB: Why do we set tcg_tcs/tcg_patsyns/tcg_type_env directly, -- rather than use tcExtendGlobalEnv (the normal method to add newly -- defined types to TcGblEnv?) tcExtendGlobalEnv adds these -- TyThings to 'tcg_type_env_var', which is consulted when -- we read in interfaces to tie the knot. But *these TyThings themselves -- come from interface*, so that would result in deadlock. Don't -- update it! setGblEnv tcg_env { tcg_tcs = typeEnvTyCons type_env, tcg_patsyns = typeEnvPatSyns type_env, tcg_type_env = type_env, tcg_fix_env = fix_env } $ do tcg_env <- getGblEnv -- STEP 6: Check for compatibility/merge things tcg_env <- (\x -> foldM x tcg_env infos) $ \tcg_env (iface, details) -> do let check_export name | Just sig_thing <- lookupTypeEnv (md_types details) name = case lookupTypeEnv type_env (getName sig_thing) of Just thing -> checkHsigDeclM iface sig_thing thing Nothing -> panic "mergeSignatures: check_export" -- Oops! We're looking for this export but it's -- not actually in the type environment of the signature's -- ModDetails. -- -- NB: This case happens because the we're iterating -- over the union of all exports, so some interfaces -- won't have everything. Note that md_exports is nonsense -- (it's the same as exports); maybe we should fix this -- eventually. | otherwise = return () mapM_ check_export (map availName exports) -- Note [Signature merging instances] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- Merge instances into the global environment. The algorithm here is -- dumb and simple: if an instance has exactly the same DFun type -- (tested by 'memberInstEnv') as an existing instance, we drop it; -- otherwise, we add it even, even if this would cause overlap. -- -- Why don't we deduplicate instances with identical heads? There's no -- good choice if they have premises: -- -- instance K1 a => K (T a) -- instance K2 a => K (T a) -- -- Why not eagerly error in this case? The overlapping head does not -- necessarily mean that the instances are unimplementable: in fact, -- they may be implemented without overlap (if, for example, the -- implementing module has 'instance K (T a)'; both are implemented in -- this case.) The implements test just checks that the wanteds are -- derivable assuming the givens. -- -- Still, overlapping instances with hypotheses like above are going -- to be a bad deal, because instance resolution when we're typechecking -- against the merged signature is going to have a bad time when -- there are overlapping heads like this: we never backtrack, so it -- may be difficult to see that a wanted is derivable. For now, -- we hope that we get lucky / the overlapping instances never -- get used, but it is not a very good situation to be in. -- let merge_inst (insts, inst_env) inst | memberInstEnv inst_env inst -- test DFun Type equality = (insts, inst_env) | otherwise -- NB: is_dfun_name inst is still nonsense here, -- see Note [Signature merging DFuns] = (inst:insts, extendInstEnv inst_env inst) (insts, inst_env) = foldl' merge_inst (tcg_insts tcg_env, tcg_inst_env tcg_env) (md_insts details) -- This is a HACK to prevent calculateAvails from including imp_mod -- in the listing. We don't want it because a module is NOT -- supposed to include itself in its dep_orphs/dep_finsts. See #13214 iface' = iface { mi_orphan = False, mi_finsts = False } avails = plusImportAvails (tcg_imports tcg_env) $ calculateAvails dflags iface' False False ImportedBySystem return tcg_env { tcg_inst_env = inst_env, tcg_insts = insts, tcg_imports = avails, tcg_merged = if outer_mod == mi_module iface -- Don't add ourselves! then tcg_merged tcg_env else (mi_module iface, mi_mod_hash iface) : tcg_merged tcg_env } -- Note [Signature merging DFuns] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- Once we know all of instances which will be defined by this merged -- signature, we go through each of the DFuns and rename them with a fresh, -- new, unique DFun Name, and add these DFuns to tcg_type_env (thus fixing -- up the "bogus" names that were setup in 'typecheckIfacesForMerging'. -- -- We can't do this fixup earlier, because we need a way to identify each -- source DFun (from each of the signatures we are merging in) so that -- when we have a ClsInst, we can pull up the correct DFun to check if -- the types match. -- -- See also Note [rnIfaceNeverExported] in RnModIface dfun_insts <- forM (tcg_insts tcg_env) $ \inst -> do n <- newDFunName (is_cls inst) (is_tys inst) (nameSrcSpan (is_dfun_name inst)) let dfun = setVarName (is_dfun inst) n return (dfun, inst { is_dfun_name = n, is_dfun = dfun }) tcg_env <- return tcg_env { tcg_insts = map snd dfun_insts, tcg_type_env = extendTypeEnvWithIds (tcg_type_env tcg_env) (map fst dfun_insts) } addDependentFiles src_files return tcg_env -- | Top-level driver for signature instantiation (run when compiling -- an @hsig@ file.) tcRnInstantiateSignature :: HscEnv -> Module -> RealSrcSpan -> IO (Messages, Maybe TcGblEnv) tcRnInstantiateSignature hsc_env this_mod real_loc = withTiming (pure dflags) (text "Signature instantiation"<+>brackets (ppr this_mod)) (const ()) $ initTc hsc_env HsigFile False this_mod real_loc $ instantiateSignature where dflags = hsc_dflags hsc_env exportOccs :: [AvailInfo] -> [OccName] exportOccs = concatMap (map occName . availNames) impl_msg :: Module -> IndefModule -> SDoc impl_msg impl_mod (IndefModule req_uid req_mod_name) = text "while checking that" <+> ppr impl_mod <+> text "implements signature" <+> ppr req_mod_name <+> text "in" <+> ppr req_uid -- | Check if module implements a signature. (The signature is -- always un-hashed, which is why its components are specified -- explicitly.) checkImplements :: Module -> IndefModule -> TcRn TcGblEnv checkImplements impl_mod req_mod@(IndefModule uid mod_name) = addErrCtxt (impl_msg impl_mod req_mod) $ do let insts = indefUnitIdInsts uid -- STEP 1: Load the implementing interface, and make a RdrEnv -- for its exports. Also, add its 'ImportAvails' to 'tcg_imports', -- so that we treat all orphan instances it provides as visible -- when we verify that all instances are checked (see #12945), and so that -- when we eventually write out the interface we record appropriate -- dependency information. impl_iface <- initIfaceTcRn $ loadSysInterface (text "checkImplements 1") impl_mod let impl_gr = mkGlobalRdrEnv (gresFromAvails Nothing (mi_exports impl_iface)) nsubst = mkNameShape (moduleName impl_mod) (mi_exports impl_iface) -- Load all the orphans, so the subsequent 'checkHsigIface' sees -- all the instances it needs to loadModuleInterfaces (text "Loading orphan modules (from implementor of hsig)") (dep_orphs (mi_deps impl_iface)) dflags <- getDynFlags let avails = calculateAvails dflags impl_iface False{- safe -} False{- boot -} ImportedBySystem fix_env = mkNameEnv [ (gre_name rdr_elt, FixItem occ f) | (occ, f) <- mi_fixities impl_iface , rdr_elt <- lookupGlobalRdrEnv impl_gr occ ] updGblEnv (\tcg_env -> tcg_env { -- Setting tcg_rdr_env to treat all exported entities from -- the implementing module as in scope improves error messages, -- as it reduces the amount of qualification we need. Unfortunately, -- we still end up qualifying references to external modules -- (see bkpfail07 for an example); we'd need to record more -- information in ModIface to solve this. tcg_rdr_env = tcg_rdr_env tcg_env `plusGlobalRdrEnv` impl_gr, tcg_imports = tcg_imports tcg_env `plusImportAvails` avails, -- This is here so that when we call 'lookupFixityRn' for something -- directly implemented by the module, we grab the right thing tcg_fix_env = fix_env }) $ do -- STEP 2: Load the *unrenamed, uninstantiated* interface for -- the ORIGINAL signature. We are going to eventually rename it, -- but we must proceed slowly, because it is NOT known if the -- instantiation is correct. let sig_mod = mkModule (IndefiniteUnitId uid) mod_name isig_mod = fst (splitModuleInsts sig_mod) mb_isig_iface <- findAndReadIface (text "checkImplements 2") isig_mod sig_mod False isig_iface <- case mb_isig_iface of Succeeded (iface, _) -> return iface Failed err -> failWithTc $ hang (text "Could not find hi interface for signature" <+> quotes (ppr isig_mod) <> colon) 4 err -- STEP 3: Check that the implementing interface exports everything -- we need. (Notice we IGNORE the Modules in the AvailInfos.) forM_ (exportOccs (mi_exports isig_iface)) $ \occ -> case lookupGlobalRdrEnv impl_gr occ of [] -> addErr $ quotes (ppr occ) <+> text "is exported by the hsig file, but not" <+> text "exported by the implementing module" <+> quotes (ppr impl_mod) _ -> return () failIfErrsM -- STEP 4: Now that the export is complete, rename the interface... sig_iface <- tcRnModIface insts (Just nsubst) isig_iface -- STEP 5: ...and typecheck it. (Note that in both cases, the nsubst -- lets us determine how top-level identifiers should be handled.) sig_details <- initIfaceTcRn $ typecheckIfaceForInstantiate nsubst sig_iface -- STEP 6: Check that it's sufficient tcg_env <- getGblEnv checkHsigIface tcg_env impl_gr sig_iface sig_details -- STEP 7: Return the updated 'TcGblEnv' with the signature exports, -- so we write them out. return tcg_env { tcg_exports = mi_exports sig_iface } -- | Given 'tcg_mod', instantiate a 'ModIface' from the indefinite -- library to use the actual implementations of the relevant entities, -- checking that the implementation matches the signature. instantiateSignature :: TcRn TcGblEnv instantiateSignature = do tcg_env <- getGblEnv dflags <- getDynFlags let outer_mod = tcg_mod tcg_env inner_mod = tcg_semantic_mod tcg_env -- TODO: setup the local RdrEnv so the error messages look a little better. -- But this information isn't stored anywhere. Should we RETYPECHECK -- the local one just to get the information? Hmm... MASSERT( moduleUnitId outer_mod == thisPackage dflags ) inner_mod `checkImplements` IndefModule (newIndefUnitId (thisComponentId dflags) (thisUnitIdInsts dflags)) (moduleName outer_mod)