-----------------------------------------------------------------------------
-- |
-- Module      :  Distribution.Simple.GHC
-- Copyright   :  Isaac Jones 2003-2007
--
-- Maintainer  :  cabal-devel@haskell.org
-- Portability :  portable
--
-- This is a fairly large module. It contains most of the GHC-specific code for
-- configuring, building and installing packages. It also exports a function
-- for finding out what packages are already installed. Configuring involves
-- finding the @ghc@ and @ghc-pkg@ programs, finding what language extensions
-- this version of ghc supports and returning a 'Compiler' value.
--
-- 'getInstalledPackages' involves calling the @ghc-pkg@ program to find out
-- what packages are installed.
--
-- Building is somewhat complex as there is quite a bit of information to take
-- into account. We have to build libs and programs, possibly for profiling and
-- shared libs. We have to support building libraries that will be usable by
-- GHCi and also ghc's @-split-objs@ feature. We have to compile any C files
-- using ghc. Linking, especially for @split-objs@ is remarkably complex,
-- partly because there tend to be 1,000's of @.o@ files and this can often be
-- more than we can pass to the @ld@ or @ar@ programs in one go.
--
-- Installing for libs and exes involves finding the right files and copying
-- them to the right places. One of the more tricky things about this module is
-- remembering the layout of files in the build directory (which is not
-- explicitly documented) and thus what search dirs are used for various kinds
-- of files.

{- Copyright (c) 2003-2005, Isaac Jones
All rights reserved.

Redistribution and use in source and binary forms, with or without
modiication, 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.GHC (
        getGhcInfo,
        configure, getInstalledPackages, getPackageDBContents,
        buildLib, buildExe,
        replLib, replExe,
        installLib, installExe,
        libAbiHash,
        initPackageDB,
        invokeHcPkg,
        registerPackage,
        componentGhcOptions,
        ghcLibDir,
        ghcDynamic,
 ) where

import qualified Distribution.Simple.GHC.IPI641 as IPI641
import qualified Distribution.Simple.GHC.IPI642 as IPI642
import Distribution.PackageDescription as PD
         ( PackageDescription(..), BuildInfo(..), Executable(..)
         , Library(..), libModules, exeModules, hcOptions
         , usedExtensions, allExtensions )
import Distribution.InstalledPackageInfo
         ( InstalledPackageInfo )
import qualified Distribution.InstalledPackageInfo as InstalledPackageInfo
                                ( InstalledPackageInfo_(..) )
import Distribution.Simple.PackageIndex (PackageIndex)
import qualified Distribution.Simple.PackageIndex as PackageIndex
import Distribution.Simple.LocalBuildInfo
         ( LocalBuildInfo(..), ComponentLocalBuildInfo(..)
         , LibraryName(..), absoluteInstallDirs )
import Distribution.Simple.InstallDirs hiding ( absoluteInstallDirs )
import Distribution.Simple.BuildPaths
import Distribution.Simple.Utils
import Distribution.Package
         ( Package(..), PackageName(..) )
import qualified Distribution.ModuleName as ModuleName
import Distribution.Simple.Program
         ( Program(..), ConfiguredProgram(..), ProgramConfiguration
         , ProgramLocation(..), ProgramSearchPath, ProgramSearchPathEntry(..)
         , rawSystemProgram
         , rawSystemProgramStdout, rawSystemProgramStdoutConf
         , getProgramOutput, getProgramInvocationOutput, suppressOverrideArgs
         , requireProgramVersion, requireProgram
         , userMaybeSpecifyPath, programPath, lookupProgram, addKnownProgram
         , ghcProgram, ghcPkgProgram, hsc2hsProgram
         , arProgram, ranlibProgram, ldProgram
         , gccProgram, stripProgram )
import qualified Distribution.Simple.Program.HcPkg as HcPkg
import qualified Distribution.Simple.Program.Ar    as Ar
import qualified Distribution.Simple.Program.Ld    as Ld
import Distribution.Simple.Program.GHC
import Distribution.Simple.Setup (toFlag, fromFlag)
import Distribution.Simple.Compiler
         ( CompilerFlavor(..), CompilerId(..), Compiler(..), compilerVersion
         , OptimisationLevel(..), PackageDB(..), PackageDBStack
         , Flag )
import Distribution.Version
         ( Version(..), anyVersion, orLaterVersion )
import Distribution.System
         ( Platform(..), OS(..), buildOS, platformFromTriple )
import Distribution.Verbosity
import Distribution.Text
         ( display, simpleParse )
import Language.Haskell.Extension (Language(..), Extension(..)
                                  ,KnownExtension(..))

import Control.Monad            ( unless, when )
import Data.Char                ( isSpace )
import Data.List
import Data.Maybe               ( catMaybes, fromMaybe )
import Data.Monoid              ( Monoid(..) )
import System.Directory
         ( removeFile, getDirectoryContents, doesFileExist
         , getTemporaryDirectory )
import System.FilePath          ( (</>), (<.>), takeExtension,
                                  takeDirectory, replaceExtension,
                                  splitExtension )
import System.IO (hClose, hPutStrLn)
import System.Environment (getEnv)
import Distribution.Compat.Exception (catchExit, catchIO)


-- -----------------------------------------------------------------------------
-- Configuring

configure :: Verbosity -> Maybe FilePath -> Maybe FilePath
          -> ProgramConfiguration
          -> IO (Compiler, Maybe Platform, ProgramConfiguration)
configure verbosity hcPath hcPkgPath conf0 = do

  (ghcProg, ghcVersion, conf1) <-
    requireProgramVersion verbosity ghcProgram
      (orLaterVersion (Version [6,4] []))
      (userMaybeSpecifyPath "ghc" hcPath conf0)

  -- This is slightly tricky, we have to configure ghc first, then we use the
  -- location of ghc to help find ghc-pkg in the case that the user did not
  -- specify the location of ghc-pkg directly:
  (ghcPkgProg, ghcPkgVersion, conf2) <-
    requireProgramVersion verbosity ghcPkgProgram {
      programFindLocation = guessGhcPkgFromGhcPath ghcProg
    }
    anyVersion (userMaybeSpecifyPath "ghc-pkg" hcPkgPath conf1)

  when (ghcVersion /= ghcPkgVersion) $ die $
       "Version mismatch between ghc and ghc-pkg: "
    ++ programPath ghcProg ++ " is version " ++ display ghcVersion ++ " "
    ++ programPath ghcPkgProg ++ " is version " ++ display ghcPkgVersion

  -- Likewise we try to find the matching hsc2hs program.
  let hsc2hsProgram' = hsc2hsProgram {
                           programFindLocation = guessHsc2hsFromGhcPath ghcProg
                       }
      conf3 = addKnownProgram hsc2hsProgram' conf2

  languages  <- getLanguages verbosity ghcProg
  extensions <- getExtensions verbosity ghcProg

  ghcInfo <- getGhcInfo verbosity ghcProg

  let comp = Compiler {
        compilerId             = CompilerId GHC ghcVersion,
        compilerLanguages      = languages,
        compilerExtensions     = extensions
      }
      compPlatform = targetPlatform ghcInfo
      conf4 = configureToolchain ghcProg ghcInfo conf3 -- configure gcc and ld
  return (comp, compPlatform, conf4)

targetPlatform :: [(String, String)] -> Maybe Platform
targetPlatform ghcInfo = platformFromTriple =<< lookup "Target platform" ghcInfo

-- | Given something like /usr/local/bin/ghc-6.6.1(.exe) we try and find
-- the corresponding tool; e.g. if the tool is ghc-pkg, we try looking
-- for a versioned or unversioned ghc-pkg in the same dir, that is:
--
-- > /usr/local/bin/ghc-pkg-ghc-6.6.1(.exe)
-- > /usr/local/bin/ghc-pkg-6.6.1(.exe)
-- > /usr/local/bin/ghc-pkg(.exe)
--
guessToolFromGhcPath :: Program -> ConfiguredProgram
                     -> Verbosity -> ProgramSearchPath
                     -> IO (Maybe FilePath)
guessToolFromGhcPath tool ghcProg verbosity searchpath
  = do let toolname          = programName tool
           path              = programPath ghcProg
           dir               = takeDirectory path
           versionSuffix     = takeVersionSuffix (dropExeExtension path)
           guessNormal       = dir </> toolname <.> exeExtension
           guessGhcVersioned = dir </> (toolname ++ "-ghc" ++ versionSuffix)
                               <.> exeExtension
           guessVersioned    = dir </> (toolname ++ versionSuffix)
                               <.> exeExtension
           guesses | null versionSuffix = [guessNormal]
                   | otherwise          = [guessGhcVersioned,
                                           guessVersioned,
                                           guessNormal]
       info verbosity $ "looking for tool " ++ toolname
         ++ " near compiler in " ++ dir
       exists <- mapM doesFileExist guesses
       case [ file | (file, True) <- zip guesses exists ] of
                   -- If we can't find it near ghc, fall back to the usual
                   -- method.
         []     -> programFindLocation tool verbosity searchpath
         (fp:_) -> do info verbosity $ "found " ++ toolname ++ " in " ++ fp
                      return (Just fp)

  where takeVersionSuffix :: FilePath -> String
        takeVersionSuffix = reverse . takeWhile (`elem ` "0123456789.-") .
                            reverse

        dropExeExtension :: FilePath -> FilePath
        dropExeExtension filepath =
          case splitExtension filepath of
            (filepath', extension) | extension == exeExtension -> filepath'
                                   | otherwise                 -> filepath

-- | Given something like /usr/local/bin/ghc-6.6.1(.exe) we try and find a
-- corresponding ghc-pkg, we try looking for both a versioned and unversioned
-- ghc-pkg in the same dir, that is:
--
-- > /usr/local/bin/ghc-pkg-ghc-6.6.1(.exe)
-- > /usr/local/bin/ghc-pkg-6.6.1(.exe)
-- > /usr/local/bin/ghc-pkg(.exe)
--
guessGhcPkgFromGhcPath :: ConfiguredProgram
                       -> Verbosity -> ProgramSearchPath -> IO (Maybe FilePath)
guessGhcPkgFromGhcPath = guessToolFromGhcPath ghcPkgProgram

-- | Given something like /usr/local/bin/ghc-6.6.1(.exe) we try and find a
-- corresponding hsc2hs, we try looking for both a versioned and unversioned
-- hsc2hs in the same dir, that is:
--
-- > /usr/local/bin/hsc2hs-ghc-6.6.1(.exe)
-- > /usr/local/bin/hsc2hs-6.6.1(.exe)
-- > /usr/local/bin/hsc2hs(.exe)
--
guessHsc2hsFromGhcPath :: ConfiguredProgram
                       -> Verbosity -> ProgramSearchPath -> IO (Maybe FilePath)
guessHsc2hsFromGhcPath = guessToolFromGhcPath hsc2hsProgram

-- | Adjust the way we find and configure gcc and ld
--
configureToolchain :: ConfiguredProgram -> [(String, String)]
                                        -> ProgramConfiguration
                                        -> ProgramConfiguration
configureToolchain ghcProg ghcInfo =
    addKnownProgram gccProgram {
      programFindLocation = findProg gccProgram extraGccPath,
      programPostConf     = configureGcc
    }
  . addKnownProgram ldProgram {
      programFindLocation = findProg ldProgram extraLdPath,
      programPostConf     = configureLd
    }
  . addKnownProgram arProgram {
      programFindLocation = findProg arProgram extraArPath
    }
  . addKnownProgram stripProgram {
      programFindLocation = findProg stripProgram extraStripPath
    }
  where
    Just ghcVersion = programVersion ghcProg
    compilerDir = takeDirectory (programPath ghcProg)
    baseDir     = takeDirectory compilerDir
    mingwBinDir = baseDir </> "mingw" </> "bin"
    libDir      = baseDir </> "gcc-lib"
    includeDir  = baseDir </> "include" </> "mingw"
    isWindows   = case buildOS of Windows -> True; _ -> False
    binPrefix   = ""

    -- on Windows finding and configuring ghc's gcc & binutils is a bit special
    extraGccPath
      | ghcVersion >= Version [6,12] [] = mingwBinDir </> binPrefix ++ "gcc.exe"
      | otherwise                       = baseDir     </> "gcc.exe"
    extraLdPath
      | ghcVersion >= Version [6,12] [] = mingwBinDir </> binPrefix ++ "ld.exe"
      | otherwise                       = libDir      </> "ld.exe"
    extraArPath
      | ghcVersion >= Version [6,12] [] = mingwBinDir </> binPrefix ++ "ar.exe"
      | otherwise                       = libDir      </> "ar.exe"
    extraStripPath
      | ghcVersion >= Version [6,12] [] = mingwBinDir </> binPrefix ++
                                          "strip.exe"
      | otherwise                       = libDir      </> "strip.exe"

    findProg :: Program -> FilePath
             -> Verbosity -> ProgramSearchPath -> IO (Maybe FilePath)
    findProg prog extraPath v searchpath =
        programFindLocation prog v searchpath'
      where
        searchpath' | isWindows = ProgramSearchPathDir extraPath : searchpath
                    | otherwise = searchpath

    ccFlags        = getFlags "C compiler flags"
    gccLinkerFlags = getFlags "Gcc Linker flags"
    ldLinkerFlags  = getFlags "Ld Linker flags"

    getFlags key = case lookup key ghcInfo of
                   Nothing -> []
                   Just flags ->
                       case reads flags of
                       [(args, "")] -> args
                       _ -> [] -- XXX Should should be an error really

    configureGcc :: Verbosity -> ConfiguredProgram -> IO ConfiguredProgram
    configureGcc v gccProg = do
      gccProg' <- configureGcc' v gccProg
      return gccProg' {
        programDefaultArgs = programDefaultArgs gccProg'
                             ++ ccFlags ++ gccLinkerFlags
      }

    configureGcc' :: Verbosity -> ConfiguredProgram -> IO ConfiguredProgram
    configureGcc'
      | isWindows = \_ gccProg -> case programLocation gccProg of
          -- if it's found on system then it means we're using the result
          -- of programFindLocation above rather than a user-supplied path
          -- Pre GHC 6.12, that meant we should add these flags to tell
          -- ghc's gcc where it lives and thus where gcc can find its
          -- various files:
          FoundOnSystem {}
           | ghcVersion < Version [6,11] [] ->
               return gccProg { programDefaultArgs = ["-B" ++ libDir,
                                                      "-I" ++ includeDir] }
          _ -> return gccProg
      | otherwise = \_ gccProg -> return gccProg

    configureLd :: Verbosity -> ConfiguredProgram -> IO ConfiguredProgram
    configureLd v ldProg = do
      ldProg' <- configureLd' v ldProg
      return ldProg' {
        programDefaultArgs = programDefaultArgs ldProg' ++ ldLinkerFlags
      }

    -- we need to find out if ld supports the -x flag
    configureLd' :: Verbosity -> ConfiguredProgram -> IO ConfiguredProgram
    configureLd' verbosity ldProg = do
      tempDir <- getTemporaryDirectory
      ldx <- withTempFile tempDir ".c" $ \testcfile testchnd ->
             withTempFile tempDir ".o" $ \testofile testohnd -> do
               hPutStrLn testchnd "int foo() { return 0; }"
               hClose testchnd; hClose testohnd
               rawSystemProgram verbosity ghcProg ["-c", testcfile,
                                                   "-o", testofile]
               withTempFile tempDir ".o" $ \testofile' testohnd' ->
                 do
                   hClose testohnd'
                   _ <- rawSystemProgramStdout verbosity ldProg
                     ["-x", "-r", testofile, "-o", testofile']
                   return True
                 `catchIO`   (\_ -> return False)
                 `catchExit` (\_ -> return False)
      if ldx
        then return ldProg { programDefaultArgs = ["-x"] }
        else return ldProg

getLanguages :: Verbosity -> ConfiguredProgram -> IO [(Language, Flag)]
getLanguages _ ghcProg
  -- TODO: should be using --supported-languages rather than hard coding
  | ghcVersion >= Version [7] [] = return [(Haskell98,   "-XHaskell98")
                                          ,(Haskell2010, "-XHaskell2010")]
  | otherwise                    = return [(Haskell98,   "")]
  where
    Just ghcVersion = programVersion ghcProg

getGhcInfo :: Verbosity -> ConfiguredProgram -> IO [(String, String)]
getGhcInfo verbosity ghcProg =
    case programVersion ghcProg of
    Just ghcVersion
     | ghcVersion >= Version [6,7] [] ->
        do xs <- getProgramOutput verbosity (suppressOverrideArgs ghcProg)
                 ["--info"]
           case reads xs of
               [(i, ss)]
                | all isSpace ss ->
                   return i
               _ ->
                   die "Can't parse --info output of GHC"
    _ ->
        return []

getExtensions :: Verbosity -> ConfiguredProgram -> IO [(Extension, Flag)]
getExtensions verbosity ghcProg
  | ghcVersion >= Version [6,7] [] = do

    str <- getProgramOutput verbosity (suppressOverrideArgs ghcProg)
              ["--supported-languages"]
    let extStrs = if ghcVersion >= Version [7] []
                  then lines str
                  else -- Older GHCs only gave us either Foo or NoFoo,
                       -- so we have to work out the other one ourselves
                       [ extStr''
                       | extStr <- lines str
                       , let extStr' = case extStr of
                                       'N' : 'o' : xs -> xs
                                       _              -> "No" ++ extStr
                       , extStr'' <- [extStr, extStr']
                       ]
    let extensions0 = [ (ext, "-X" ++ display ext)
                      | Just ext <- map simpleParse extStrs ]
        extensions1 = if ghcVersion >= Version [6,8]  [] &&
                         ghcVersion <  Version [6,10] []
                      then -- ghc-6.8 introduced RecordPuns however it
                           -- should have been NamedFieldPuns. We now
                           -- encourage packages to use NamedFieldPuns
                           -- so for compatability we fake support for
                           -- it in ghc-6.8 by making it an alias for
                           -- the old RecordPuns extension.
                           (EnableExtension  NamedFieldPuns, "-XRecordPuns") :
                           (DisableExtension NamedFieldPuns, "-XNoRecordPuns") :
                           extensions0
                      else extensions0
        extensions2 = if ghcVersion <  Version [7,1] []
                      then -- ghc-7.2 split NondecreasingIndentation off
                           -- into a proper extension. Before that it
                           -- was always on.
                           (EnableExtension  NondecreasingIndentation, "") :
                           (DisableExtension NondecreasingIndentation, "") :
                           extensions1
                      else extensions1
    return extensions2

  | otherwise = return oldLanguageExtensions

  where
    Just ghcVersion = programVersion ghcProg

-- | For GHC 6.6.x and earlier, the mapping from supported extensions to flags
oldLanguageExtensions :: [(Extension, Flag)]
oldLanguageExtensions =
    let doFlag (f, (enable, disable)) = [(EnableExtension  f, enable),
                                         (DisableExtension f, disable)]
        fglasgowExts = ("-fglasgow-exts",
                        "") -- This is wrong, but we don't want to turn
                            -- all the extensions off when asked to just
                            -- turn one off
        fFlag flag = ("-f" ++ flag, "-fno-" ++ flag)
    in concatMap doFlag
    [(OverlappingInstances       , fFlag "allow-overlapping-instances")
    ,(TypeSynonymInstances       , fglasgowExts)
    ,(TemplateHaskell            , fFlag "th")
    ,(ForeignFunctionInterface   , fFlag "ffi")
    ,(MonomorphismRestriction    , fFlag "monomorphism-restriction")
    ,(MonoPatBinds               , fFlag "mono-pat-binds")
    ,(UndecidableInstances       , fFlag "allow-undecidable-instances")
    ,(IncoherentInstances        , fFlag "allow-incoherent-instances")
    ,(Arrows                     , fFlag "arrows")
    ,(Generics                   , fFlag "generics")
    ,(ImplicitPrelude            , fFlag "implicit-prelude")
    ,(ImplicitParams             , fFlag "implicit-params")
    ,(CPP                        , ("-cpp", ""{- Wrong -}))
    ,(BangPatterns               , fFlag "bang-patterns")
    ,(KindSignatures             , fglasgowExts)
    ,(RecursiveDo                , fglasgowExts)
    ,(ParallelListComp           , fglasgowExts)
    ,(MultiParamTypeClasses      , fglasgowExts)
    ,(FunctionalDependencies     , fglasgowExts)
    ,(Rank2Types                 , fglasgowExts)
    ,(RankNTypes                 , fglasgowExts)
    ,(PolymorphicComponents      , fglasgowExts)
    ,(ExistentialQuantification  , fglasgowExts)
    ,(ScopedTypeVariables        , fFlag "scoped-type-variables")
    ,(FlexibleContexts           , fglasgowExts)
    ,(FlexibleInstances          , fglasgowExts)
    ,(EmptyDataDecls             , fglasgowExts)
    ,(PatternGuards              , fglasgowExts)
    ,(GeneralizedNewtypeDeriving , fglasgowExts)
    ,(MagicHash                  , fglasgowExts)
    ,(UnicodeSyntax              , fglasgowExts)
    ,(PatternSignatures          , fglasgowExts)
    ,(UnliftedFFITypes           , fglasgowExts)
    ,(LiberalTypeSynonyms        , fglasgowExts)
    ,(TypeOperators              , fglasgowExts)
    ,(GADTs                      , fglasgowExts)
    ,(RelaxedPolyRec             , fglasgowExts)
    ,(ExtendedDefaultRules       , fFlag "extended-default-rules")
    ,(UnboxedTuples              , fglasgowExts)
    ,(DeriveDataTypeable         , fglasgowExts)
    ,(ConstrainedClassMethods    , fglasgowExts)
    ]
-- | Given a single package DB, return all installed packages.
getPackageDBContents :: Verbosity -> PackageDB -> ProgramConfiguration
                        -> IO PackageIndex
getPackageDBContents verbosity packagedb conf = do
  pkgss <- getInstalledPackages' verbosity [packagedb] conf
  toPackageIndex verbosity pkgss conf

-- | Given a package DB stack, return all installed packages.
getInstalledPackages :: Verbosity -> PackageDBStack -> ProgramConfiguration
                     -> IO PackageIndex
getInstalledPackages verbosity packagedbs conf = do
  checkPackageDbEnvVar
  checkPackageDbStack packagedbs
  pkgss <- getInstalledPackages' verbosity packagedbs conf
  index <- toPackageIndex verbosity pkgss conf
  return $! hackRtsPackage index

  where
    hackRtsPackage index =
      case PackageIndex.lookupPackageName index (PackageName "rts") of
        [(_,[rts])]
           -> PackageIndex.insert (removeMingwIncludeDir rts) index
        _  -> index -- No (or multiple) ghc rts package is registered!!
                    -- Feh, whatever, the ghc testsuite does some crazy stuff.

-- | Given a list of @(PackageDB, InstalledPackageInfo)@ pairs, produce a
-- @PackageIndex@. Helper function used by 'getPackageDBContents' and
-- 'getInstalledPackages'.
toPackageIndex :: Verbosity
               -> [(PackageDB, [InstalledPackageInfo])]
               -> ProgramConfiguration
               -> IO PackageIndex
toPackageIndex verbosity pkgss conf = do
  -- On Windows, various fields have $topdir/foo rather than full
  -- paths. We need to substitute the right value in so that when
  -- we, for example, call gcc, we have proper paths to give it.
  topDir <- ghcLibDir' verbosity ghcProg
  let indices = [ PackageIndex.fromList (map (substTopDir topDir) pkgs)
                | (_, pkgs) <- pkgss ]
  return $! (mconcat indices)

  where
    Just ghcProg = lookupProgram ghcProgram conf

ghcLibDir :: Verbosity -> LocalBuildInfo -> IO FilePath
ghcLibDir verbosity lbi =
    (reverse . dropWhile isSpace . reverse) `fmap`
     rawSystemProgramStdoutConf verbosity ghcProgram
     (withPrograms lbi) ["--print-libdir"]

ghcLibDir' :: Verbosity -> ConfiguredProgram -> IO FilePath
ghcLibDir' verbosity ghcProg =
    (reverse . dropWhile isSpace . reverse) `fmap`
     rawSystemProgramStdout verbosity ghcProg ["--print-libdir"]

-- Cabal does not use the environment variable GHC_PACKAGE_PATH; let users
-- know that this is the case. See ticket #335. Simply ignoring it is not a
-- good idea, since then ghc and cabal are looking at different sets of
-- package dbs and chaos is likely to ensue.
checkPackageDbEnvVar :: IO ()
checkPackageDbEnvVar = do
    hasGPP <- (getEnv "GHC_PACKAGE_PATH" >> return True)
              `catchIO` (\_ -> return False)
    when hasGPP $
      die $ "Use of GHC's environment variable GHC_PACKAGE_PATH is "
         ++ "incompatible with Cabal. Use the flag --package-db to specify a "
         ++ "package database (it can be used multiple times)."

checkPackageDbStack :: PackageDBStack -> IO ()
checkPackageDbStack (GlobalPackageDB:rest)
  | GlobalPackageDB `notElem` rest = return ()
checkPackageDbStack rest
  | GlobalPackageDB `notElem` rest =
  die $ "With current ghc versions the global package db is always used "
     ++ "and must be listed first. This ghc limitation may be lifted in "
     ++ "future, see http://hackage.haskell.org/trac/ghc/ticket/5977"
checkPackageDbStack _ =
  die $ "If the global package db is specified, it must be "
     ++ "specified first and cannot be specified multiple times"

-- GHC < 6.10 put "$topdir/include/mingw" in rts's installDirs. This
-- breaks when you want to use a different gcc, so we need to filter
-- it out.
removeMingwIncludeDir :: InstalledPackageInfo -> InstalledPackageInfo
removeMingwIncludeDir pkg =
    let ids = InstalledPackageInfo.includeDirs pkg
        ids' = filter (not . ("mingw" `isSuffixOf`)) ids
    in pkg { InstalledPackageInfo.includeDirs = ids' }

-- | Get the packages from specific PackageDBs, not cumulative.
--
getInstalledPackages' :: Verbosity -> [PackageDB] -> ProgramConfiguration
                     -> IO [(PackageDB, [InstalledPackageInfo])]
getInstalledPackages' verbosity packagedbs conf
  | ghcVersion >= Version [6,9] [] =
  sequence
    [ do pkgs <- HcPkg.dump verbosity ghcPkgProg packagedb
         return (packagedb, pkgs)
    | packagedb <- packagedbs ]

  where
    Just ghcPkgProg = lookupProgram ghcPkgProgram conf
    Just ghcProg    = lookupProgram ghcProgram conf
    Just ghcVersion = programVersion ghcProg

getInstalledPackages' verbosity packagedbs conf = do
    str <- rawSystemProgramStdoutConf verbosity ghcPkgProgram conf ["list"]
    let pkgFiles = [ init line | line <- lines str, last line == ':' ]
        dbFile packagedb = case (packagedb, pkgFiles) of
          (GlobalPackageDB, global:_)      -> return $ Just global
          (UserPackageDB,  _global:user:_) -> return $ Just user
          (UserPackageDB,  _global:_)      -> return $ Nothing
          (SpecificPackageDB specific, _)  -> return $ Just specific
          _ -> die "cannot read ghc-pkg package listing"
    pkgFiles' <- mapM dbFile packagedbs
    sequence [ withFileContents file $ \content -> do
                  pkgs <- readPackages file content
                  return (db, pkgs)
             | (db , Just file) <- zip packagedbs pkgFiles' ]
  where
    -- Depending on the version of ghc we use a different type's Read
    -- instance to parse the package file and then convert.
    -- It's a bit yuck. But that's what we get for using Read/Show.
    readPackages
      | ghcVersion >= Version [6,4,2] []
      = \file content -> case reads content of
          [(pkgs, _)] -> return (map IPI642.toCurrent pkgs)
          _           -> failToRead file
      | otherwise
      = \file content -> case reads content of
          [(pkgs, _)] -> return (map IPI641.toCurrent pkgs)
          _           -> failToRead file
    Just ghcProg = lookupProgram ghcProgram conf
    Just ghcVersion = programVersion ghcProg
    failToRead file = die $ "cannot read ghc package database " ++ file

substTopDir :: FilePath -> InstalledPackageInfo -> InstalledPackageInfo
substTopDir topDir ipo
 = ipo {
       InstalledPackageInfo.importDirs
           = map f (InstalledPackageInfo.importDirs ipo),
       InstalledPackageInfo.libraryDirs
           = map f (InstalledPackageInfo.libraryDirs ipo),
       InstalledPackageInfo.includeDirs
           = map f (InstalledPackageInfo.includeDirs ipo),
       InstalledPackageInfo.frameworkDirs
           = map f (InstalledPackageInfo.frameworkDirs ipo),
       InstalledPackageInfo.haddockInterfaces
           = map f (InstalledPackageInfo.haddockInterfaces ipo),
       InstalledPackageInfo.haddockHTMLs
           = map f (InstalledPackageInfo.haddockHTMLs ipo)
   }
    where f ('$':'t':'o':'p':'d':'i':'r':rest) = topDir ++ rest
          f x = x

-- -----------------------------------------------------------------------------
-- Building

-- | Build a library with GHC.
--
buildLib, replLib :: Verbosity
                  -> PackageDescription -> LocalBuildInfo
                  -> Library            -> ComponentLocalBuildInfo -> IO ()
buildLib = buildOrReplLib False
replLib  = buildOrReplLib True

buildOrReplLib :: Bool -> Verbosity
               -> PackageDescription -> LocalBuildInfo
               -> Library            -> ComponentLocalBuildInfo -> IO ()
buildOrReplLib forRepl verbosity pkg_descr lbi lib clbi = do
  libName <- case componentLibraries clbi of
             [libName] -> return libName
             [] -> die "No library name found when building library"
             _  -> die "Multiple library names found when building library"

  let libTargetDir = buildDir lbi
      pkgid = packageId pkg_descr
      whenVanillaLib forceVanilla =
        when (not forRepl && (forceVanilla || withVanillaLib lbi))
      whenProfLib = when (not forRepl && withProfLib lbi)
      whenSharedLib forceShared =
        when (not forRepl &&  (forceShared || withSharedLib lbi))
      whenGHCiLib = when (not forRepl && withGHCiLib lbi && withVanillaLib lbi)
      ifReplLib = when forRepl
      comp = compiler lbi
      ghcVersion = compilerVersion comp
      (Platform _hostArch hostOS) = hostPlatform lbi

  (ghcProg, _) <- requireProgram verbosity ghcProgram (withPrograms lbi)
  let runGhcProg = runGHC verbosity ghcProg

  libBi <- hackThreadedFlag verbosity
             comp (withProfLib lbi) (libBuildInfo lib)

  isGhcDynamic <- ghcDynamic verbosity ghcProg
  dynamicTooSupported <- ghcSupportsDynamicToo verbosity ghcProg
  let doingTH = EnableExtension TemplateHaskell `elem` allExtensions libBi
      forceVanillaLib = doingTH && not isGhcDynamic
      forceSharedLib  = doingTH &&     isGhcDynamic
      -- TH always needs default libs, even when building for profiling

  createDirectoryIfMissingVerbose verbosity True libTargetDir
  -- TODO: do we need to put hs-boot files into place for mutually recursive
  -- modules?
  let cObjs       = map (`replaceExtension` objExtension) (cSources libBi)
      baseOpts    = componentGhcOptions verbosity lbi libBi clbi libTargetDir
      vanillaOpts = baseOpts `mappend` mempty {
                      ghcOptMode         = toFlag GhcModeMake,
                      ghcOptPackageName  = toFlag pkgid,
                      ghcOptInputModules = libModules lib
                    }

      profOpts    = vanillaOpts `mappend` mempty {
                      ghcOptProfilingMode = toFlag True,
                      ghcOptHiSuffix      = toFlag "p_hi",
                      ghcOptObjSuffix     = toFlag "p_o",
                      ghcOptExtra         = ghcProfOptions libBi
                    }

      sharedOpts  = vanillaOpts `mappend` mempty {
                      ghcOptDynLinkMode = toFlag GhcDynamicOnly,
                      ghcOptFPic        = toFlag True,
                      ghcOptHiSuffix    = toFlag "dyn_hi",
                      ghcOptObjSuffix   = toFlag "dyn_o",
                      ghcOptExtra       = ghcSharedOptions libBi
                    }
      linkerOpts = mempty {
                      ghcOptLinkOptions    = PD.ldOptions libBi,
                      ghcOptLinkLibs       = extraLibs libBi,
                      ghcOptLinkLibPath    = extraLibDirs libBi,
                      ghcOptLinkFrameworks = PD.frameworks libBi,
                      ghcOptInputFiles     = [libTargetDir </> x | x <- cObjs]
                   }
      replOpts    = vanillaOpts {
                      ghcOptExtra        = filterGhciFlags
                                           (ghcOptExtra vanillaOpts)
                    }
                    `mappend` linkerOpts
                    `mappend` mempty {
                      ghcOptMode         = toFlag GhcModeInteractive,
                      ghcOptOptimisation = toFlag GhcNoOptimisation
                    }

      vanillaSharedOpts = vanillaOpts `mappend` mempty {
                      ghcOptDynLinkMode  = toFlag GhcStaticAndDynamic,
                      ghcOptDynHiSuffix  = toFlag "dyn_hi",
                      ghcOptDynObjSuffix = toFlag "dyn_o"
                    }

  unless (null (libModules lib)) $
    do let vanilla = whenVanillaLib forceVanillaLib (runGhcProg vanillaOpts)
           shared  = whenSharedLib  forceSharedLib  (runGhcProg sharedOpts)
           useDynToo = dynamicTooSupported &&
                       (forceVanillaLib || withVanillaLib lbi) &&
                       (forceSharedLib  || withSharedLib  lbi) &&
                       null (ghcSharedOptions libBi)
       if useDynToo
           then runGhcProg vanillaSharedOpts
           else if isGhcDynamic then do shared;  vanilla
                                else do vanilla; shared
       whenProfLib (runGhcProg profOpts)

  -- build any C sources
  unless (null (cSources libBi)) $ do
     info verbosity "Building C Sources..."
     sequence_
       [ do let baseCcOpts    = componentCcGhcOptions verbosity lbi
                                libBi clbi libTargetDir filename
                vanillaCcOpts = if isGhcDynamic
                                -- Dynamic GHC requires C sources to be built
                                -- with -fPIC for REPL to work. See #2207.
                                then baseCcOpts { ghcOptFPic = toFlag True }
                                else baseCcOpts
                profCcOpts    = vanillaCcOpts `mappend` mempty {
                                  ghcOptProfilingMode = toFlag True,
                                  ghcOptObjSuffix     = toFlag "p_o"
                                }
                sharedCcOpts  = vanillaCcOpts `mappend` mempty {
                                  ghcOptFPic        = toFlag True,
                                  ghcOptDynLinkMode = toFlag GhcDynamicOnly,
                                  ghcOptObjSuffix   = toFlag "dyn_o"
                                }
                odir          = fromFlag (ghcOptObjDir vanillaCcOpts)
            createDirectoryIfMissingVerbose verbosity True odir
            runGhcProg vanillaCcOpts
            whenSharedLib forceSharedLib (runGhcProg sharedCcOpts)
            whenProfLib (runGhcProg profCcOpts)
       | filename <- cSources libBi]

  -- TODO: problem here is we need the .c files built first, so we can load them
  -- with ghci, but .c files can depend on .h files generated by ghc by ffi
  -- exports.
  unless (null (libModules lib)) $
     ifReplLib (runGhcProg replOpts)


  -- link:
  info verbosity "Linking..."
  let cProfObjs   = map (`replaceExtension` ("p_" ++ objExtension))
                    (cSources libBi)
      cSharedObjs = map (`replaceExtension` ("dyn_" ++ objExtension))
                    (cSources libBi)
      cid = compilerId (compiler lbi)
      vanillaLibFilePath = libTargetDir </> mkLibName           libName
      profileLibFilePath = libTargetDir </> mkProfLibName       libName
      sharedLibFilePath  = libTargetDir </> mkSharedLibName cid libName
      ghciLibFilePath    = libTargetDir </> mkGHCiLibName       libName
      libInstallPath = libdir $ absoluteInstallDirs pkg_descr lbi NoCopyDest
      sharedLibInstallPath = libInstallPath </> mkSharedLibName cid libName

  stubObjs <- fmap catMaybes $ sequence
    [ findFileWithExtension [objExtension] [libTargetDir]
        (ModuleName.toFilePath x ++"_stub")
    | ghcVersion < Version [7,2] [] -- ghc-7.2+ does not make _stub.o files
    , x <- libModules lib ]
  stubProfObjs <- fmap catMaybes $ sequence
    [ findFileWithExtension ["p_" ++ objExtension] [libTargetDir]
        (ModuleName.toFilePath x ++"_stub")
    | ghcVersion < Version [7,2] [] -- ghc-7.2+ does not make _stub.o files
    , x <- libModules lib ]
  stubSharedObjs <- fmap catMaybes $ sequence
    [ findFileWithExtension ["dyn_" ++ objExtension] [libTargetDir]
        (ModuleName.toFilePath x ++"_stub")
    | ghcVersion < Version [7,2] [] -- ghc-7.2+ does not make _stub.o files
    , x <- libModules lib ]

  hObjs     <- getHaskellObjects lib lbi
                    libTargetDir objExtension True
  hProfObjs <-
    if (withProfLib lbi)
            then getHaskellObjects lib lbi
                    libTargetDir ("p_" ++ objExtension) True
            else return []
  hSharedObjs <-
    if (withSharedLib lbi)
            then getHaskellObjects lib lbi
                    libTargetDir ("dyn_" ++ objExtension) False
            else return []

  unless (null hObjs && null cObjs && null stubObjs) $ do
    -- first remove library files if they exists
    unless forRepl $ sequence_
      [ removeFile libFilePath `catchIO` \_ -> return ()
      | libFilePath <- [vanillaLibFilePath, profileLibFilePath
                       ,sharedLibFilePath,  ghciLibFilePath] ]

    let staticObjectFiles =
               hObjs
            ++ map (libTargetDir </>) cObjs
            ++ stubObjs
        profObjectFiles =
               hProfObjs
            ++ map (libTargetDir </>) cProfObjs
            ++ stubProfObjs
        ghciObjFiles =
               hObjs
            ++ map (libTargetDir </>) cObjs
            ++ stubObjs
        dynamicObjectFiles =
               hSharedObjs
            ++ map (libTargetDir </>) cSharedObjs
            ++ stubSharedObjs
        -- After the relocation lib is created we invoke ghc -shared
        -- with the dependencies spelled out as -package arguments
        -- and ghc invokes the linker with the proper library paths
        ghcSharedLinkArgs =
            mempty {
              ghcOptShared             = toFlag True,
              ghcOptDynLinkMode        = toFlag GhcDynamicOnly,
              ghcOptInputFiles         = dynamicObjectFiles,
              ghcOptOutputFile         = toFlag sharedLibFilePath,
              -- For dynamic libs, Mac OS/X needs to know the install location
              -- at build time. This only applies to GHC < 7.8 - see the
              -- discussion in #1660.
              ghcOptDylibName          = if (hostOS == OSX
                                             && ghcVersion < Version [7,8] [])
                                          then toFlag sharedLibInstallPath
                                          else mempty,
              ghcOptPackageName        = toFlag pkgid,
              ghcOptNoAutoLinkPackages = toFlag True,
              ghcOptPackageDBs         = withPackageDB lbi,
              ghcOptPackages           = componentPackageDeps clbi,
              ghcOptLinkLibs           = extraLibs libBi,
              ghcOptLinkLibPath        = extraLibDirs libBi
            }

    whenVanillaLib False $ do
      (arProg, _) <- requireProgram verbosity arProgram (withPrograms lbi)
      Ar.createArLibArchive verbosity arProg
        vanillaLibFilePath staticObjectFiles

    whenProfLib $ do
      (arProg, _) <- requireProgram verbosity arProgram (withPrograms lbi)
      Ar.createArLibArchive verbosity arProg
        profileLibFilePath profObjectFiles

    whenGHCiLib $ do
      (ldProg, _) <- requireProgram verbosity ldProgram (withPrograms lbi)
      Ld.combineObjectFiles verbosity ldProg
        ghciLibFilePath ghciObjFiles

    whenSharedLib False $
      runGhcProg ghcSharedLinkArgs


-- | Build an executable with GHC.
--
buildExe, replExe :: Verbosity
                  -> PackageDescription -> LocalBuildInfo
                  -> Executable         -> ComponentLocalBuildInfo -> IO ()
buildExe = buildOrReplExe False
replExe  = buildOrReplExe True

buildOrReplExe :: Bool -> Verbosity
               -> PackageDescription -> LocalBuildInfo
               -> Executable         -> ComponentLocalBuildInfo -> IO ()
buildOrReplExe forRepl verbosity _pkg_descr lbi
  exe@Executable { exeName = exeName', modulePath = modPath } clbi = do

  (ghcProg, _) <- requireProgram verbosity ghcProgram (withPrograms lbi)
  let runGhcProg = runGHC verbosity ghcProg

  exeBi <- hackThreadedFlag verbosity
             (compiler lbi) (withProfExe lbi) (buildInfo exe)

  -- exeNameReal, the name that GHC really uses (with .exe on Windows)
  let exeNameReal = exeName' <.>
                    (if takeExtension exeName' /= ('.':exeExtension)
                       then exeExtension
                       else "")

  let targetDir = (buildDir lbi) </> exeName'
  let exeDir    = targetDir </> (exeName' ++ "-tmp")
  createDirectoryIfMissingVerbose verbosity True targetDir
  createDirectoryIfMissingVerbose verbosity True exeDir
  -- TODO: do we need to put hs-boot files into place for mutually recursive
  -- modules?  FIX: what about exeName.hi-boot?

  -- build executables

  srcMainFile         <- findFile (exeDir : hsSourceDirs exeBi) modPath
  isGhcDynamic        <- ghcDynamic verbosity ghcProg
  dynamicTooSupported <- ghcSupportsDynamicToo verbosity ghcProg

  let isHaskellMain = elem (takeExtension srcMainFile) [".hs", ".lhs"]
      cSrcs         = cSources exeBi ++ [srcMainFile | not isHaskellMain]
      cObjs         = map (`replaceExtension` objExtension) cSrcs
      baseOpts   = (componentGhcOptions verbosity lbi exeBi clbi exeDir)
                    `mappend` mempty {
                      ghcOptMode         = toFlag GhcModeMake,
                      ghcOptInputFiles   =
                        [ srcMainFile | isHaskellMain],
                      ghcOptInputModules =
                        [ m | not isHaskellMain, m <- exeModules exe]
                    }
      staticOpts = baseOpts `mappend` mempty {
                      ghcOptDynLinkMode    = toFlag GhcStaticOnly
                   }
      profOpts   = baseOpts `mappend` mempty {
                      ghcOptProfilingMode  = toFlag True,
                      ghcOptHiSuffix       = toFlag "p_hi",
                      ghcOptObjSuffix      = toFlag "p_o",
                      ghcOptExtra          = ghcProfOptions exeBi
                    }
      dynOpts    = baseOpts `mappend` mempty {
                      ghcOptDynLinkMode    = toFlag GhcDynamicOnly,
                      ghcOptHiSuffix       = toFlag "dyn_hi",
                      ghcOptObjSuffix      = toFlag "dyn_o",
                      ghcOptExtra          = ghcSharedOptions exeBi
                    }
      dynTooOpts = staticOpts `mappend` mempty {
                      ghcOptDynLinkMode    = toFlag GhcStaticAndDynamic,
                      ghcOptDynHiSuffix    = toFlag "dyn_hi",
                      ghcOptDynObjSuffix   = toFlag "dyn_o"
                    }
      linkerOpts = mempty {
                      ghcOptLinkOptions    = PD.ldOptions exeBi,
                      ghcOptLinkLibs       = extraLibs exeBi,
                      ghcOptLinkLibPath    = extraLibDirs exeBi,
                      ghcOptLinkFrameworks = PD.frameworks exeBi,
                      ghcOptInputFiles     = [exeDir </> x | x <- cObjs]
                   }
      replOpts   = baseOpts {
                      ghcOptExtra          = filterGhciFlags
                                             (ghcOptExtra baseOpts)
                   }
                   -- For a normal compile we do separate invocations of ghc for
                   -- compiling as for linking. But for repl we have to do just
                   -- the one invocation, so that one has to include all the
                   -- linker stuff too, like -l flags and any .o files from C
                   -- files etc.
                   `mappend` linkerOpts
                   `mappend` mempty {
                      ghcOptMode           = toFlag GhcModeInteractive,
                      ghcOptOptimisation   = toFlag GhcNoOptimisation
                   }
      commonOpts  | withProfExe lbi = profOpts
                  | withDynExe  lbi = dynOpts
                  | otherwise       = staticOpts
      compileOpts | useDynToo = dynTooOpts
                  | otherwise = commonOpts
      withStaticExe = (not $ withProfExe lbi) && (not $ withDynExe lbi)

      -- For building exe's that use TH with -prof or -dynamic we actually have
      -- to build twice, once without -prof/-dynamic and then again with
      -- -prof/-dynamic. This is because the code that TH needs to run at
      -- compile time needs to be the vanilla ABI so it can be loaded up and run
      -- by the compiler.
      -- With dynamic-by-default GHC the TH object files loaded at compile-time
      -- need to be .dyn_o instead of .o.
      doingTH = EnableExtension TemplateHaskell `elem` allExtensions exeBi
      -- Should we use -dynamic-too instead of compilng twice?
      useDynToo = dynamicTooSupported && isGhcDynamic
                  && doingTH && withStaticExe && null (ghcSharedOptions exeBi)
      compileTHOpts | isGhcDynamic = dynOpts
                    | otherwise    = staticOpts
      compileForTH
        | forRepl      = False
        | useDynToo    = False
        | isGhcDynamic = doingTH && (withProfExe lbi || withStaticExe)
        | otherwise    = doingTH && (withProfExe lbi || withDynExe lbi)

      linkOpts = commonOpts `mappend`
                 linkerOpts `mappend` mempty {
                      ghcOptLinkNoHsMain   = toFlag (not isHaskellMain)
                 }

  -- Build static/dynamic object files for TH, if needed.
  when compileForTH $
    runGhcProg compileTHOpts { ghcOptNoLink = toFlag True }

  unless forRepl $
    runGhcProg compileOpts { ghcOptNoLink = toFlag True }

  -- build any C sources
  unless (null cSrcs) $ do
   info verbosity "Building C Sources..."
   sequence_
     [ do let opts = (componentCcGhcOptions verbosity lbi exeBi clbi
                         exeDir filename) `mappend` mempty {
                       ghcOptDynLinkMode   = toFlag (if withDynExe lbi
                                                       then GhcDynamicOnly
                                                       else GhcStaticOnly),
                       ghcOptProfilingMode = toFlag (withProfExe lbi)
                     }
              odir = fromFlag (ghcOptObjDir opts)
          createDirectoryIfMissingVerbose verbosity True odir
          runGhcProg opts
     | filename <- cSrcs ]

  -- TODO: problem here is we need the .c files built first, so we can load them
  -- with ghci, but .c files can depend on .h files generated by ghc by ffi
  -- exports.
  when forRepl $ runGhcProg replOpts

  -- link:
  unless forRepl $ do
    info verbosity "Linking..."
    runGhcProg linkOpts { ghcOptOutputFile = toFlag (targetDir </> exeNameReal) }


-- | Filter the "-threaded" flag when profiling as it does not
--   work with ghc-6.8 and older.
hackThreadedFlag :: Verbosity -> Compiler -> Bool -> BuildInfo -> IO BuildInfo
hackThreadedFlag verbosity comp prof bi
  | not mustFilterThreaded = return bi
  | otherwise              = do
    warn verbosity $ "The ghc flag '-threaded' is not compatible with "
                  ++ "profiling in ghc-6.8 and older. It will be disabled."
    return bi { options = filterHcOptions (/= "-threaded") (options bi) }
  where
    mustFilterThreaded = prof && compilerVersion comp < Version [6, 10] []
                      && "-threaded" `elem` hcOptions GHC bi
    filterHcOptions p hcoptss =
      [ (hc, if hc == GHC then filter p opts else opts)
      | (hc, opts) <- hcoptss ]

-- | Strip out flags that are not supported in ghci
filterGhciFlags :: [String] -> [String]
filterGhciFlags = filter supported
  where
    supported ('-':'O':_) = False
    supported "-debug"    = False
    supported "-threaded" = False
    supported "-ticky"    = False
    supported "-eventlog" = False
    supported "-prof"     = False
    supported "-unreg"    = False
    supported _           = True

-- when using -split-objs, we need to search for object files in the
-- Module_split directory for each module.
getHaskellObjects :: Library -> LocalBuildInfo
                  -> FilePath -> String -> Bool -> IO [FilePath]
getHaskellObjects lib lbi pref wanted_obj_ext allow_split_objs
  | splitObjs lbi && allow_split_objs = do
        let splitSuffix = if compilerVersion (compiler lbi) <
                             Version [6, 11] []
                          then "_split"
                          else "_" ++ wanted_obj_ext ++ "_split"
            dirs = [ pref </> (ModuleName.toFilePath x ++ splitSuffix)
                   | x <- libModules lib ]
        objss <- mapM getDirectoryContents dirs
        let objs = [ dir </> obj
                   | (objs',dir) <- zip objss dirs, obj <- objs',
                     let obj_ext = takeExtension obj,
                     '.':wanted_obj_ext == obj_ext ]
        return objs
  | otherwise  =
        return [ pref </> ModuleName.toFilePath x <.> wanted_obj_ext
               | x <- libModules lib ]

-- | Extracts a String representing a hash of the ABI of a built
-- library.  It can fail if the library has not yet been built.
--
libAbiHash :: Verbosity -> PackageDescription -> LocalBuildInfo
           -> Library -> ComponentLocalBuildInfo -> IO String
libAbiHash verbosity pkg_descr lbi lib clbi = do
  libBi <- hackThreadedFlag verbosity
             (compiler lbi) (withProfLib lbi) (libBuildInfo lib)
  let
      vanillaArgs =
        (componentGhcOptions verbosity lbi libBi clbi (buildDir lbi))
        `mappend` mempty {
          ghcOptMode         = toFlag GhcModeAbiHash,
          ghcOptPackageName  = toFlag (packageId pkg_descr),
          ghcOptInputModules = exposedModules lib
        }
      sharedArgs = vanillaArgs `mappend` mempty {
                       ghcOptDynLinkMode = toFlag GhcDynamicOnly,
                       ghcOptFPic        = toFlag True,
                       ghcOptHiSuffix    = toFlag "dyn_hi",
                       ghcOptObjSuffix   = toFlag "dyn_o",
                       ghcOptExtra       = ghcSharedOptions libBi
                   }
      profArgs = vanillaArgs `mappend` mempty {
                     ghcOptProfilingMode = toFlag True,
                     ghcOptHiSuffix      = toFlag "p_hi",
                     ghcOptObjSuffix     = toFlag "p_o",
                     ghcOptExtra         = ghcProfOptions libBi
                 }
      ghcArgs = if withVanillaLib lbi then vanillaArgs
           else if withSharedLib  lbi then sharedArgs
           else if withProfLib    lbi then profArgs
           else error "libAbiHash: Can't find an enabled library way"
  --
  (ghcProg, _) <- requireProgram verbosity ghcProgram (withPrograms lbi)
  getProgramInvocationOutput verbosity (ghcInvocation ghcProg ghcArgs)


componentGhcOptions :: Verbosity -> LocalBuildInfo
                    -> BuildInfo -> ComponentLocalBuildInfo -> FilePath
                    -> GhcOptions
componentGhcOptions verbosity lbi bi clbi odir =
    mempty {
      ghcOptVerbosity       = toFlag verbosity,
      ghcOptHideAllPackages = toFlag True,
      ghcOptCabal           = toFlag True,
      ghcOptPackageDBs      = withPackageDB lbi,
      ghcOptPackages        = componentPackageDeps clbi,
      ghcOptSplitObjs       = toFlag (splitObjs lbi),
      ghcOptSourcePathClear = toFlag True,
      ghcOptSourcePath      = [odir] ++ nub (hsSourceDirs bi)
                                    ++ [autogenModulesDir lbi],
      ghcOptCppIncludePath  = [autogenModulesDir lbi, odir]
                                    ++ PD.includeDirs bi,
      ghcOptCppOptions      = cppOptions bi,
      ghcOptCppIncludes     = [autogenModulesDir lbi </> cppHeaderName],
      ghcOptFfiIncludes     = PD.includes bi,
      ghcOptObjDir          = toFlag odir,
      ghcOptHiDir           = toFlag odir,
      ghcOptStubDir         = toFlag odir,
      ghcOptOutputDir       = toFlag odir,
      ghcOptOptimisation    = toGhcOptimisation (withOptimization lbi),
      ghcOptExtra           = hcOptions GHC bi,
      ghcOptLanguage        = toFlag (fromMaybe Haskell98 (defaultLanguage bi)),
      -- Unsupported extensions have already been checked by configure
      ghcOptExtensions      = usedExtensions bi,
      ghcOptExtensionMap    = compilerExtensions (compiler lbi)
    }
  where
    toGhcOptimisation NoOptimisation      = mempty --TODO perhaps override?
    toGhcOptimisation NormalOptimisation  = toFlag GhcNormalOptimisation
    toGhcOptimisation MaximumOptimisation = toFlag GhcMaximumOptimisation


componentCcGhcOptions :: Verbosity -> LocalBuildInfo
                      -> BuildInfo -> ComponentLocalBuildInfo
                      -> FilePath -> FilePath
                      -> GhcOptions
componentCcGhcOptions verbosity lbi bi clbi pref filename =
    mempty {
      ghcOptVerbosity      = toFlag verbosity,
      ghcOptMode           = toFlag GhcModeCompile,
      ghcOptInputFiles     = [filename],

      ghcOptCppIncludePath = [autogenModulesDir lbi, odir]
                                   ++ PD.includeDirs bi,
      ghcOptPackageDBs     = withPackageDB lbi,
      ghcOptPackages       = componentPackageDeps clbi,
      ghcOptCcOptions      = PD.ccOptions bi
                             ++ case withOptimization lbi of
                                  NoOptimisation -> []
                                  _              -> ["-O2"],
      ghcOptObjDir         = toFlag odir
    }
  where
    odir | compilerVersion (compiler lbi) >= Version [6,4,1] []  = pref
         | otherwise = pref </> takeDirectory filename
         -- ghc 6.4.0 had a bug in -odir handling for C compilations.

mkGHCiLibName :: LibraryName -> String
mkGHCiLibName (LibraryName lib) = lib <.> "o"

-- -----------------------------------------------------------------------------
-- Installing

-- |Install executables for GHC.
installExe :: Verbosity
           -> LocalBuildInfo
           -> InstallDirs FilePath -- ^Where to copy the files to
           -> FilePath  -- ^Build location
           -> (FilePath, FilePath)  -- ^Executable (prefix,suffix)
           -> PackageDescription
           -> Executable
           -> IO ()
installExe verbosity lbi installDirs buildPref
  (progprefix, progsuffix) _pkg exe = do
  let binDir = bindir installDirs
  createDirectoryIfMissingVerbose verbosity True binDir
  let exeFileName = exeName exe <.> exeExtension
      fixedExeBaseName = progprefix ++ exeName exe ++ progsuffix
      installBinary dest = do
          installExecutableFile verbosity
            (buildPref </> exeName exe </> exeFileName)
            (dest <.> exeExtension)
          stripExe verbosity lbi exeFileName (dest <.> exeExtension)
  installBinary (binDir </> fixedExeBaseName)

stripExe :: Verbosity -> LocalBuildInfo -> FilePath -> FilePath -> IO ()
stripExe verbosity lbi name path = when (stripExes lbi) $
  case lookupProgram stripProgram (withPrograms lbi) of
    Just strip -> rawSystemProgram verbosity strip args
    Nothing    -> unless (buildOS == Windows) $
                  -- Don't bother warning on windows, we don't expect them to
                  -- have the strip program anyway.
                  warn verbosity $ "Unable to strip executable '" ++ name
                                ++ "' (missing the 'strip' program)"
  where
    args = path : case buildOS of
       OSX -> ["-x"] -- By default, stripping the ghc binary on at least
                     -- some OS X installations causes:
                     --     HSbase-3.0.o: unknown symbol `_environ'"
                     -- The -x flag fixes that.
       _   -> []

-- |Install for ghc, .hi, .a and, if --with-ghci given, .o
installLib    :: Verbosity
              -> LocalBuildInfo
              -> FilePath  -- ^install location
              -> FilePath  -- ^install location for dynamic librarys
              -> FilePath  -- ^Build location
              -> PackageDescription
              -> Library
              -> ComponentLocalBuildInfo
              -> IO ()
installLib verbosity lbi targetDir dynlibTargetDir builtDir _pkg lib clbi = do
  -- copy .hi files over:
  let copyHelper installFun src dst n = do
        createDirectoryIfMissingVerbose verbosity True dst
        installFun verbosity (src </> n) (dst </> n)
      copy       = copyHelper installOrdinaryFile
      copyShared = copyHelper installExecutableFile
      copyModuleFiles ext =
        findModuleFiles [builtDir] [ext] (libModules lib)
          >>= installOrdinaryFiles verbosity targetDir
  whenVanilla $ copyModuleFiles "hi"
  whenProf    $ copyModuleFiles "p_hi"
  whenShared  $ copyModuleFiles "dyn_hi"

  -- copy the built library files over:
  whenVanilla $ mapM_ (copy builtDir targetDir)             vanillaLibNames
  whenProf    $ mapM_ (copy builtDir targetDir)             profileLibNames
  whenGHCi    $ mapM_ (copy builtDir targetDir)             ghciLibNames
  whenShared  $ mapM_ (copyShared builtDir dynlibTargetDir) sharedLibNames

  -- run ranlib if necessary:
  whenVanilla $ mapM_ (updateLibArchive verbosity lbi . (targetDir </>))
                      vanillaLibNames
  whenProf    $ mapM_ (updateLibArchive verbosity lbi . (targetDir </>))
                      profileLibNames

  where
    cid = compilerId (compiler lbi)
    libNames = componentLibraries clbi
    vanillaLibNames = map mkLibName             libNames
    profileLibNames = map mkProfLibName         libNames
    ghciLibNames    = map mkGHCiLibName         libNames
    sharedLibNames  = map (mkSharedLibName cid) libNames

    hasLib    = not $ null (libModules lib)
                   && null (cSources (libBuildInfo lib))
    whenVanilla = when (hasLib && withVanillaLib lbi)
    whenProf    = when (hasLib && withProfLib    lbi)
    whenGHCi    = when (hasLib && withGHCiLib    lbi)
    whenShared  = when (hasLib && withSharedLib  lbi)

-- | On MacOS X we have to call @ranlib@ to regenerate the archive index after
-- copying. This is because the silly MacOS X linker checks that the archive
-- index is not older than the file itself, which means simply
-- copying/installing the file breaks it!!
--
updateLibArchive :: Verbosity -> LocalBuildInfo -> FilePath -> IO ()
updateLibArchive verbosity lbi path
  | buildOS == OSX = do
    (ranlib, _) <- requireProgram verbosity ranlibProgram (withPrograms lbi)
    rawSystemProgram verbosity ranlib [path]
  | otherwise = return ()

-- -----------------------------------------------------------------------------
-- Registering

-- | Create an empty package DB at the specified location.
initPackageDB :: Verbosity -> ProgramConfiguration -> FilePath -> IO ()
initPackageDB verbosity conf dbPath = HcPkg.init verbosity ghcPkgProg dbPath
  where
    Just ghcPkgProg = lookupProgram ghcPkgProgram conf

-- | Run 'ghc-pkg' using a given package DB stack, directly forwarding the
-- provided command-line arguments to it.
invokeHcPkg :: Verbosity -> ProgramConfiguration -> PackageDBStack -> [String]
               -> IO ()
invokeHcPkg verbosity conf dbStack extraArgs =
    HcPkg.invoke verbosity ghcPkgProg dbStack extraArgs
  where
    Just ghcPkgProg = lookupProgram ghcPkgProgram conf

registerPackage
  :: Verbosity
  -> InstalledPackageInfo
  -> PackageDescription
  -> LocalBuildInfo
  -> Bool
  -> PackageDBStack
  -> IO ()
registerPackage verbosity installedPkgInfo _pkg lbi _inplace packageDbs = do
  let Just ghcPkg = lookupProgram ghcPkgProgram (withPrograms lbi)
  HcPkg.reregister verbosity ghcPkg packageDbs (Right installedPkgInfo)

-- -----------------------------------------------------------------------------
-- Utils

ghcDynamic :: Verbosity -> ConfiguredProgram -> IO Bool
ghcDynamic verbosity ghcProg
    = do xs <- getGhcInfo verbosity ghcProg
         return $ case lookup "GHC Dynamic" xs of
                  Just "YES" -> True
                  _          -> False

ghcSupportsDynamicToo :: Verbosity -> ConfiguredProgram -> IO Bool
ghcSupportsDynamicToo verbosity ghcProg
    = do xs <- getGhcInfo verbosity ghcProg
         return $ case lookup "Support dynamic-too" xs of
                  Just "YES" -> True
                  _          -> False