----------------------------------------------------------------------------- -- | -- Module : Distribution.Simple.PreProcess -- -- Maintainer : Isaac Jones -- Stability : alpha -- Portability : portable -- -- -- PreProcessors are programs or functions which input a filename and -- output a Haskell file. The general form of a preprocessor is input -- Foo.pp and output Foo.hs (where /pp/ is a unique extension that -- tells us which preprocessor to use eg. gc, ly, cpphs, x, y, etc.). -- Once a PreProcessor has been added to Cabal, either here or with -- 'Distribution.Simple.UserHooks', if Cabal finds a Foo.pp, it'll run the given -- preprocessor which should output a Foo.hs. {- Copyright (c) 2003-2005, Isaac Jones, Malcolm Wallace All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of Isaac Jones nor the names of other contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -} module Distribution.Simple.PreProcess (preprocessSources, knownSuffixHandlers, ppSuffixes, PPSuffixHandler, PreProcessor, runSimplePreProcessor, removePreprocessed, removePreprocessedPackage, ppCpp, ppCpp', ppGreenCard, ppC2hs, ppHsc2hs, ppHappy, ppAlex, ppUnlit ) where import Distribution.Simple.PreProcess.Unlit (unlit) import Distribution.PackageDescription (setupMessage, PackageDescription(..), BuildInfo(..), Executable(..), withExe, Library(..), withLib, libModules) import Distribution.Package (showPackageId) import Distribution.Simple.Compiler (CompilerFlavor(..), Compiler(..), compilerVersion) import Distribution.Simple.LocalBuildInfo (LocalBuildInfo(..)) import Distribution.Simple.Utils (createDirectoryIfMissingVerbose, die, moduleToFilePath, moduleToFilePath2) import Distribution.Simple.Program (Program(..), ConfiguredProgram(..), lookupProgram, programPath, rawSystemProgramConf, rawSystemProgram, greencardProgram, cpphsProgram, hsc2hsProgram, c2hsProgram, happyProgram, alexProgram, haddockProgram, ghcProgram) import Distribution.Version (Version(..)) import Distribution.Verbosity import Control.Monad (when, unless, join) import Data.Maybe (fromMaybe) import Data.List (nub) import System.Directory (removeFile, getModificationTime) import System.Info (os, arch) import System.FilePath (splitExtension, dropExtensions, (), (<.>), takeDirectory, normalise) -- |The interface to a preprocessor, which may be implemented using an -- external program, but need not be. The arguments are the name of -- the input file, the name of the output file and a verbosity level. -- Here is a simple example that merely prepends a comment to the given -- source file: -- -- > ppTestHandler :: PreProcessor -- > ppTestHandler = -- > PreProcessor { -- > platformIndependent = True, -- > runPreProcessor = mkSimplePreProcessor $ \inFile outFile verbosity -> -- > do info verbosity (inFile++" has been preprocessed to "++outFile) -- > stuff <- readFile inFile -- > writeFile outFile ("-- preprocessed as a test\n\n" ++ stuff) -- > return ExitSuccess -- -- We split the input and output file names into a base directory and the -- rest of the file name. The input base dir is the path in the list of search -- dirs that this file was found in. The output base dir is the build dir where -- all the generated source files are put. -- -- The reason for splitting it up this way is that some pre-processors don't -- simply generate one output .hs file from one input file but have -- dependencies on other genereated files (notably c2hs, where building one -- .hs file may require reading other .chi files, and then compiling the .hs -- file may require reading a generated .h file). In these cases the generated -- files need to embed relative path names to each other (eg the generated .hs -- file mentions the .h file in the FFI imports). This path must be relative to -- the base directory where the genereated files are located, it cannot be -- relative to the top level of the build tree because the compilers do not -- look for .h files relative to there, ie we do not use "-I .", instead we use -- "-I dist\/build" (or whatever dist dir has been set by the user) -- -- Most pre-processors do not care of course, so mkSimplePreProcessor and -- runSimplePreProcessor functions handle the simple case. -- data PreProcessor = PreProcessor { -- Is the output of the pre-processor platform independent? eg happy output -- is portable haskell but c2hs's output is platform dependent. -- This matters since only platform independent generated code can be -- inlcuded into a source tarball. platformIndependent :: Bool, -- TODO: deal with pre-processors that have implementaion dependent output -- eg alex and happy have --ghc flags. However we can't really inlcude -- ghc-specific code into supposedly portable source tarballs. runPreProcessor :: (FilePath, FilePath) -- Location of the source file relative to a base dir -> (FilePath, FilePath) -- Output file name, relative to an output base dir -> Verbosity -- verbosity -> IO () -- Should exit if the preprocessor fails } mkSimplePreProcessor :: (FilePath -> FilePath -> Verbosity -> IO ()) -> (FilePath, FilePath) -> (FilePath, FilePath) -> Verbosity -> IO () mkSimplePreProcessor simplePP (inBaseDir, inRelativeFile) (outBaseDir, outRelativeFile) verbosity = simplePP inFile outFile verbosity where inFile = normalise (inBaseDir inRelativeFile) outFile = normalise (outBaseDir outRelativeFile) runSimplePreProcessor :: PreProcessor -> FilePath -> FilePath -> Verbosity -> IO () runSimplePreProcessor pp inFile outFile verbosity = runPreProcessor pp (".", inFile) (".", outFile) verbosity -- |A preprocessor for turning non-Haskell files with the given extension -- into plain Haskell source files. type PPSuffixHandler = (String, BuildInfo -> LocalBuildInfo -> PreProcessor) -- |Apply preprocessors to the sources from 'hsSourceDirs', to obtain -- a Haskell source file for each module. preprocessSources :: PackageDescription -> LocalBuildInfo -> Bool -- ^ Build for SDist -> Verbosity -- ^ verbosity -> [PPSuffixHandler] -- ^ preprocessors to try -> IO () preprocessSources pkg_descr lbi forSDist verbosity handlers = do withLib pkg_descr () $ \ lib -> do setupMessage verbosity "Preprocessing library" pkg_descr let bi = libBuildInfo lib let biHandlers = localHandlers bi sequence_ [ preprocessModule (hsSourceDirs bi) (buildDir lbi) forSDist modu verbosity builtinSuffixes biHandlers | modu <- libModules pkg_descr] unless (null (executables pkg_descr)) $ setupMessage verbosity "Preprocessing executables for" pkg_descr withExe pkg_descr $ \ theExe -> do let bi = buildInfo theExe let biHandlers = localHandlers bi let exeDir = buildDir lbi exeName theExe exeName theExe ++ "-tmp" sequence_ [ preprocessModule (nub $ (hsSourceDirs bi) ++ (maybe [] (hsSourceDirs . libBuildInfo) (library pkg_descr))) exeDir forSDist modu verbosity builtinSuffixes biHandlers | modu <- otherModules bi] preprocessModule (hsSourceDirs bi) exeDir forSDist (dropExtensions (modulePath theExe)) verbosity builtinSuffixes biHandlers where hc = compilerFlavor (compiler lbi) builtinSuffixes | hc == NHC = ["hs", "lhs", "gc"] | otherwise = ["hs", "lhs"] localHandlers bi = [(ext, h bi lbi) | (ext, h) <- handlers] -- |Find the first extension of the file that exists, and preprocess it -- if required. preprocessModule :: [FilePath] -- ^source directories -> FilePath -- ^build directory -> Bool -- ^preprocess for sdist -> String -- ^module name -> Verbosity -- ^verbosity -> [String] -- ^builtin suffixes -> [(String, PreProcessor)] -- ^possible preprocessors -> IO () preprocessModule searchLoc buildLoc forSDist modu verbosity builtinSuffixes handlers = do -- look for files in the various source dirs with this module name -- and a file extension of a known preprocessor psrcFiles <- moduleToFilePath2 searchLoc modu (map fst handlers) case psrcFiles of -- no preprocessor file exists, look for an ordinary source file [] -> do bsrcFiles <- moduleToFilePath searchLoc modu builtinSuffixes case bsrcFiles of [] -> die ("can't find source for " ++ modu ++ " in " ++ show searchLoc) _ -> return () -- found a pre-processable file in one of the source dirs ((psrcLoc, psrcRelFile):_) -> do let (srcStem, ext) = splitExtension psrcRelFile psrcFile = psrcLoc psrcRelFile pp = fromMaybe (error "Internal error in preProcess module: Just expected") (lookup (tailNotNull ext) handlers) -- Preprocessing files for 'sdist' is different from preprocessing -- for 'build'. When preprocessing for sdist we preprocess to -- avoid that the user has to have the preprocessors available. -- ATM, we don't have a way to specify which files are to be -- preprocessed and which not, so for sdist we only process -- platform independent files and put them into the 'buildLoc' -- (which we assume is set to the temp. directory that will become -- the tarball). when (not forSDist || forSDist && platformIndependent pp) $ do -- look for existing pre-processed source file in the dest dir to -- see if we really have to re-run the preprocessor. ppsrcFiles <- moduleToFilePath [buildLoc] modu builtinSuffixes recomp <- case ppsrcFiles of [] -> return True (ppsrcFile:_) -> do btime <- getModificationTime ppsrcFile ptime <- getModificationTime psrcFile return (btime < ptime) when recomp $ do let destDir = buildLoc dirName srcStem createDirectoryIfMissingVerbose verbosity True destDir runPreProcessor pp (psrcLoc, psrcRelFile) (buildLoc, srcStem <.> "hs") verbosity where dirName = takeDirectory tailNotNull [] = [] tailNotNull x = tail x removePreprocessedPackage :: PackageDescription -> FilePath -- ^root of source tree (where to look for hsSources) -> [String] -- ^suffixes -> IO () removePreprocessedPackage pkg_descr r suff = do withLib pkg_descr () (\lib -> do let bi = libBuildInfo lib removePreprocessed (map (r ) (hsSourceDirs bi)) (libModules pkg_descr) suff) withExe pkg_descr (\theExe -> do let bi = buildInfo theExe removePreprocessed (map (r ) (hsSourceDirs bi)) (otherModules bi) suff) -- |Remove the preprocessed .hs files. (do we need to get some .lhs files too?) removePreprocessed :: [FilePath] -- ^search Location -> [String] -- ^Modules -> [String] -- ^suffixes -> IO () removePreprocessed searchLocs mods suffixesIn = mapM_ removePreprocessedModule mods where removePreprocessedModule m = do -- collect related files fs <- moduleToFilePath searchLocs m otherSuffixes -- does M.hs also exist? hs <- moduleToFilePath searchLocs m ["hs"] unless (null fs) (mapM_ removeFile hs) otherSuffixes = filter (/= "hs") suffixesIn -- ------------------------------------------------------------ -- * known preprocessors -- ------------------------------------------------------------ ppGreenCard :: BuildInfo -> LocalBuildInfo -> PreProcessor ppGreenCard _ lbi = PreProcessor { platformIndependent = False, runPreProcessor = mkSimplePreProcessor $ \inFile outFile verbosity -> rawSystemProgramConf verbosity greencardProgram (withPrograms lbi) (["-tffi", "-o" ++ outFile, inFile]) } -- This one is useful for preprocessors that can't handle literate source. -- We also need a way to chain preprocessors. ppUnlit :: PreProcessor ppUnlit = PreProcessor { platformIndependent = True, runPreProcessor = mkSimplePreProcessor $ \inFile outFile _verbosity -> do contents <- readFile inFile writeFile outFile (unlit inFile contents) } ppCpp :: BuildInfo -> LocalBuildInfo -> PreProcessor ppCpp = ppCpp' [] ppCpp' :: [String] -> BuildInfo -> LocalBuildInfo -> PreProcessor ppCpp' extraArgs bi lbi = case compilerFlavor (compiler lbi) of GHC -> ppGhcCpp (cppArgs ++ extraArgs) bi lbi _ -> ppCpphs (cppArgs ++ extraArgs) bi lbi where cppArgs = sysDefines ++ cppOptions bi ++ getCppOptions bi lbi sysDefines = ["-D" ++ os ++ "_" ++ loc ++ "_OS" | loc <- locations] ++ ["-D" ++ arch ++ "_" ++ loc ++ "_ARCH" | loc <- locations] locations = ["BUILD", "HOST"] ppGhcCpp :: [String] -> BuildInfo -> LocalBuildInfo -> PreProcessor ppGhcCpp extraArgs _bi lbi = PreProcessor { platformIndependent = False, runPreProcessor = mkSimplePreProcessor $ \inFile outFile verbosity -> rawSystemProgram verbosity ghcProg $ ["-E", "-cpp"] -- This is a bit of an ugly hack. We're going to -- unlit the file ourselves later on if appropriate, -- so we need GHC not to unlit it now or it'll get -- double-unlitted. In the future we might switch to -- using cpphs --unlit instead. ++ (if ghcVersion >= Version [6,6] [] then ["-x", "hs"] else []) ++ (if use_optP_P lbi then ["-optP-P"] else []) ++ ["-o", outFile, inFile] ++ extraArgs } where Just ghcProg = lookupProgram ghcProgram (withPrograms lbi) Just ghcVersion = programVersion ghcProg ppCpphs :: [String] -> BuildInfo -> LocalBuildInfo -> PreProcessor ppCpphs extraArgs _bi lbi = PreProcessor { platformIndependent = False, runPreProcessor = mkSimplePreProcessor $ \inFile outFile verbosity -> rawSystemProgramConf verbosity cpphsProgram (withPrograms lbi) $ ("-O" ++ outFile) : inFile : "--noline" : "--strip" : extraArgs } -- Haddock versions before 0.8 choke on #line and #file pragmas. Those -- pragmas are necessary for correct links when we preprocess. So use -- -optP-P only if the Haddock version is prior to 0.8. use_optP_P :: LocalBuildInfo -> Bool use_optP_P lbi = case lookupProgram haddockProgram (withPrograms lbi) of Just (ConfiguredProgram { programVersion = Just version }) | version >= Version [0,8] [] -> False _ -> True ppHsc2hs :: BuildInfo -> LocalBuildInfo -> PreProcessor ppHsc2hs bi lbi = pp where pp = standardPP lbi hsc2hsProgram flags flags = case fmap versionTags . join . fmap programVersion . lookupProgram hsc2hsProgram . withPrograms $ lbi of -- Just to make things complicated, the hsc2hs bundled with -- ghc uses ghc as the C compiler, so to pass C flags we -- have to use an additional layer of escaping. Grrr. Just ["ghc"] -> let Just ghcProg = lookupProgram ghcProgram (withPrograms lbi) in [ "--cc=" ++ programPath ghcProg , "--ld=" ++ programPath ghcProg ] ++ [ "--cflag=-optc" ++ opt | opt <- ccOptions bi ++ cppOptions bi ] ++ [ "--cflag=" ++ opt | pkg <- packageDeps lbi , opt <- ["-package" ,showPackageId pkg] ] ++ [ "--cflag=-I" ++ dir | dir <- includeDirs bi] ++ [ "--lflag=-optl" ++ opt | opt <- getLdOptions bi ] _ -> [ "--cflag=" ++ opt | opt <- hcDefines (compiler lbi) ] ++ [ "--cflag=" ++ opt | opt <- ccOptions bi ] ++ [ "--cflag=-I" ++ dir | dir <- includeDirs bi ] ++ [ "--lflag=" ++ opt | opt <- getLdOptions bi ] getLdOptions :: BuildInfo -> [String] getLdOptions bi = map ("-L" ++) (extraLibDirs bi) ++ map ("-l" ++) (extraLibs bi) ++ ldOptions bi ppC2hs :: BuildInfo -> LocalBuildInfo -> PreProcessor ppC2hs bi lbi = PreProcessor { platformIndependent = False, runPreProcessor = \(inBaseDir, inRelativeFile) (outBaseDir, outRelativeFile) verbosity -> rawSystemProgramConf verbosity c2hsProgram (withPrograms lbi) $ ["--include=" ++ outBaseDir] ++ ["--cppopts=" ++ opt | opt <- getCppOptions bi lbi] ++ ["--output-dir=" ++ outBaseDir, "--output=" ++ outRelativeFile, inBaseDir inRelativeFile] } getCppOptions :: BuildInfo -> LocalBuildInfo -> [String] getCppOptions bi lbi = hcDefines (compiler lbi) ++ ["-I" ++ dir | dir <- includeDirs bi] ++ [opt | opt@('-':c:_) <- ccOptions bi, c `elem` "DIU"] hcDefines :: Compiler -> [String] hcDefines comp = case compilerFlavor comp of GHC -> ["-D__GLASGOW_HASKELL__=" ++ versionInt version] JHC -> ["-D__JHC__=" ++ versionInt version] NHC -> ["-D__NHC__=" ++ versionInt version] Hugs -> ["-D__HUGS__"] _ -> [] where version = compilerVersion comp -- TODO: move this into the compiler abstraction -- FIXME: this forces GHC's crazy 4.8.2 -> 408 convention on all the other -- compilers. Check if that's really what they want. versionInt :: Version -> String versionInt (Version { versionBranch = [] }) = "1" versionInt (Version { versionBranch = [n] }) = show n versionInt (Version { versionBranch = n1:n2:_ }) = show n1 ++ take 2 ('0' : show n2) ppHappy :: BuildInfo -> LocalBuildInfo -> PreProcessor ppHappy _ lbi = pp { platformIndependent = True } where pp = standardPP lbi happyProgram (hcFlags hc) hc = compilerFlavor (compiler lbi) hcFlags GHC = ["-agc"] hcFlags _ = [] ppAlex :: BuildInfo -> LocalBuildInfo -> PreProcessor ppAlex _ lbi = pp { platformIndependent = True } where pp = standardPP lbi alexProgram (hcFlags hc) hc = compilerFlavor (compiler lbi) hcFlags GHC = ["-g"] hcFlags _ = [] standardPP :: LocalBuildInfo -> Program -> [String] -> PreProcessor standardPP lbi prog args = PreProcessor { platformIndependent = False, runPreProcessor = mkSimplePreProcessor $ \inFile outFile verbosity -> rawSystemProgramConf verbosity prog (withPrograms lbi) (args ++ ["-o", outFile, inFile]) } -- |Convenience function; get the suffixes of these preprocessors. ppSuffixes :: [ PPSuffixHandler ] -> [String] ppSuffixes = map fst -- |Standard preprocessors: GreenCard, c2hs, hsc2hs, happy, alex and cpphs. knownSuffixHandlers :: [ PPSuffixHandler ] knownSuffixHandlers = [ ("gc", ppGreenCard) , ("chs", ppC2hs) , ("hsc", ppHsc2hs) , ("x", ppAlex) , ("y", ppHappy) , ("ly", ppHappy) , ("cpphs", ppCpp) ]