{- (c) The AQUA Project, Glasgow University, 1994-1998 \section[ErrsUtils]{Utilities for error reporting} -} {-# LANGUAGE CPP #-} {-# LANGUAGE BangPatterns #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE LambdaCase #-} module GHC.Utils.Error ( -- * Basic types Validity(..), andValid, allValid, isValid, getInvalids, orValid, Severity(..), -- * Messages ErrMsg, errMsgDoc, errMsgSeverity, errMsgReason, ErrDoc, errDoc, errDocImportant, errDocContext, errDocSupplementary, WarnMsg, MsgDoc, Messages, ErrorMessages, WarningMessages, unionMessages, errMsgSpan, errMsgContext, errorsFound, isEmptyMessages, isWarnMsgFatal, warningsToMessages, -- ** Formatting pprMessageBag, pprErrMsgBagWithLoc, pprLocErrMsg, printBagOfErrors, formatErrDoc, -- ** Construction emptyMessages, mkLocMessage, mkLocMessageAnn, makeIntoWarning, mkErrMsg, mkPlainErrMsg, mkErrDoc, mkLongErrMsg, mkWarnMsg, mkPlainWarnMsg, mkLongWarnMsg, -- * Utilities doIfSet, doIfSet_dyn, getCaretDiagnostic, -- * Dump files dumpIfSet, dumpIfSet_dyn, dumpIfSet_dyn_printer, dumpOptionsFromFlag, DumpOptions (..), DumpFormat (..), DumpAction, dumpAction, defaultDumpAction, TraceAction, traceAction, defaultTraceAction, touchDumpFile, -- * Issuing messages during compilation putMsg, printInfoForUser, printOutputForUser, logInfo, logOutput, errorMsg, warningMsg, fatalErrorMsg, fatalErrorMsg'', compilationProgressMsg, showPass, withTiming, withTimingSilent, withTimingD, withTimingSilentD, debugTraceMsg, ghcExit, prettyPrintGhcErrors, traceCmd ) where #include "HsVersions.h" import GHC.Prelude import GHC.Data.Bag import GHC.Utils.Exception import GHC.Utils.Outputable as Outputable import GHC.Utils.Panic import qualified GHC.Utils.Ppr.Colour as Col import GHC.Types.SrcLoc as SrcLoc import GHC.Driver.Session import GHC.Data.FastString (unpackFS) import GHC.Data.StringBuffer (atLine, hGetStringBuffer, len, lexemeToString) import GHC.Utils.Json import System.Directory import System.Exit ( ExitCode(..), exitWith ) import System.FilePath ( takeDirectory, () ) import Data.List import qualified Data.Set as Set import Data.IORef import Data.Maybe ( fromMaybe ) import Data.Function import Data.Time import Debug.Trace import Control.Monad import Control.Monad.IO.Class import Control.Monad.Catch as MC (handle) import System.IO import System.IO.Error ( catchIOError ) import GHC.Conc ( getAllocationCounter ) import System.CPUTime ------------------------- type MsgDoc = SDoc ------------------------- data Validity = IsValid -- ^ Everything is fine | NotValid MsgDoc -- ^ A problem, and some indication of why isValid :: Validity -> Bool isValid IsValid = True isValid (NotValid {}) = False andValid :: Validity -> Validity -> Validity andValid IsValid v = v andValid v _ = v -- | If they aren't all valid, return the first allValid :: [Validity] -> Validity allValid [] = IsValid allValid (v : vs) = v `andValid` allValid vs getInvalids :: [Validity] -> [MsgDoc] getInvalids vs = [d | NotValid d <- vs] orValid :: Validity -> Validity -> Validity orValid IsValid _ = IsValid orValid _ v = v -- ----------------------------------------------------------------------------- -- Basic error messages: just render a message with a source location. type Messages = (WarningMessages, ErrorMessages) type WarningMessages = Bag WarnMsg type ErrorMessages = Bag ErrMsg unionMessages :: Messages -> Messages -> Messages unionMessages (warns1, errs1) (warns2, errs2) = (warns1 `unionBags` warns2, errs1 `unionBags` errs2) data ErrMsg = ErrMsg { errMsgSpan :: SrcSpan, errMsgContext :: PrintUnqualified, errMsgDoc :: ErrDoc, -- | This has the same text as errDocImportant . errMsgDoc. errMsgShortString :: String, errMsgSeverity :: Severity, errMsgReason :: WarnReason } -- The SrcSpan is used for sorting errors into line-number order -- | Categorise error msgs by their importance. This is so each section can -- be rendered visually distinct. See Note [Error report] for where these come -- from. data ErrDoc = ErrDoc { -- | Primary error msg. errDocImportant :: [MsgDoc], -- | Context e.g. \"In the second argument of ...\". errDocContext :: [MsgDoc], -- | Supplementary information, e.g. \"Relevant bindings include ...\". errDocSupplementary :: [MsgDoc] } errDoc :: [MsgDoc] -> [MsgDoc] -> [MsgDoc] -> ErrDoc errDoc = ErrDoc type WarnMsg = ErrMsg data Severity = SevOutput | SevFatal | SevInteractive | SevDump -- ^ Log message intended for compiler developers -- No file\/line\/column stuff | SevInfo -- ^ Log messages intended for end users. -- No file\/line\/column stuff. | SevWarning | SevError -- ^ SevWarning and SevError are used for warnings and errors -- o The message has a file\/line\/column heading, -- plus "warning:" or "error:", -- added by mkLocMessags -- o Output is intended for end users deriving Show instance ToJson Severity where json s = JSString (show s) instance Show ErrMsg where show em = errMsgShortString em pprMessageBag :: Bag MsgDoc -> SDoc pprMessageBag msgs = vcat (punctuate blankLine (bagToList msgs)) -- | Make an unannotated error message with location info. mkLocMessage :: Severity -> SrcSpan -> MsgDoc -> MsgDoc mkLocMessage = mkLocMessageAnn Nothing -- | Make a possibly annotated error message with location info. mkLocMessageAnn :: Maybe String -- ^ optional annotation -> Severity -- ^ severity -> SrcSpan -- ^ location -> MsgDoc -- ^ message -> MsgDoc -- Always print the location, even if it is unhelpful. Error messages -- are supposed to be in a standard format, and one without a location -- would look strange. Better to say explicitly "". mkLocMessageAnn ann severity locn msg = sdocOption sdocColScheme $ \col_scheme -> let locn' = sdocOption sdocErrorSpans $ \case True -> ppr locn False -> ppr (srcSpanStart locn) sevColour = getSeverityColour severity col_scheme -- Add optional information optAnn = case ann of Nothing -> text "" Just i -> text " [" <> coloured sevColour (text i) <> text "]" -- Add prefixes, like Foo.hs:34: warning: -- header = locn' <> colon <+> coloured sevColour sevText <> optAnn in coloured (Col.sMessage col_scheme) (hang (coloured (Col.sHeader col_scheme) header) 4 msg) where sevText = case severity of SevWarning -> text "warning:" SevError -> text "error:" SevFatal -> text "fatal:" _ -> empty getSeverityColour :: Severity -> Col.Scheme -> Col.PprColour getSeverityColour SevWarning = Col.sWarning getSeverityColour SevError = Col.sError getSeverityColour SevFatal = Col.sFatal getSeverityColour _ = const mempty getCaretDiagnostic :: Severity -> SrcSpan -> IO MsgDoc getCaretDiagnostic _ (UnhelpfulSpan _) = pure empty getCaretDiagnostic severity (RealSrcSpan span _) = do caretDiagnostic <$> getSrcLine (srcSpanFile span) row where getSrcLine fn i = getLine i (unpackFS fn) `catchIOError` \_ -> pure Nothing getLine i fn = do -- StringBuffer has advantages over readFile: -- (a) no lazy IO, otherwise IO exceptions may occur in pure code -- (b) always UTF-8, rather than some system-dependent encoding -- (Haskell source code must be UTF-8 anyway) content <- hGetStringBuffer fn case atLine i content of Just at_line -> pure $ case lines (fix <$> lexemeToString at_line (len at_line)) of srcLine : _ -> Just srcLine _ -> Nothing _ -> pure Nothing -- allow user to visibly see that their code is incorrectly encoded -- (StringBuffer.nextChar uses \0 to represent undecodable characters) fix '\0' = '\xfffd' fix c = c row = srcSpanStartLine span rowStr = show row multiline = row /= srcSpanEndLine span caretDiagnostic Nothing = empty caretDiagnostic (Just srcLineWithNewline) = sdocOption sdocColScheme$ \col_scheme -> let sevColour = getSeverityColour severity col_scheme marginColour = Col.sMargin col_scheme in coloured marginColour (text marginSpace) <> text ("\n") <> coloured marginColour (text marginRow) <> text (" " ++ srcLinePre) <> coloured sevColour (text srcLineSpan) <> text (srcLinePost ++ "\n") <> coloured marginColour (text marginSpace) <> coloured sevColour (text (" " ++ caretLine)) where -- expand tabs in a device-independent manner #13664 expandTabs tabWidth i s = case s of "" -> "" '\t' : cs -> replicate effectiveWidth ' ' ++ expandTabs tabWidth (i + effectiveWidth) cs c : cs -> c : expandTabs tabWidth (i + 1) cs where effectiveWidth = tabWidth - i `mod` tabWidth srcLine = filter (/= '\n') (expandTabs 8 0 srcLineWithNewline) start = srcSpanStartCol span - 1 end | multiline = length srcLine | otherwise = srcSpanEndCol span - 1 width = max 1 (end - start) marginWidth = length rowStr marginSpace = replicate marginWidth ' ' ++ " |" marginRow = rowStr ++ " |" (srcLinePre, srcLineRest) = splitAt start srcLine (srcLineSpan, srcLinePost) = splitAt width srcLineRest caretEllipsis | multiline = "..." | otherwise = "" caretLine = replicate start ' ' ++ replicate width '^' ++ caretEllipsis makeIntoWarning :: WarnReason -> ErrMsg -> ErrMsg makeIntoWarning reason err = err { errMsgSeverity = SevWarning , errMsgReason = reason } -- ----------------------------------------------------------------------------- -- Collecting up messages for later ordering and printing. mk_err_msg :: DynFlags -> Severity -> SrcSpan -> PrintUnqualified -> ErrDoc -> ErrMsg mk_err_msg dflags sev locn print_unqual doc = ErrMsg { errMsgSpan = locn , errMsgContext = print_unqual , errMsgDoc = doc , errMsgShortString = showSDoc dflags (vcat (errDocImportant doc)) , errMsgSeverity = sev , errMsgReason = NoReason } mkErrDoc :: DynFlags -> SrcSpan -> PrintUnqualified -> ErrDoc -> ErrMsg mkErrDoc dflags = mk_err_msg dflags SevError mkLongErrMsg, mkLongWarnMsg :: DynFlags -> SrcSpan -> PrintUnqualified -> MsgDoc -> MsgDoc -> ErrMsg -- ^ A long (multi-line) error message mkErrMsg, mkWarnMsg :: DynFlags -> SrcSpan -> PrintUnqualified -> MsgDoc -> ErrMsg -- ^ A short (one-line) error message mkPlainErrMsg, mkPlainWarnMsg :: DynFlags -> SrcSpan -> MsgDoc -> ErrMsg -- ^ Variant that doesn't care about qualified/unqualified names mkLongErrMsg dflags locn unqual msg extra = mk_err_msg dflags SevError locn unqual (ErrDoc [msg] [] [extra]) mkErrMsg dflags locn unqual msg = mk_err_msg dflags SevError locn unqual (ErrDoc [msg] [] []) mkPlainErrMsg dflags locn msg = mk_err_msg dflags SevError locn alwaysQualify (ErrDoc [msg] [] []) mkLongWarnMsg dflags locn unqual msg extra = mk_err_msg dflags SevWarning locn unqual (ErrDoc [msg] [] [extra]) mkWarnMsg dflags locn unqual msg = mk_err_msg dflags SevWarning locn unqual (ErrDoc [msg] [] []) mkPlainWarnMsg dflags locn msg = mk_err_msg dflags SevWarning locn alwaysQualify (ErrDoc [msg] [] []) ---------------- emptyMessages :: Messages emptyMessages = (emptyBag, emptyBag) isEmptyMessages :: Messages -> Bool isEmptyMessages (warns, errs) = isEmptyBag warns && isEmptyBag errs errorsFound :: DynFlags -> Messages -> Bool errorsFound _dflags (_warns, errs) = not (isEmptyBag errs) warningsToMessages :: DynFlags -> WarningMessages -> Messages warningsToMessages dflags = partitionBagWith $ \warn -> case isWarnMsgFatal dflags warn of Nothing -> Left warn Just err_reason -> Right warn{ errMsgSeverity = SevError , errMsgReason = ErrReason err_reason } printBagOfErrors :: DynFlags -> Bag ErrMsg -> IO () printBagOfErrors dflags bag_of_errors = sequence_ [ let style = mkErrStyle unqual ctx = initSDocContext dflags style in putLogMsg dflags reason sev s $ withPprStyle style (formatErrDoc ctx doc) | ErrMsg { errMsgSpan = s, errMsgDoc = doc, errMsgSeverity = sev, errMsgReason = reason, errMsgContext = unqual } <- sortMsgBag (Just dflags) bag_of_errors ] formatErrDoc :: SDocContext -> ErrDoc -> SDoc formatErrDoc ctx (ErrDoc important context supplementary) = case msgs of [msg] -> vcat msg _ -> vcat $ map starred msgs where msgs = filter (not . null) $ map (filter (not . Outputable.isEmpty ctx)) [important, context, supplementary] starred = (bullet<+>) . vcat pprErrMsgBagWithLoc :: Bag ErrMsg -> [SDoc] pprErrMsgBagWithLoc bag = [ pprLocErrMsg item | item <- sortMsgBag Nothing bag ] pprLocErrMsg :: ErrMsg -> SDoc pprLocErrMsg (ErrMsg { errMsgSpan = s , errMsgDoc = doc , errMsgSeverity = sev , errMsgContext = unqual }) = sdocWithContext $ \ctx -> withErrStyle unqual $ mkLocMessage sev s (formatErrDoc ctx doc) sortMsgBag :: Maybe DynFlags -> Bag ErrMsg -> [ErrMsg] sortMsgBag dflags = maybeLimit . sortBy (cmp `on` errMsgSpan) . bagToList where cmp | fromMaybe False (fmap reverseErrors dflags) = SrcLoc.rightmost_smallest | otherwise = SrcLoc.leftmost_smallest maybeLimit = case join (fmap maxErrors dflags) of Nothing -> id Just err_limit -> take err_limit ghcExit :: DynFlags -> Int -> IO () ghcExit dflags val | val == 0 = exitWith ExitSuccess | otherwise = do errorMsg dflags (text "\nCompilation had errors\n\n") exitWith (ExitFailure val) doIfSet :: Bool -> IO () -> IO () doIfSet flag action | flag = action | otherwise = return () doIfSet_dyn :: DynFlags -> GeneralFlag -> IO () -> IO() doIfSet_dyn dflags flag action | gopt flag dflags = action | otherwise = return () -- ----------------------------------------------------------------------------- -- Dumping dumpIfSet :: DynFlags -> Bool -> String -> SDoc -> IO () dumpIfSet dflags flag hdr doc | not flag = return () | otherwise = doDump dflags hdr doc {-# INLINE dumpIfSet #-} -- see Note [INLINE conditional tracing utilities] -- | This is a helper for 'dumpIfSet' to ensure that it's not duplicated -- despite the fact that 'dumpIfSet' has an @INLINE@. doDump :: DynFlags -> String -> SDoc -> IO () doDump dflags hdr doc = putLogMsg dflags NoReason SevDump noSrcSpan (withPprStyle defaultDumpStyle (mkDumpDoc hdr doc)) -- | A wrapper around 'dumpAction'. -- First check whether the dump flag is set -- Do nothing if it is unset dumpIfSet_dyn :: DynFlags -> DumpFlag -> String -> DumpFormat -> SDoc -> IO () dumpIfSet_dyn = dumpIfSet_dyn_printer alwaysQualify {-# INLINE dumpIfSet_dyn #-} -- see Note [INLINE conditional tracing utilities] -- | A wrapper around 'dumpAction'. -- First check whether the dump flag is set -- Do nothing if it is unset -- -- Unlike 'dumpIfSet_dyn', has a printer argument dumpIfSet_dyn_printer :: PrintUnqualified -> DynFlags -> DumpFlag -> String -> DumpFormat -> SDoc -> IO () dumpIfSet_dyn_printer printer dflags flag hdr fmt doc = when (dopt flag dflags) $ do let sty = mkDumpStyle printer dumpAction dflags sty (dumpOptionsFromFlag flag) hdr fmt doc {-# INLINE dumpIfSet_dyn_printer #-} -- see Note [INLINE conditional tracing utilities] mkDumpDoc :: String -> SDoc -> SDoc mkDumpDoc hdr doc = vcat [blankLine, line <+> text hdr <+> line, doc, blankLine] where line = text (replicate 20 '=') -- | Ensure that a dump file is created even if it stays empty touchDumpFile :: DynFlags -> DumpOptions -> IO () touchDumpFile dflags dumpOpt = withDumpFileHandle dflags dumpOpt (const (return ())) -- | Run an action with the handle of a 'DumpFlag' if we are outputting to a -- file, otherwise 'Nothing'. withDumpFileHandle :: DynFlags -> DumpOptions -> (Maybe Handle -> IO ()) -> IO () withDumpFileHandle dflags dumpOpt action = do let mFile = chooseDumpFile dflags dumpOpt case mFile of Just fileName -> do let gdref = generatedDumps dflags gd <- readIORef gdref let append = Set.member fileName gd mode = if append then AppendMode else WriteMode unless append $ writeIORef gdref (Set.insert fileName gd) createDirectoryIfMissing True (takeDirectory fileName) withFile fileName mode $ \handle -> do -- We do not want the dump file to be affected by -- environment variables, but instead to always use -- UTF8. See: -- https://gitlab.haskell.org/ghc/ghc/issues/10762 hSetEncoding handle utf8 action (Just handle) Nothing -> action Nothing -- | Write out a dump. -- If --dump-to-file is set then this goes to a file. -- otherwise emit to stdout. -- -- When @hdr@ is empty, we print in a more compact format (no separators and -- blank lines) dumpSDocWithStyle :: PprStyle -> DynFlags -> DumpOptions -> String -> SDoc -> IO () dumpSDocWithStyle sty dflags dumpOpt hdr doc = withDumpFileHandle dflags dumpOpt writeDump where -- write dump to file writeDump (Just handle) = do doc' <- if null hdr then return doc else do t <- getCurrentTime let timeStamp = if (gopt Opt_SuppressTimestamps dflags) then empty else text (show t) let d = timeStamp $$ blankLine $$ doc return $ mkDumpDoc hdr d defaultLogActionHPrintDoc dflags handle (withPprStyle sty doc') -- write the dump to stdout writeDump Nothing = do let (doc', severity) | null hdr = (doc, SevOutput) | otherwise = (mkDumpDoc hdr doc, SevDump) putLogMsg dflags NoReason severity noSrcSpan (withPprStyle sty doc') -- | Choose where to put a dump file based on DynFlags -- chooseDumpFile :: DynFlags -> DumpOptions -> Maybe FilePath chooseDumpFile dflags dumpOpt | gopt Opt_DumpToFile dflags || dumpForcedToFile dumpOpt , Just prefix <- getPrefix = Just $ setDir (prefix ++ dumpSuffix dumpOpt) | otherwise = Nothing where getPrefix -- dump file location is being forced -- by the --ddump-file-prefix flag. | Just prefix <- dumpPrefixForce dflags = Just prefix -- dump file location chosen by GHC.Driver.Pipeline.runPipeline | Just prefix <- dumpPrefix dflags = Just prefix -- we haven't got a place to put a dump file. | otherwise = Nothing setDir f = case dumpDir dflags of Just d -> d f Nothing -> f -- | Dump options -- -- Dumps are printed on stdout by default except when the `dumpForcedToFile` -- field is set to True. -- -- When `dumpForcedToFile` is True or when `-ddump-to-file` is set, dumps are -- written into a file whose suffix is given in the `dumpSuffix` field. -- data DumpOptions = DumpOptions { dumpForcedToFile :: Bool -- ^ Must be dumped into a file, even if -- -ddump-to-file isn't set , dumpSuffix :: String -- ^ Filename suffix used when dumped into -- a file } -- | Create dump options from a 'DumpFlag' dumpOptionsFromFlag :: DumpFlag -> DumpOptions dumpOptionsFromFlag Opt_D_th_dec_file = DumpOptions -- -dth-dec-file dumps expansions of TH { dumpForcedToFile = True -- splices into MODULE.th.hs even when , dumpSuffix = "th.hs" -- -ddump-to-file isn't set } dumpOptionsFromFlag flag = DumpOptions { dumpForcedToFile = False , dumpSuffix = suffix -- build a suffix from the flag name } -- e.g. -ddump-asm => ".dump-asm" where str = show flag suff = case stripPrefix "Opt_D_" str of Just x -> x Nothing -> panic ("Bad flag name: " ++ str) suffix = map (\c -> if c == '_' then '-' else c) suff -- ----------------------------------------------------------------------------- -- Outputting messages from the compiler -- We want all messages to go through one place, so that we can -- redirect them if necessary. For example, when GHC is used as a -- library we might want to catch all messages that GHC tries to -- output and do something else with them. ifVerbose :: DynFlags -> Int -> IO () -> IO () ifVerbose dflags val act | verbosity dflags >= val = act | otherwise = return () {-# INLINE ifVerbose #-} -- see Note [INLINE conditional tracing utilities] errorMsg :: DynFlags -> MsgDoc -> IO () errorMsg dflags msg = putLogMsg dflags NoReason SevError noSrcSpan $ withPprStyle defaultErrStyle msg warningMsg :: DynFlags -> MsgDoc -> IO () warningMsg dflags msg = putLogMsg dflags NoReason SevWarning noSrcSpan $ withPprStyle defaultErrStyle msg fatalErrorMsg :: DynFlags -> MsgDoc -> IO () fatalErrorMsg dflags msg = putLogMsg dflags NoReason SevFatal noSrcSpan $ withPprStyle defaultErrStyle msg fatalErrorMsg'' :: FatalMessager -> String -> IO () fatalErrorMsg'' fm msg = fm msg compilationProgressMsg :: DynFlags -> String -> IO () compilationProgressMsg dflags msg = do traceEventIO $ "GHC progress: " ++ msg ifVerbose dflags 1 $ logOutput dflags $ withPprStyle defaultUserStyle (text msg) showPass :: DynFlags -> String -> IO () showPass dflags what = ifVerbose dflags 2 $ logInfo dflags $ withPprStyle defaultUserStyle (text "***" <+> text what <> colon) data PrintTimings = PrintTimings | DontPrintTimings deriving (Eq, Show) -- | Time a compilation phase. -- -- When timings are enabled (e.g. with the @-v2@ flag), the allocations -- and CPU time used by the phase will be reported to stderr. Consider -- a typical usage: -- @withTiming getDynFlags (text "simplify") force PrintTimings pass@. -- When timings are enabled the following costs are included in the -- produced accounting, -- -- - The cost of executing @pass@ to a result @r@ in WHNF -- - The cost of evaluating @force r@ to WHNF (e.g. @()@) -- -- The choice of the @force@ function depends upon the amount of forcing -- desired; the goal here is to ensure that the cost of evaluating the result -- is, to the greatest extent possible, included in the accounting provided by -- 'withTiming'. Often the pass already sufficiently forces its result during -- construction; in this case @const ()@ is a reasonable choice. -- In other cases, it is necessary to evaluate the result to normal form, in -- which case something like @Control.DeepSeq.rnf@ is appropriate. -- -- To avoid adversely affecting compiler performance when timings are not -- requested, the result is only forced when timings are enabled. -- -- See Note [withTiming] for more. withTiming :: MonadIO m => DynFlags -- ^ DynFlags -> SDoc -- ^ The name of the phase -> (a -> ()) -- ^ A function to force the result -- (often either @const ()@ or 'rnf') -> m a -- ^ The body of the phase to be timed -> m a withTiming dflags what force action = withTiming' dflags what force PrintTimings action -- | Like withTiming but get DynFlags from the Monad. withTimingD :: (MonadIO m, HasDynFlags m) => SDoc -- ^ The name of the phase -> (a -> ()) -- ^ A function to force the result -- (often either @const ()@ or 'rnf') -> m a -- ^ The body of the phase to be timed -> m a withTimingD what force action = do dflags <- getDynFlags withTiming' dflags what force PrintTimings action -- | Same as 'withTiming', but doesn't print timings in the -- console (when given @-vN@, @N >= 2@ or @-ddump-timings@). -- -- See Note [withTiming] for more. withTimingSilent :: MonadIO m => DynFlags -- ^ DynFlags -> SDoc -- ^ The name of the phase -> (a -> ()) -- ^ A function to force the result -- (often either @const ()@ or 'rnf') -> m a -- ^ The body of the phase to be timed -> m a withTimingSilent dflags what force action = withTiming' dflags what force DontPrintTimings action -- | Same as 'withTiming', but doesn't print timings in the -- console (when given @-vN@, @N >= 2@ or @-ddump-timings@) -- and gets the DynFlags from the given Monad. -- -- See Note [withTiming] for more. withTimingSilentD :: (MonadIO m, HasDynFlags m) => SDoc -- ^ The name of the phase -> (a -> ()) -- ^ A function to force the result -- (often either @const ()@ or 'rnf') -> m a -- ^ The body of the phase to be timed -> m a withTimingSilentD what force action = do dflags <- getDynFlags withTiming' dflags what force DontPrintTimings action -- | Worker for 'withTiming' and 'withTimingSilent'. withTiming' :: MonadIO m => DynFlags -- ^ A means of getting a 'DynFlags' (often -- 'getDynFlags' will work here) -> SDoc -- ^ The name of the phase -> (a -> ()) -- ^ A function to force the result -- (often either @const ()@ or 'rnf') -> PrintTimings -- ^ Whether to print the timings -> m a -- ^ The body of the phase to be timed -> m a withTiming' dflags what force_result prtimings action = do if verbosity dflags >= 2 || dopt Opt_D_dump_timings dflags then do whenPrintTimings $ logInfo dflags $ withPprStyle defaultUserStyle $ text "***" <+> what <> colon let ctx = initDefaultSDocContext dflags eventBegins ctx what alloc0 <- liftIO getAllocationCounter start <- liftIO getCPUTime !r <- action () <- pure $ force_result r eventEnds ctx what end <- liftIO getCPUTime alloc1 <- liftIO getAllocationCounter -- recall that allocation counter counts down let alloc = alloc0 - alloc1 time = realToFrac (end - start) * 1e-9 when (verbosity dflags >= 2 && prtimings == PrintTimings) $ liftIO $ logInfo dflags $ withPprStyle defaultUserStyle (text "!!!" <+> what <> colon <+> text "finished in" <+> doublePrec 2 time <+> text "milliseconds" <> comma <+> text "allocated" <+> doublePrec 3 (realToFrac alloc / 1024 / 1024) <+> text "megabytes") whenPrintTimings $ dumpIfSet_dyn dflags Opt_D_dump_timings "" FormatText $ text $ showSDocOneLine ctx $ hsep [ what <> colon , text "alloc=" <> ppr alloc , text "time=" <> doublePrec 3 time ] pure r else action where whenPrintTimings = liftIO . when (prtimings == PrintTimings) eventBegins ctx w = do whenPrintTimings $ traceMarkerIO (eventBeginsDoc ctx w) liftIO $ traceEventIO (eventBeginsDoc ctx w) eventEnds ctx w = do whenPrintTimings $ traceMarkerIO (eventEndsDoc ctx w) liftIO $ traceEventIO (eventEndsDoc ctx w) eventBeginsDoc ctx w = showSDocOneLine ctx $ text "GHC:started:" <+> w eventEndsDoc ctx w = showSDocOneLine ctx $ text "GHC:finished:" <+> w debugTraceMsg :: DynFlags -> Int -> MsgDoc -> IO () debugTraceMsg dflags val msg = ifVerbose dflags val $ logInfo dflags (withPprStyle defaultDumpStyle msg) {-# INLINE debugTraceMsg #-} -- see Note [INLINE conditional tracing utilities] putMsg :: DynFlags -> MsgDoc -> IO () putMsg dflags msg = logInfo dflags (withPprStyle defaultUserStyle msg) printInfoForUser :: DynFlags -> PrintUnqualified -> MsgDoc -> IO () printInfoForUser dflags print_unqual msg = logInfo dflags (withUserStyle print_unqual AllTheWay msg) printOutputForUser :: DynFlags -> PrintUnqualified -> MsgDoc -> IO () printOutputForUser dflags print_unqual msg = logOutput dflags (withUserStyle print_unqual AllTheWay msg) logInfo :: DynFlags -> MsgDoc -> IO () logInfo dflags msg = putLogMsg dflags NoReason SevInfo noSrcSpan msg -- | Like 'logInfo' but with 'SevOutput' rather then 'SevInfo' logOutput :: DynFlags -> MsgDoc -> IO () logOutput dflags msg = putLogMsg dflags NoReason SevOutput noSrcSpan msg prettyPrintGhcErrors :: ExceptionMonad m => DynFlags -> m a -> m a prettyPrintGhcErrors dflags = MC.handle $ \e -> case e of PprPanic str doc -> pprDebugAndThen dflags panic (text str) doc PprSorry str doc -> pprDebugAndThen dflags sorry (text str) doc PprProgramError str doc -> pprDebugAndThen dflags pgmError (text str) doc _ -> liftIO $ throwIO e -- | Checks if given 'WarnMsg' is a fatal warning. isWarnMsgFatal :: DynFlags -> WarnMsg -> Maybe (Maybe WarningFlag) isWarnMsgFatal dflags ErrMsg{errMsgReason = Reason wflag} = if wopt_fatal wflag dflags then Just (Just wflag) else Nothing isWarnMsgFatal dflags _ = if gopt Opt_WarnIsError dflags then Just Nothing else Nothing traceCmd :: DynFlags -> String -> String -> IO a -> IO a -- trace the command (at two levels of verbosity) traceCmd dflags phase_name cmd_line action = do { let verb = verbosity dflags ; showPass dflags phase_name ; debugTraceMsg dflags 3 (text cmd_line) ; case flushErr dflags of FlushErr io -> io -- And run it! ; action `catchIO` handle_exn verb } where handle_exn _verb exn = do { debugTraceMsg dflags 2 (char '\n') ; debugTraceMsg dflags 2 (text "Failed:" <+> text cmd_line <+> text (show exn)) ; throwGhcExceptionIO (ProgramError (show exn))} {- Note [withTiming] ~~~~~~~~~~~~~~~~~~~~ For reference: withTiming :: MonadIO => m DynFlags -- how to get the DynFlags -> SDoc -- label for the computation we're timing -> (a -> ()) -- how to evaluate the result -> PrintTimings -- whether to report the timings when passed -- -v2 or -ddump-timings -> m a -- computation we're timing -> m a withTiming lets you run an action while: (1) measuring the CPU time it took and reporting that on stderr (when PrintTimings is passed), (2) emitting start/stop events to GHC's event log, with the label given as an argument. Evaluation of the result ------------------------ 'withTiming' takes as an argument a function of type 'a -> ()', whose purpose is to evaluate the result "sufficiently". A given pass might return an 'm a' for some monad 'm' and result type 'a', but where the 'a' is complex enough that evaluating it to WHNF barely scratches its surface and leaves many complex and time-consuming computations unevaluated. Those would only be forced by the next pass, and the time needed to evaluate them would be mis-attributed to that next pass. A more appropriate function would be one that deeply evaluates the result, so as to assign the time spent doing it to the pass we're timing. Note: as hinted at above, the time spent evaluating the application of the forcing function to the result is included in the timings reported by 'withTiming'. How we use it ------------- We measure the time and allocations of various passes in GHC's pipeline by just wrapping the whole pass with 'withTiming'. This also materializes by having a label for each pass in the eventlog, where each pass is executed in one go, during a continuous time window. However, from STG onwards, the pipeline uses streams to emit groups of STG/Cmm/etc declarations one at a time, and process them until we get to assembly code generation. This means that the execution of those last few passes is interleaved and that we cannot measure how long they take by just wrapping the whole thing with 'withTiming'. Instead we wrap the processing of each individual stream element, all along the codegen pipeline, using the appropriate label for the pass to which this processing belongs. That generates a lot more data but allows us to get fine-grained timings about all the passes and we can easily compute totals with tools like ghc-events-analyze (see below). Producing an eventlog for GHC ----------------------------- To actually produce the eventlog, you need an eventlog-capable GHC build: With Hadrian: $ hadrian/build -j "stage1.ghc-bin.ghc.link.opts += -eventlog" With Make: $ make -j GhcStage2HcOpts+=-eventlog You can then produce an eventlog when compiling say hello.hs by simply doing: If GHC was built by Hadrian: $ _build/stage1/bin/ghc -ddump-timings hello.hs -o hello +RTS -l If GHC was built with Make: $ inplace/bin/ghc-stage2 -ddump-timing hello.hs -o hello +RTS -l You could alternatively use -v (with N >= 2) instead of -ddump-timings, to ask GHC to report timings (on stderr and the eventlog). This will write the eventlog to ./ghc.eventlog in both cases. You can then visualize it or look at the totals for each label by using ghc-events-analyze, threadscope or any other eventlog consumer. Illustrating with ghc-events-analyze: $ ghc-events-analyze --timed --timed-txt --totals \ --start "GHC:started:" --stop "GHC:finished:" \ ghc.eventlog This produces ghc.timed.txt (all event timestamps), ghc.timed.svg (visualisation of the execution through the various labels) and ghc.totals.txt (total time spent in each label). -} -- | Format of a dump -- -- Dump formats are loosely defined: dumps may contain various additional -- headers and annotations and they may be partial. 'DumpFormat' is mainly a hint -- (e.g. for syntax highlighters). data DumpFormat = FormatHaskell -- ^ Haskell | FormatCore -- ^ Core | FormatSTG -- ^ STG | FormatByteCode -- ^ ByteCode | FormatCMM -- ^ Cmm | FormatASM -- ^ Assembly code | FormatC -- ^ C code/header | FormatLLVM -- ^ LLVM bytecode | FormatText -- ^ Unstructured dump deriving (Show,Eq) type DumpAction = DynFlags -> PprStyle -> DumpOptions -> String -> DumpFormat -> SDoc -> IO () type TraceAction = forall a. DynFlags -> String -> SDoc -> a -> a -- | Default action for 'dumpAction' hook defaultDumpAction :: DumpAction defaultDumpAction dflags sty dumpOpt title _fmt doc = do dumpSDocWithStyle sty dflags dumpOpt title doc -- | Default action for 'traceAction' hook defaultTraceAction :: TraceAction defaultTraceAction dflags title doc = pprTraceWithFlags dflags title doc -- | Helper for `dump_action` dumpAction :: DumpAction dumpAction dflags = dump_action dflags dflags -- | Helper for `trace_action` traceAction :: TraceAction traceAction dflags = trace_action dflags dflags