{-# LANGUAGE CPP #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE RecordWildCards #-} -- | Dealing with Cabal. module Stack.Package (readDotBuildinfo ,resolvePackage ,packageFromPackageDescription ,Package(..) ,PackageDescriptionPair(..) ,GetPackageFiles(..) ,GetPackageOpts(..) ,PackageConfig(..) ,buildLogPath ,PackageException (..) ,resolvePackageDescription ,packageDependencies ,applyForceCustomBuild ) where import Data.List (find, isPrefixOf, unzip) import qualified Data.Map.Strict as M import qualified Data.Set as S import qualified Data.Text as T import Distribution.Compiler import Distribution.ModuleName (ModuleName) import qualified Distribution.ModuleName as Cabal import qualified Distribution.Package as D import Distribution.Package hiding (Package,PackageName,packageName,packageVersion,PackageIdentifier) import qualified Distribution.PackageDescription as D import Distribution.PackageDescription hiding (FlagName) import Distribution.PackageDescription.Parsec import Distribution.Pretty (prettyShow) import Distribution.Simple.Glob (matchDirFileGlob) import Distribution.System (OS (..), Arch, Platform (..)) import qualified Distribution.Text as D import qualified Distribution.Types.CondTree as Cabal import qualified Distribution.Types.ExeDependency as Cabal import Distribution.Types.ForeignLib import qualified Distribution.Types.LegacyExeDependency as Cabal import Distribution.Types.LibraryName (libraryNameString, maybeToLibraryName) import Distribution.Types.MungedPackageName import qualified Distribution.Types.UnqualComponentName as Cabal import qualified Distribution.Verbosity as D import Distribution.Version (mkVersion, orLaterVersion, anyVersion) import qualified HiFileParser as Iface #if MIN_VERSION_path(0,7,0) import Path as FL hiding (replaceExtension) #else import Path as FL #endif import Path.Extra import Path.IO hiding (findFiles) import Stack.Build.Installed import Stack.Constants import Stack.Constants.Config import Stack.Prelude hiding (Display (..)) import Stack.Types.Compiler import Stack.Types.Config import Stack.Types.GhcPkgId import Stack.Types.NamedComponent import Stack.Types.Package import Stack.Types.Version import qualified System.Directory as D import System.FilePath (replaceExtension) import qualified System.FilePath as FilePath import System.IO.Error import RIO.Process import RIO.PrettyPrint import qualified RIO.PrettyPrint as PP (Style (Module)) data Ctx = Ctx { ctxFile :: !(Path Abs File) , ctxDistDir :: !(Path Abs Dir) , ctxBuildConfig :: !BuildConfig , ctxCabalVer :: !Version } instance HasPlatform Ctx instance HasGHCVariant Ctx instance HasLogFunc Ctx where logFuncL = configL.logFuncL instance HasRunner Ctx where runnerL = configL.runnerL instance HasStylesUpdate Ctx where stylesUpdateL = runnerL.stylesUpdateL instance HasTerm Ctx where useColorL = runnerL.useColorL termWidthL = runnerL.termWidthL instance HasConfig Ctx instance HasPantryConfig Ctx where pantryConfigL = configL.pantryConfigL instance HasProcessContext Ctx where processContextL = configL.processContextL instance HasBuildConfig Ctx where buildConfigL = lens ctxBuildConfig (\x y -> x { ctxBuildConfig = y }) -- | Read @.buildinfo@ ancillary files produced by some Setup.hs hooks. -- The file includes Cabal file syntax to be merged into the package description -- derived from the package's .cabal file. -- -- NOTE: not to be confused with BuildInfo, an Stack-internal datatype. readDotBuildinfo :: MonadIO m => Path Abs File -> m HookedBuildInfo readDotBuildinfo buildinfofp = liftIO $ readHookedBuildInfo D.silent (toFilePath buildinfofp) -- | Resolve a parsed cabal file into a 'Package', which contains all of -- the info needed for stack to build the 'Package' given the current -- configuration. resolvePackage :: PackageConfig -> GenericPackageDescription -> Package resolvePackage packageConfig gpkg = packageFromPackageDescription packageConfig (genPackageFlags gpkg) (resolvePackageDescription packageConfig gpkg) packageFromPackageDescription :: PackageConfig -> [D.Flag] -> PackageDescriptionPair -> Package packageFromPackageDescription packageConfig pkgFlags (PackageDescriptionPair pkgNoMod pkg) = Package { packageName = name , packageVersion = pkgVersion pkgId , packageLicense = licenseRaw pkg , packageDeps = deps , packageFiles = pkgFiles , packageUnknownTools = unknownTools , packageGhcOptions = packageConfigGhcOptions packageConfig , packageCabalConfigOpts = packageConfigCabalConfigOpts packageConfig , packageFlags = packageConfigFlags packageConfig , packageDefaultFlags = M.fromList [(flagName flag, flagDefault flag) | flag <- pkgFlags] , packageAllDeps = S.fromList (M.keys deps) , packageLibraries = let mlib = do lib <- library pkg guard $ buildable $ libBuildInfo lib Just lib in case mlib of Nothing -> NoLibraries Just _ -> HasLibraries foreignLibNames , packageInternalLibraries = subLibNames , packageTests = M.fromList [(T.pack (Cabal.unUnqualComponentName $ testName t), testInterface t) | t <- testSuites pkgNoMod , buildable (testBuildInfo t) ] , packageBenchmarks = S.fromList [T.pack (Cabal.unUnqualComponentName $ benchmarkName b) | b <- benchmarks pkgNoMod , buildable (benchmarkBuildInfo b) ] -- Same comment about buildable applies here too. , packageExes = S.fromList [T.pack (Cabal.unUnqualComponentName $ exeName biBuildInfo) | biBuildInfo <- executables pkg , buildable (buildInfo biBuildInfo)] -- This is an action used to collect info needed for "stack ghci". -- This info isn't usually needed, so computation of it is deferred. , packageOpts = GetPackageOpts $ \installMap installedMap omitPkgs addPkgs cabalfp -> do (componentsModules,componentFiles,_,_) <- getPackageFiles pkgFiles cabalfp let internals = S.toList $ internalLibComponents $ M.keysSet componentsModules excludedInternals <- mapM (parsePackageNameThrowing . T.unpack) internals mungedInternals <- mapM (parsePackageNameThrowing . T.unpack . toInternalPackageMungedName) internals componentsOpts <- generatePkgDescOpts installMap installedMap (excludedInternals ++ omitPkgs) (mungedInternals ++ addPkgs) cabalfp pkg componentFiles return (componentsModules,componentFiles,componentsOpts) , packageHasExposedModules = maybe False (not . null . exposedModules) (library pkg) , packageBuildType = buildType pkg , packageSetupDeps = msetupDeps , packageCabalSpec = either orLaterVersion id $ specVersionRaw pkg } where extraLibNames = S.union subLibNames foreignLibNames subLibNames = S.fromList $ map (T.pack . Cabal.unUnqualComponentName) $ mapMaybe (libraryNameString . libName) -- this is a design bug in the Cabal API: this should statically be known to exist $ filter (buildable . libBuildInfo) $ subLibraries pkg foreignLibNames = S.fromList $ map (T.pack . Cabal.unUnqualComponentName . foreignLibName) $ filter (buildable . foreignLibBuildInfo) $ foreignLibs pkg toInternalPackageMungedName = T.pack . prettyShow . MungedPackageName (pkgName pkgId) . maybeToLibraryName . Just . Cabal.mkUnqualComponentName . T.unpack -- Gets all of the modules, files, build files, and data files that -- constitute the package. This is primarily used for dirtiness -- checking during build, as well as use by "stack ghci" pkgFiles = GetPackageFiles $ \cabalfp -> debugBracket ("getPackageFiles" <+> pretty cabalfp) $ do let pkgDir = parent cabalfp distDir <- distDirFromDir pkgDir bc <- view buildConfigL cabalVer <- view cabalVersionL (componentModules,componentFiles,dataFiles',warnings) <- runRIO (Ctx cabalfp distDir bc cabalVer) (packageDescModulesAndFiles pkg) setupFiles <- if buildType pkg == Custom then do let setupHsPath = pkgDir relFileSetupHs setupLhsPath = pkgDir relFileSetupLhs setupHsExists <- doesFileExist setupHsPath if setupHsExists then return (S.singleton setupHsPath) else do setupLhsExists <- doesFileExist setupLhsPath if setupLhsExists then return (S.singleton setupLhsPath) else return S.empty else return S.empty buildFiles <- liftM (S.insert cabalfp . S.union setupFiles) $ do let hpackPath = pkgDir relFileHpackPackageConfig hpackExists <- doesFileExist hpackPath return $ if hpackExists then S.singleton hpackPath else S.empty return (componentModules, componentFiles, buildFiles <> dataFiles', warnings) pkgId = package pkg name = pkgName pkgId (unknownTools, knownTools) = packageDescTools pkg deps = M.filterWithKey (const . not . isMe) (M.unionsWith (<>) [ asLibrary <$> packageDependencies packageConfig pkg -- We include all custom-setup deps - if present - in the -- package deps themselves. Stack always works with the -- invariant that there will be a single installed package -- relating to a package name, and this applies at the setup -- dependency level as well. , asLibrary <$> fromMaybe M.empty msetupDeps , knownTools ]) msetupDeps = fmap (M.fromList . map (depPkgName &&& depVerRange) . setupDepends) (setupBuildInfo pkg) asLibrary range = DepValue { dvVersionRange = range , dvType = AsLibrary } -- Is the package dependency mentioned here me: either the package -- name itself, or the name of one of the sub libraries isMe name' = name' == name || fromString (packageNameString name') `S.member` extraLibNames -- | Generate GHC options for the package's components, and a list of -- options which apply generally to the package, not one specific -- component. generatePkgDescOpts :: (HasEnvConfig env, MonadThrow m, MonadReader env m, MonadIO m) => InstallMap -> InstalledMap -> [PackageName] -- ^ Packages to omit from the "-package" / "-package-id" flags -> [PackageName] -- ^ Packages to add to the "-package" flags -> Path Abs File -> PackageDescription -> Map NamedComponent [DotCabalPath] -> m (Map NamedComponent BuildInfoOpts) generatePkgDescOpts installMap installedMap omitPkgs addPkgs cabalfp pkg componentPaths = do config <- view configL cabalVer <- view cabalVersionL distDir <- distDirFromDir cabalDir let generate namedComponent binfo = ( namedComponent , generateBuildInfoOpts BioInput { biInstallMap = installMap , biInstalledMap = installedMap , biCabalDir = cabalDir , biDistDir = distDir , biOmitPackages = omitPkgs , biAddPackages = addPkgs , biBuildInfo = binfo , biDotCabalPaths = fromMaybe [] (M.lookup namedComponent componentPaths) , biConfigLibDirs = configExtraLibDirs config , biConfigIncludeDirs = configExtraIncludeDirs config , biComponentName = namedComponent , biCabalVersion = cabalVer } ) return ( M.fromList (concat [ maybe [] (return . generate CLib . libBuildInfo) (library pkg) , mapMaybe (\sublib -> do let maybeLib = CInternalLib . T.pack . Cabal.unUnqualComponentName <$> (libraryNameString . libName) sublib flip generate (libBuildInfo sublib) <$> maybeLib ) (subLibraries pkg) , fmap (\exe -> generate (CExe (T.pack (Cabal.unUnqualComponentName (exeName exe)))) (buildInfo exe)) (executables pkg) , fmap (\bench -> generate (CBench (T.pack (Cabal.unUnqualComponentName (benchmarkName bench)))) (benchmarkBuildInfo bench)) (benchmarks pkg) , fmap (\test -> generate (CTest (T.pack (Cabal.unUnqualComponentName (testName test)))) (testBuildInfo test)) (testSuites pkg)])) where cabalDir = parent cabalfp -- | Input to 'generateBuildInfoOpts' data BioInput = BioInput { biInstallMap :: !InstallMap , biInstalledMap :: !InstalledMap , biCabalDir :: !(Path Abs Dir) , biDistDir :: !(Path Abs Dir) , biOmitPackages :: ![PackageName] , biAddPackages :: ![PackageName] , biBuildInfo :: !BuildInfo , biDotCabalPaths :: ![DotCabalPath] , biConfigLibDirs :: ![FilePath] , biConfigIncludeDirs :: ![FilePath] , biComponentName :: !NamedComponent , biCabalVersion :: !Version } -- | Generate GHC options for the target. Since Cabal also figures out -- these options, currently this is only used for invoking GHCI (via -- stack ghci). generateBuildInfoOpts :: BioInput -> BuildInfoOpts generateBuildInfoOpts BioInput {..} = BuildInfoOpts { bioOpts = ghcOpts ++ cppOptions biBuildInfo -- NOTE for future changes: Due to this use of nubOrd (and other uses -- downstream), these generated options must not rely on multiple -- argument sequences. For example, ["--main-is", "Foo.hs", "--main- -- is", "Bar.hs"] would potentially break due to the duplicate -- "--main-is" being removed. -- -- See https://github.com/commercialhaskell/stack/issues/1255 , bioOneWordOpts = nubOrd $ concat [extOpts, srcOpts, includeOpts, libOpts, fworks, cObjectFiles] , bioPackageFlags = deps , bioCabalMacros = componentAutogen relFileCabalMacrosH } where cObjectFiles = mapMaybe (fmap toFilePath . makeObjectFilePathFromC biCabalDir biComponentName biDistDir) cfiles cfiles = mapMaybe dotCabalCFilePath biDotCabalPaths installVersion = snd -- Generates: -package=base -package=base16-bytestring-0.1.1.6 ... deps = concat [ case M.lookup name biInstalledMap of Just (_, Stack.Types.Package.Library _ident ipid _) -> ["-package-id=" <> ghcPkgIdString ipid] _ -> ["-package=" <> packageNameString name <> maybe "" -- This empty case applies to e.g. base. ((("-" <>) . versionString) . installVersion) (M.lookup name biInstallMap)] | name <- pkgs] pkgs = biAddPackages ++ [ name | Dependency name _ _ <- targetBuildDepends biBuildInfo -- TODO: cabal 3 introduced multiple public libraries in a single dependency , name `notElem` biOmitPackages] PerCompilerFlavor ghcOpts _ = options biBuildInfo extOpts = map (("-X" ++) . D.display) (usedExtensions biBuildInfo) srcOpts = map (("-i" <>) . toFilePathNoTrailingSep) (concat [ [ componentBuildDir biCabalVersion biComponentName biDistDir ] , [ biCabalDir | null (hsSourceDirs biBuildInfo) ] , mapMaybe toIncludeDir (hsSourceDirs biBuildInfo) , [ componentAutogen ] , maybeToList (packageAutogenDir biCabalVersion biDistDir) , [ componentOutputDir biComponentName biDistDir ] ]) ++ [ "-stubdir=" ++ toFilePathNoTrailingSep (buildDir biDistDir) ] componentAutogen = componentAutogenDir biCabalVersion biComponentName biDistDir toIncludeDir "." = Just biCabalDir toIncludeDir relDir = concatAndColapseAbsDir biCabalDir relDir includeOpts = map ("-I" <>) (biConfigIncludeDirs <> pkgIncludeOpts) pkgIncludeOpts = [ toFilePathNoTrailingSep absDir | dir <- includeDirs biBuildInfo , absDir <- handleDir dir ] libOpts = map ("-l" <>) (extraLibs biBuildInfo) <> map ("-L" <>) (biConfigLibDirs <> pkgLibDirs) pkgLibDirs = [ toFilePathNoTrailingSep absDir | dir <- extraLibDirs biBuildInfo , absDir <- handleDir dir ] handleDir dir = case (parseAbsDir dir, parseRelDir dir) of (Just ab, _ ) -> [ab] (_ , Just rel) -> [biCabalDir rel] (Nothing, Nothing ) -> [] fworks = map (\fwk -> "-framework=" <> fwk) (frameworks biBuildInfo) -- | Make the .o path from the .c file path for a component. Example: -- -- @ -- executable FOO -- c-sources: cbits/text_search.c -- @ -- -- Produces -- -- /build/FOO/FOO-tmp/cbits/text_search.o -- -- Example: -- -- λ> makeObjectFilePathFromC -- $(mkAbsDir "/Users/chris/Repos/hoogle") -- CLib -- $(mkAbsDir "/Users/chris/Repos/hoogle/.stack-work/Cabal-x.x.x/dist") -- $(mkAbsFile "/Users/chris/Repos/hoogle/cbits/text_search.c") -- Just "/Users/chris/Repos/hoogle/.stack-work/Cabal-x.x.x/dist/build/cbits/text_search.o" -- λ> makeObjectFilePathFromC -- $(mkAbsDir "/Users/chris/Repos/hoogle") -- (CExe "hoogle") -- $(mkAbsDir "/Users/chris/Repos/hoogle/.stack-work/Cabal-x.x.x/dist") -- $(mkAbsFile "/Users/chris/Repos/hoogle/cbits/text_search.c") -- Just "/Users/chris/Repos/hoogle/.stack-work/Cabal-x.x.x/dist/build/hoogle/hoogle-tmp/cbits/text_search.o" -- λ> makeObjectFilePathFromC :: MonadThrow m => Path Abs Dir -- ^ The cabal directory. -> NamedComponent -- ^ The name of the component. -> Path Abs Dir -- ^ Dist directory. -> Path Abs File -- ^ The path to the .c file. -> m (Path Abs File) -- ^ The path to the .o file for the component. makeObjectFilePathFromC cabalDir namedComponent distDir cFilePath = do relCFilePath <- stripProperPrefix cabalDir cFilePath relOFilePath <- parseRelFile (replaceExtension (toFilePath relCFilePath) "o") return (componentOutputDir namedComponent distDir relOFilePath) -- | Make the global autogen dir if Cabal version is new enough. packageAutogenDir :: Version -> Path Abs Dir -> Maybe (Path Abs Dir) packageAutogenDir cabalVer distDir | cabalVer < mkVersion [2, 0] = Nothing | otherwise = Just $ buildDir distDir relDirGlobalAutogen -- | Make the autogen dir. componentAutogenDir :: Version -> NamedComponent -> Path Abs Dir -> Path Abs Dir componentAutogenDir cabalVer component distDir = componentBuildDir cabalVer component distDir relDirAutogen -- | See 'Distribution.Simple.LocalBuildInfo.componentBuildDir' componentBuildDir :: Version -> NamedComponent -> Path Abs Dir -> Path Abs Dir componentBuildDir cabalVer component distDir | cabalVer < mkVersion [2, 0] = buildDir distDir | otherwise = case component of CLib -> buildDir distDir CInternalLib name -> buildDir distDir componentNameToDir name CExe name -> buildDir distDir componentNameToDir name CTest name -> buildDir distDir componentNameToDir name CBench name -> buildDir distDir componentNameToDir name -- | The directory where generated files are put like .o or .hs (from .x files). componentOutputDir :: NamedComponent -> Path Abs Dir -> Path Abs Dir componentOutputDir namedComponent distDir = case namedComponent of CLib -> buildDir distDir CInternalLib name -> makeTmp name CExe name -> makeTmp name CTest name -> makeTmp name CBench name -> makeTmp name where makeTmp name = buildDir distDir componentNameToDir (name <> "/" <> name <> "-tmp") -- | Make the build dir. Note that Cabal >= 2.0 uses the -- 'componentBuildDir' above for some things. buildDir :: Path Abs Dir -> Path Abs Dir buildDir distDir = distDir relDirBuild -- NOTE: don't export this, only use it for valid paths based on -- component names. componentNameToDir :: Text -> Path Rel Dir componentNameToDir name = fromMaybe (error "Invariant violated: component names should always parse as directory names") (parseRelDir (T.unpack name)) -- | Get all dependencies of the package (buildable targets only). -- -- Note that for Cabal versions 1.22 and earlier, there is a bug where -- Cabal requires dependencies for non-buildable components to be -- present. We're going to use GHC version as a proxy for Cabal -- library version in this case for simplicity, so we'll check for GHC -- being 7.10 or earlier. This obviously makes our function a lot more -- fun to write... packageDependencies :: PackageConfig -> PackageDescription -> Map PackageName VersionRange packageDependencies pkgConfig pkg' = M.fromListWith intersectVersionRanges $ map (depPkgName &&& depVerRange) $ concatMap targetBuildDepends (allBuildInfo' pkg) ++ maybe [] setupDepends (setupBuildInfo pkg) where pkg | getGhcVersion (packageConfigCompilerVersion pkgConfig) >= mkVersion [8, 0] = pkg' -- Set all components to buildable. Only need to worry about -- library, exe, test, and bench, since others didn't exist in -- older Cabal versions | otherwise = pkg' { library = (\c -> c { libBuildInfo = go (libBuildInfo c) }) <$> library pkg' , executables = (\c -> c { buildInfo = go (buildInfo c) }) <$> executables pkg' , testSuites = if packageConfigEnableTests pkgConfig then (\c -> c { testBuildInfo = go (testBuildInfo c) }) <$> testSuites pkg' else testSuites pkg' , benchmarks = if packageConfigEnableBenchmarks pkgConfig then (\c -> c { benchmarkBuildInfo = go (benchmarkBuildInfo c) }) <$> benchmarks pkg' else benchmarks pkg' } go bi = bi { buildable = True } -- | Get all dependencies of the package (buildable targets only). -- -- This uses both the new 'buildToolDepends' and old 'buildTools' -- information. packageDescTools :: PackageDescription -> (Set ExeName, Map PackageName DepValue) packageDescTools pd = (S.fromList $ concat unknowns, M.fromListWith (<>) $ concat knowns) where (unknowns, knowns) = unzip $ map perBI $ allBuildInfo' pd perBI :: BuildInfo -> ([ExeName], [(PackageName, DepValue)]) perBI bi = (unknownTools, tools) where (unknownTools, knownTools) = partitionEithers $ map go1 (buildTools bi) tools = mapMaybe go2 (knownTools ++ buildToolDepends bi) -- This is similar to desugarBuildTool from Cabal, however it -- uses our own hard-coded map which drops tools shipped with -- GHC (like hsc2hs), and includes some tools from Stackage. go1 :: Cabal.LegacyExeDependency -> Either ExeName Cabal.ExeDependency go1 (Cabal.LegacyExeDependency name range) = case M.lookup name hardCodedMap of Just pkgName -> Right $ Cabal.ExeDependency pkgName (Cabal.mkUnqualComponentName name) range Nothing -> Left $ ExeName $ T.pack name go2 :: Cabal.ExeDependency -> Maybe (PackageName, DepValue) go2 (Cabal.ExeDependency pkg _name range) | pkg `S.member` preInstalledPackages = Nothing | otherwise = Just ( pkg , DepValue { dvVersionRange = range , dvType = AsBuildTool } ) -- | A hard-coded map for tool dependencies hardCodedMap :: Map String D.PackageName hardCodedMap = M.fromList [ ("alex", Distribution.Package.mkPackageName "alex") , ("happy", Distribution.Package.mkPackageName "happy") , ("cpphs", Distribution.Package.mkPackageName "cpphs") , ("greencard", Distribution.Package.mkPackageName "greencard") , ("c2hs", Distribution.Package.mkPackageName "c2hs") , ("hscolour", Distribution.Package.mkPackageName "hscolour") , ("hspec-discover", Distribution.Package.mkPackageName "hspec-discover") , ("hsx2hs", Distribution.Package.mkPackageName "hsx2hs") , ("gtk2hsC2hs", Distribution.Package.mkPackageName "gtk2hs-buildtools") , ("gtk2hsHookGenerator", Distribution.Package.mkPackageName "gtk2hs-buildtools") , ("gtk2hsTypeGen", Distribution.Package.mkPackageName "gtk2hs-buildtools") ] -- | Executable-only packages which come pre-installed with GHC and do -- not need to be built. Without this exception, we would either end -- up unnecessarily rebuilding these packages, or failing because the -- packages do not appear in the Stackage snapshot. preInstalledPackages :: Set D.PackageName preInstalledPackages = S.fromList [ D.mkPackageName "hsc2hs" , D.mkPackageName "haddock" ] -- | Variant of 'allBuildInfo' from Cabal that, like versions before -- 2.2, only includes buildable components. allBuildInfo' :: PackageDescription -> [BuildInfo] allBuildInfo' pkg_descr = [ bi | lib <- allLibraries pkg_descr , let bi = libBuildInfo lib , buildable bi ] ++ [ bi | flib <- foreignLibs pkg_descr , let bi = foreignLibBuildInfo flib , buildable bi ] ++ [ bi | exe <- executables pkg_descr , let bi = buildInfo exe , buildable bi ] ++ [ bi | tst <- testSuites pkg_descr , let bi = testBuildInfo tst , buildable bi ] ++ [ bi | tst <- benchmarks pkg_descr , let bi = benchmarkBuildInfo tst , buildable bi ] -- | Get all files referenced by the package. packageDescModulesAndFiles :: PackageDescription -> RIO Ctx (Map NamedComponent (Map ModuleName (Path Abs File)), Map NamedComponent [DotCabalPath], Set (Path Abs File), [PackageWarning]) packageDescModulesAndFiles pkg = do (libraryMods,libDotCabalFiles,libWarnings) <- maybe (return (M.empty, M.empty, [])) (asModuleAndFileMap libComponent libraryFiles) (library pkg) (subLibrariesMods,subLibDotCabalFiles,subLibWarnings) <- liftM foldTuples (mapM (asModuleAndFileMap internalLibComponent libraryFiles) (subLibraries pkg)) (executableMods,exeDotCabalFiles,exeWarnings) <- liftM foldTuples (mapM (asModuleAndFileMap exeComponent executableFiles) (executables pkg)) (testMods,testDotCabalFiles,testWarnings) <- liftM foldTuples (mapM (asModuleAndFileMap testComponent testFiles) (testSuites pkg)) (benchModules,benchDotCabalPaths,benchWarnings) <- liftM foldTuples (mapM (asModuleAndFileMap benchComponent benchmarkFiles) (benchmarks pkg)) dfiles <- resolveGlobFiles (specVersion pkg) (extraSrcFiles pkg ++ map (dataDir pkg FilePath.) (dataFiles pkg)) let modules = libraryMods <> subLibrariesMods <> executableMods <> testMods <> benchModules files = libDotCabalFiles <> subLibDotCabalFiles <> exeDotCabalFiles <> testDotCabalFiles <> benchDotCabalPaths warnings = libWarnings <> subLibWarnings <> exeWarnings <> testWarnings <> benchWarnings return (modules, files, dfiles, warnings) where libComponent = const CLib internalLibComponent = CInternalLib . T.pack . maybe "" Cabal.unUnqualComponentName . libraryNameString . libName exeComponent = CExe . T.pack . Cabal.unUnqualComponentName . exeName testComponent = CTest . T.pack . Cabal.unUnqualComponentName . testName benchComponent = CBench . T.pack . Cabal.unUnqualComponentName . benchmarkName asModuleAndFileMap label f lib = do (a,b,c) <- f (label lib) lib return (M.singleton (label lib) a, M.singleton (label lib) b, c) foldTuples = foldl' (<>) (M.empty, M.empty, []) -- | Resolve globbing of files (e.g. data files) to absolute paths. resolveGlobFiles :: Version -- ^ cabal file version -> [String] -> RIO Ctx (Set (Path Abs File)) resolveGlobFiles cabalFileVersion = liftM (S.fromList . catMaybes . concat) . mapM resolve where resolve name = if '*' `elem` name then explode name else liftM return (resolveFileOrWarn name) explode name = do dir <- asks (parent . ctxFile) names <- matchDirFileGlob' (FL.toFilePath dir) name mapM resolveFileOrWarn names matchDirFileGlob' dir glob = catch (liftIO (matchDirFileGlob minBound cabalFileVersion dir glob)) (\(e :: IOException) -> if isUserError e then do prettyWarnL [ flow "Wildcard does not match any files:" , style File $ fromString glob , line <> flow "in directory:" , style Dir $ fromString dir ] return [] else throwIO e) -- | Get all files referenced by the benchmark. benchmarkFiles :: NamedComponent -> Benchmark -> RIO Ctx (Map ModuleName (Path Abs File), [DotCabalPath], [PackageWarning]) benchmarkFiles component bench = do resolveComponentFiles component build names where names = bnames <> exposed exposed = case benchmarkInterface bench of BenchmarkExeV10 _ fp -> [DotCabalMain fp] BenchmarkUnsupported _ -> [] bnames = map DotCabalModule (otherModules build) build = benchmarkBuildInfo bench -- | Get all files referenced by the test. testFiles :: NamedComponent -> TestSuite -> RIO Ctx (Map ModuleName (Path Abs File), [DotCabalPath], [PackageWarning]) testFiles component test = do resolveComponentFiles component build names where names = bnames <> exposed exposed = case testInterface test of TestSuiteExeV10 _ fp -> [DotCabalMain fp] TestSuiteLibV09 _ mn -> [DotCabalModule mn] TestSuiteUnsupported _ -> [] bnames = map DotCabalModule (otherModules build) build = testBuildInfo test -- | Get all files referenced by the executable. executableFiles :: NamedComponent -> Executable -> RIO Ctx (Map ModuleName (Path Abs File), [DotCabalPath], [PackageWarning]) executableFiles component exe = do resolveComponentFiles component build names where build = buildInfo exe names = map DotCabalModule (otherModules build) ++ [DotCabalMain (modulePath exe)] -- | Get all files referenced by the library. libraryFiles :: NamedComponent -> Library -> RIO Ctx (Map ModuleName (Path Abs File), [DotCabalPath], [PackageWarning]) libraryFiles component lib = do resolveComponentFiles component build names where build = libBuildInfo lib names = bnames ++ exposed exposed = map DotCabalModule (exposedModules lib) bnames = map DotCabalModule (otherModules build) -- | Get all files referenced by the component. resolveComponentFiles :: NamedComponent -> BuildInfo -> [DotCabalDescriptor] -> RIO Ctx (Map ModuleName (Path Abs File), [DotCabalPath], [PackageWarning]) resolveComponentFiles component build names = do dirs <- mapMaybeM resolveDirOrWarn (hsSourceDirs build) dir <- asks (parent . ctxFile) agdirs <- autogenDirs (modules,files,warnings) <- resolveFilesAndDeps component ((if null dirs then [dir] else dirs) ++ agdirs) names cfiles <- buildOtherSources build return (modules, files <> cfiles, warnings) where autogenDirs = do cabalVer <- asks ctxCabalVer distDir <- asks ctxDistDir let compDir = componentAutogenDir cabalVer component distDir pkgDir = maybeToList $ packageAutogenDir cabalVer distDir filterM doesDirExist $ compDir : pkgDir -- | Get all C sources and extra source files in a build. buildOtherSources :: BuildInfo -> RIO Ctx [DotCabalPath] buildOtherSources build = do cwd <- liftIO getCurrentDir dir <- asks (parent . ctxFile) file <- asks ctxFile let resolveDirFiles files toCabalPath = forMaybeM files $ \fp -> do result <- resolveDirFile dir fp case result of Nothing -> do warnMissingFile "File" cwd fp file return Nothing Just p -> return $ Just (toCabalPath p) csources <- resolveDirFiles (cSources build) DotCabalCFilePath jsources <- resolveDirFiles (targetJsSources build) DotCabalFilePath return (csources <> jsources) -- | Get the target's JS sources. targetJsSources :: BuildInfo -> [FilePath] targetJsSources = jsSources -- | A pair of package descriptions: one which modified the buildable -- values of test suites and benchmarks depending on whether they are -- enabled, and one which does not. -- -- Fields are intentionally lazy, we may only need one or the other -- value. -- -- MSS 2017-08-29: The very presence of this data type is terribly -- ugly, it represents the fact that the Cabal 2.0 upgrade did _not_ -- go well. Specifically, we used to have a field to indicate whether -- a component was enabled in addition to buildable, but that's gone -- now, and this is an ugly proxy. We should at some point clean up -- the mess of Package, LocalPackage, etc, and probably pull in the -- definition of PackageDescription from Cabal with our additionally -- needed metadata. But this is a good enough hack for the -- moment. Odds are, you're reading this in the year 2024 and thinking -- "wtf?" data PackageDescriptionPair = PackageDescriptionPair { pdpOrigBuildable :: PackageDescription , pdpModifiedBuildable :: PackageDescription } -- | Evaluates the conditions of a 'GenericPackageDescription', yielding -- a resolved 'PackageDescription'. resolvePackageDescription :: PackageConfig -> GenericPackageDescription -> PackageDescriptionPair resolvePackageDescription packageConfig (GenericPackageDescription desc defaultFlags mlib subLibs foreignLibs' exes tests benches) = PackageDescriptionPair { pdpOrigBuildable = go False , pdpModifiedBuildable = go True } where go modBuildable = desc {library = fmap (resolveConditions rc updateLibDeps) mlib ,subLibraries = map (\(n, v) -> (resolveConditions rc updateLibDeps v){libName=LSubLibName n}) subLibs ,foreignLibs = map (\(n, v) -> (resolveConditions rc updateForeignLibDeps v){foreignLibName=n}) foreignLibs' ,executables = map (\(n, v) -> (resolveConditions rc updateExeDeps v){exeName=n}) exes ,testSuites = map (\(n,v) -> (resolveConditions rc (updateTestDeps modBuildable) v){testName=n}) tests ,benchmarks = map (\(n,v) -> (resolveConditions rc (updateBenchmarkDeps modBuildable) v){benchmarkName=n}) benches} flags = M.union (packageConfigFlags packageConfig) (flagMap defaultFlags) rc = mkResolveConditions (packageConfigCompilerVersion packageConfig) (packageConfigPlatform packageConfig) flags updateLibDeps lib deps = lib {libBuildInfo = (libBuildInfo lib) {targetBuildDepends = deps}} updateForeignLibDeps lib deps = lib {foreignLibBuildInfo = (foreignLibBuildInfo lib) {targetBuildDepends = deps}} updateExeDeps exe deps = exe {buildInfo = (buildInfo exe) {targetBuildDepends = deps}} -- Note that, prior to moving to Cabal 2.0, we would set -- testEnabled/benchmarkEnabled here. These fields no longer -- exist, so we modify buildable instead here. The only -- wrinkle in the Cabal 2.0 story is -- https://github.com/haskell/cabal/issues/1725, where older -- versions of Cabal (which may be used for actually building -- code) don't properly exclude build-depends for -- non-buildable components. Testing indicates that everything -- is working fine, and that this comment can be completely -- ignored. I'm leaving the comment anyway in case something -- breaks and you, poor reader, are investigating. updateTestDeps modBuildable test deps = let bi = testBuildInfo test bi' = bi { targetBuildDepends = deps , buildable = buildable bi && (if modBuildable then packageConfigEnableTests packageConfig else True) } in test { testBuildInfo = bi' } updateBenchmarkDeps modBuildable benchmark deps = let bi = benchmarkBuildInfo benchmark bi' = bi { targetBuildDepends = deps , buildable = buildable bi && (if modBuildable then packageConfigEnableBenchmarks packageConfig else True) } in benchmark { benchmarkBuildInfo = bi' } -- | Make a map from a list of flag specifications. -- -- What is @flagManual@ for? flagMap :: [Flag] -> Map FlagName Bool flagMap = M.fromList . map pair where pair :: Flag -> (FlagName, Bool) pair = flagName &&& flagDefault data ResolveConditions = ResolveConditions { rcFlags :: Map FlagName Bool , rcCompilerVersion :: ActualCompiler , rcOS :: OS , rcArch :: Arch } -- | Generic a @ResolveConditions@ using sensible defaults. mkResolveConditions :: ActualCompiler -- ^ Compiler version -> Platform -- ^ installation target platform -> Map FlagName Bool -- ^ enabled flags -> ResolveConditions mkResolveConditions compilerVersion (Platform arch os) flags = ResolveConditions { rcFlags = flags , rcCompilerVersion = compilerVersion , rcOS = os , rcArch = arch } -- | Resolve the condition tree for the library. resolveConditions :: (Semigroup target,Monoid target,Show target) => ResolveConditions -> (target -> cs -> target) -> CondTree ConfVar cs target -> target resolveConditions rc addDeps (CondNode lib deps cs) = basic <> children where basic = addDeps lib deps children = mconcat (map apply cs) where apply (Cabal.CondBranch cond node mcs) = if condSatisfied cond then resolveConditions rc addDeps node else maybe mempty (resolveConditions rc addDeps) mcs condSatisfied c = case c of Var v -> varSatisifed v Lit b -> b CNot c' -> not (condSatisfied c') COr cx cy -> condSatisfied cx || condSatisfied cy CAnd cx cy -> condSatisfied cx && condSatisfied cy varSatisifed v = case v of OS os -> os == rcOS rc Arch arch -> arch == rcArch rc Flag flag -> fromMaybe False $ M.lookup flag (rcFlags rc) -- NOTE: ^^^^^ This should never happen, as all flags -- which are used must be declared. Defaulting to -- False. Impl flavor range -> case (flavor, rcCompilerVersion rc) of (GHC, ACGhc vghc) -> vghc `withinRange` range _ -> False -- | Try to resolve the list of base names in the given directory by -- looking for unique instances of base names applied with the given -- extensions, plus find any of their module and TemplateHaskell -- dependencies. resolveFilesAndDeps :: NamedComponent -- ^ Package component name -> [Path Abs Dir] -- ^ Directories to look in. -> [DotCabalDescriptor] -- ^ Base names. -> RIO Ctx (Map ModuleName (Path Abs File),[DotCabalPath],[PackageWarning]) resolveFilesAndDeps component dirs names0 = do (dotCabalPaths, foundModules, missingModules) <- loop names0 S.empty warnings <- liftM2 (++) (warnUnlisted foundModules) (warnMissing missingModules) return (foundModules, dotCabalPaths, warnings) where loop [] _ = return ([], M.empty, []) loop names doneModules0 = do resolved <- resolveFiles dirs names let foundFiles = mapMaybe snd resolved foundModules = mapMaybe toResolvedModule resolved missingModules = mapMaybe toMissingModule resolved pairs <- mapM (getDependencies component dirs) foundFiles let doneModules = S.union doneModules0 (S.fromList (mapMaybe dotCabalModule names)) moduleDeps = S.unions (map fst pairs) thDepFiles = concatMap snd pairs modulesRemaining = S.difference moduleDeps doneModules -- Ignore missing modules discovered as dependencies - they may -- have been deleted. (resolvedFiles, resolvedModules, _) <- loop (map DotCabalModule (S.toList modulesRemaining)) doneModules return ( nubOrd $ foundFiles <> map DotCabalFilePath thDepFiles <> resolvedFiles , M.union (M.fromList foundModules) resolvedModules , missingModules) warnUnlisted foundModules = do let unlistedModules = foundModules `M.difference` M.fromList (mapMaybe (fmap (, ()) . dotCabalModule) names0) return $ if M.null unlistedModules then [] else [ UnlistedModulesWarning component (map fst (M.toList unlistedModules))] warnMissing _missingModules = do return [] -- TODO: bring this back - see -- https://github.com/commercialhaskell/stack/issues/2649 {- cabalfp <- asks ctxFile return $ if null missingModules then [] else [ MissingModulesWarning cabalfp component missingModules] -} -- TODO: In usages of toResolvedModule / toMissingModule, some sort -- of map + partition would probably be better. toResolvedModule :: (DotCabalDescriptor, Maybe DotCabalPath) -> Maybe (ModuleName, Path Abs File) toResolvedModule (DotCabalModule mn, Just (DotCabalModulePath fp)) = Just (mn, fp) toResolvedModule _ = Nothing toMissingModule :: (DotCabalDescriptor, Maybe DotCabalPath) -> Maybe ModuleName toMissingModule (DotCabalModule mn, Nothing) = Just mn toMissingModule _ = Nothing -- | Get the dependencies of a Haskell module file. getDependencies :: NamedComponent -> [Path Abs Dir] -> DotCabalPath -> RIO Ctx (Set ModuleName, [Path Abs File]) getDependencies component dirs dotCabalPath = case dotCabalPath of DotCabalModulePath resolvedFile -> readResolvedHi resolvedFile DotCabalMainPath resolvedFile -> readResolvedHi resolvedFile DotCabalFilePath{} -> return (S.empty, []) DotCabalCFilePath{} -> return (S.empty, []) where readResolvedHi resolvedFile = do dumpHIDir <- componentOutputDir component <$> asks ctxDistDir dir <- asks (parent . ctxFile) let sourceDir = fromMaybe dir $ find (`isProperPrefixOf` resolvedFile) dirs stripSourceDir d = stripProperPrefix d resolvedFile case stripSourceDir sourceDir of Nothing -> return (S.empty, []) Just fileRel -> do let hiPath = FilePath.replaceExtension (toFilePath (dumpHIDir fileRel)) ".hi" dumpHIExists <- liftIO $ D.doesFileExist hiPath if dumpHIExists then parseHI hiPath else return (S.empty, []) -- | Parse a .hi file into a set of modules and files. parseHI :: FilePath -> RIO Ctx (Set ModuleName, [Path Abs File]) parseHI hiPath = do dir <- asks (parent . ctxFile) result <- liftIO $ Iface.fromFile hiPath `catchAnyDeep` \e -> pure (Left (show e)) case result of Left msg -> do prettyStackDevL [ flow "Failed to decode module interface:" , style File $ fromString hiPath , flow "Decoding failure:" , style Error $ fromString msg ] pure (S.empty, []) Right iface -> do let moduleNames = fmap (fromString . T.unpack . decodeUtf8Lenient . fst) . Iface.unList . Iface.dmods . Iface.deps resolveFileDependency file = do resolved <- liftIO (forgivingAbsence (resolveFile dir file)) >>= rejectMissingFile when (isNothing resolved) $ prettyWarnL [ flow "Dependent file listed in:" , style File $ fromString hiPath , flow "does not exist:" , style File $ fromString file ] pure resolved resolveUsages = traverse (resolveFileDependency . Iface.unUsage) . Iface.unList . Iface.usage resolvedUsages <- catMaybes <$> resolveUsages iface pure (S.fromList $ moduleNames iface, resolvedUsages) -- | Try to resolve the list of base names in the given directory by -- looking for unique instances of base names applied with the given -- extensions. resolveFiles :: [Path Abs Dir] -- ^ Directories to look in. -> [DotCabalDescriptor] -- ^ Base names. -> RIO Ctx [(DotCabalDescriptor, Maybe DotCabalPath)] resolveFiles dirs names = forM names (\name -> liftM (name, ) (findCandidate dirs name)) data CabalFileNameParseFail = CabalFileNameParseFail FilePath | CabalFileNameInvalidPackageName FilePath deriving (Typeable) instance Exception CabalFileNameParseFail instance Show CabalFileNameParseFail where show (CabalFileNameParseFail fp) = "Invalid file path for cabal file, must have a .cabal extension: " ++ fp show (CabalFileNameInvalidPackageName fp) = "cabal file names must use valid package names followed by a .cabal extension, the following is invalid: " ++ fp -- | Parse a package name from a file path. parsePackageNameFromFilePath :: MonadThrow m => Path a File -> m PackageName parsePackageNameFromFilePath fp = do base <- clean $ toFilePath $ filename fp case parsePackageName base of Nothing -> throwM $ CabalFileNameInvalidPackageName $ toFilePath fp Just x -> return x where clean = liftM reverse . strip . reverse strip ('l':'a':'b':'a':'c':'.':xs) = return xs strip _ = throwM (CabalFileNameParseFail (toFilePath fp)) -- | Find a candidate for the given module-or-filename from the list -- of directories and given extensions. findCandidate :: [Path Abs Dir] -> DotCabalDescriptor -> RIO Ctx (Maybe DotCabalPath) findCandidate dirs name = do pkg <- asks ctxFile >>= parsePackageNameFromFilePath customPreprocessorExts <- view $ configL . to configCustomPreprocessorExts let haskellPreprocessorExts = haskellDefaultPreprocessorExts ++ customPreprocessorExts candidates <- liftIO $ makeNameCandidates haskellPreprocessorExts case candidates of [candidate] -> return (Just (cons candidate)) [] -> do case name of DotCabalModule mn | D.display mn /= paths_pkg pkg -> logPossibilities dirs mn _ -> return () return Nothing (candidate:rest) -> do warnMultiple name candidate rest return (Just (cons candidate)) where cons = case name of DotCabalModule{} -> DotCabalModulePath DotCabalMain{} -> DotCabalMainPath DotCabalFile{} -> DotCabalFilePath DotCabalCFile{} -> DotCabalCFilePath paths_pkg pkg = "Paths_" ++ packageNameString pkg makeNameCandidates haskellPreprocessorExts = liftM (nubOrd . concat) (mapM (makeDirCandidates haskellPreprocessorExts) dirs) makeDirCandidates :: [Text] -> Path Abs Dir -> IO [Path Abs File] makeDirCandidates haskellPreprocessorExts dir = case name of DotCabalMain fp -> resolveCandidate dir fp DotCabalFile fp -> resolveCandidate dir fp DotCabalCFile fp -> resolveCandidate dir fp DotCabalModule mn -> do let perExt ext = resolveCandidate dir (Cabal.toFilePath mn ++ "." ++ T.unpack ext) withHaskellExts <- mapM perExt haskellFileExts withPPExts <- mapM perExt haskellPreprocessorExts pure $ case (concat withHaskellExts, concat withPPExts) of -- If we have exactly 1 Haskell extension and exactly -- 1 preprocessor extension, assume the former file is -- generated from the latter -- -- See https://github.com/commercialhaskell/stack/issues/4076 ([_], [y]) -> [y] -- Otherwise, return everything (xs, ys) -> xs ++ ys resolveCandidate dir = fmap maybeToList . resolveDirFile dir -- | Resolve file as a child of a specified directory, symlinks -- don't get followed. resolveDirFile :: (MonadIO m, MonadThrow m) => Path Abs Dir -> FilePath.FilePath -> m (Maybe (Path Abs File)) resolveDirFile x y = do -- The standard canonicalizePath does not work for this case p <- parseCollapsedAbsFile (toFilePath x FilePath. y) exists <- doesFileExist p return $ if exists then Just p else Nothing -- | Warn the user that multiple candidates are available for an -- entry, but that we picked one anyway and continued. warnMultiple :: DotCabalDescriptor -> Path b t -> [Path b t] -> RIO Ctx () warnMultiple name candidate rest = -- TODO: figure out how to style 'name' and the dispOne stuff prettyWarnL [ flow "There were multiple candidates for the Cabal entry" , fromString . showName $ name , line <> bulletedList (map dispOne (candidate:rest)) , line <> flow "picking:" , dispOne candidate ] where showName (DotCabalModule name') = D.display name' showName (DotCabalMain fp) = fp showName (DotCabalFile fp) = fp showName (DotCabalCFile fp) = fp dispOne = fromString . toFilePath -- TODO: figure out why dispOne can't be just `display` -- (remove the .hlint.yaml exception if it can be) -- | Log that we couldn't find a candidate, but there are -- possibilities for custom preprocessor extensions. -- -- For example: .erb for a Ruby file might exist in one of the -- directories. logPossibilities :: HasTerm env => [Path Abs Dir] -> ModuleName -> RIO env () logPossibilities dirs mn = do possibilities <- liftM concat (makePossibilities mn) unless (null possibilities) $ prettyWarnL [ flow "Unable to find a known candidate for the Cabal entry" , (style PP.Module . fromString $ D.display mn) <> "," , flow "but did find:" , line <> bulletedList (map pretty possibilities) , flow "If you are using a custom preprocessor for this module" , flow "with its own file extension, consider adding the extension" , flow "to the 'custom-preprocessor-extensions' field in stack.yaml." ] where makePossibilities name = mapM (\dir -> do (_,files) <- listDir dir return (map filename (filter (isPrefixOf (D.display name) . toFilePath . filename) files))) dirs -- | Path for the package's build log. buildLogPath :: (MonadReader env m, HasBuildConfig env, MonadThrow m) => Package -> Maybe String -> m (Path Abs File) buildLogPath package' msuffix = do env <- ask let stack = getProjectWorkDir env fp <- parseRelFile $ concat $ packageIdentifierString (packageIdentifier package') : maybe id (\suffix -> ("-" :) . (suffix :)) msuffix [".log"] return $ stack relDirLogs fp -- Internal helper to define resolveFileOrWarn and resolveDirOrWarn resolveOrWarn :: Text -> (Path Abs Dir -> String -> RIO Ctx (Maybe a)) -> FilePath.FilePath -> RIO Ctx (Maybe a) resolveOrWarn subject resolver path = do cwd <- liftIO getCurrentDir file <- asks ctxFile dir <- asks (parent . ctxFile) result <- resolver dir path when (isNothing result) $ warnMissingFile subject cwd path file return result warnMissingFile :: Text -> Path Abs Dir -> FilePath -> Path Abs File -> RIO Ctx () warnMissingFile subject cwd path fromFile = prettyWarnL [ fromString . T.unpack $ subject -- TODO: needs style? , flow "listed in" , maybe (pretty fromFile) pretty (stripProperPrefix cwd fromFile) , flow "file does not exist:" , style Dir . fromString $ path ] -- | Resolve the file, if it can't be resolved, warn for the user -- (purely to be helpful). resolveFileOrWarn :: FilePath.FilePath -> RIO Ctx (Maybe (Path Abs File)) resolveFileOrWarn = resolveOrWarn "File" f where f p x = liftIO (forgivingAbsence (resolveFile p x)) >>= rejectMissingFile -- | Resolve the directory, if it can't be resolved, warn for the user -- (purely to be helpful). resolveDirOrWarn :: FilePath.FilePath -> RIO Ctx (Maybe (Path Abs Dir)) resolveDirOrWarn = resolveOrWarn "Directory" f where f p x = liftIO (forgivingAbsence (resolveDir p x)) >>= rejectMissingDir {- FIXME -- | Create a 'ProjectPackage' from a directory containing a package. mkProjectPackage :: forall env. (HasPantryConfig env, HasLogFunc env, HasProcessContext env) => PrintWarnings -> ResolvedPath Dir -> RIO env ProjectPackage mkProjectPackage printWarnings dir = do (gpd, name, cabalfp) <- loadCabalFilePath (resolvedAbsolute dir) return ProjectPackage { ppCabalFP = cabalfp , ppGPD' = gpd printWarnings , ppResolvedDir = dir , ppName = name } -- | Create a 'DepPackage' from a 'PackageLocation' mkDepPackage :: forall env. (HasPantryConfig env, HasLogFunc env, HasProcessContext env) => PackageLocation -> RIO env DepPackage mkDepPackage pl = do (name, gpdio) <- case pl of PLMutable dir -> do (gpdio, name, _cabalfp) <- loadCabalFilePath (resolvedAbsolute dir) pure (name, gpdio NoPrintWarnings) PLImmutable pli -> do PackageIdentifier name _ <- getPackageLocationIdent pli run <- askRunInIO pure (name, run $ loadCabalFileImmutable pli) return DepPackage { dpGPD' = gpdio , dpLocation = pl , dpName = name } -} -- | Force a package to be treated as a custom build type, see -- applyForceCustomBuild :: Version -- ^ global Cabal version -> Package -> Package applyForceCustomBuild cabalVersion package | forceCustomBuild = package { packageBuildType = Custom , packageDeps = M.insertWith (<>) "Cabal" (DepValue cabalVersionRange AsLibrary) $ packageDeps package , packageSetupDeps = Just $ M.fromList [ ("Cabal", cabalVersionRange) , ("base", anyVersion) ] } | otherwise = package where cabalVersionRange = packageCabalSpec package forceCustomBuild = packageBuildType package == Simple && not (cabalVersion `withinRange` cabalVersionRange)