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|
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE OverloadedStrings #-}
-- | This module provides support for CPP, interpreter directives and line
-- pragmas.
module Preprocess
(
stripLinePragmas
, getCppTokensAsComments
, getPreprocessedSrcDirect
, readFileGhc
, CppOptions(..)
, defaultCppOptions
) where
import qualified GHC as GHC hiding (parseModule)
import qualified Control.Monad.IO.Class as GHC
import qualified GHC.Data.FastString as GHC
import qualified GHC.Data.StringBuffer as GHC
import qualified GHC.Driver.Config.Parser as GHC
import qualified GHC.Driver.Env as GHC
import qualified GHC.Driver.Errors.Types as GHC
import qualified GHC.Driver.Phases as GHC
import qualified GHC.Driver.Pipeline as GHC
import qualified GHC.Fingerprint.Type as GHC
import qualified GHC.Parser.Lexer as GHC
import qualified GHC.Settings as GHC
import qualified GHC.Types.Error as GHC (getMessages)
import qualified GHC.Types.SourceError as GHC
import qualified GHC.Types.SourceFile as GHC
import qualified GHC.Types.SrcLoc as GHC
import qualified GHC.Utils.Error as GHC
import qualified GHC.Utils.Fingerprint as GHC
import qualified GHC.Utils.Outputable as GHC
import GHC.Types.SrcLoc (mkSrcSpan, mkSrcLoc)
import GHC.Data.FastString (mkFastString)
import Data.List (isPrefixOf)
import Data.Maybe
import Types
import Utils
import qualified Data.Set as Set
-- import Debug.Trace
--
-- ---------------------------------------------------------------------
data CppOptions = CppOptions
{ cppDefine :: [String] -- ^ CPP #define macros
, cppInclude :: [FilePath] -- ^ CPP Includes directory
, cppFile :: [FilePath] -- ^ CPP pre-include file
}
defaultCppOptions :: CppOptions
defaultCppOptions = CppOptions [] [] []
-- ---------------------------------------------------------------------
-- | Remove GHC style line pragams (@{-# LINE .. #-}@) and convert them into comments.
stripLinePragmas :: String -> (String, [GHC.LEpaComment])
stripLinePragmas = unlines' . unzip . findLines . lines
where
unlines' (a, b) = (unlines a, catMaybes b)
findLines :: [String] -> [(String, Maybe GHC.LEpaComment)]
findLines = zipWith checkLine [1..]
checkLine :: Int -> String -> (String, Maybe GHC.LEpaComment)
checkLine line s
| "{-# LINE" `isPrefixOf` s =
let (pragma, res) = getPragma s
size = length pragma
mSrcLoc = mkSrcLoc (mkFastString "LINE")
ss = mkSrcSpan (mSrcLoc line 1) (mSrcLoc line (size+1))
in (res, Just $ mkLEpaComment pragma (GHC.spanAsAnchor ss))
-- Deal with shebang/cpp directives too
-- x | "#" `isPrefixOf` s = ("",Just $ Comment ((line, 1), (line, length s)) s)
| "#!" `isPrefixOf` s =
let mSrcLoc = mkSrcLoc (mkFastString "SHEBANG")
ss = mkSrcSpan (mSrcLoc line 1) (mSrcLoc line (length s))
in
("",Just $ mkLEpaComment s (GHC.spanAsAnchor ss))
| otherwise = (s, Nothing)
getPragma :: String -> (String, String)
getPragma [] = error "Input must not be empty"
getPragma s@(x:xs)
| "#-}" `isPrefixOf` s = ("#-}", " " ++ drop 3 s)
| otherwise =
let (prag, remline) = getPragma xs
in (x:prag, ' ':remline)
-- ---------------------------------------------------------------------
-- | Replacement for original 'getRichTokenStream' which will return
-- the tokens for a file processed by CPP.
-- See bug <http://ghc.haskell.org/trac/ghc/ticket/8265>
getCppTokensAsComments :: GHC.GhcMonad m
=> CppOptions -- ^ Preprocessor Options
-> FilePath -- ^ Path to source file
-> m [GHC.LEpaComment]
getCppTokensAsComments cppOptions sourceFile = do
source <- GHC.liftIO $ GHC.hGetStringBuffer sourceFile
let startLoc = GHC.mkRealSrcLoc (GHC.mkFastString sourceFile) 1 1
(_txt,strSrcBuf,flags2') <- getPreprocessedSrcDirectPrim cppOptions sourceFile
let flags2 = GHC.initParserOpts flags2'
-- hash-ifdef tokens
directiveToks <- GHC.liftIO $ getPreprocessorAsComments sourceFile
-- Tokens without hash-ifdef
nonDirectiveToks <- tokeniseOriginalSrc startLoc flags2 source
case GHC.lexTokenStream flags2 strSrcBuf startLoc of
GHC.POk _ ts ->
do
let toks = GHC.addSourceToTokens startLoc source ts
cppCommentToks = getCppTokens directiveToks nonDirectiveToks toks
return $ filter goodComment
$ map (GHC.commentToAnnotation . toRealLocated . fst) cppCommentToks
GHC.PFailed pst -> parseError pst
goodComment :: GHC.LEpaComment -> Bool
goodComment c = isGoodComment (tokComment c)
where
isGoodComment :: Comment -> Bool
isGoodComment (Comment "" _ _) = False
isGoodComment _ = True
toRealLocated :: GHC.Located a -> GHC.RealLocated a
toRealLocated (GHC.L (GHC.RealSrcSpan s _) x) = GHC.L s x
toRealLocated (GHC.L _ x) = GHC.L badRealSrcSpan x
-- ---------------------------------------------------------------------
-- | Combine the three sets of tokens to produce a single set that
-- represents the code compiled, and will regenerate the original
-- source file.
-- [@directiveToks@] are the tokens corresponding to preprocessor
-- directives, converted to comments
-- [@origSrcToks@] are the tokenised source of the original code, with
-- the preprocessor directives stripped out so that
-- the lexer does not complain
-- [@postCppToks@] are the tokens that the compiler saw originally
-- NOTE: this scheme will only work for cpp in -nomacro mode
getCppTokens ::
[(GHC.Located GHC.Token, String)]
-> [(GHC.Located GHC.Token, String)]
-> [(GHC.Located GHC.Token, String)]
-> [(GHC.Located GHC.Token, String)]
getCppTokens directiveToks origSrcToks postCppToks = toks
where
locFn (GHC.L l1 _,_) (GHC.L l2 _,_) = compare (rs l1) (rs l2)
m1Toks = mergeBy locFn postCppToks directiveToks
-- We must now find the set of tokens that are in origSrcToks, but
-- not in m1Toks
-- GHC.Token does not have Ord, can't use a set directly
origSpans = map (\(GHC.L l _,_) -> rs l) origSrcToks
m1Spans = map (\(GHC.L l _,_) -> rs l) m1Toks
missingSpans = Set.fromList origSpans Set.\\ Set.fromList m1Spans
missingToks = filter (\(GHC.L l _,_) -> Set.member (rs l) missingSpans) origSrcToks
missingAsComments = map mkCommentTok missingToks
where
mkCommentTok :: (GHC.Located GHC.Token,String) -> (GHC.Located GHC.Token,String)
mkCommentTok (GHC.L l _,s) = (GHC.L l (GHC.ITlineComment s placeholderBufSpan),s)
toks = mergeBy locFn directiveToks missingAsComments
-- ---------------------------------------------------------------------
tokeniseOriginalSrc ::
GHC.GhcMonad m
=> GHC.RealSrcLoc -> GHC.ParserOpts -> GHC.StringBuffer
-> m [(GHC.Located GHC.Token, String)]
tokeniseOriginalSrc startLoc flags buf = do
let src = stripPreprocessorDirectives buf
case GHC.lexTokenStream flags src startLoc of
GHC.POk _ ts -> return $ GHC.addSourceToTokens startLoc src ts
GHC.PFailed pst -> parseError pst
-- ---------------------------------------------------------------------
-- | Strip out the CPP directives so that the balance of the source
-- can tokenised.
stripPreprocessorDirectives :: GHC.StringBuffer -> GHC.StringBuffer
stripPreprocessorDirectives buf = buf'
where
srcByLine = lines $ sbufToString buf
noDirectivesLines = map (\line -> if line /= [] && head line == '#' then "" else line) srcByLine
buf' = GHC.stringToStringBuffer $ unlines noDirectivesLines
-- ---------------------------------------------------------------------
sbufToString :: GHC.StringBuffer -> String
sbufToString sb@(GHC.StringBuffer _buf len _cur) = GHC.lexemeToString sb len
-- ---------------------------------------------------------------------
getPreprocessedSrcDirect :: (GHC.GhcMonad m)
=> CppOptions
-> FilePath
-> m (String, GHC.DynFlags)
getPreprocessedSrcDirect cppOptions src =
(\(s,_,d) -> (s,d)) <$> getPreprocessedSrcDirectPrim cppOptions src
getPreprocessedSrcDirectPrim :: (GHC.GhcMonad m)
=> CppOptions
-> FilePath
-> m (String, GHC.StringBuffer, GHC.DynFlags)
getPreprocessedSrcDirectPrim cppOptions src_fn = do
hsc_env <- GHC.getSession
let dflags = GHC.hsc_dflags hsc_env
new_env = GHC.hscSetFlags (injectCppOptions cppOptions dflags) hsc_env
r <- GHC.liftIO $ GHC.preprocess new_env src_fn Nothing (Just (GHC.Cpp GHC.HsSrcFile))
case r of
Left err -> error $ showErrorMessages err
Right (dflags', hspp_fn) -> do
buf <- GHC.liftIO $ GHC.hGetStringBuffer hspp_fn
txt <- GHC.liftIO $ readFileGhc hspp_fn
return (txt, buf, dflags')
showErrorMessages :: GHC.Messages GHC.DriverMessage -> String
showErrorMessages msgs =
GHC.renderWithContext GHC.defaultSDocContext
$ GHC.vcat
$ GHC.pprMsgEnvelopeBagWithLoc
$ GHC.getMessages
$ msgs
injectCppOptions :: CppOptions -> GHC.DynFlags -> GHC.DynFlags
injectCppOptions CppOptions{..} dflags =
foldr addOptP dflags (map mkDefine cppDefine ++ map mkIncludeDir cppInclude ++ map mkInclude cppFile)
where
mkDefine = ("-D" ++)
mkIncludeDir = ("-I" ++)
mkInclude = ("-include" ++)
addOptP :: String -> GHC.DynFlags -> GHC.DynFlags
addOptP f = alterToolSettings $ \s -> s
{ GHC.toolSettings_opt_P = f : GHC.toolSettings_opt_P s
, GHC.toolSettings_opt_P_fingerprint = fingerprintStrings (f : GHC.toolSettings_opt_P s)
}
alterToolSettings :: (GHC.ToolSettings -> GHC.ToolSettings) -> GHC.DynFlags -> GHC.DynFlags
alterToolSettings f dynFlags = dynFlags { GHC.toolSettings = f (GHC.toolSettings dynFlags) }
fingerprintStrings :: [String] -> GHC.Fingerprint
fingerprintStrings ss = GHC.fingerprintFingerprints $ map GHC.fingerprintString ss
-- ---------------------------------------------------------------------
-- | Get the preprocessor directives as comment tokens from the
-- source.
getPreprocessorAsComments :: FilePath -> IO [(GHC.Located GHC.Token, String)]
getPreprocessorAsComments srcFile = do
fcontents <- readFileGhc srcFile
let directives = filter (\(_lineNum,line) -> line /= [] && head line == '#')
$ zip [1..] (lines fcontents)
let mkTok (lineNum,line) = (GHC.L l (GHC.ITlineComment line placeholderBufSpan),line)
where
start = GHC.mkSrcLoc (GHC.mkFastString srcFile) lineNum 1
end = GHC.mkSrcLoc (GHC.mkFastString srcFile) lineNum (length line)
l = GHC.mkSrcSpan start end
let toks = map mkTok directives
return toks
placeholderBufSpan :: GHC.PsSpan
placeholderBufSpan = pspan
where
bl = GHC.BufPos 0
pspan = GHC.PsSpan GHC.placeholderRealSpan (GHC.BufSpan bl bl)
-- ---------------------------------------------------------------------
parseError :: (GHC.MonadIO m) => GHC.PState -> m b
parseError pst = do
let
-- (warns,errs) = GHC.getMessages pst dflags
-- throw $ GHC.mkSrcErr (GHC.unitBag $ GHC.mkPlainErrMsg dflags sspan err)
GHC.throwErrors $ (GHC.GhcPsMessage <$> GHC.getPsErrorMessages pst)
-- ---------------------------------------------------------------------
readFileGhc :: FilePath -> IO String
readFileGhc file = do
buf@(GHC.StringBuffer _ len _) <- GHC.hGetStringBuffer file
return (GHC.lexemeToString buf len)
-- ---------------------------------------------------------------------
-- Copied over from MissingH, the dependency cause travis to fail
{- | Merge two sorted lists using into a single, sorted whole,
allowing the programmer to specify the comparison function.
QuickCheck test property:
prop_mergeBy xs ys =
mergeBy cmp (sortBy cmp xs) (sortBy cmp ys) == sortBy cmp (xs ++ ys)
where types = xs :: [ (Int, Int) ]
cmp (x1,_) (x2,_) = compare x1 x2
-}
mergeBy :: (a -> a -> Ordering) -> [a] -> [a] -> [a]
mergeBy _cmp [] ys = ys
mergeBy _cmp xs [] = xs
mergeBy cmp (allx@(x:xs)) (ally@(y:ys))
-- Ordering derives Eq, Ord, so the comparison below is valid.
-- Explanation left as an exercise for the reader.
-- Someone please put this code out of its misery.
| (x `cmp` y) <= EQ = x : mergeBy cmp xs ally
| otherwise = y : mergeBy cmp allx ys
|