cabal-install-3.8.1.0: tests/IntegrationTests2.hs
{-# LANGUAGE CPP #-}
{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE OverloadedStrings #-}
-- For the handy instance IsString PackageIdentifier
{-# OPTIONS_GHC -fno-warn-orphans #-}
module Main where
import Distribution.Client.Compat.Prelude
import Prelude ()
import Distribution.Client.DistDirLayout
import Distribution.Client.ProjectConfig
import Distribution.Client.Config (getCabalDir)
import Distribution.Client.HttpUtils
import Distribution.Client.TargetSelector hiding (DirActions(..))
import qualified Distribution.Client.TargetSelector as TS (DirActions(..))
import Distribution.Client.ProjectPlanning
import Distribution.Client.ProjectPlanning.Types
import Distribution.Client.ProjectBuilding
import Distribution.Client.ProjectOrchestration
( resolveTargets, distinctTargetComponents )
import Distribution.Client.TargetProblem
( TargetProblem', TargetProblem (..) )
import Distribution.Client.Types
( PackageLocation(..), UnresolvedSourcePackage
, PackageSpecifier(..) )
import Distribution.Client.Targets
( UserConstraint(..), UserConstraintScope(UserAnyQualifier) )
import qualified Distribution.Client.InstallPlan as InstallPlan
import Distribution.Solver.Types.SourcePackage as SP
import Distribution.Solver.Types.ConstraintSource
( ConstraintSource(ConstraintSourceUnknown) )
import Distribution.Solver.Types.PackageConstraint
( PackageProperty(PackagePropertySource) )
import qualified Distribution.Client.CmdBuild as CmdBuild
import qualified Distribution.Client.CmdRepl as CmdRepl
import qualified Distribution.Client.CmdRun as CmdRun
import qualified Distribution.Client.CmdTest as CmdTest
import qualified Distribution.Client.CmdBench as CmdBench
import qualified Distribution.Client.CmdHaddock as CmdHaddock
import qualified Distribution.Client.CmdListBin as CmdListBin
import Distribution.Package
import Distribution.PackageDescription
import Distribution.InstalledPackageInfo (InstalledPackageInfo)
import Distribution.Simple.Setup (toFlag, HaddockFlags(..), defaultHaddockFlags)
import Distribution.Client.Setup (globalCommand)
import Distribution.Simple.Compiler
import Distribution.Simple.Command
import qualified Distribution.Simple.Flag as Flag
import Distribution.System
import Distribution.Version
import Distribution.ModuleName (ModuleName)
import Distribution.Text
import Distribution.Utils.Path
import qualified Data.Map as Map
import qualified Data.Set as Set
import Control.Monad
import Control.Concurrent (threadDelay)
import Control.Exception hiding (assert)
import System.FilePath
import System.Directory
import System.IO (hPutStrLn, stderr)
import Test.Tasty
import Test.Tasty.HUnit
import Test.Tasty.Options
import Data.Tagged (Tagged(..))
import qualified Data.ByteString as BS
import Distribution.Client.GlobalFlags (GlobalFlags, globalNix)
import Distribution.Simple.Flag (Flag (Flag, NoFlag))
import Data.Maybe (fromJust)
#if !MIN_VERSION_directory(1,2,7)
removePathForcibly :: FilePath -> IO ()
removePathForcibly = removeDirectoryRecursive
#endif
main :: IO ()
main =
defaultMainWithIngredients
(defaultIngredients ++ [includingOptions projectConfigOptionDescriptions])
(withProjectConfig $ \config ->
testGroup "Integration tests (internal)"
(tests config))
tests :: ProjectConfig -> [TestTree]
tests config =
--TODO: tests for:
-- * normal success
-- * dry-run tests with changes
[ testGroup "Discovery and planning" $
[ testCase "find root" testFindProjectRoot
, testCase "find root fail" testExceptionFindProjectRoot
, testCase "no package" (testExceptionInFindingPackage config)
, testCase "no package2" (testExceptionInFindingPackage2 config)
, testCase "proj conf1" (testExceptionInProjectConfig config)
]
, testGroup "Target selectors" $
[ testCaseSteps "valid" testTargetSelectors
, testCase "bad syntax" testTargetSelectorBadSyntax
, testCaseSteps "ambiguous syntax" testTargetSelectorAmbiguous
, testCase "no current pkg" testTargetSelectorNoCurrentPackage
, testCase "no targets" testTargetSelectorNoTargets
, testCase "project empty" testTargetSelectorProjectEmpty
, testCase "canonicalized path" testTargetSelectorCanonicalizedPath
, testCase "problems (common)" (testTargetProblemsCommon config)
, testCaseSteps "problems (build)" (testTargetProblemsBuild config)
, testCaseSteps "problems (repl)" (testTargetProblemsRepl config)
, testCaseSteps "problems (run)" (testTargetProblemsRun config)
, testCaseSteps "problems (list-bin)" (testTargetProblemsListBin config)
, testCaseSteps "problems (test)" (testTargetProblemsTest config)
, testCaseSteps "problems (bench)" (testTargetProblemsBench config)
, testCaseSteps "problems (haddock)" (testTargetProblemsHaddock config)
]
, testGroup "Exceptions during building (local inplace)" $
[ testCase "configure" (testExceptionInConfigureStep config)
, testCase "build" (testExceptionInBuildStep config)
-- , testCase "register" testExceptionInRegisterStep
]
--TODO: need to repeat for packages for the store
--TODO: need to check we can build sub-libs, foreign libs and exes
-- components for non-local packages / packages in the store.
, testGroup "Successful builds" $
[ testCaseSteps "Setup script styles" (testSetupScriptStyles config)
, testCase "keep-going" (testBuildKeepGoing config)
#ifndef mingw32_HOST_OS
-- disabled because https://github.com/haskell/cabal/issues/6272
, testCase "local tarball" (testBuildLocalTarball config)
#endif
]
, testGroup "Regression tests" $
[ testCase "issue #3324" (testRegressionIssue3324 config)
, testCase "program options scope all" (testProgramOptionsAll config)
, testCase "program options scope local" (testProgramOptionsLocal config)
, testCase "program options scope specific" (testProgramOptionsSpecific config)
]
, testGroup "Flag tests" $
[
testCase "Test Nix Flag" testNixFlags,
testCase "Test Ignore Project Flag" testIgnoreProjectFlag
]
]
testFindProjectRoot :: Assertion
testFindProjectRoot = do
Left (BadProjectRootExplicitFile file) <- findProjectRoot (Just testdir)
(Just testfile)
file @?= testfile
where
testdir = basedir </> "exception" </> "no-pkg2"
testfile = "bklNI8O1OpOUuDu3F4Ij4nv3oAqN"
testExceptionFindProjectRoot :: Assertion
testExceptionFindProjectRoot = do
Right (ProjectRootExplicit dir _) <- findProjectRoot (Just testdir) Nothing
cwd <- getCurrentDirectory
dir @?= cwd </> testdir
where
testdir = basedir </> "exception" </> "no-pkg2"
testTargetSelectors :: (String -> IO ()) -> Assertion
testTargetSelectors reportSubCase = do
(_, _, _, localPackages, _) <- configureProject testdir config
let readTargetSelectors' = readTargetSelectorsWith (dirActions testdir)
localPackages
Nothing
reportSubCase "cwd"
do Right ts <- readTargetSelectors' []
ts @?= [TargetPackage TargetImplicitCwd ["p-0.1"] Nothing]
reportSubCase "all"
do Right ts <- readTargetSelectors'
["all", ":all"]
ts @?= replicate 2 (TargetAllPackages Nothing)
reportSubCase "filter"
do Right ts <- readTargetSelectors'
[ "libs", ":cwd:libs"
, "flibs", ":cwd:flibs"
, "exes", ":cwd:exes"
, "tests", ":cwd:tests"
, "benchmarks", ":cwd:benchmarks"]
zipWithM_ (@?=) ts
[ TargetPackage TargetImplicitCwd ["p-0.1"] (Just kind)
| kind <- concatMap (replicate 2) [LibKind .. ]
]
reportSubCase "all:filter"
do Right ts <- readTargetSelectors'
[ "all:libs", ":all:libs"
, "all:flibs", ":all:flibs"
, "all:exes", ":all:exes"
, "all:tests", ":all:tests"
, "all:benchmarks", ":all:benchmarks"]
zipWithM_ (@?=) ts
[ TargetAllPackages (Just kind)
| kind <- concatMap (replicate 2) [LibKind .. ]
]
reportSubCase "pkg"
do Right ts <- readTargetSelectors'
[ ":pkg:p", ".", "./", "p.cabal"
, "q", ":pkg:q", "q/", "./q/", "q/q.cabal"]
ts @?= replicate 4 (mkTargetPackage "p-0.1")
++ replicate 5 (mkTargetPackage "q-0.1")
reportSubCase "pkg:filter"
do Right ts <- readTargetSelectors'
[ "p:libs", ".:libs", ":pkg:p:libs"
, "p:flibs", ".:flibs", ":pkg:p:flibs"
, "p:exes", ".:exes", ":pkg:p:exes"
, "p:tests", ".:tests", ":pkg:p:tests"
, "p:benchmarks", ".:benchmarks", ":pkg:p:benchmarks"
, "q:libs", "q/:libs", ":pkg:q:libs"
, "q:flibs", "q/:flibs", ":pkg:q:flibs"
, "q:exes", "q/:exes", ":pkg:q:exes"
, "q:tests", "q/:tests", ":pkg:q:tests"
, "q:benchmarks", "q/:benchmarks", ":pkg:q:benchmarks"]
zipWithM_ (@?=) ts $
[ TargetPackage TargetExplicitNamed ["p-0.1"] (Just kind)
| kind <- concatMap (replicate 3) [LibKind .. ]
] ++
[ TargetPackage TargetExplicitNamed ["q-0.1"] (Just kind)
| kind <- concatMap (replicate 3) [LibKind .. ]
]
reportSubCase "component"
do Right ts <- readTargetSelectors'
[ "p", "lib:p", "p:lib:p", ":pkg:p:lib:p"
, "lib:q", "q:lib:q", ":pkg:q:lib:q" ]
ts @?= replicate 4 (TargetComponent "p-0.1" (CLibName LMainLibName) WholeComponent)
++ replicate 3 (TargetComponent "q-0.1" (CLibName LMainLibName) WholeComponent)
reportSubCase "module"
do Right ts <- readTargetSelectors'
[ "P", "lib:p:P", "p:p:P", ":pkg:p:lib:p:module:P"
, "QQ", "lib:q:QQ", "q:q:QQ", ":pkg:q:lib:q:module:QQ"
, "pexe:PMain" -- p:P or q:QQ would be ambiguous here
, "qexe:QMain" -- package p vs component p
]
ts @?= replicate 4 (TargetComponent "p-0.1" (CLibName LMainLibName) (ModuleTarget "P"))
++ replicate 4 (TargetComponent "q-0.1" (CLibName LMainLibName) (ModuleTarget "QQ"))
++ [ TargetComponent "p-0.1" (CExeName "pexe") (ModuleTarget "PMain")
, TargetComponent "q-0.1" (CExeName "qexe") (ModuleTarget "QMain")
]
reportSubCase "file"
do Right ts <- readTargetSelectors'
[ "./P.hs", "p:P.lhs", "lib:p:P.hsc", "p:p:P.hsc",
":pkg:p:lib:p:file:P.y"
, "q/QQ.hs", "q:QQ.lhs", "lib:q:QQ.hsc", "q:q:QQ.hsc",
":pkg:q:lib:q:file:QQ.y"
, "q/Q.hs", "q:Q.lhs", "lib:q:Q.hsc", "q:q:Q.hsc",
":pkg:q:lib:q:file:Q.y"
, "app/Main.hs", "p:app/Main.hs", "exe:ppexe:app/Main.hs", "p:ppexe:app/Main.hs",
":pkg:p:exe:ppexe:file:app/Main.hs"
]
ts @?= replicate 5 (TargetComponent "p-0.1" (CLibName LMainLibName) (FileTarget "P"))
++ replicate 5 (TargetComponent "q-0.1" (CLibName LMainLibName) (FileTarget "QQ"))
++ replicate 5 (TargetComponent "q-0.1" (CLibName LMainLibName) (FileTarget "Q"))
++ replicate 5 (TargetComponent "p-0.1" (CExeName "ppexe") (FileTarget ("app" </> "Main.hs")))
-- Note there's a bit of an inconsistency here: for the single-part
-- syntax the target has to point to a file that exists, whereas for
-- all the other forms we don't require that.
cleanProject testdir
where
testdir = "targets/simple"
config = mempty
testTargetSelectorBadSyntax :: Assertion
testTargetSelectorBadSyntax = do
(_, _, _, localPackages, _) <- configureProject testdir config
let targets = [ "foo bar", " foo"
, "foo:", "foo::bar"
, "foo: ", "foo: :bar"
, "a:b:c:d:e:f", "a:b:c:d:e:f:g:h" ]
Left errs <- readTargetSelectors localPackages Nothing targets
zipWithM_ (@?=) errs (map TargetSelectorUnrecognised targets)
cleanProject testdir
where
testdir = "targets/empty"
config = mempty
testTargetSelectorAmbiguous :: (String -> IO ()) -> Assertion
testTargetSelectorAmbiguous reportSubCase = do
-- 'all' is ambiguous with packages and cwd components
reportSubCase "ambiguous: all vs pkg"
assertAmbiguous "all"
[mkTargetPackage "all", mkTargetAllPackages]
[mkpkg "all" []]
reportSubCase "ambiguous: all vs cwd component"
assertAmbiguous "all"
[mkTargetComponent "other" (CExeName "all"), mkTargetAllPackages]
[mkpkg "other" [mkexe "all"]]
-- but 'all' is not ambiguous with non-cwd components, modules or files
reportSubCase "unambiguous: all vs non-cwd comp, mod, file"
assertUnambiguous "All"
mkTargetAllPackages
[ mkpkgAt "foo" [mkexe "All"] "foo"
, mkpkg "bar" [ mkexe "bar" `withModules` ["All"]
, mkexe "baz" `withCFiles` ["All"] ]
]
-- filters 'libs', 'exes' etc are ambiguous with packages and
-- local components
reportSubCase "ambiguous: cwd-pkg filter vs pkg"
assertAmbiguous "libs"
[ mkTargetPackage "libs"
, TargetPackage TargetImplicitCwd ["libs"] (Just LibKind) ]
[mkpkg "libs" []]
reportSubCase "ambiguous: filter vs cwd component"
assertAmbiguous "exes"
[ mkTargetComponent "other" (CExeName "exes")
, TargetPackage TargetImplicitCwd ["other"] (Just ExeKind) ]
[mkpkg "other" [mkexe "exes"]]
-- but filters are not ambiguous with non-cwd components, modules or files
reportSubCase "unambiguous: filter vs non-cwd comp, mod, file"
assertUnambiguous "Libs"
(TargetPackage TargetImplicitCwd ["bar"] (Just LibKind))
[ mkpkgAt "foo" [mkexe "Libs"] "foo"
, mkpkg "bar" [ mkexe "bar" `withModules` ["Libs"]
, mkexe "baz" `withCFiles` ["Libs"] ]
]
-- local components shadow packages and other components
reportSubCase "unambiguous: cwd comp vs pkg, non-cwd comp"
assertUnambiguous "foo"
(mkTargetComponent "other" (CExeName "foo"))
[ mkpkg "other" [mkexe "foo"]
, mkpkgAt "other2" [mkexe "foo"] "other2" -- shadows non-local foo
, mkpkg "foo" [] ] -- shadows package foo
-- local components shadow modules and files
reportSubCase "unambiguous: cwd comp vs module, file"
assertUnambiguous "Foo"
(mkTargetComponent "bar" (CExeName "Foo"))
[ mkpkg "bar" [mkexe "Foo"]
, mkpkg "other" [ mkexe "other" `withModules` ["Foo"]
, mkexe "other2" `withCFiles` ["Foo"] ]
]
-- packages shadow non-local components
reportSubCase "unambiguous: pkg vs non-cwd comp"
assertUnambiguous "foo"
(mkTargetPackage "foo")
[ mkpkg "foo" []
, mkpkgAt "other" [mkexe "foo"] "other" -- shadows non-local foo
]
-- packages shadow modules and files
reportSubCase "unambiguous: pkg vs module, file"
assertUnambiguous "Foo"
(mkTargetPackage "Foo")
[ mkpkgAt "Foo" [] "foo"
, mkpkg "other" [ mkexe "other" `withModules` ["Foo"]
, mkexe "other2" `withCFiles` ["Foo"] ]
]
-- File target is ambiguous, part of multiple components
reportSubCase "ambiguous: file in multiple comps"
assertAmbiguous "Bar.hs"
[ mkTargetFile "foo" (CExeName "bar") "Bar"
, mkTargetFile "foo" (CExeName "bar2") "Bar"
]
[ mkpkg "foo" [ mkexe "bar" `withModules` ["Bar"]
, mkexe "bar2" `withModules` ["Bar"] ]
]
reportSubCase "ambiguous: file in multiple comps with path"
assertAmbiguous ("src" </> "Bar.hs")
[ mkTargetFile "foo" (CExeName "bar") ("src" </> "Bar")
, mkTargetFile "foo" (CExeName "bar2") ("src" </> "Bar")
]
[ mkpkg "foo" [ mkexe "bar" `withModules` ["Bar"] `withHsSrcDirs` ["src"]
, mkexe "bar2" `withModules` ["Bar"] `withHsSrcDirs` ["src"] ]
]
-- non-exact case packages and components are ambiguous
reportSubCase "ambiguous: non-exact-case pkg names"
assertAmbiguous "Foo"
[ mkTargetPackage "foo", mkTargetPackage "FOO" ]
[ mkpkg "foo" [], mkpkg "FOO" [] ]
reportSubCase "ambiguous: non-exact-case comp names"
assertAmbiguous "Foo"
[ mkTargetComponent "bar" (CExeName "foo")
, mkTargetComponent "bar" (CExeName "FOO") ]
[ mkpkg "bar" [mkexe "foo", mkexe "FOO"] ]
-- exact-case Module or File over non-exact case package or component
reportSubCase "unambiguous: module vs non-exact-case pkg, comp"
assertUnambiguous "Baz"
(mkTargetModule "other" (CExeName "other") "Baz")
[ mkpkg "baz" [mkexe "BAZ"]
, mkpkg "other" [ mkexe "other" `withModules` ["Baz"] ]
]
reportSubCase "unambiguous: file vs non-exact-case pkg, comp"
assertUnambiguous "Baz"
(mkTargetFile "other" (CExeName "other") "Baz")
[ mkpkg "baz" [mkexe "BAZ"]
, mkpkg "other" [ mkexe "other" `withCFiles` ["Baz"] ]
]
where
assertAmbiguous :: String
-> [TargetSelector]
-> [SourcePackage (PackageLocation a)]
-> Assertion
assertAmbiguous str tss pkgs = do
res <- readTargetSelectorsWith
fakeDirActions
(map SpecificSourcePackage pkgs)
Nothing
[str]
case res of
Left [TargetSelectorAmbiguous _ tss'] ->
sort (map snd tss') @?= sort tss
_ -> assertFailure $ "expected Left [TargetSelectorAmbiguous _ _], "
++ "got " ++ show res
assertUnambiguous :: String
-> TargetSelector
-> [SourcePackage (PackageLocation a)]
-> Assertion
assertUnambiguous str ts pkgs = do
res <- readTargetSelectorsWith
fakeDirActions
(map SpecificSourcePackage pkgs)
Nothing
[str]
case res of
Right [ts'] -> ts' @?= ts
_ -> assertFailure $ "expected Right [Target...], "
++ "got " ++ show res
fakeDirActions = TS.DirActions {
TS.doesFileExist = \_p -> return True,
TS.doesDirectoryExist = \_p -> return True,
TS.canonicalizePath = \p -> return ("/" </> p), -- FilePath.Unix.</> ?
TS.getCurrentDirectory = return "/"
}
mkpkg :: String -> [Executable] -> SourcePackage (PackageLocation a)
mkpkg pkgidstr exes = mkpkgAt pkgidstr exes ""
mkpkgAt :: String -> [Executable] -> FilePath
-> SourcePackage (PackageLocation a)
mkpkgAt pkgidstr exes loc =
SourcePackage {
srcpkgPackageId = pkgid,
srcpkgSource = LocalUnpackedPackage loc,
srcpkgDescrOverride = Nothing,
srcpkgDescription = GenericPackageDescription {
packageDescription = emptyPackageDescription { package = pkgid },
gpdScannedVersion = Nothing,
genPackageFlags = [],
condLibrary = Nothing,
condSubLibraries = [],
condForeignLibs = [],
condExecutables = [ ( exeName exe, CondNode exe [] [] )
| exe <- exes ],
condTestSuites = [],
condBenchmarks = []
}
}
where
pkgid = fromMaybe (error $ "failed to parse " ++ pkgidstr) $ simpleParse pkgidstr
mkexe :: String -> Executable
mkexe name = mempty { exeName = fromString name }
withModules :: Executable -> [String] -> Executable
withModules exe mods =
exe { buildInfo = (buildInfo exe) { otherModules = map fromString mods } }
withCFiles :: Executable -> [FilePath] -> Executable
withCFiles exe files =
exe { buildInfo = (buildInfo exe) { cSources = files } }
withHsSrcDirs :: Executable -> [FilePath] -> Executable
withHsSrcDirs exe srcDirs =
exe { buildInfo = (buildInfo exe) { hsSourceDirs = map unsafeMakeSymbolicPath srcDirs }}
mkTargetPackage :: PackageId -> TargetSelector
mkTargetPackage pkgid =
TargetPackage TargetExplicitNamed [pkgid] Nothing
mkTargetComponent :: PackageId -> ComponentName -> TargetSelector
mkTargetComponent pkgid cname =
TargetComponent pkgid cname WholeComponent
mkTargetModule :: PackageId -> ComponentName -> ModuleName -> TargetSelector
mkTargetModule pkgid cname mname =
TargetComponent pkgid cname (ModuleTarget mname)
mkTargetFile :: PackageId -> ComponentName -> String -> TargetSelector
mkTargetFile pkgid cname fname =
TargetComponent pkgid cname (FileTarget fname)
mkTargetAllPackages :: TargetSelector
mkTargetAllPackages = TargetAllPackages Nothing
instance IsString PackageIdentifier where
fromString pkgidstr = pkgid
where pkgid = fromMaybe (error $ "fromString @PackageIdentifier " ++ show pkgidstr) $ simpleParse pkgidstr
testTargetSelectorNoCurrentPackage :: Assertion
testTargetSelectorNoCurrentPackage = do
(_, _, _, localPackages, _) <- configureProject testdir config
let readTargetSelectors' = readTargetSelectorsWith (dirActions testdir)
localPackages
Nothing
targets = [ "libs", ":cwd:libs"
, "flibs", ":cwd:flibs"
, "exes", ":cwd:exes"
, "tests", ":cwd:tests"
, "benchmarks", ":cwd:benchmarks"]
Left errs <- readTargetSelectors' targets
zipWithM_ (@?=) errs
[ TargetSelectorNoCurrentPackage ts
| target <- targets
, let ts = fromMaybe (error $ "failed to parse target string " ++ target) $ parseTargetString target
]
cleanProject testdir
where
testdir = "targets/complex"
config = mempty
testTargetSelectorNoTargets :: Assertion
testTargetSelectorNoTargets = do
(_, _, _, localPackages, _) <- configureProject testdir config
Left errs <- readTargetSelectors localPackages Nothing []
errs @?= [TargetSelectorNoTargetsInCwd True]
cleanProject testdir
where
testdir = "targets/complex"
config = mempty
testTargetSelectorProjectEmpty :: Assertion
testTargetSelectorProjectEmpty = do
(_, _, _, localPackages, _) <- configureProject testdir config
Left errs <- readTargetSelectors localPackages Nothing []
errs @?= [TargetSelectorNoTargetsInProject]
cleanProject testdir
where
testdir = "targets/empty"
config = mempty
-- | Ensure we don't miss primary package and produce
-- TargetSelectorNoTargetsInCwd error due to symlink or
-- drive capitalisation mismatch when no targets are given
testTargetSelectorCanonicalizedPath :: Assertion
testTargetSelectorCanonicalizedPath = do
(_, _, _, localPackages, _) <- configureProject testdir config
cwd <- getCurrentDirectory
let virtcwd = cwd </> basedir </> symlink
-- Check that the symlink is there before running test as on Windows
-- some versions/configurations of git won't pull down/create the symlink
canRunTest <- doesDirectoryExist virtcwd
when canRunTest (do
let dirActions' = (dirActions symlink) { TS.getCurrentDirectory = return virtcwd }
Right ts <- readTargetSelectorsWith dirActions' localPackages Nothing []
ts @?= [TargetPackage TargetImplicitCwd ["p-0.1"] Nothing])
cleanProject testdir
where
testdir = "targets/simple"
symlink = "targets/symbolic-link-to-simple"
config = mempty
testTargetProblemsCommon :: ProjectConfig -> Assertion
testTargetProblemsCommon config0 = do
(_,elaboratedPlan,_) <- planProject testdir config
let pkgIdMap :: Map.Map PackageName PackageId
pkgIdMap = Map.fromList
[ (packageName p, packageId p)
| p <- InstallPlan.toList elaboratedPlan ]
cases :: [( TargetSelector -> TargetProblem'
, TargetSelector
)]
cases =
[ -- Cannot resolve packages outside of the project
( \_ -> TargetProblemNoSuchPackage "foobar"
, mkTargetPackage "foobar" )
-- We cannot currently build components like testsuites or
-- benchmarks from packages that are not local to the project
, ( \_ -> TargetComponentNotProjectLocal
(pkgIdMap Map.! "filepath") (CTestName "filepath-tests")
WholeComponent
, mkTargetComponent (pkgIdMap Map.! "filepath")
(CTestName "filepath-tests") )
-- Components can be explicitly @buildable: False@
, ( \_ -> TargetComponentNotBuildable "q-0.1" (CExeName "buildable-false") WholeComponent
, mkTargetComponent "q-0.1" (CExeName "buildable-false") )
-- Testsuites and benchmarks can be disabled by the solver if it
-- cannot satisfy deps
, ( \_ -> TargetOptionalStanzaDisabledBySolver "q-0.1" (CTestName "solver-disabled") WholeComponent
, mkTargetComponent "q-0.1" (CTestName "solver-disabled") )
-- Testsuites and benchmarks can be disabled explicitly by the
-- user via config
, ( \_ -> TargetOptionalStanzaDisabledByUser
"q-0.1" (CBenchName "user-disabled") WholeComponent
, mkTargetComponent "q-0.1" (CBenchName "user-disabled") )
-- An unknown package. The target selector resolution should only
-- produce known packages, so this should not happen with the
-- output from 'readTargetSelectors'.
, ( \_ -> TargetProblemNoSuchPackage "foobar"
, mkTargetPackage "foobar" )
-- An unknown component of a known package. The target selector
-- resolution should only produce known packages, so this should
-- not happen with the output from 'readTargetSelectors'.
, ( \_ -> TargetProblemNoSuchComponent "q-0.1" (CExeName "no-such")
, mkTargetComponent "q-0.1" (CExeName "no-such") )
]
assertTargetProblems
elaboratedPlan
CmdBuild.selectPackageTargets
CmdBuild.selectComponentTarget
cases
where
testdir = "targets/complex"
config = config0 {
projectConfigLocalPackages = (projectConfigLocalPackages config0) {
packageConfigBenchmarks = toFlag False
}
, projectConfigShared = (projectConfigShared config0) {
projectConfigConstraints =
[( UserConstraint (UserAnyQualifier "filepath") PackagePropertySource
, ConstraintSourceUnknown )]
}
}
testTargetProblemsBuild :: ProjectConfig -> (String -> IO ()) -> Assertion
testTargetProblemsBuild config reportSubCase = do
reportSubCase "empty-pkg"
assertProjectTargetProblems
"targets/empty-pkg" config
CmdBuild.selectPackageTargets
CmdBuild.selectComponentTarget
[ ( TargetProblemNoTargets, mkTargetPackage "p-0.1" )
]
reportSubCase "all-disabled"
assertProjectTargetProblems
"targets/all-disabled"
config {
projectConfigLocalPackages = (projectConfigLocalPackages config) {
packageConfigBenchmarks = toFlag False
}
}
CmdBuild.selectPackageTargets
CmdBuild.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CBenchName "user-disabled")
TargetDisabledByUser True
, AvailableTarget "p-0.1" (CTestName "solver-disabled")
TargetDisabledBySolver True
, AvailableTarget "p-0.1" (CExeName "buildable-false")
TargetNotBuildable True
, AvailableTarget "p-0.1" (CLibName LMainLibName)
TargetNotBuildable True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "enabled component kinds"
-- When we explicitly enable all the component kinds then selecting the
-- whole package selects those component kinds too
do (_,elaboratedPlan,_) <- planProject "targets/variety" config {
projectConfigLocalPackages = (projectConfigLocalPackages config) {
packageConfigTests = toFlag True,
packageConfigBenchmarks = toFlag True
}
}
assertProjectDistinctTargets
elaboratedPlan
CmdBuild.selectPackageTargets
CmdBuild.selectComponentTarget
[ mkTargetPackage "p-0.1" ]
[ ("p-0.1-inplace", (CLibName LMainLibName))
, ("p-0.1-inplace-a-benchmark", CBenchName "a-benchmark")
, ("p-0.1-inplace-a-testsuite", CTestName "a-testsuite")
, ("p-0.1-inplace-an-exe", CExeName "an-exe")
, ("p-0.1-inplace-libp", CFLibName "libp")
]
reportSubCase "disabled component kinds"
-- When we explicitly disable all the component kinds then selecting the
-- whole package only selects the library, foreign lib and exes
do (_,elaboratedPlan,_) <- planProject "targets/variety" config {
projectConfigLocalPackages = (projectConfigLocalPackages config) {
packageConfigTests = toFlag False,
packageConfigBenchmarks = toFlag False
}
}
assertProjectDistinctTargets
elaboratedPlan
CmdBuild.selectPackageTargets
CmdBuild.selectComponentTarget
[ mkTargetPackage "p-0.1" ]
[ ("p-0.1-inplace", (CLibName LMainLibName))
, ("p-0.1-inplace-an-exe", CExeName "an-exe")
, ("p-0.1-inplace-libp", CFLibName "libp")
]
reportSubCase "requested component kinds"
-- When we selecting the package with an explicit filter then we get those
-- components even though we did not explicitly enable tests/benchmarks
do (_,elaboratedPlan,_) <- planProject "targets/variety" config
assertProjectDistinctTargets
elaboratedPlan
CmdBuild.selectPackageTargets
CmdBuild.selectComponentTarget
[ TargetPackage TargetExplicitNamed ["p-0.1"] (Just TestKind)
, TargetPackage TargetExplicitNamed ["p-0.1"] (Just BenchKind)
]
[ ("p-0.1-inplace-a-benchmark", CBenchName "a-benchmark")
, ("p-0.1-inplace-a-testsuite", CTestName "a-testsuite")
]
testTargetProblemsRepl :: ProjectConfig -> (String -> IO ()) -> Assertion
testTargetProblemsRepl config reportSubCase = do
reportSubCase "multiple-libs"
assertProjectTargetProblems
"targets/multiple-libs" config
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ ( flip CmdRepl.matchesMultipleProblem
[ AvailableTarget "p-0.1" (CLibName LMainLibName)
(TargetBuildable () TargetRequestedByDefault) True
, AvailableTarget "q-0.1" (CLibName LMainLibName)
(TargetBuildable () TargetRequestedByDefault) True
]
, mkTargetAllPackages )
]
reportSubCase "multiple-exes"
assertProjectTargetProblems
"targets/multiple-exes" config
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ ( flip CmdRepl.matchesMultipleProblem
[ AvailableTarget "p-0.1" (CExeName "p2")
(TargetBuildable () TargetRequestedByDefault) True
, AvailableTarget "p-0.1" (CExeName "p1")
(TargetBuildable () TargetRequestedByDefault) True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "multiple-tests"
assertProjectTargetProblems
"targets/multiple-tests" config
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ ( flip CmdRepl.matchesMultipleProblem
[ AvailableTarget "p-0.1" (CTestName "p2")
(TargetBuildable () TargetNotRequestedByDefault) True
, AvailableTarget "p-0.1" (CTestName "p1")
(TargetBuildable () TargetNotRequestedByDefault) True
]
, TargetPackage TargetExplicitNamed ["p-0.1"] (Just TestKind) )
]
reportSubCase "multiple targets"
do (_,elaboratedPlan,_) <- planProject "targets/multiple-exes" config
assertProjectDistinctTargets
elaboratedPlan
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ mkTargetComponent "p-0.1" (CExeName "p1")
, mkTargetComponent "p-0.1" (CExeName "p2")
]
[ ("p-0.1-inplace-p1", CExeName "p1")
, ("p-0.1-inplace-p2", CExeName "p2")
]
reportSubCase "libs-disabled"
assertProjectTargetProblems
"targets/libs-disabled" config
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CLibName LMainLibName) TargetNotBuildable True ]
, mkTargetPackage "p-0.1" )
]
reportSubCase "exes-disabled"
assertProjectTargetProblems
"targets/exes-disabled" config
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CExeName "p") TargetNotBuildable True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "test-only"
assertProjectTargetProblems
"targets/test-only" config
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CTestName "pexe")
(TargetBuildable () TargetNotRequestedByDefault) True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "empty-pkg"
assertProjectTargetProblems
"targets/empty-pkg" config
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ ( TargetProblemNoTargets, mkTargetPackage "p-0.1" )
]
reportSubCase "requested component kinds"
do (_,elaboratedPlan,_) <- planProject "targets/variety" config
-- by default we only get the lib
assertProjectDistinctTargets
elaboratedPlan
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ TargetPackage TargetExplicitNamed ["p-0.1"] Nothing ]
[ ("p-0.1-inplace", (CLibName LMainLibName)) ]
-- When we select the package with an explicit filter then we get those
-- components even though we did not explicitly enable tests/benchmarks
assertProjectDistinctTargets
elaboratedPlan
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ TargetPackage TargetExplicitNamed ["p-0.1"] (Just TestKind) ]
[ ("p-0.1-inplace-a-testsuite", CTestName "a-testsuite") ]
assertProjectDistinctTargets
elaboratedPlan
CmdRepl.selectPackageTargets
CmdRepl.selectComponentTarget
[ TargetPackage TargetExplicitNamed ["p-0.1"] (Just BenchKind) ]
[ ("p-0.1-inplace-a-benchmark", CBenchName "a-benchmark") ]
testTargetProblemsListBin :: ProjectConfig -> (String -> IO ()) -> Assertion
testTargetProblemsListBin config reportSubCase = do
reportSubCase "one-of-each"
do (_,elaboratedPlan,_) <- planProject "targets/one-of-each" config
assertProjectDistinctTargets
elaboratedPlan
CmdListBin.selectPackageTargets
CmdListBin.selectComponentTarget
[ TargetPackage TargetExplicitNamed ["p-0.1"] Nothing
]
[ ("p-0.1-inplace-p1", CExeName "p1")
]
reportSubCase "multiple-exes"
assertProjectTargetProblems
"targets/multiple-exes" config
CmdListBin.selectPackageTargets
CmdListBin.selectComponentTarget
[ ( flip CmdListBin.matchesMultipleProblem
[ AvailableTarget "p-0.1" (CExeName "p2")
(TargetBuildable () TargetRequestedByDefault) True
, AvailableTarget "p-0.1" (CExeName "p1")
(TargetBuildable () TargetRequestedByDefault) True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "multiple targets"
do (_,elaboratedPlan,_) <- planProject "targets/multiple-exes" config
assertProjectDistinctTargets
elaboratedPlan
CmdListBin.selectPackageTargets
CmdListBin.selectComponentTarget
[ mkTargetComponent "p-0.1" (CExeName "p1")
, mkTargetComponent "p-0.1" (CExeName "p2")
]
[ ("p-0.1-inplace-p1", CExeName "p1")
, ("p-0.1-inplace-p2", CExeName "p2")
]
reportSubCase "exes-disabled"
assertProjectTargetProblems
"targets/exes-disabled" config
CmdListBin.selectPackageTargets
CmdListBin.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CExeName "p") TargetNotBuildable True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "empty-pkg"
assertProjectTargetProblems
"targets/empty-pkg" config
CmdListBin.selectPackageTargets
CmdListBin.selectComponentTarget
[ ( TargetProblemNoTargets, mkTargetPackage "p-0.1" )
]
reportSubCase "lib-only"
assertProjectTargetProblems
"targets/lib-only" config
CmdListBin.selectPackageTargets
CmdListBin.selectComponentTarget
[ (CmdListBin.noComponentsProblem, mkTargetPackage "p-0.1" )
]
testTargetProblemsRun :: ProjectConfig -> (String -> IO ()) -> Assertion
testTargetProblemsRun config reportSubCase = do
reportSubCase "one-of-each"
do (_,elaboratedPlan,_) <- planProject "targets/one-of-each" config
assertProjectDistinctTargets
elaboratedPlan
CmdRun.selectPackageTargets
CmdRun.selectComponentTarget
[ TargetPackage TargetExplicitNamed ["p-0.1"] Nothing
]
[ ("p-0.1-inplace-p1", CExeName "p1")
]
reportSubCase "multiple-exes"
assertProjectTargetProblems
"targets/multiple-exes" config
CmdRun.selectPackageTargets
CmdRun.selectComponentTarget
[ ( flip CmdRun.matchesMultipleProblem
[ AvailableTarget "p-0.1" (CExeName "p2")
(TargetBuildable () TargetRequestedByDefault) True
, AvailableTarget "p-0.1" (CExeName "p1")
(TargetBuildable () TargetRequestedByDefault) True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "multiple targets"
do (_,elaboratedPlan,_) <- planProject "targets/multiple-exes" config
assertProjectDistinctTargets
elaboratedPlan
CmdRun.selectPackageTargets
CmdRun.selectComponentTarget
[ mkTargetComponent "p-0.1" (CExeName "p1")
, mkTargetComponent "p-0.1" (CExeName "p2")
]
[ ("p-0.1-inplace-p1", CExeName "p1")
, ("p-0.1-inplace-p2", CExeName "p2")
]
reportSubCase "exes-disabled"
assertProjectTargetProblems
"targets/exes-disabled" config
CmdRun.selectPackageTargets
CmdRun.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CExeName "p") TargetNotBuildable True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "empty-pkg"
assertProjectTargetProblems
"targets/empty-pkg" config
CmdRun.selectPackageTargets
CmdRun.selectComponentTarget
[ ( TargetProblemNoTargets, mkTargetPackage "p-0.1" )
]
reportSubCase "lib-only"
assertProjectTargetProblems
"targets/lib-only" config
CmdRun.selectPackageTargets
CmdRun.selectComponentTarget
[ (CmdRun.noExesProblem, mkTargetPackage "p-0.1" )
]
testTargetProblemsTest :: ProjectConfig -> (String -> IO ()) -> Assertion
testTargetProblemsTest config reportSubCase = do
reportSubCase "disabled by config"
assertProjectTargetProblems
"targets/tests-disabled"
config {
projectConfigLocalPackages = (projectConfigLocalPackages config) {
packageConfigTests = toFlag False
}
}
CmdTest.selectPackageTargets
CmdTest.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CTestName "user-disabled")
TargetDisabledByUser True
, AvailableTarget "p-0.1" (CTestName "solver-disabled")
TargetDisabledByUser True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "disabled by solver & buildable false"
assertProjectTargetProblems
"targets/tests-disabled"
config
CmdTest.selectPackageTargets
CmdTest.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CTestName "user-disabled")
TargetDisabledBySolver True
, AvailableTarget "p-0.1" (CTestName "solver-disabled")
TargetDisabledBySolver True
]
, mkTargetPackage "p-0.1" )
, ( flip TargetProblemNoneEnabled
[ AvailableTarget "q-0.1" (CTestName "buildable-false")
TargetNotBuildable True
]
, mkTargetPackage "q-0.1" )
]
reportSubCase "empty-pkg"
assertProjectTargetProblems
"targets/empty-pkg" config
CmdTest.selectPackageTargets
CmdTest.selectComponentTarget
[ ( TargetProblemNoTargets, mkTargetPackage "p-0.1" )
]
reportSubCase "no tests"
assertProjectTargetProblems
"targets/simple"
config
CmdTest.selectPackageTargets
CmdTest.selectComponentTarget
[ ( CmdTest.noTestsProblem, mkTargetPackage "p-0.1" )
, ( CmdTest.noTestsProblem, mkTargetPackage "q-0.1" )
]
reportSubCase "not a test"
assertProjectTargetProblems
"targets/variety"
config
CmdTest.selectPackageTargets
CmdTest.selectComponentTarget $
[ ( const (CmdTest.notTestProblem
"p-0.1" (CLibName LMainLibName))
, mkTargetComponent "p-0.1" (CLibName LMainLibName) )
, ( const (CmdTest.notTestProblem
"p-0.1" (CExeName "an-exe"))
, mkTargetComponent "p-0.1" (CExeName "an-exe") )
, ( const (CmdTest.notTestProblem
"p-0.1" (CFLibName "libp"))
, mkTargetComponent "p-0.1" (CFLibName "libp") )
, ( const (CmdTest.notTestProblem
"p-0.1" (CBenchName "a-benchmark"))
, mkTargetComponent "p-0.1" (CBenchName "a-benchmark") )
] ++
[ ( const (CmdTest.isSubComponentProblem
"p-0.1" cname (ModuleTarget modname))
, mkTargetModule "p-0.1" cname modname )
| (cname, modname) <- [ (CTestName "a-testsuite", "TestModule")
, (CBenchName "a-benchmark", "BenchModule")
, (CExeName "an-exe", "ExeModule")
, ((CLibName LMainLibName), "P")
]
] ++
[ ( const (CmdTest.isSubComponentProblem
"p-0.1" cname (FileTarget fname))
, mkTargetFile "p-0.1" cname fname)
| (cname, fname) <- [ (CTestName "a-testsuite", "Test.hs")
, (CBenchName "a-benchmark", "Bench.hs")
, (CExeName "an-exe", "Main.hs")
]
]
testTargetProblemsBench :: ProjectConfig -> (String -> IO ()) -> Assertion
testTargetProblemsBench config reportSubCase = do
reportSubCase "disabled by config"
assertProjectTargetProblems
"targets/benchmarks-disabled"
config {
projectConfigLocalPackages = (projectConfigLocalPackages config) {
packageConfigBenchmarks = toFlag False
}
}
CmdBench.selectPackageTargets
CmdBench.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CBenchName "user-disabled")
TargetDisabledByUser True
, AvailableTarget "p-0.1" (CBenchName "solver-disabled")
TargetDisabledByUser True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "disabled by solver & buildable false"
assertProjectTargetProblems
"targets/benchmarks-disabled"
config
CmdBench.selectPackageTargets
CmdBench.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CBenchName "user-disabled")
TargetDisabledBySolver True
, AvailableTarget "p-0.1" (CBenchName "solver-disabled")
TargetDisabledBySolver True
]
, mkTargetPackage "p-0.1" )
, ( flip TargetProblemNoneEnabled
[ AvailableTarget "q-0.1" (CBenchName "buildable-false")
TargetNotBuildable True
]
, mkTargetPackage "q-0.1" )
]
reportSubCase "empty-pkg"
assertProjectTargetProblems
"targets/empty-pkg" config
CmdBench.selectPackageTargets
CmdBench.selectComponentTarget
[ ( TargetProblemNoTargets, mkTargetPackage "p-0.1" )
]
reportSubCase "no benchmarks"
assertProjectTargetProblems
"targets/simple"
config
CmdBench.selectPackageTargets
CmdBench.selectComponentTarget
[ ( CmdBench.noBenchmarksProblem, mkTargetPackage "p-0.1" )
, ( CmdBench.noBenchmarksProblem, mkTargetPackage "q-0.1" )
]
reportSubCase "not a benchmark"
assertProjectTargetProblems
"targets/variety"
config
CmdBench.selectPackageTargets
CmdBench.selectComponentTarget $
[ ( const (CmdBench.componentNotBenchmarkProblem
"p-0.1" (CLibName LMainLibName))
, mkTargetComponent "p-0.1" (CLibName LMainLibName) )
, ( const (CmdBench.componentNotBenchmarkProblem
"p-0.1" (CExeName "an-exe"))
, mkTargetComponent "p-0.1" (CExeName "an-exe") )
, ( const (CmdBench.componentNotBenchmarkProblem
"p-0.1" (CFLibName "libp"))
, mkTargetComponent "p-0.1" (CFLibName "libp") )
, ( const (CmdBench.componentNotBenchmarkProblem
"p-0.1" (CTestName "a-testsuite"))
, mkTargetComponent "p-0.1" (CTestName "a-testsuite") )
] ++
[ ( const (CmdBench.isSubComponentProblem
"p-0.1" cname (ModuleTarget modname))
, mkTargetModule "p-0.1" cname modname )
| (cname, modname) <- [ (CTestName "a-testsuite", "TestModule")
, (CBenchName "a-benchmark", "BenchModule")
, (CExeName "an-exe", "ExeModule")
, ((CLibName LMainLibName), "P")
]
] ++
[ ( const (CmdBench.isSubComponentProblem
"p-0.1" cname (FileTarget fname))
, mkTargetFile "p-0.1" cname fname)
| (cname, fname) <- [ (CTestName "a-testsuite", "Test.hs")
, (CBenchName "a-benchmark", "Bench.hs")
, (CExeName "an-exe", "Main.hs")
]
]
testTargetProblemsHaddock :: ProjectConfig -> (String -> IO ()) -> Assertion
testTargetProblemsHaddock config reportSubCase = do
reportSubCase "all-disabled"
assertProjectTargetProblems
"targets/all-disabled"
config
(let haddockFlags = mkHaddockFlags False True True False
in CmdHaddock.selectPackageTargets haddockFlags)
CmdHaddock.selectComponentTarget
[ ( flip TargetProblemNoneEnabled
[ AvailableTarget "p-0.1" (CBenchName "user-disabled")
TargetDisabledByUser True
, AvailableTarget "p-0.1" (CTestName "solver-disabled")
TargetDisabledBySolver True
, AvailableTarget "p-0.1" (CExeName "buildable-false")
TargetNotBuildable True
, AvailableTarget "p-0.1" (CLibName LMainLibName)
TargetNotBuildable True
]
, mkTargetPackage "p-0.1" )
]
reportSubCase "empty-pkg"
assertProjectTargetProblems
"targets/empty-pkg" config
(let haddockFlags = mkHaddockFlags False False False False
in CmdHaddock.selectPackageTargets haddockFlags)
CmdHaddock.selectComponentTarget
[ ( TargetProblemNoTargets, mkTargetPackage "p-0.1" )
]
reportSubCase "enabled component kinds"
-- When we explicitly enable all the component kinds then selecting the
-- whole package selects those component kinds too
(_,elaboratedPlan,_) <- planProject "targets/variety" config
let haddockFlags = mkHaddockFlags True True True True
in assertProjectDistinctTargets
elaboratedPlan
(CmdHaddock.selectPackageTargets haddockFlags)
CmdHaddock.selectComponentTarget
[ mkTargetPackage "p-0.1" ]
[ ("p-0.1-inplace", (CLibName LMainLibName))
, ("p-0.1-inplace-a-benchmark", CBenchName "a-benchmark")
, ("p-0.1-inplace-a-testsuite", CTestName "a-testsuite")
, ("p-0.1-inplace-an-exe", CExeName "an-exe")
, ("p-0.1-inplace-libp", CFLibName "libp")
]
reportSubCase "disabled component kinds"
-- When we explicitly disable all the component kinds then selecting the
-- whole package only selects the library
let haddockFlags = mkHaddockFlags False False False False
in assertProjectDistinctTargets
elaboratedPlan
(CmdHaddock.selectPackageTargets haddockFlags)
CmdHaddock.selectComponentTarget
[ mkTargetPackage "p-0.1" ]
[ ("p-0.1-inplace", (CLibName LMainLibName)) ]
reportSubCase "requested component kinds"
-- When we selecting the package with an explicit filter then it does not
-- matter if the config was to disable all the component kinds
let haddockFlags = mkHaddockFlags False False False False
in assertProjectDistinctTargets
elaboratedPlan
(CmdHaddock.selectPackageTargets haddockFlags)
CmdHaddock.selectComponentTarget
[ TargetPackage TargetExplicitNamed ["p-0.1"] (Just FLibKind)
, TargetPackage TargetExplicitNamed ["p-0.1"] (Just ExeKind)
, TargetPackage TargetExplicitNamed ["p-0.1"] (Just TestKind)
, TargetPackage TargetExplicitNamed ["p-0.1"] (Just BenchKind)
]
[ ("p-0.1-inplace-a-benchmark", CBenchName "a-benchmark")
, ("p-0.1-inplace-a-testsuite", CTestName "a-testsuite")
, ("p-0.1-inplace-an-exe", CExeName "an-exe")
, ("p-0.1-inplace-libp", CFLibName "libp")
]
where
mkHaddockFlags flib exe test bench =
defaultHaddockFlags {
haddockForeignLibs = toFlag flib,
haddockExecutables = toFlag exe,
haddockTestSuites = toFlag test,
haddockBenchmarks = toFlag bench
}
assertProjectDistinctTargets
:: forall err. (Eq err, Show err) =>
ElaboratedInstallPlan
-> (forall k. TargetSelector -> [AvailableTarget k] -> Either (TargetProblem err) [k])
-> (forall k. SubComponentTarget -> AvailableTarget k -> Either (TargetProblem err) k )
-> [TargetSelector]
-> [(UnitId, ComponentName)]
-> Assertion
assertProjectDistinctTargets elaboratedPlan
selectPackageTargets
selectComponentTarget
targetSelectors
expectedTargets
| Right targets <- results
= distinctTargetComponents targets @?= Set.fromList expectedTargets
| otherwise
= assertFailure $ "assertProjectDistinctTargets: expected "
++ "(Right targets) but got " ++ show results
where
results = resolveTargets
selectPackageTargets
selectComponentTarget
elaboratedPlan
Nothing
targetSelectors
assertProjectTargetProblems
:: forall err. (Eq err, Show err) =>
FilePath -> ProjectConfig
-> (forall k. TargetSelector
-> [AvailableTarget k]
-> Either (TargetProblem err) [k])
-> (forall k. SubComponentTarget
-> AvailableTarget k
-> Either (TargetProblem err) k )
-> [(TargetSelector -> TargetProblem err, TargetSelector)]
-> Assertion
assertProjectTargetProblems testdir config
selectPackageTargets
selectComponentTarget
cases = do
(_,elaboratedPlan,_) <- planProject testdir config
assertTargetProblems
elaboratedPlan
selectPackageTargets
selectComponentTarget
cases
assertTargetProblems
:: forall err. (Eq err, Show err) =>
ElaboratedInstallPlan
-> (forall k. TargetSelector -> [AvailableTarget k] -> Either (TargetProblem err) [k])
-> (forall k. SubComponentTarget -> AvailableTarget k -> Either (TargetProblem err) k )
-> [(TargetSelector -> TargetProblem err, TargetSelector)]
-> Assertion
assertTargetProblems elaboratedPlan selectPackageTargets selectComponentTarget =
mapM_ (uncurry assertTargetProblem)
where
assertTargetProblem expected targetSelector =
let res = resolveTargets selectPackageTargets selectComponentTarget
elaboratedPlan Nothing
[targetSelector] in
case res of
Left [problem] ->
problem @?= expected targetSelector
unexpected ->
assertFailure $ "expected resolveTargets result: (Left [problem]) "
++ "but got: " ++ show unexpected
testExceptionInFindingPackage :: ProjectConfig -> Assertion
testExceptionInFindingPackage config = do
BadPackageLocations _ locs <- expectException "BadPackageLocations" $
void $ planProject testdir config
case locs of
[BadLocGlobEmptyMatch "./*.cabal"] -> return ()
_ -> assertFailure "expected BadLocGlobEmptyMatch"
cleanProject testdir
where
testdir = "exception/no-pkg"
testExceptionInFindingPackage2 :: ProjectConfig -> Assertion
testExceptionInFindingPackage2 config = do
BadPackageLocations _ locs <- expectException "BadPackageLocations" $
void $ planProject testdir config
case locs of
[BadPackageLocationFile (BadLocDirNoCabalFile ".")] -> return ()
_ -> assertFailure $ "expected BadLocDirNoCabalFile, got " ++ show locs
cleanProject testdir
where
testdir = "exception/no-pkg2"
testExceptionInProjectConfig :: ProjectConfig -> Assertion
testExceptionInProjectConfig config = do
BadPerPackageCompilerPaths ps <- expectException "BadPerPackageCompilerPaths" $
void $ planProject testdir config
case ps of
[(pn,"ghc")] | "foo" == pn -> return ()
_ -> assertFailure $ "expected (PackageName \"foo\",\"ghc\"), got "
++ show ps
cleanProject testdir
where
testdir = "exception/bad-config"
testExceptionInConfigureStep :: ProjectConfig -> Assertion
testExceptionInConfigureStep config = do
(plan, res) <- executePlan =<< planProject testdir config
(_pkga1, failure) <- expectPackageFailed plan res pkgidA1
case buildFailureReason failure of
ConfigureFailed _ -> return ()
_ -> assertFailure $ "expected ConfigureFailed, got " ++ show failure
cleanProject testdir
where
testdir = "exception/configure"
pkgidA1 = PackageIdentifier "a" (mkVersion [1])
testExceptionInBuildStep :: ProjectConfig -> Assertion
testExceptionInBuildStep config = do
(plan, res) <- executePlan =<< planProject testdir config
(_pkga1, failure) <- expectPackageFailed plan res pkgidA1
expectBuildFailed failure
where
testdir = "exception/build"
pkgidA1 = PackageIdentifier "a" (mkVersion [1])
testSetupScriptStyles :: ProjectConfig -> (String -> IO ()) -> Assertion
testSetupScriptStyles config reportSubCase = do
reportSubCase (show SetupCustomExplicitDeps)
plan0@(_,_,sharedConfig) <- planProject testdir1 config
let isOSX (Platform _ OSX) = True
isOSX _ = False
-- Skip the Custom tests when the shipped Cabal library is buggy
unless (isOSX (pkgConfigPlatform sharedConfig)
&& compilerVersion (pkgConfigCompiler sharedConfig) < mkVersion [7,10]) $ do
(plan1, res1) <- executePlan plan0
pkg1 <- expectPackageInstalled plan1 res1 pkgidA
elabSetupScriptStyle pkg1 @?= SetupCustomExplicitDeps
hasDefaultSetupDeps pkg1 @?= Just False
marker1 <- readFile (basedir </> testdir1 </> "marker")
marker1 @?= "ok"
removeFile (basedir </> testdir1 </> "marker")
-- implicit deps implies 'Cabal < 2' which conflicts w/ GHC 8.2 or later
when (compilerVersion (pkgConfigCompiler sharedConfig) < mkVersion [8,2]) $ do
reportSubCase (show SetupCustomImplicitDeps)
(plan2, res2) <- executePlan =<< planProject testdir2 config
pkg2 <- expectPackageInstalled plan2 res2 pkgidA
elabSetupScriptStyle pkg2 @?= SetupCustomImplicitDeps
hasDefaultSetupDeps pkg2 @?= Just True
marker2 <- readFile (basedir </> testdir2 </> "marker")
marker2 @?= "ok"
removeFile (basedir </> testdir2 </> "marker")
reportSubCase (show SetupNonCustomInternalLib)
(plan3, res3) <- executePlan =<< planProject testdir3 config
pkg3 <- expectPackageInstalled plan3 res3 pkgidA
elabSetupScriptStyle pkg3 @?= SetupNonCustomInternalLib
{-
--TODO: the SetupNonCustomExternalLib case is hard to test since it
-- requires a version of Cabal that's later than the one we're testing
-- e.g. needs a .cabal file that specifies cabal-version: >= 2.0
-- and a corresponding Cabal package that we can use to try and build a
-- default Setup.hs.
reportSubCase (show SetupNonCustomExternalLib)
(plan4, res4) <- executePlan =<< planProject testdir4 config
pkg4 <- expectPackageInstalled plan4 res4 pkgidA
pkgSetupScriptStyle pkg4 @?= SetupNonCustomExternalLib
-}
where
testdir1 = "build/setup-custom1"
testdir2 = "build/setup-custom2"
testdir3 = "build/setup-simple"
pkgidA = PackageIdentifier "a" (mkVersion [0,1])
-- The solver fills in default setup deps explicitly, but marks them as such
hasDefaultSetupDeps = fmap defaultSetupDepends
. setupBuildInfo . elabPkgDescription
-- | Test the behaviour with and without @--keep-going@
--
testBuildKeepGoing :: ProjectConfig -> Assertion
testBuildKeepGoing config = do
-- P is expected to fail, Q does not depend on P but without
-- parallel build and without keep-going then we don't build Q yet.
(plan1, res1) <- executePlan =<< planProject testdir (config `mappend` keepGoing False)
(_, failure1) <- expectPackageFailed plan1 res1 "p-0.1"
expectBuildFailed failure1
_ <- expectPackageConfigured plan1 res1 "q-0.1"
-- With keep-going then we should go on to successfully build Q
(plan2, res2) <- executePlan
=<< planProject testdir (config `mappend` keepGoing True)
(_, failure2) <- expectPackageFailed plan2 res2 "p-0.1"
expectBuildFailed failure2
_ <- expectPackageInstalled plan2 res2 "q-0.1"
return ()
where
testdir = "build/keep-going"
keepGoing kg =
mempty {
projectConfigBuildOnly = mempty {
projectConfigKeepGoing = toFlag kg
}
}
-- | Test we can successfully build packages from local tarball files.
--
testBuildLocalTarball :: ProjectConfig -> Assertion
testBuildLocalTarball config = do
-- P is a tarball package, Q is a local dir package that depends on it.
(plan, res) <- executePlan =<< planProject testdir config
_ <- expectPackageInstalled plan res "p-0.1"
_ <- expectPackageInstalled plan res "q-0.1"
return ()
where
testdir = "build/local-tarball"
-- | See <https://github.com/haskell/cabal/issues/3324>
--
-- This test just doesn't seem to work on Windows,
-- due filesystem woes.
--
testRegressionIssue3324 :: ProjectConfig -> Assertion
testRegressionIssue3324 config = when (buildOS /= Windows) $ do
-- expected failure first time due to missing dep
(plan1, res1) <- executePlan =<< planProject testdir config
(_pkgq, failure) <- expectPackageFailed plan1 res1 "q-0.1"
expectBuildFailed failure
-- add the missing dep, now it should work
let qcabal = basedir </> testdir </> "q" </> "q.cabal"
withFileFinallyRestore qcabal $ do
tryFewTimes $ BS.appendFile qcabal (" build-depends: p\n")
(plan2, res2) <- executePlan =<< planProject testdir config
_ <- expectPackageInstalled plan2 res2 "p-0.1"
_ <- expectPackageInstalled plan2 res2 "q-0.1"
return ()
where
testdir = "regression/3324"
-- | Test global program options are propagated correctly
-- from ProjectConfig to ElaboratedInstallPlan
testProgramOptionsAll :: ProjectConfig -> Assertion
testProgramOptionsAll config0 = do
-- P is a tarball package, Q is a local dir package that depends on it.
(_, elaboratedPlan, _) <- planProject testdir config
let packages = filterConfiguredPackages $ InstallPlan.toList elaboratedPlan
assertEqual "q"
(Just [ghcFlag])
(getProgArgs packages "q")
assertEqual "p"
(Just [ghcFlag])
(getProgArgs packages "p")
where
testdir = "regression/program-options"
programArgs = MapMappend (Map.fromList [("ghc", [ghcFlag])])
ghcFlag = "-fno-full-laziness"
-- Insert flag into global config
config = config0 {
projectConfigAllPackages = (projectConfigAllPackages config0) {
packageConfigProgramArgs = programArgs
}
}
-- | Test local program options are propagated correctly
-- from ProjectConfig to ElaboratedInstallPlan
testProgramOptionsLocal :: ProjectConfig -> Assertion
testProgramOptionsLocal config0 = do
(_, elaboratedPlan, _) <- planProject testdir config
let localPackages = filterConfiguredPackages $ InstallPlan.toList elaboratedPlan
assertEqual "q"
(Just [ghcFlag])
(getProgArgs localPackages "q")
assertEqual "p"
Nothing
(getProgArgs localPackages "p")
where
testdir = "regression/program-options"
programArgs = MapMappend (Map.fromList [("ghc", [ghcFlag])])
ghcFlag = "-fno-full-laziness"
-- Insert flag into local config
config = config0 {
projectConfigLocalPackages = (projectConfigLocalPackages config0) {
packageConfigProgramArgs = programArgs
}
}
-- | Test package specific program options are propagated correctly
-- from ProjectConfig to ElaboratedInstallPlan
testProgramOptionsSpecific :: ProjectConfig -> Assertion
testProgramOptionsSpecific config0 = do
(_, elaboratedPlan, _) <- planProject testdir config
let packages = filterConfiguredPackages $ InstallPlan.toList elaboratedPlan
assertEqual "q"
(Nothing)
(getProgArgs packages "q")
assertEqual "p"
(Just [ghcFlag])
(getProgArgs packages "p")
where
testdir = "regression/program-options"
programArgs = MapMappend (Map.fromList [("ghc", [ghcFlag])])
ghcFlag = "-fno-full-laziness"
-- Insert flag into package "p" config
config = config0 {
projectConfigSpecificPackage = MapMappend (Map.fromList [(mkPackageName "p", configArgs)])
}
configArgs = mempty {
packageConfigProgramArgs = programArgs
}
filterConfiguredPackages :: [ElaboratedPlanPackage] -> [ElaboratedConfiguredPackage]
filterConfiguredPackages [] = []
filterConfiguredPackages (InstallPlan.PreExisting _ : pkgs) = filterConfiguredPackages pkgs
filterConfiguredPackages (InstallPlan.Installed elab : pkgs) = elab : filterConfiguredPackages pkgs
filterConfiguredPackages (InstallPlan.Configured elab : pkgs) = elab : filterConfiguredPackages pkgs
getProgArgs :: [ElaboratedConfiguredPackage] -> String -> Maybe [String]
getProgArgs [] _ = Nothing
getProgArgs (elab : pkgs) name
| pkgName (elabPkgSourceId elab) == mkPackageName name
= Map.lookup "ghc" (elabProgramArgs elab)
| otherwise
= getProgArgs pkgs name
---------------------------------
-- Test utils to plan and build
--
basedir :: FilePath
basedir = "tests" </> "IntegrationTests2"
dirActions :: FilePath -> TS.DirActions IO
dirActions testdir =
defaultDirActions {
TS.doesFileExist = \p ->
TS.doesFileExist defaultDirActions (virtcwd </> p),
TS.doesDirectoryExist = \p ->
TS.doesDirectoryExist defaultDirActions (virtcwd </> p),
TS.canonicalizePath = \p ->
TS.canonicalizePath defaultDirActions (virtcwd </> p),
TS.getCurrentDirectory =
TS.canonicalizePath defaultDirActions virtcwd
}
where
virtcwd = basedir </> testdir
type ProjDetails = (DistDirLayout,
CabalDirLayout,
ProjectConfig,
[PackageSpecifier UnresolvedSourcePackage],
BuildTimeSettings)
configureProject :: FilePath -> ProjectConfig -> IO ProjDetails
configureProject testdir cliConfig = do
cabalDir <- getCabalDir
let cabalDirLayout = defaultCabalDirLayout cabalDir
projectRootDir <- canonicalizePath (basedir </> testdir)
isexplict <- doesFileExist (projectRootDir </> "cabal.project")
let projectRoot
| isexplict = ProjectRootExplicit projectRootDir
(projectRootDir </> "cabal.project")
| otherwise = ProjectRootImplicit projectRootDir
distDirLayout = defaultDistDirLayout projectRoot Nothing
-- Clear state between test runs. The state remains if the previous run
-- ended in an exception (as we leave the files to help with debugging).
cleanProject testdir
httpTransport <- configureTransport verbosity [] Nothing
(projectConfig, localPackages) <-
rebuildProjectConfig verbosity
httpTransport
distDirLayout
cliConfig
let buildSettings = resolveBuildTimeSettings
verbosity cabalDirLayout
projectConfig
return (distDirLayout,
cabalDirLayout,
projectConfig,
localPackages,
buildSettings)
type PlanDetails = (ProjDetails,
ElaboratedInstallPlan,
ElaboratedSharedConfig)
planProject :: FilePath -> ProjectConfig -> IO PlanDetails
planProject testdir cliConfig = do
projDetails@(
distDirLayout,
cabalDirLayout,
projectConfig,
localPackages,
_buildSettings) <- configureProject testdir cliConfig
(elaboratedPlan, _, elaboratedShared, _, _) <-
rebuildInstallPlan verbosity
distDirLayout cabalDirLayout
projectConfig
localPackages
return (projDetails,
elaboratedPlan,
elaboratedShared)
executePlan :: PlanDetails -> IO (ElaboratedInstallPlan, BuildOutcomes)
executePlan ((distDirLayout, cabalDirLayout, _, _, buildSettings),
elaboratedPlan,
elaboratedShared) = do
let targets :: Map.Map UnitId [ComponentTarget]
targets =
Map.fromList
[ (unitid, [ComponentTarget cname WholeComponent])
| ts <- Map.elems (availableTargets elaboratedPlan)
, AvailableTarget {
availableTargetStatus = TargetBuildable (unitid, cname) _
} <- ts
]
elaboratedPlan' = pruneInstallPlanToTargets
TargetActionBuild targets
elaboratedPlan
pkgsBuildStatus <-
rebuildTargetsDryRun distDirLayout elaboratedShared
elaboratedPlan'
let elaboratedPlan'' = improveInstallPlanWithUpToDatePackages
pkgsBuildStatus elaboratedPlan'
buildOutcomes <-
rebuildTargets verbosity
distDirLayout
(cabalStoreDirLayout cabalDirLayout)
elaboratedPlan''
elaboratedShared
pkgsBuildStatus
-- Avoid trying to use act-as-setup mode:
buildSettings { buildSettingNumJobs = 1 }
return (elaboratedPlan'', buildOutcomes)
cleanProject :: FilePath -> IO ()
cleanProject testdir = do
alreadyExists <- doesDirectoryExist distDir
when alreadyExists $ removePathForcibly distDir
where
projectRoot = ProjectRootImplicit (basedir </> testdir)
distDirLayout = defaultDistDirLayout projectRoot Nothing
distDir = distDirectory distDirLayout
verbosity :: Verbosity
verbosity = minBound --normal --verbose --maxBound --minBound
-------------------------------------------
-- Tasty integration to adjust the config
--
withProjectConfig :: (ProjectConfig -> TestTree) -> TestTree
withProjectConfig testtree =
askOption $ \ghcPath ->
testtree (mkProjectConfig ghcPath)
mkProjectConfig :: GhcPath -> ProjectConfig
mkProjectConfig (GhcPath ghcPath) =
mempty {
projectConfigShared = mempty {
projectConfigHcPath = maybeToFlag ghcPath
},
projectConfigBuildOnly = mempty {
projectConfigNumJobs = toFlag (Just 1)
}
}
where
maybeToFlag = maybe mempty toFlag
data GhcPath = GhcPath (Maybe FilePath)
deriving Typeable
instance IsOption GhcPath where
defaultValue = GhcPath Nothing
optionName = Tagged "with-ghc"
optionHelp = Tagged "The ghc compiler to use"
parseValue = Just . GhcPath . Just
projectConfigOptionDescriptions :: [OptionDescription]
projectConfigOptionDescriptions = [Option (Proxy :: Proxy GhcPath)]
---------------------------------------
-- HUint style utils for this context
--
expectException :: Exception e => String -> IO a -> IO e
expectException expected action = do
res <- try action
case res of
Left e -> return e
Right _ -> throwIO $ HUnitFailure Nothing $ "expected an exception " ++ expected
expectPackagePreExisting :: ElaboratedInstallPlan -> BuildOutcomes -> PackageId
-> IO InstalledPackageInfo
expectPackagePreExisting plan buildOutcomes pkgid = do
planpkg <- expectPlanPackage plan pkgid
case (planpkg, InstallPlan.lookupBuildOutcome planpkg buildOutcomes) of
(InstallPlan.PreExisting pkg, Nothing)
-> return pkg
(_, buildResult) -> unexpectedBuildResult "PreExisting" planpkg buildResult
expectPackageConfigured :: ElaboratedInstallPlan -> BuildOutcomes -> PackageId
-> IO ElaboratedConfiguredPackage
expectPackageConfigured plan buildOutcomes pkgid = do
planpkg <- expectPlanPackage plan pkgid
case (planpkg, InstallPlan.lookupBuildOutcome planpkg buildOutcomes) of
(InstallPlan.Configured pkg, Nothing)
-> return pkg
(_, buildResult) -> unexpectedBuildResult "Configured" planpkg buildResult
expectPackageInstalled :: ElaboratedInstallPlan -> BuildOutcomes -> PackageId
-> IO ElaboratedConfiguredPackage
expectPackageInstalled plan buildOutcomes pkgid = do
planpkg <- expectPlanPackage plan pkgid
case (planpkg, InstallPlan.lookupBuildOutcome planpkg buildOutcomes) of
(InstallPlan.Configured pkg, Just (Right _result)) -- result isn't used by any test
-> return pkg
-- package can be installed in the global .store!
-- (when installing from tarball!)
(InstallPlan.Installed pkg, Nothing)
-> return pkg
(_, buildResult) -> unexpectedBuildResult "Installed" planpkg buildResult
expectPackageFailed :: ElaboratedInstallPlan -> BuildOutcomes -> PackageId
-> IO (ElaboratedConfiguredPackage, BuildFailure)
expectPackageFailed plan buildOutcomes pkgid = do
planpkg <- expectPlanPackage plan pkgid
case (planpkg, InstallPlan.lookupBuildOutcome planpkg buildOutcomes) of
(InstallPlan.Configured pkg, Just (Left failure))
-> return (pkg, failure)
(_, buildResult) -> unexpectedBuildResult "Failed" planpkg buildResult
unexpectedBuildResult :: String -> ElaboratedPlanPackage
-> Maybe (Either BuildFailure BuildResult) -> IO a
unexpectedBuildResult expected planpkg buildResult =
throwIO $ HUnitFailure Nothing $
"expected to find " ++ display (packageId planpkg) ++ " in the "
++ expected ++ " state, but it is actually in the " ++ actual ++ " state."
where
actual = case (buildResult, planpkg) of
(Nothing, InstallPlan.PreExisting{}) -> "PreExisting"
(Nothing, InstallPlan.Configured{}) -> "Configured"
(Just (Right _), InstallPlan.Configured{}) -> "Installed"
(Just (Left _), InstallPlan.Configured{}) -> "Failed"
(Nothing, InstallPlan.Installed{}) -> "Installed globally"
_ -> "Impossible! " ++ show buildResult ++ show planpkg
expectPlanPackage :: ElaboratedInstallPlan -> PackageId
-> IO ElaboratedPlanPackage
expectPlanPackage plan pkgid =
case [ pkg
| pkg <- InstallPlan.toList plan
, packageId pkg == pkgid ] of
[pkg] -> return pkg
[] -> throwIO $ HUnitFailure Nothing $
"expected to find " ++ display pkgid
++ " in the install plan but it's not there"
_ -> throwIO $ HUnitFailure Nothing $
"expected to find only one instance of " ++ display pkgid
++ " in the install plan but there's several"
expectBuildFailed :: BuildFailure -> IO ()
expectBuildFailed (BuildFailure _ (BuildFailed _)) = return ()
expectBuildFailed (BuildFailure _ reason) =
assertFailure $ "expected BuildFailed, got " ++ show reason
---------------------------------------
-- Other utils
--
-- | Allow altering a file during a test, but then restore it afterwards
--
-- We read into the memory, as filesystems are tricky. (especially Windows)
--
withFileFinallyRestore :: FilePath -> IO a -> IO a
withFileFinallyRestore file action = do
originalContents <- BS.readFile file
action `finally` handle onIOError (tryFewTimes $ BS.writeFile file originalContents)
where
onIOError :: IOException -> IO ()
onIOError e = putStrLn $ "WARNING: Cannot restore " ++ file ++ "; " ++ show e
-- Hopefully works around some Windows file-locking things.
-- Use with care:
--
-- Try action 4 times, with small sleep in between,
-- retrying if it fails for 'IOException' reason.
--
tryFewTimes :: forall a. IO a -> IO a
tryFewTimes action = go (3 :: Int) where
go :: Int -> IO a
go !n | n <= 0 = action
| otherwise = action `catch` onIOError n
onIOError :: Int -> IOException -> IO a
onIOError n e = do
hPutStrLn stderr $ "Trying " ++ show n ++ " after " ++ show e
threadDelay 10000
go (n - 1)
testNixFlags :: Assertion
testNixFlags = do
let gc = globalCommand []
-- changing from the v1 to v2 build command does not change whether the "--enable-nix" flag
-- sets the globalNix param of the GlobalFlags type to True even though the v2 command doesn't use it
let nixEnabledFlags = getFlags gc . commandParseArgs gc True $ ["--enable-nix", "build"]
let nixDisabledFlags = getFlags gc . commandParseArgs gc True $ ["--disable-nix", "build"]
let nixDefaultFlags = getFlags gc . commandParseArgs gc True $ ["build"]
True @=? isJust nixDefaultFlags
True @=? isJust nixEnabledFlags
True @=? isJust nixDisabledFlags
Just True @=? (fromFlag . globalNix . fromJust $ nixEnabledFlags)
Just False @=? (fromFlag . globalNix . fromJust $ nixDisabledFlags)
Nothing @=? (fromFlag . globalNix . fromJust $ nixDefaultFlags)
where
fromFlag :: Flag Bool -> Maybe Bool
fromFlag (Flag x) = Just x
fromFlag NoFlag = Nothing
getFlags :: CommandUI GlobalFlags -> CommandParse (GlobalFlags -> GlobalFlags, [String]) -> Maybe GlobalFlags
getFlags cui (CommandReadyToGo (mkflags, _)) = Just . mkflags . commandDefaultFlags $ cui
getFlags _ _ = Nothing
testIgnoreProjectFlag :: Assertion
testIgnoreProjectFlag = do
-- Coverage flag should be false globally by default (~/.cabal folder)
(_, _, prjConfigGlobal, _, _) <- configureProject testdir ignoreSetConfig
let globalCoverageFlag = packageConfigCoverage . projectConfigLocalPackages $ prjConfigGlobal
False @=? Flag.fromFlagOrDefault False globalCoverageFlag
-- It is set to true in the cabal.project file
(_, _, prjConfigLocal, _, _) <- configureProject testdir emptyConfig
let localCoverageFlag = packageConfigCoverage . projectConfigLocalPackages $ prjConfigLocal
True @=? Flag.fromFlagOrDefault False localCoverageFlag
where
testdir = "build/ignore-project"
emptyConfig = mempty
ignoreSetConfig :: ProjectConfig
ignoreSetConfig = mempty { projectConfigShared = mempty { projectConfigIgnoreProject = Flag True } }