X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fmain%2FPackages.lhs;h=22494111fb017f5e3692f43ae30e15cfa3821d53;hp=ae6b18863e7a791ccf86d81d94e3ded92c145999;hb=61d2625ae2e6a4cdae2ffc92df828905e81c24cc;hpb=b93eb0c23bed01905e86c0a8c485edb388626761 diff --git a/compiler/main/Packages.lhs b/compiler/main/Packages.lhs index ae6b188..2249411 100644 --- a/compiler/main/Packages.lhs +++ b/compiler/main/Packages.lhs @@ -12,16 +12,11 @@ module Packages ( extendPackageConfigMap, dumpPackages, -- * Reading the package config, and processing cmdline args - PackageIdH(..), isHomePackage, PackageState(..), - mkPackageState, initPackages, getPackageDetails, - checkForPackageConflicts, lookupModuleInAllPackages, - HomeModules, mkHomeModules, isHomeModule, - -- * Inspecting the set of packages in scope getPackageIncludePath, getPackageCIncludes, @@ -48,7 +43,6 @@ import Config ( cProjectVersion ) import Name ( Name, nameModule_maybe ) import UniqFM import Module -import FiniteMap import UniqSet import Util import Maybes ( expectJust, MaybeErr(..) ) @@ -67,6 +61,7 @@ import Distribution.Package import Distribution.Version import System.Directory ( doesFileExist, doesDirectoryExist, getDirectoryContents ) +import Data.Maybe ( catMaybes ) import Control.Monad ( foldM ) import Data.List ( nub, partition, sortBy, isSuffixOf ) import FastString @@ -91,9 +86,6 @@ import ErrUtils ( debugTraceMsg, putMsg, Message ) -- Let depExposedPackages be the transitive closure from exposedPackages of -- their dependencies. -- --- * It is an error for any two packages in depExposedPackages to provide the --- same module. --- -- * When searching for a module from an explicit import declaration, -- only the exposed modules in exposedPackages are valid. -- @@ -109,16 +101,6 @@ import ErrUtils ( debugTraceMsg, putMsg, Message ) -- contain any Haskell modules, and therefore won't be discovered -- by the normal mechanism of dependency tracking. - --- One important thing that the package state provides is a way to --- tell, for a given module, whether it is part of the current package --- or not. We need to know this for two reasons: --- --- * generating cross-DLL calls is different from intra-DLL calls --- (see below). --- * we don't record version information in interface files for entities --- in a different package. --- -- Notes on DLLs -- ~~~~~~~~~~~~~ -- When compiling module A, which imports module B, we need to @@ -143,29 +125,13 @@ data PackageState = PackageState { -- The exposed flags are adjusted according to -package and -- -hide-package flags, and -ignore-package removes packages. - moduleToPkgConfAll :: ModuleEnv [(PackageConfig,Bool)], + moduleToPkgConfAll :: UniqFM [(PackageConfig,Bool)] -- ModuleEnv mapping -- Derived from pkgIdMap. -- Maps Module to (pkgconf,exposed), where pkgconf is the -- PackageConfig for the package containing the module, and -- exposed is True if the package exposes that module. - - -- The PackageIds of some known packages - basePackageId :: PackageIdH, - rtsPackageId :: PackageIdH, - haskell98PackageId :: PackageIdH, - thPackageId :: PackageIdH } -data PackageIdH - = HomePackage -- The "home" package is the package curently - -- being compiled - | ExtPackage PackageId -- An "external" package is any other package - - -isHomePackage :: PackageIdH -> Bool -isHomePackage HomePackage = True -isHomePackage (ExtPackage _) = False - -- A PackageConfigMap maps a PackageId to a PackageConfig type PackageConfigMap = UniqFM PackageConfig @@ -194,8 +160,7 @@ getPackageDetails dflags ps = expectJust "getPackageDetails" (lookupPackage (pkg initPackages :: DynFlags -> IO DynFlags initPackages dflags = do pkg_map <- readPackageConfigs dflags; - state <- mkPackageState dflags pkg_map - return dflags{ pkgState = state } + mkPackageState dflags pkg_map -- ----------------------------------------------------------------------------- -- Reading the package database(s) @@ -297,7 +262,7 @@ mungePackagePaths top_dir ps = map munge_pkg ps -- When all the command-line options are in, we can process our package -- settings and populate the package state. -mkPackageState :: DynFlags -> PackageConfigMap -> IO PackageState +mkPackageState :: DynFlags -> PackageConfigMap -> IO DynFlags mkPackageState dflags orig_pkg_db = do -- -- Modify the package database according to the command-line flags @@ -317,10 +282,9 @@ mkPackageState dflags orig_pkg_db = do case pick str pkgs of Nothing -> missingPackageErr str Just (p,ps) -> procflags (p':ps') expl' flags - where pkgid = packageConfigId p - p' = p {exposed=True} + where p' = p {exposed=True} ps' = hideAll (pkgName (package p)) ps - expl' = addOneToUniqSet expl pkgid + expl' = package p : expl procflags pkgs expl (HidePackage str : flags) = do case partition (matches str) pkgs of ([],_) -> missingPackageErr str @@ -355,7 +319,7 @@ mkPackageState dflags orig_pkg_db = do where maybe_hide p | pkgName (package p) == name = p {exposed=False} | otherwise = p -- - (pkgs1,explicit) <- procflags (eltsUFM orig_pkg_db) emptyUniqSet flags + (pkgs1,explicit) <- procflags (eltsUFM orig_pkg_db) [] flags -- -- hide all packages for which there is also a later version -- that is already exposed. This just makes it non-fatal to have two @@ -377,11 +341,74 @@ mkPackageState dflags orig_pkg_db = do let pkg = package p, pkgName pkg == myname, pkgVersion pkg > myversion ] - a_later_version_is_exposed - = not (null later_versions) pkgs2 <- mapM maybe_hide pkgs1 -- + -- Now we must find our wired-in packages, and rename them to + -- their canonical names (eg. base-1.0 ==> base). + -- + let + wired_in_pkgids = [ basePackageId, + rtsPackageId, + haskell98PackageId, + thPackageId ] + + wired_in_names = map packageIdString wired_in_pkgids + + -- find which package corresponds to each wired-in package + -- delete any other packages with the same name + -- update the package and any dependencies to point to the new + -- one. + findWiredInPackage :: [PackageConfig] -> String + -> IO (Maybe PackageIdentifier) + findWiredInPackage pkgs wired_pkg = + case [ p | p <- pkgs, pkgName (package p) == wired_pkg, + exposed p ] of + [] -> do + debugTraceMsg dflags 2 $ + ptext SLIT("wired-in package ") + <> text wired_pkg + <> ptext SLIT(" not found.") + return Nothing + [one] -> do + debugTraceMsg dflags 2 $ + ptext SLIT("wired-in package ") + <> text wired_pkg + <> ptext SLIT(" mapped to ") + <> text (showPackageId (package one)) + return (Just (package one)) + more -> do + throwDyn (CmdLineError (showSDoc $ + ptext SLIT("there are multiple exposed packages that match wired-in package ") <> text wired_pkg)) + + mb_wired_in_ids <- mapM (findWiredInPackage pkgs2) wired_in_names + let + wired_in_ids = catMaybes mb_wired_in_ids + + deleteHiddenWiredInPackages pkgs = filter ok pkgs + where ok p = pkgName (package p) `notElem` wired_in_names + || exposed p + + updateWiredInDependencies pkgs = map upd_pkg pkgs + where upd_pkg p = p{ package = upd_pid (package p), + depends = map upd_pid (depends p) } + + upd_pid pid = case filter (== pid) wired_in_ids of + [] -> pid + (x:_) -> x{ pkgVersion = Version [] [] } + + pkgs3 = deleteHiddenWiredInPackages pkgs2 + + pkgs4 = updateWiredInDependencies pkgs3 + + explicit1 = map upd_pid explicit + + -- we must return an updated thisPackage, just in case we + -- are actually compiling one of the wired-in packages + Just old_this_pkg = unpackPackageId (thisPackage dflags) + new_this_pkg = mkPackageId (upd_pid old_this_pkg) + + -- -- Eliminate any packages which have dangling dependencies (perhaps -- because the package was removed by -ignore-package). -- @@ -403,41 +430,23 @@ mkPackageState dflags orig_pkg_db = do where dangling pid = pid `notElem` all_pids all_pids = map package pkgs -- - pkgs <- elimDanglingDeps pkgs2 + pkgs <- elimDanglingDeps pkgs4 let pkg_db = extendPackageConfigMap emptyPackageConfigMap pkgs -- -- Find the transitive closure of dependencies of exposed -- let exposed_pkgids = [ packageConfigId p | p <- pkgs, exposed p ] dep_exposed <- closeDeps pkg_db exposed_pkgids - -- - -- Look up some known PackageIds - -- let - lookupPackageByName :: FastString -> PackageIdH - lookupPackageByName nm = - case [ conf | p <- dep_exposed, - Just conf <- [lookupPackage pkg_db p], - nm == mkFastString (pkgName (package conf)) ] of - [] -> HomePackage - (p:ps) -> ExtPackage (mkPackageId (package p)) - - -- Get the PackageIds for some known packages (we know the names, - -- but we don't know the versions). Some of these packages might - -- not exist in the database, so they are Maybes. - basePackageId = lookupPackageByName basePackageName - rtsPackageId = lookupPackageByName rtsPackageName - haskell98PackageId = lookupPackageByName haskell98PackageName - thPackageId = lookupPackageByName thPackageName - -- add base & rts to the explicit packages - basicLinkedPackages = [basePackageId,rtsPackageId] - explicit' = addListToUniqSet explicit - [ p | ExtPackage p <- basicLinkedPackages ] + basicLinkedPackages = filter (flip elemUFM pkg_db) + [basePackageId,rtsPackageId] + explicit2 = addListToUniqSet (mkUniqSet (map mkPackageId explicit1)) + basicLinkedPackages -- -- Close the explicit packages with their dependencies -- - dep_explicit <- closeDeps pkg_db (uniqSetToList explicit') + dep_explicit <- closeDeps pkg_db (uniqSetToList explicit2) -- -- Build up a mapping from Module -> PackageConfig for all modules. -- Discover any conflicts at the same time, and factor in the new exposed @@ -445,107 +454,31 @@ mkPackageState dflags orig_pkg_db = do -- let mod_map = mkModuleMap pkg_db dep_exposed - return PackageState{ explicitPackages = dep_explicit, - origPkgIdMap = orig_pkg_db, - pkgIdMap = pkg_db, - moduleToPkgConfAll = mod_map, - basePackageId = basePackageId, - rtsPackageId = rtsPackageId, - haskell98PackageId = haskell98PackageId, - thPackageId = thPackageId - } + pstate = PackageState{ explicitPackages = dep_explicit, + origPkgIdMap = orig_pkg_db, + pkgIdMap = pkg_db, + moduleToPkgConfAll = mod_map + } + + return dflags{ pkgState = pstate, thisPackage = new_this_pkg } -- done! -basePackageName = FSLIT("base") -rtsPackageName = FSLIT("rts") -haskell98PackageName = FSLIT("haskell98") -thPackageName = FSLIT("template-haskell") - -- Template Haskell libraries in here mkModuleMap :: PackageConfigMap -> [PackageId] - -> ModuleEnv [(PackageConfig, Bool)] + -> UniqFM [(PackageConfig, Bool)] mkModuleMap pkg_db pkgs = foldr extend_modmap emptyUFM pkgs where - extend_modmap pkgname modmap = + extend_modmap pkgid modmap = addListToUFM_C (++) modmap [(m, [(pkg, m `elem` exposed_mods)]) | m <- all_mods] where - pkg = expectJust "mkModuleMap" (lookupPackage pkg_db pkgname) - exposed_mods = map mkModule (exposedModules pkg) - hidden_mods = map mkModule (hiddenModules pkg) - all_mods = exposed_mods ++ hidden_mods - --- ----------------------------------------------------------------------------- --- Check for conflicts in the program. - --- | A conflict arises if the program contains two modules with the same --- name, which can arise if the program depends on multiple packages that --- expose the same module, or if the program depends on a package that --- contains a module also present in the program (the "home package"). --- -checkForPackageConflicts - :: DynFlags - -> [Module] -- modules in the home package - -> [PackageId] -- packages on which the program depends - -> MaybeErr Message () - -checkForPackageConflicts dflags mods pkgs = do - let - state = pkgState dflags - pkg_db = pkgIdMap state - -- - dep_pkgs <- closeDepsErr pkg_db pkgs - - let - extend_modmap pkgname modmap = - addListToFM_C (++) modmap - [(m, [(pkg, m `elem` exposed_mods)]) | m <- all_mods] - where - pkg = expectJust "checkForPackageConflicts" - (lookupPackage pkg_db pkgname) - exposed_mods = map mkModule (exposedModules pkg) - hidden_mods = map mkModule (hiddenModules pkg) + pkg = expectJust "mkModuleMap" (lookupPackage pkg_db pkgid) + exposed_mods = map mkModuleName (exposedModules pkg) + hidden_mods = map mkModuleName (hiddenModules pkg) all_mods = exposed_mods ++ hidden_mods - mod_map = foldr extend_modmap emptyFM pkgs - mod_map_list :: [(Module,[(PackageConfig,Bool)])] - mod_map_list = fmToList mod_map - - overlaps = [ (m, map fst ps) | (m,ps@(_:_:_)) <- mod_map_list ] - -- - if not (null overlaps) - then Failed (pkgOverlapError overlaps) - else do - - let - overlap_mods = [ (mod,pkg) - | mod <- mods, - Just ((pkg,_):_) <- [lookupFM mod_map mod] ] - -- will be only one package here - if not (null overlap_mods) - then Failed (modOverlapError overlap_mods) - else do - - return () - -pkgOverlapError overlaps = vcat (map msg overlaps) - where - msg (mod,pkgs) = - text "conflict: module" <+> quotes (ppr mod) - <+> ptext SLIT("is present in multiple packages:") - <+> hsep (punctuate comma (map pprPkg pkgs)) - -modOverlapError overlaps = vcat (map msg overlaps) - where - msg (mod,pkg) = fsep [ - text "conflict: module", - quotes (ppr mod), - ptext SLIT("belongs to the current program/library"), - ptext SLIT("and also to package"), - pprPkg pkg ] - pprPkg :: PackageConfig -> SDoc pprPkg p = text (showPackageId (package p)) @@ -625,9 +558,9 @@ getPackageFrameworks dflags pkgs = do -- | Takes a Module, and if the module is in a package returns -- @(pkgconf,exposed)@ where pkgconf is the PackageConfig for that package, -- and exposed is True if the package exposes the module. -lookupModuleInAllPackages :: DynFlags -> Module -> [(PackageConfig,Bool)] +lookupModuleInAllPackages :: DynFlags -> ModuleName -> [(PackageConfig,Bool)] lookupModuleInAllPackages dflags m = - case lookupModuleEnv (moduleToPkgConfAll (pkgState dflags)) m of + case lookupUFM (moduleToPkgConfAll (pkgState dflags)) m of Nothing -> [] Just ps -> ps @@ -673,24 +606,11 @@ missingPackageErr p = throwDyn (CmdLineError (showSDoc (missingPackageMsg p))) missingPackageMsg p = ptext SLIT("unknown package:") <+> text p -- ----------------------------------------------------------------------------- --- The home module set - -newtype HomeModules = HomeModules ModuleSet - -mkHomeModules :: [Module] -> HomeModules -mkHomeModules = HomeModules . mkModuleSet - -isHomeModule :: HomeModules -> Module -> Bool -isHomeModule (HomeModules set) mod = elemModuleSet mod set - --- Determining whether a Name refers to something in another package or not. --- Cross-package references need to be handled differently when dynamically- --- linked libraries are involved. -isDllName :: HomeModules -> Name -> Bool -isDllName pdeps name +isDllName :: PackageId -> Name -> Bool +isDllName this_pkg name | opt_Static = False - | Just mod <- nameModule_maybe name = not (isHomeModule pdeps mod) + | Just mod <- nameModule_maybe name = modulePackageId mod /= this_pkg | otherwise = False -- no, it is not even an external name -- -----------------------------------------------------------------------------