{-# LANGUAGE CPP, NondecreasingIndentation, ScopedTypeVariables, TupleSections #-} {-# OPTIONS -fno-warn-incomplete-patterns -optc-DNON_POSIX_SOURCE #-} ----------------------------------------------------------------------------- -- -- GHC Driver program -- -- (c) The University of Glasgow 2005 -- ----------------------------------------------------------------------------- module Clash.Main (defaultMain) where -- For Int/Word size #include "MachDeps.h" -- The official GHC API import qualified GHC import GHC ( -- DynFlags(..), HscTarget(..), -- GhcMode(..), GhcLink(..), Ghc, GhcMonad(..), LoadHowMuch(..) ) import CmdLineParser -- Implementations of the various modes (--show-iface, mkdependHS. etc.) import LoadIface ( showIface ) import HscMain ( newHscEnv ) import DriverPipeline ( oneShot, compileFile ) import DriverMkDepend ( doMkDependHS ) import DriverBkp ( doBackpack ) #if defined(GHCI) import Clash.GHCi.UI ( interactiveUI, ghciWelcomeMsg, defaultGhciSettings ) #endif -- Frontend plugins #if defined(GHCI) import DynamicLoading ( loadFrontendPlugin ) import Plugins #else import DynamicLoading ( pluginError ) #endif import Module ( ModuleName ) -- Various other random stuff that we need import Config import Constants import HscTypes import Packages ( pprPackages, pprPackagesSimple ) import DriverPhases import BasicTypes ( failed ) import DynFlags import ErrUtils import FastString import Outputable import SrcLoc import Util import Panic import UniqSupply import MonadUtils ( liftIO ) -- Imports for --abi-hash import LoadIface ( loadUserInterface ) import Module ( mkModuleName ) import Finder ( findImportedModule, cannotFindModule ) import TcRnMonad ( initIfaceCheck ) import Binary ( openBinMem, put_ ) import BinFingerprint ( fingerprintBinMem ) -- Standard Haskell libraries import System.IO import System.Environment import System.Exit import System.FilePath import Control.Monad import Data.Char import Data.List import Data.Maybe -- clash additions import Paths_clash_ghc import Clash.GHCi.UI (makeHDL) import Exception (gcatch) import Data.IORef (IORef, newIORef, readIORef) import qualified Data.Version (showVersion) import Control.Exception (Exception(..),ErrorCall (..)) import qualified GHC.LanguageExtensions as LangExt import GHC.Exception ( SomeException ) import qualified Clash.Backend import Clash.Backend.SystemVerilog (SystemVerilogState) import Clash.Backend.VHDL (VHDLState) import Clash.Backend.Verilog (VerilogState) import Clash.Driver.Types (ClashOpts (..), ClashException (..), DebugLevel (..)) import Clash.GHC.ClashFlags import Clash.Netlist.BlackBox.Types (HdlSyn (..)) import Clash.Util (clashLibVersion) import Clash.GHC.LoadModules (ghcLibDir) ----------------------------------------------------------------------------- -- ToDo: -- time commands when run with -v -- user ways -- Win32 support: proper signal handling -- reading the package configuration file is too slow -- -K ----------------------------------------------------------------------------- -- GHC's command-line interface defaultMain :: [String] -> IO () defaultMain = flip withArgs $ do initGCStatistics -- See Note [-Bsymbolic and hooks] hSetBuffering stdout LineBuffering hSetBuffering stderr LineBuffering -- Handle GHC-specific character encoding flags, allowing us to control how -- GHC produces output regardless of OS. env <- getEnvironment case lookup "GHC_CHARENC" env of Just "UTF-8" -> do hSetEncoding stdout utf8 hSetEncoding stderr utf8 _ -> do -- Avoid GHC erroring out when trying to display unhandled characters hSetTranslit stdout hSetTranslit stderr GHC.defaultErrorHandler defaultFatalMessager defaultFlushOut $ do argv0 <- getArgs libDir <- ghcLibDir let argv1 = map (mkGeneralLocated "on the commandline") argv0 r <- newIORef (ClashOpts { opt_dbgLevel = DebugNone , opt_inlineLimit = 20 , opt_specLimit = 20 , opt_inlineFunctionLimit = 15 , opt_inlineConstantLimit = 0 , opt_cachehdl = True , opt_cleanhdl = True , opt_intWidth = WORD_SIZE_IN_BITS , opt_hdlDir = Nothing , opt_hdlSyn = Other , opt_errorExtra = False , opt_floatSupport = False , opt_allowZero = False , opt_importPaths = [] }) (argv2, clashFlagWarnings) <- parseClashFlags r argv1 -- 2. Parse the "mode" flags (--make, --interactive etc.) (mode, argv3, modeFlagWarnings) <- parseModeFlags argv2 let flagWarnings = modeFlagWarnings ++ clashFlagWarnings -- If all we want to do is something like showing the version number -- then do it now, before we start a GHC session etc. This makes -- getting basic information much more resilient. -- In particular, if we wait until later before giving the version -- number then bootstrapping gets confused, as it tries to find out -- what version of GHC it's using before package.conf exists, so -- starting the session fails. case mode of Left preStartupMode -> do case preStartupMode of ShowSupportedExtensions -> showSupportedExtensions ShowVersion -> showVersion ShowNumVersion -> putStrLn cProjectVersion ShowOptions isInteractive -> showOptions isInteractive Right postStartupMode -> -- start our GHC session GHC.runGhc (Just libDir) $ do dflags <- GHC.getSessionDynFlags let dflagsExtra = foldl DynFlags.xopt_set dflags [ LangExt.TemplateHaskell , LangExt.TemplateHaskellQuotes , LangExt.DataKinds , LangExt.MonoLocalBinds , LangExt.TypeOperators , LangExt.FlexibleContexts , LangExt.ConstraintKinds , LangExt.TypeFamilies , LangExt.BinaryLiterals , LangExt.ExplicitNamespaces , LangExt.KindSignatures , LangExt.DeriveLift , LangExt.TypeApplications , LangExt.ScopedTypeVariables , LangExt.MagicHash , LangExt.ExplicitForAll ] dflagsExtra1 = foldl DynFlags.xopt_unset dflagsExtra [ LangExt.ImplicitPrelude , LangExt.MonomorphismRestriction ] ghcTyLitNormPlugin = GHC.mkModuleName "GHC.TypeLits.Normalise" ghcTyLitExtrPlugin = GHC.mkModuleName "GHC.TypeLits.Extra.Solver" ghcTyLitKNPlugin = GHC.mkModuleName "GHC.TypeLits.KnownNat.Solver" dflagsExtra2 = dflagsExtra1 { DynFlags.pluginModNames = nub $ ghcTyLitNormPlugin : ghcTyLitExtrPlugin : ghcTyLitKNPlugin : DynFlags.pluginModNames dflagsExtra1 } case postStartupMode of Left preLoadMode -> liftIO $ do case preLoadMode of ShowInfo -> showInfo dflagsExtra2 ShowGhcUsage -> showGhcUsage dflagsExtra2 ShowGhciUsage -> showGhciUsage dflagsExtra2 PrintWithDynFlags f -> putStrLn (f dflagsExtra2) Right postLoadMode -> main' postLoadMode dflagsExtra2 argv3 flagWarnings r main' :: PostLoadMode -> DynFlags -> [Located String] -> [Located String] -> IORef ClashOpts -> Ghc () main' postLoadMode dflags0 args flagWarnings clashOpts = do -- set the default GhcMode, HscTarget and GhcLink. The HscTarget -- can be further adjusted on a module by module basis, using only -- the -fvia-C and -fasm flags. If the default HscTarget is not -- HscC or HscAsm, -fvia-C and -fasm have no effect. let dflt_target = hscTarget dflags0 (mode, lang, link) = case postLoadMode of DoInteractive -> (CompManager, HscInterpreted, LinkInMemory) DoEval _ -> (CompManager, HscInterpreted, LinkInMemory) DoMake -> (CompManager, dflt_target, LinkBinary) DoBackpack -> (CompManager, dflt_target, LinkBinary) DoMkDependHS -> (MkDepend, dflt_target, LinkBinary) DoAbiHash -> (OneShot, dflt_target, LinkBinary) DoVHDL -> (CompManager, dflt_target, LinkInMemory) DoVerilog -> (CompManager, dflt_target, LinkInMemory) DoSystemVerilog -> (CompManager, dflt_target, LinkInMemory) _ -> (OneShot, dflt_target, LinkBinary) let dflags1 = dflags0{ ghcMode = mode, hscTarget = lang, ghcLink = link, verbosity = case postLoadMode of DoEval _ -> 0 _other -> 1 } -- turn on -fimplicit-import-qualified for GHCi now, so that it -- can be overriden from the command-line -- XXX: this should really be in the interactive DynFlags, but -- we don't set that until later in interactiveUI dflags2 | DoInteractive <- postLoadMode = imp_qual_enabled | DoEval _ <- postLoadMode = imp_qual_enabled | otherwise = dflags1 where imp_qual_enabled = dflags1 `gopt_set` Opt_ImplicitImportQualified -- The rest of the arguments are "dynamic" -- Leftover ones are presumably files (dflags3, fileish_args, dynamicFlagWarnings) <- GHC.parseDynamicFlags dflags2 args let dflags4 = case lang of HscInterpreted | not (gopt Opt_ExternalInterpreter dflags3) -> let platform = targetPlatform dflags3 dflags3a = updateWays $ dflags3 { ways = interpWays } dflags3b = foldl gopt_set dflags3a $ concatMap (wayGeneralFlags platform) interpWays dflags3c = foldl gopt_unset dflags3b $ concatMap (wayUnsetGeneralFlags platform) interpWays in dflags3c _ -> dflags3 GHC.prettyPrintGhcErrors dflags4 $ do let flagWarnings' = flagWarnings ++ dynamicFlagWarnings handleSourceError (\e -> do GHC.printException e liftIO $ exitWith (ExitFailure 1)) $ do liftIO $ handleFlagWarnings dflags4 flagWarnings' liftIO $ showBanner postLoadMode dflags4 let -- To simplify the handling of filepaths, we normalise all filepaths right -- away - e.g., for win32 platforms, backslashes are converted -- into forward slashes. normal_fileish_paths = map (normalise . unLoc) fileish_args (srcs, objs) = partition_args normal_fileish_paths [] [] dflags5 = dflags4 { ldInputs = map (FileOption "") objs ++ ldInputs dflags4 } -- we've finished manipulating the DynFlags, update the session _ <- GHC.setSessionDynFlags dflags5 dflags6 <- GHC.getSessionDynFlags hsc_env <- GHC.getSession ---------------- Display configuration ----------- case verbosity dflags6 of v | v == 4 -> liftIO $ dumpPackagesSimple dflags6 | v >= 5 -> liftIO $ dumpPackages dflags6 | otherwise -> return () liftIO $ initUniqSupply (initialUnique dflags6) (uniqueIncrement dflags6) ---------------- Final sanity checking ----------- liftIO $ checkOptions postLoadMode dflags6 srcs objs ---------------- Do the business ----------- handleSourceError (\e -> do GHC.printException e liftIO $ exitWith (ExitFailure 1)) $ do clashOpts' <- liftIO (readIORef clashOpts) let clash fun = gcatch (fun clashOpts srcs) (handleClashException dflags6 clashOpts') case postLoadMode of ShowInterface f -> liftIO $ doShowIface dflags6 f DoMake -> doMake srcs DoMkDependHS -> doMkDependHS (map fst srcs) StopBefore p -> liftIO (oneShot hsc_env p srcs) DoInteractive -> ghciUI clashOpts srcs Nothing DoEval exprs -> ghciUI clashOpts srcs $ Just $ reverse exprs DoAbiHash -> abiHash (map fst srcs) ShowPackages -> liftIO $ showPackages dflags6 DoFrontend f -> doFrontend f srcs DoVHDL -> clash makeVHDL DoVerilog -> clash makeVerilog DoSystemVerilog -> clash makeSystemVerilog DoBackpack -> doBackpack (map fst srcs) liftIO $ dumpFinalStats dflags6 handleClashException :: GhcMonad m => DynFlags -> ClashOpts -> SomeException -> m a handleClashException df opts e = case fromException e of Just (ClashException sp s eM) -> throwOneError (mkPlainErrMsg df sp (text s $$ blankLine $$ srcInfo $$ showExtra (opt_errorExtra opts) eM)) _ -> case fromException e of Just (ErrorCall msg) -> throwOneError (mkPlainErrMsg df noSrcSpan (text "Clash error call:" $$ text msg)) _ -> case fromException e of Just (e' :: SourceError) -> do GHC.printException e' liftIO $ exitWith (ExitFailure 1) _ -> throwOneError (mkPlainErrMsg df noSrcSpan (text "Other error:" $$ text (displayException e))) where srcInfo = text "NB: The source location of the error is not exact, only indicative, as it is acquired after optimisations." $$ text "The actual location of the error can be in a function that is inlined." $$ text "To prevent inlining of those functions, annotate them with a NOINLINE pragma." showExtra False (Just _) = blankLine $$ text "This error contains additional information, rerun with '-fclash-error-extra' to show this information." showExtra True (Just msg) = blankLine $$ text "Additional information:" $$ blankLine $$ text msg showExtra _ _ = empty ghciUI :: IORef ClashOpts -> [(FilePath, Maybe Phase)] -> Maybe [String] -> Ghc () #if !defined(GHCI) ghciUI _ _ _ = throwGhcException (CmdLineError "not built for interactive use") #else ghciUI opts = interactiveUI (defaultGhciSettings opts) #endif -- ----------------------------------------------------------------------------- -- Splitting arguments into source files and object files. This is where we -- interpret the -x option, and attach a (Maybe Phase) to each source -- file indicating the phase specified by the -x option in force, if any. partition_args :: [String] -> [(String, Maybe Phase)] -> [String] -> ([(String, Maybe Phase)], [String]) partition_args [] srcs objs = (reverse srcs, reverse objs) partition_args ("-x":suff:args) srcs objs | "none" <- suff = partition_args args srcs objs | StopLn <- phase = partition_args args srcs (slurp ++ objs) | otherwise = partition_args rest (these_srcs ++ srcs) objs where phase = startPhase suff (slurp,rest) = break (== "-x") args these_srcs = zip slurp (repeat (Just phase)) partition_args (arg:args) srcs objs | looks_like_an_input arg = partition_args args ((arg,Nothing):srcs) objs | otherwise = partition_args args srcs (arg:objs) {- We split out the object files (.o, .dll) and add them to ldInputs for use by the linker. The following things should be considered compilation manager inputs: - haskell source files (strings ending in .hs, .lhs or other haskellish extension), - module names (not forgetting hierarchical module names), - things beginning with '-' are flags that were not recognised by the flag parser, and we want them to generate errors later in checkOptions, so we class them as source files (#5921) - and finally we consider everything without an extension to be a comp manager input, as shorthand for a .hs or .lhs filename. Everything else is considered to be a linker object, and passed straight through to the linker. -} looks_like_an_input :: String -> Bool looks_like_an_input m = isSourceFilename m || looksLikeModuleName m || "-" `isPrefixOf` m || not (hasExtension m) -- ----------------------------------------------------------------------------- -- Option sanity checks -- | Ensure sanity of options. -- -- Throws 'UsageError' or 'CmdLineError' if not. checkOptions :: PostLoadMode -> DynFlags -> [(String,Maybe Phase)] -> [String] -> IO () -- Final sanity checking before kicking off a compilation (pipeline). checkOptions mode dflags srcs objs = do -- Complain about any unknown flags let unknown_opts = [ f | (f@('-':_), _) <- srcs ] when (notNull unknown_opts) (unknownFlagsErr unknown_opts) when (notNull (filter wayRTSOnly (ways dflags)) && isInterpretiveMode mode) $ hPutStrLn stderr ("Warning: -debug, -threaded and -ticky are ignored by GHCi") -- -prof and --interactive are not a good combination when ((filter (not . wayRTSOnly) (ways dflags) /= interpWays) && isInterpretiveMode mode && not (gopt Opt_ExternalInterpreter dflags)) $ do throwGhcException (UsageError "-fexternal-interpreter is required when using --interactive with a non-standard way (-prof, -static, or -dynamic).") -- -ohi sanity check if (isJust (outputHi dflags) && (isCompManagerMode mode || srcs `lengthExceeds` 1)) then throwGhcException (UsageError "-ohi can only be used when compiling a single source file") else do -- -o sanity checking if (srcs `lengthExceeds` 1 && isJust (outputFile dflags) && not (isLinkMode mode)) then throwGhcException (UsageError "can't apply -o to multiple source files") else do let not_linking = not (isLinkMode mode) || isNoLink (ghcLink dflags) when (not_linking && not (null objs)) $ hPutStrLn stderr ("Warning: the following files would be used as linker inputs, but linking is not being done: " ++ unwords objs) -- Check that there are some input files -- (except in the interactive case) if null srcs && (null objs || not_linking) && needsInputsMode mode then throwGhcException (UsageError "no input files") else do case mode of StopBefore HCc | hscTarget dflags /= HscC -> throwGhcException $ UsageError $ "the option -C is only available with an unregisterised GHC" _ -> return () -- Verify that output files point somewhere sensible. verifyOutputFiles dflags -- Compiler output options -- Called to verify that the output files point somewhere valid. -- -- The assumption is that the directory portion of these output -- options will have to exist by the time 'verifyOutputFiles' -- is invoked. -- -- We create the directories for -odir, -hidir, -outputdir etc. ourselves if -- they don't exist, so don't check for those here (#2278). verifyOutputFiles :: DynFlags -> IO () verifyOutputFiles dflags = do let ofile = outputFile dflags when (isJust ofile) $ do let fn = fromJust ofile flg <- doesDirNameExist fn when (not flg) (nonExistentDir "-o" fn) let ohi = outputHi dflags when (isJust ohi) $ do let hi = fromJust ohi flg <- doesDirNameExist hi when (not flg) (nonExistentDir "-ohi" hi) where nonExistentDir flg dir = throwGhcException (CmdLineError ("error: directory portion of " ++ show dir ++ " does not exist (used with " ++ show flg ++ " option.)")) ----------------------------------------------------------------------------- -- GHC modes of operation type Mode = Either PreStartupMode PostStartupMode type PostStartupMode = Either PreLoadMode PostLoadMode data PreStartupMode = ShowVersion -- ghc -V/--version | ShowNumVersion -- ghc --numeric-version | ShowSupportedExtensions -- ghc --supported-extensions | ShowOptions Bool {- isInteractive -} -- ghc --show-options showVersionMode, showNumVersionMode, showSupportedExtensionsMode, showOptionsMode :: Mode showVersionMode = mkPreStartupMode ShowVersion showNumVersionMode = mkPreStartupMode ShowNumVersion showSupportedExtensionsMode = mkPreStartupMode ShowSupportedExtensions showOptionsMode = mkPreStartupMode (ShowOptions False) mkPreStartupMode :: PreStartupMode -> Mode mkPreStartupMode = Left isShowVersionMode :: Mode -> Bool isShowVersionMode (Left ShowVersion) = True isShowVersionMode _ = False isShowNumVersionMode :: Mode -> Bool isShowNumVersionMode (Left ShowNumVersion) = True isShowNumVersionMode _ = False data PreLoadMode = ShowGhcUsage -- ghc -? | ShowGhciUsage -- ghci -? | ShowInfo -- ghc --info | PrintWithDynFlags (DynFlags -> String) -- ghc --print-foo showGhcUsageMode, showGhciUsageMode, showInfoMode :: Mode showGhcUsageMode = mkPreLoadMode ShowGhcUsage showGhciUsageMode = mkPreLoadMode ShowGhciUsage showInfoMode = mkPreLoadMode ShowInfo printSetting :: String -> Mode printSetting k = mkPreLoadMode (PrintWithDynFlags f) where f dflags = fromMaybe (panic ("Setting not found: " ++ show k)) $ lookup k (compilerInfo dflags) mkPreLoadMode :: PreLoadMode -> Mode mkPreLoadMode = Right . Left isShowGhcUsageMode :: Mode -> Bool isShowGhcUsageMode (Right (Left ShowGhcUsage)) = True isShowGhcUsageMode _ = False isShowGhciUsageMode :: Mode -> Bool isShowGhciUsageMode (Right (Left ShowGhciUsage)) = True isShowGhciUsageMode _ = False data PostLoadMode = ShowInterface FilePath -- ghc --show-iface | DoMkDependHS -- ghc -M | StopBefore Phase -- ghc -E | -C | -S -- StopBefore StopLn is the default | DoMake -- ghc --make | DoBackpack -- ghc --backpack foo.bkp | DoInteractive -- ghc --interactive | DoEval [String] -- ghc -e foo -e bar => DoEval ["bar", "foo"] | DoAbiHash -- ghc --abi-hash | ShowPackages -- ghc --show-packages | DoFrontend ModuleName -- ghc --frontend Plugin.Module | DoVHDL -- ghc --vhdl | DoVerilog -- ghc --verilog | DoSystemVerilog -- ghc --systemverilog doMkDependHSMode, doMakeMode, doInteractiveMode, doAbiHashMode, showPackagesMode, doVHDLMode, doVerilogMode, doSystemVerilogMode :: Mode doMkDependHSMode = mkPostLoadMode DoMkDependHS doMakeMode = mkPostLoadMode DoMake doInteractiveMode = mkPostLoadMode DoInteractive doAbiHashMode = mkPostLoadMode DoAbiHash showPackagesMode = mkPostLoadMode ShowPackages doVHDLMode = mkPostLoadMode DoVHDL doVerilogMode = mkPostLoadMode DoVerilog doSystemVerilogMode = mkPostLoadMode DoSystemVerilog showInterfaceMode :: FilePath -> Mode showInterfaceMode fp = mkPostLoadMode (ShowInterface fp) stopBeforeMode :: Phase -> Mode stopBeforeMode phase = mkPostLoadMode (StopBefore phase) doEvalMode :: String -> Mode doEvalMode str = mkPostLoadMode (DoEval [str]) doFrontendMode :: String -> Mode doFrontendMode str = mkPostLoadMode (DoFrontend (mkModuleName str)) doBackpackMode :: Mode doBackpackMode = mkPostLoadMode DoBackpack mkPostLoadMode :: PostLoadMode -> Mode mkPostLoadMode = Right . Right isDoInteractiveMode :: Mode -> Bool isDoInteractiveMode (Right (Right DoInteractive)) = True isDoInteractiveMode _ = False isStopLnMode :: Mode -> Bool isStopLnMode (Right (Right (StopBefore StopLn))) = True isStopLnMode _ = False isDoMakeMode :: Mode -> Bool isDoMakeMode (Right (Right DoMake)) = True isDoMakeMode _ = False isDoEvalMode :: Mode -> Bool isDoEvalMode (Right (Right (DoEval _))) = True isDoEvalMode _ = False #if defined(GHCI) isInteractiveMode :: PostLoadMode -> Bool isInteractiveMode DoInteractive = True isInteractiveMode _ = False #endif -- isInterpretiveMode: byte-code compiler involved isInterpretiveMode :: PostLoadMode -> Bool isInterpretiveMode DoInteractive = True isInterpretiveMode (DoEval _) = True isInterpretiveMode _ = False needsInputsMode :: PostLoadMode -> Bool needsInputsMode DoMkDependHS = True needsInputsMode (StopBefore _) = True needsInputsMode DoMake = True needsInputsMode DoVHDL = True needsInputsMode DoVerilog = True needsInputsMode DoSystemVerilog = True needsInputsMode _ = False -- True if we are going to attempt to link in this mode. -- (we might not actually link, depending on the GhcLink flag) isLinkMode :: PostLoadMode -> Bool isLinkMode (StopBefore StopLn) = True isLinkMode DoMake = True isLinkMode DoInteractive = True isLinkMode (DoEval _) = True isLinkMode DoVHDL = True isLinkMode DoVerilog = True isLinkMode DoSystemVerilog = True isLinkMode _ = False isCompManagerMode :: PostLoadMode -> Bool isCompManagerMode DoMake = True isCompManagerMode DoInteractive = True isCompManagerMode (DoEval _) = True isCompManagerMode DoVHDL = True isCompManagerMode DoVerilog = True isCompManagerMode DoSystemVerilog = True isCompManagerMode _ = False -- ----------------------------------------------------------------------------- -- Parsing the mode flag parseModeFlags :: [Located String] -> IO (Mode, [Located String], [Located String]) parseModeFlags args = do let ((leftover, errs1, warns), (mModeFlag, errs2, flags')) = runCmdLine (processArgs mode_flags args) (Nothing, [], []) mode = case mModeFlag of Nothing -> doMakeMode Just (m, _) -> m -- See Note [Handling errors when parsing commandline flags] unless (null errs1 && null errs2) $ throwGhcException $ errorsToGhcException $ map (("on the commandline", )) $ map unLoc errs1 ++ errs2 return (mode, flags' ++ leftover, warns) type ModeM = CmdLineP (Maybe (Mode, String), [String], [Located String]) -- mode flags sometimes give rise to new DynFlags (eg. -C, see below) -- so we collect the new ones and return them. mode_flags :: [Flag ModeM] mode_flags = [ ------- help / version ---------------------------------------------- defFlag "?" (PassFlag (setMode showGhcUsageMode)) , defFlag "-help" (PassFlag (setMode showGhcUsageMode)) , defFlag "V" (PassFlag (setMode showVersionMode)) , defFlag "-version" (PassFlag (setMode showVersionMode)) , defFlag "-numeric-version" (PassFlag (setMode showNumVersionMode)) , defFlag "-info" (PassFlag (setMode showInfoMode)) , defFlag "-show-options" (PassFlag (setMode showOptionsMode)) , defFlag "-supported-languages" (PassFlag (setMode showSupportedExtensionsMode)) , defFlag "-supported-extensions" (PassFlag (setMode showSupportedExtensionsMode)) , defFlag "-show-packages" (PassFlag (setMode showPackagesMode)) ] ++ [ defFlag k' (PassFlag (setMode (printSetting k))) | k <- ["Project version", "Project Git commit id", "Booter version", "Stage", "Build platform", "Host platform", "Target platform", "Have interpreter", "Object splitting supported", "Have native code generator", "Support SMP", "Unregisterised", "Tables next to code", "RTS ways", "Leading underscore", "Debug on", "LibDir", "Global Package DB", "C compiler flags", "C compiler link flags", "ld flags"], let k' = "-print-" ++ map (replaceSpace . toLower) k replaceSpace ' ' = '-' replaceSpace c = c ] ++ ------- interfaces ---------------------------------------------------- [ defFlag "-show-iface" (HasArg (\f -> setMode (showInterfaceMode f) "--show-iface")) ------- primary modes ------------------------------------------------ , defFlag "c" (PassFlag (\f -> do setMode (stopBeforeMode StopLn) f addFlag "-no-link" f)) , defFlag "M" (PassFlag (setMode doMkDependHSMode)) , defFlag "E" (PassFlag (setMode (stopBeforeMode anyHsc))) , defFlag "C" (PassFlag (setMode (stopBeforeMode HCc))) , defFlag "S" (PassFlag (setMode (stopBeforeMode (As False)))) , defFlag "-make" (PassFlag (setMode doMakeMode)) , defFlag "-backpack" (PassFlag (setMode doBackpackMode)) , defFlag "-interactive" (PassFlag (setMode doInteractiveMode)) , defFlag "-abi-hash" (PassFlag (setMode doAbiHashMode)) , defFlag "e" (SepArg (\s -> setMode (doEvalMode s) "-e")) , defFlag "-frontend" (SepArg (\s -> setMode (doFrontendMode s) "-frontend")) , defFlag "-vhdl" (PassFlag (setMode doVHDLMode)) , defFlag "-verilog" (PassFlag (setMode doVerilogMode)) , defFlag "-systemverilog" (PassFlag (setMode doSystemVerilogMode)) ] setMode :: Mode -> String -> EwM ModeM () setMode newMode newFlag = liftEwM $ do (mModeFlag, errs, flags') <- getCmdLineState let (modeFlag', errs') = case mModeFlag of Nothing -> ((newMode, newFlag), errs) Just (oldMode, oldFlag) -> case (oldMode, newMode) of -- -c/--make are allowed together, and mean --make -no-link _ | isStopLnMode oldMode && isDoMakeMode newMode || isStopLnMode newMode && isDoMakeMode oldMode -> ((doMakeMode, "--make"), []) -- If we have both --help and --interactive then we -- want showGhciUsage _ | isShowGhcUsageMode oldMode && isDoInteractiveMode newMode -> ((showGhciUsageMode, oldFlag), []) | isShowGhcUsageMode newMode && isDoInteractiveMode oldMode -> ((showGhciUsageMode, newFlag), []) -- If we have both -e and --interactive then -e always wins _ | isDoEvalMode oldMode && isDoInteractiveMode newMode -> ((oldMode, oldFlag), []) | isDoEvalMode newMode && isDoInteractiveMode oldMode -> ((newMode, newFlag), []) -- Otherwise, --help/--version/--numeric-version always win | isDominantFlag oldMode -> ((oldMode, oldFlag), []) | isDominantFlag newMode -> ((newMode, newFlag), []) -- We need to accumulate eval flags like "-e foo -e bar" (Right (Right (DoEval esOld)), Right (Right (DoEval [eNew]))) -> ((Right (Right (DoEval (eNew : esOld))), oldFlag), errs) -- Saying e.g. --interactive --interactive is OK _ | oldFlag == newFlag -> ((oldMode, oldFlag), errs) -- --interactive and --show-options are used together (Right (Right DoInteractive), Left (ShowOptions _)) -> ((Left (ShowOptions True), "--interactive --show-options"), errs) (Left (ShowOptions _), (Right (Right DoInteractive))) -> ((Left (ShowOptions True), "--show-options --interactive"), errs) -- Otherwise, complain _ -> let err = flagMismatchErr oldFlag newFlag in ((oldMode, oldFlag), err : errs) putCmdLineState (Just modeFlag', errs', flags') where isDominantFlag f = isShowGhcUsageMode f || isShowGhciUsageMode f || isShowVersionMode f || isShowNumVersionMode f flagMismatchErr :: String -> String -> String flagMismatchErr oldFlag newFlag = "cannot use `" ++ oldFlag ++ "' with `" ++ newFlag ++ "'" addFlag :: String -> String -> EwM ModeM () addFlag s flag = liftEwM $ do (m, e, flags') <- getCmdLineState putCmdLineState (m, e, mkGeneralLocated loc s : flags') where loc = "addFlag by " ++ flag ++ " on the commandline" -- ---------------------------------------------------------------------------- -- Run --make mode doMake :: [(String,Maybe Phase)] -> Ghc () doMake srcs = do let (hs_srcs, non_hs_srcs) = partition isHaskellishTarget srcs hsc_env <- GHC.getSession -- if we have no haskell sources from which to do a dependency -- analysis, then just do one-shot compilation and/or linking. -- This means that "ghc Foo.o Bar.o -o baz" links the program as -- we expect. if (null hs_srcs) then liftIO (oneShot hsc_env StopLn srcs) else do o_files <- mapM (\x -> liftIO $ compileFile hsc_env StopLn x) non_hs_srcs dflags <- GHC.getSessionDynFlags let dflags' = dflags { ldInputs = map (FileOption "") o_files ++ ldInputs dflags } _ <- GHC.setSessionDynFlags dflags' targets <- mapM (uncurry GHC.guessTarget) hs_srcs GHC.setTargets targets ok_flag <- GHC.load LoadAllTargets when (failed ok_flag) (liftIO $ exitWith (ExitFailure 1)) return () -- --------------------------------------------------------------------------- -- --show-iface mode doShowIface :: DynFlags -> FilePath -> IO () doShowIface dflags file = do hsc_env <- newHscEnv dflags showIface hsc_env file -- --------------------------------------------------------------------------- -- Various banners and verbosity output. showBanner :: PostLoadMode -> DynFlags -> IO () showBanner _postLoadMode dflags = do let verb = verbosity dflags #if defined(GHCI) -- Show the GHCi banner when (isInteractiveMode _postLoadMode && verb >= 1) $ putStrLn ghciWelcomeMsg #endif -- Display details of the configuration in verbose mode when (verb >= 2) $ do hPutStr stderr "Glasgow Haskell Compiler, Version " hPutStr stderr cProjectVersion hPutStr stderr ", stage " hPutStr stderr cStage hPutStr stderr " booted by GHC version " hPutStrLn stderr cBooterVersion -- We print out a Read-friendly string, but a prettier one than the -- Show instance gives us showInfo :: DynFlags -> IO () showInfo dflags = do let sq x = " [" ++ x ++ "\n ]" putStrLn $ sq $ intercalate "\n ," $ map show $ compilerInfo dflags showSupportedExtensions :: IO () showSupportedExtensions = mapM_ putStrLn supportedLanguagesAndExtensions showVersion :: IO () showVersion = putStrLn $ concat [ "CLaSH, version " , Data.Version.showVersion Paths_clash_ghc.version , " (using clash-lib, version: " , Data.Version.showVersion clashLibVersion , ")" ] showOptions :: Bool -> IO () showOptions isInteractive = putStr (unlines availableOptions) where availableOptions = concat [ flagsForCompletion isInteractive, map ('-':) (getFlagNames mode_flags) ] getFlagNames opts = map flagName opts showGhcUsage :: DynFlags -> IO () showGhcUsage = showUsage False showGhciUsage :: DynFlags -> IO () showGhciUsage = showUsage True showUsage :: Bool -> DynFlags -> IO () showUsage ghci dflags = do let usage_path = if ghci then ghciUsagePath dflags else ghcUsagePath dflags usage <- readFile usage_path dump usage where dump "" = return () dump ('$':'$':s) = putStr progName >> dump s dump (c:s) = putChar c >> dump s dumpFinalStats :: DynFlags -> IO () dumpFinalStats dflags = when (gopt Opt_D_faststring_stats dflags) $ dumpFastStringStats dflags dumpFastStringStats :: DynFlags -> IO () dumpFastStringStats dflags = do buckets <- getFastStringTable let (entries, longest, has_z) = countFS 0 0 0 buckets msg = text "FastString stats:" $$ nest 4 (vcat [text "size: " <+> int (length buckets), text "entries: " <+> int entries, text "longest chain: " <+> int longest, text "has z-encoding: " <+> (has_z `pcntOf` entries) ]) -- we usually get more "has z-encoding" than "z-encoded", because -- when we z-encode a string it might hash to the exact same string, -- which will is not counted as "z-encoded". Only strings whose -- Z-encoding is different from the original string are counted in -- the "z-encoded" total. putMsg dflags msg where x `pcntOf` y = int ((x * 100) `quot` y) <> char '%' countFS :: Int -> Int -> Int -> [[FastString]] -> (Int, Int, Int) countFS entries longest has_z [] = (entries, longest, has_z) countFS entries longest has_z (b:bs) = let len = length b longest' = max len longest entries' = entries + len has_zs = length (filter hasZEncoding b) in countFS entries' longest' (has_z + has_zs) bs showPackages, dumpPackages, dumpPackagesSimple :: DynFlags -> IO () showPackages dflags = putStrLn (showSDoc dflags (pprPackages dflags)) dumpPackages dflags = putMsg dflags (pprPackages dflags) dumpPackagesSimple dflags = putMsg dflags (pprPackagesSimple dflags) -- ----------------------------------------------------------------------------- -- Frontend plugin support doFrontend :: ModuleName -> [(String, Maybe Phase)] -> Ghc () #if !defined(GHCI) doFrontend modname _ = pluginError [modname] #else doFrontend modname srcs = do hsc_env <- getSession frontend_plugin <- liftIO $ loadFrontendPlugin hsc_env modname frontend frontend_plugin (reverse $ frontendPluginOpts (hsc_dflags hsc_env)) srcs #endif -- ----------------------------------------------------------------------------- -- ABI hash support {- ghc --abi-hash Data.Foo System.Bar Generates a combined hash of the ABI for modules Data.Foo and System.Bar. The modules must already be compiled, and appropriate -i options may be necessary in order to find the .hi files. This is used by Cabal for generating the ComponentId for a package. The ComponentId must change when the visible ABI of the package chagnes, so during registration Cabal calls ghc --abi-hash to get a hash of the package's ABI. -} -- | Print ABI hash of input modules. -- -- The resulting hash is the MD5 of the GHC version used (Trac #5328, -- see 'hiVersion') and of the existing ABI hash from each module (see -- 'mi_mod_hash'). abiHash :: [String] -- ^ List of module names -> Ghc () abiHash strs = do hsc_env <- getSession let dflags = hsc_dflags hsc_env liftIO $ do let find_it str = do let modname = mkModuleName str r <- findImportedModule hsc_env modname Nothing case r of Found _ m -> return m _error -> throwGhcException $ CmdLineError $ showSDoc dflags $ cannotFindModule dflags modname r mods <- mapM find_it strs let get_iface modl = loadUserInterface False (text "abiHash") modl ifaces <- initIfaceCheck (text "abiHash") hsc_env $ mapM get_iface mods bh <- openBinMem (3*1024) -- just less than a block put_ bh hiVersion -- package hashes change when the compiler version changes (for now) -- see #5328 mapM_ (put_ bh . mi_mod_hash) ifaces f <- fingerprintBinMem bh putStrLn (showPpr dflags f) ----------------------------------------------------------------------------- -- VHDL Generation makeHDL' :: Clash.Backend.Backend backend => (Int -> HdlSyn -> backend) -> IORef ClashOpts -> [(String,Maybe Phase)] -> Ghc () makeHDL' _ _ [] = throwGhcException (CmdLineError "No input files") makeHDL' backend r srcs = makeHDL backend r $ fmap fst srcs makeVHDL :: IORef ClashOpts -> [(String, Maybe Phase)] -> Ghc () makeVHDL = makeHDL' (Clash.Backend.initBackend :: Int -> HdlSyn -> VHDLState) makeVerilog :: IORef ClashOpts -> [(String, Maybe Phase)] -> Ghc () makeVerilog = makeHDL' (Clash.Backend.initBackend :: Int -> HdlSyn -> VerilogState) makeSystemVerilog :: IORef ClashOpts -> [(String, Maybe Phase)] -> Ghc () makeSystemVerilog = makeHDL' (Clash.Backend.initBackend :: Int -> HdlSyn -> SystemVerilogState) -- ----------------------------------------------------------------------------- -- Util unknownFlagsErr :: [String] -> a unknownFlagsErr fs = throwGhcException $ UsageError $ concatMap oneError fs where oneError f = "unrecognised flag: " ++ f ++ "\n" ++ (case match f (nubSort allNonDeprecatedFlags) of [] -> "" suggs -> "did you mean one of:\n" ++ unlines (map (" " ++) suggs)) -- fixes #11789 -- If the flag contains '=', -- this uses both the whole and the left side of '=' for comparing. match f allFlags | elem '=' f = let (flagsWithEq, flagsWithoutEq) = partition (elem '=') allFlags fName = takeWhile (/= '=') f in (fuzzyMatch f flagsWithEq) ++ (fuzzyMatch fName flagsWithoutEq) | otherwise = fuzzyMatch f allFlags {- Note [-Bsymbolic and hooks] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -Bsymbolic is a flag that prevents the binding of references to global symbols to symbols outside the shared library being compiled (see `man ld`). When dynamically linking, we don't use -Bsymbolic on the RTS package: that is because we want hooks to be overridden by the user, we don't want to constrain them to the RTS package. Unfortunately this seems to have broken somehow on OS X: as a result, defaultHooks (in hschooks.c) is not called, which does not initialize the GC stats. As a result, this breaks things like `:set +s` in GHCi (#8754). As a hacky workaround, we instead call 'defaultHooks' directly to initalize the flags in the RTS. A byproduct of this, I believe, is that hooks are likely broken on OS X when dynamically linking. But this probably doesn't affect most people since we're linking GHC dynamically, but most things themselves link statically. -} foreign import ccall safe "initGCStatistics" initGCStatistics :: IO ()