{-# LANGUAGE CPP #-}
{-# LANGUAGE NondecreasingIndentation #-}
{-# OPTIONS -fno-warn-incomplete-patterns -optc-DNON_POSIX_SOURCE #-}
module Clash.Main (defaultMain) where
#include "MachDeps.h"
import qualified GHC
import GHC (
Ghc, GhcMonad(..),
LoadHowMuch(..) )
import CmdLineParser
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
#if defined(GHCI)
import DynamicLoading ( loadFrontendPlugin )
import Plugins
#else
import DynamicLoading ( pluginError )
#endif
import Module ( ModuleName )
import GHC.HandleEncoding
import Config
import Constants
import HscTypes
import Packages ( pprPackages, pprPackagesSimple )
import DriverPhases
import BasicTypes ( failed )
import DynFlags hiding (WarnReason(..))
import ErrUtils
import FastString
import Outputable
import SrcLoc
import Util
import Panic
import UniqSupply
import MonadUtils ( liftIO )
import DynamicLoading ( initializePlugins )
import LoadIface ( loadUserInterface )
import Module ( mkModuleName )
import Finder ( findImportedModule, cannotFindModule )
import TcRnMonad ( initIfaceCheck )
import Binary ( openBinMem, put_ )
import BinFingerprint ( fingerprintBinMem )
import System.IO
import System.Environment
import System.Exit
import System.FilePath
import Control.Monad
import Data.Char
import Data.List
import Data.Maybe
import Paths_clash_ghc
import Clash.GHCi.Common (checkClashDynamic)
import Clash.GHCi.UI (makeHDL)
import Exception (gcatch)
import Data.IORef (IORef, newIORef, readIORef)
import qualified Data.Version (showVersion)
import qualified Clash.Backend
import Clash.Backend.SystemVerilog (SystemVerilogState)
import Clash.Backend.VHDL (VHDLState)
import Clash.Backend.Verilog (VerilogState)
import Clash.Driver.Types
(ClashOpts (..), defClashOpts)
import Clash.GHC.ClashFlags
import Clash.Netlist.BlackBox.Types (HdlSyn (..))
import Clash.Util (clashLibVersion)
import Clash.GHC.LoadModules (ghcLibDir, setWantedLanguageExtensions)
import Clash.GHC.Util (handleClashException)
defaultMain :: [String] -> IO ()
defaultMain = flip withArgs $ do
initGCStatistics
hSetBuffering stdout LineBuffering
hSetBuffering stderr LineBuffering
configureHandleEncoding
GHC.defaultErrorHandler defaultFatalMessager defaultFlushOut $ do
argv0 <- getArgs
libDir <- ghcLibDir
let argv1 = map (mkGeneralLocated "on the commandline") argv0
r <- newIORef defClashOpts
(argv2, clashFlagWarnings) <- parseClashFlags r argv1
(mode, argv3, modeFlagWarnings) <- parseModeFlags argv2
let flagWarnings = modeFlagWarnings ++ clashFlagWarnings
case mode of
Left preStartupMode ->
do case preStartupMode of
ShowSupportedExtensions -> showSupportedExtensions
ShowVersion -> showVersion
ShowNumVersion -> putStrLn cProjectVersion
ShowOptions isInteractive -> showOptions isInteractive r
Right postStartupMode ->
GHC.runGhc (Just libDir) $ do
dflags <- GHC.getSessionDynFlags
liftIO (checkClashDynamic dflags)
let dflagsExtra = setWantedLanguageExtensions dflags
ghcTyLitNormPlugin = GHC.mkModuleName "GHC.TypeLits.Normalise"
ghcTyLitExtrPlugin = GHC.mkModuleName "GHC.TypeLits.Extra.Solver"
ghcTyLitKNPlugin = GHC.mkModuleName "GHC.TypeLits.KnownNat.Solver"
dflagsExtra1 = dflagsExtra
{ DynFlags.pluginModNames = nub $
ghcTyLitNormPlugin : ghcTyLitExtrPlugin :
ghcTyLitKNPlugin :
DynFlags.pluginModNames dflagsExtra
}
case postStartupMode of
Left preLoadMode ->
liftIO $ do
case preLoadMode of
ShowInfo -> showInfo dflagsExtra1
ShowGhcUsage -> showGhcUsage dflagsExtra1
ShowGhciUsage -> showGhciUsage dflagsExtra1
PrintWithDynFlags f -> putStrLn (f dflagsExtra1)
Right postLoadMode ->
main' postLoadMode dflagsExtra1 argv3 flagWarnings r
main' :: PostLoadMode -> DynFlags -> [Located String] -> [Warn]
-> IORef ClashOpts
-> Ghc ()
main' postLoadMode dflags0 args flagWarnings clashOpts = do
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, HscNothing, NoLink)
DoVerilog -> (CompManager, HscNothing, NoLink)
DoSystemVerilog -> (CompManager, HscNothing, NoLink)
_ -> (OneShot, dflt_target, LinkBinary)
let dflags1 = dflags0{ ghcMode = mode,
hscTarget = lang,
ghcLink = link,
verbosity = case postLoadMode of
DoEval _ -> 0
_other -> 1
}
dflags2 | DoInteractive <- postLoadMode = def_ghci_flags
| DoEval _ <- postLoadMode = def_ghci_flags
| otherwise = dflags1
where def_ghci_flags = dflags1 `gopt_set` Opt_ImplicitImportQualified
`gopt_set` Opt_IgnoreOptimChanges
`gopt_set` Opt_IgnoreHpcChanges
(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
normal_fileish_paths = map (normalise . unLoc) fileish_args
(srcs, objs) = partition_args normal_fileish_paths [] []
dflags5 = dflags4 { ldInputs = map (FileOption "") objs
++ ldInputs dflags4 }
_ <- GHC.setSessionDynFlags dflags5
dflags6 <- GHC.getSessionDynFlags
hsc_env <- GHC.getSession
case verbosity dflags6 of
v | v == 4 -> liftIO $ dumpPackagesSimple dflags6
| v >= 5 -> liftIO $ dumpPackages dflags6
| otherwise -> return ()
liftIO $ initUniqSupply (initialUnique dflags6) (uniqueIncrement dflags6)
liftIO $ checkOptions postLoadMode dflags6 srcs objs
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 hsc_env dflags6 srcs Nothing
DoEval exprs -> ghciUI clashOpts hsc_env dflags6 srcs $ Just $ reverse exprs
DoAbiHash -> abiHash (map fst srcs)
ShowPackages -> liftIO $ showPackages dflags6
DoFrontend f -> doFrontend f srcs
DoBackpack -> doBackpack (map fst srcs)
DoVHDL -> clash makeVHDL
DoVerilog -> clash makeVerilog
DoSystemVerilog -> clash makeSystemVerilog
liftIO $ dumpFinalStats dflags6
ghciUI :: IORef ClashOpts -> HscEnv -> DynFlags -> [(FilePath, Maybe Phase)] -> Maybe [String] -> Ghc ()
#if !defined(GHCI)
ghciUI _ _ _ _ _ = throwGhcException (CmdLineError "not built for interactive use")
#else
ghciUI opts hsc_env dflags0 srcs maybe_expr = do
dflags1 <- liftIO (initializePlugins hsc_env dflags0)
_ <- GHC.setSessionDynFlags dflags1
interactiveUI (defaultGhciSettings opts) srcs maybe_expr
#endif
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)
looks_like_an_input :: String -> Bool
looks_like_an_input m = isSourceFilename m
|| looksLikeModuleName m
|| "-" `isPrefixOf` m
|| not (hasExtension m)
checkOptions :: PostLoadMode -> DynFlags -> [(String,Maybe Phase)] -> [String] -> IO ()
checkOptions mode dflags srcs objs = do
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")
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).")
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
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)
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 ()
verifyOutputFiles dflags
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.)"))
type Mode = Either PreStartupMode PostStartupMode
type PostStartupMode = Either PreLoadMode PostLoadMode
data PreStartupMode
= ShowVersion
| ShowNumVersion
| ShowSupportedExtensions
| ShowOptions Bool
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
| ShowGhciUsage
| ShowInfo
| PrintWithDynFlags (DynFlags -> String)
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
| DoMkDependHS
| StopBefore Phase
| DoMake
| DoBackpack
| DoInteractive
| DoEval [String]
| DoAbiHash
| ShowPackages
| DoFrontend ModuleName
| DoVHDL
| DoVerilog
| DoSystemVerilog
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 :: 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
isLinkMode :: PostLoadMode -> Bool
isLinkMode (StopBefore StopLn) = True
isLinkMode DoMake = True
isLinkMode DoInteractive = True
isLinkMode (DoEval _) = 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
parseModeFlags :: [Located String]
-> IO (Mode,
[Located String],
[Warn])
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
unless (null errs1 && null errs2) $ throwGhcException $ errorsToGhcException $
map (("on the commandline", )) $ map (unLoc . errMsg) errs1 ++ errs2
return (mode, flags' ++ leftover, warns)
type ModeM = CmdLineP (Maybe (Mode, String), [String], [Located String])
mode_flags :: [Flag ModeM]
mode_flags =
[
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
] ++
[ defFlag "-show-iface" (HasArg (\f -> setMode (showInterfaceMode f)
"--show-iface"))
, 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
_ | isStopLnMode oldMode && isDoMakeMode newMode
|| isStopLnMode newMode && isDoMakeMode oldMode ->
((doMakeMode, "--make"), [])
_ | isShowGhcUsageMode oldMode &&
isDoInteractiveMode newMode ->
((showGhciUsageMode, oldFlag), [])
| isShowGhcUsageMode newMode &&
isDoInteractiveMode oldMode ->
((showGhciUsageMode, newFlag), [])
_ | isDoEvalMode oldMode &&
isDoInteractiveMode newMode ->
((oldMode, oldFlag), [])
| isDoEvalMode newMode &&
isDoInteractiveMode oldMode ->
((newMode, newFlag), [])
| isDominantFlag oldMode -> ((oldMode, oldFlag), [])
| isDominantFlag newMode -> ((newMode, newFlag), [])
(Right (Right (DoEval esOld)),
Right (Right (DoEval [eNew]))) ->
((Right (Right (DoEval (eNew : esOld))), oldFlag),
errs)
_ | oldFlag == newFlag -> ((oldMode, oldFlag), errs)
(Right (Right DoInteractive), Left (ShowOptions _)) ->
((Left (ShowOptions True),
"--interactive --show-options"), errs)
(Left (ShowOptions _), (Right (Right DoInteractive))) ->
((Left (ShowOptions True),
"--show-options --interactive"), errs)
_ -> 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"
doMake :: [(String,Maybe Phase)] -> Ghc ()
doMake srcs = do
let (hs_srcs, non_hs_srcs) = partition isHaskellishTarget srcs
hsc_env <- GHC.getSession
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 ()
doShowIface :: DynFlags -> FilePath -> IO ()
doShowIface dflags file = do
hsc_env <- newHscEnv dflags
showIface hsc_env file
showBanner :: PostLoadMode -> DynFlags -> IO ()
showBanner _postLoadMode dflags = do
let verb = verbosity dflags
#if defined(GHCI)
when (isInteractiveMode _postLoadMode && verb >= 1) $ putStrLn ghciWelcomeMsg
#endif
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
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 -> IORef ClashOpts -> IO ()
showOptions isInteractive = putStr . unlines . availableOptions
where
availableOptions opts = concat
[ flagsForCompletion isInteractive
, map ('-':) (getFlagNames mode_flags)
, map ('-':) (getFlagNames (flagsClash opts))
]
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)
])
putMsg dflags msg
where
x `pcntOf` y = int ((x * 100) `quot` y) Outputable.<> 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)
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
abiHash :: [String]
-> 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)
put_ bh hiVersion
mapM_ (put_ bh . mi_mod_hash) ifaces
f <- fingerprintBinMem bh
putStrLn (showPpr dflags f)
makeHDL' :: Clash.Backend.Backend backend => (Int -> HdlSyn -> Bool -> Maybe (Maybe Int) -> 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 -> Bool -> Maybe (Maybe Int) -> VHDLState)
makeVerilog :: IORef ClashOpts -> [(String, Maybe Phase)] -> Ghc ()
makeVerilog = makeHDL' (Clash.Backend.initBackend :: Int -> HdlSyn -> Bool -> Maybe (Maybe Int) -> VerilogState)
makeSystemVerilog :: IORef ClashOpts -> [(String, Maybe Phase)] -> Ghc ()
makeSystemVerilog = makeHDL' (Clash.Backend.initBackend :: Int -> HdlSyn -> Bool -> Maybe (Maybe Int) -> SystemVerilogState)
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))
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
foreign import ccall safe "initGCStatistics"
initGCStatistics :: IO ()