{-# LANGUAGE OverloadedStrings #-} -- | This is a set of unit tests for the dependency solver, -- which uses the solver DSL ("UnitTests.Distribution.Solver.Modular.DSL") -- to more conveniently create package databases to run the solver tests on. module UnitTests.Distribution.Solver.Modular.Solver (tests) where -- base import Data.List (isInfixOf) import qualified Distribution.Version as V -- test-framework import Test.Tasty as TF -- Cabal import Language.Haskell.Extension ( Extension(..) , KnownExtension(..), Language(..)) -- cabal-install import Distribution.Solver.Types.Flag import Distribution.Solver.Types.OptionalStanza import Distribution.Solver.Types.PackageConstraint import Distribution.Solver.Types.PackagePath import UnitTests.Distribution.Solver.Modular.DSL import UnitTests.Distribution.Solver.Modular.DSL.TestCaseUtils tests :: [TF.TestTree] tests = [ testGroup "Simple dependencies" [ runTest $ mkTest db1 "alreadyInstalled" ["A"] (solverSuccess []) , runTest $ mkTest db1 "installLatest" ["B"] (solverSuccess [("B", 2)]) , runTest $ mkTest db1 "simpleDep1" ["C"] (solverSuccess [("B", 1), ("C", 1)]) , runTest $ mkTest db1 "simpleDep2" ["D"] (solverSuccess [("B", 2), ("D", 1)]) , runTest $ mkTest db1 "failTwoVersions" ["C", "D"] anySolverFailure , runTest $ indep $ mkTest db1 "indepTwoVersions" ["C", "D"] (solverSuccess [("B", 1), ("B", 2), ("C", 1), ("D", 1)]) , runTest $ indep $ mkTest db1 "aliasWhenPossible1" ["C", "E"] (solverSuccess [("B", 1), ("C", 1), ("E", 1)]) , runTest $ indep $ mkTest db1 "aliasWhenPossible2" ["D", "E"] (solverSuccess [("B", 2), ("D", 1), ("E", 1)]) , runTest $ indep $ mkTest db2 "aliasWhenPossible3" ["C", "D"] (solverSuccess [("A", 1), ("A", 2), ("B", 1), ("B", 2), ("C", 1), ("D", 1)]) , runTest $ mkTest db1 "buildDepAgainstOld" ["F"] (solverSuccess [("B", 1), ("E", 1), ("F", 1)]) , runTest $ mkTest db1 "buildDepAgainstNew" ["G"] (solverSuccess [("B", 2), ("E", 1), ("G", 1)]) , runTest $ indep $ mkTest db1 "multipleInstances" ["F", "G"] anySolverFailure , runTest $ mkTest db21 "unknownPackage1" ["A"] (solverSuccess [("A", 1), ("B", 1)]) , runTest $ mkTest db22 "unknownPackage2" ["A"] (solverFailure (isInfixOf "unknown package: C")) , runTest $ mkTest db23 "unknownPackage3" ["A"] (solverFailure (isInfixOf "unknown package: B")) ] , testGroup "Flagged dependencies" [ runTest $ mkTest db3 "forceFlagOn" ["C"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) , runTest $ mkTest db3 "forceFlagOff" ["D"] (solverSuccess [("A", 2), ("B", 1), ("D", 1)]) , runTest $ indep $ mkTest db3 "linkFlags1" ["C", "D"] anySolverFailure , runTest $ indep $ mkTest db4 "linkFlags2" ["C", "D"] anySolverFailure , runTest $ indep $ mkTest db18 "linkFlags3" ["A", "B"] (solverSuccess [("A", 1), ("B", 1), ("C", 1), ("D", 1), ("D", 2), ("F", 1)]) ] , testGroup "Manual flags" [ runTest $ mkTest dbManualFlags "Use default value for manual flag" ["pkg"] $ solverSuccess [("pkg", 1), ("true-dep", 1)] , let checkFullLog = any $ isInfixOf "rejecting: pkg-1.0.0:-flag (manual flag can only be changed explicitly)" in runTest $ constraints [ExVersionConstraint (ScopeAnyQualifier "true-dep") V.noVersion] $ mkTest dbManualFlags "Don't toggle manual flag to avoid conflict" ["pkg"] $ -- TODO: We should check the summarized log instead of the full log -- for the manual flags error message, but it currently only -- appears in the full log. SolverResult checkFullLog (Left $ const True) , let cs = [ExFlagConstraint (ScopeAnyQualifier "pkg") "flag" False] in runTest $ constraints cs $ mkTest dbManualFlags "Toggle manual flag with flag constraint" ["pkg"] $ solverSuccess [("false-dep", 1), ("pkg", 1)] ] , testGroup "Qualified manual flag constraints" [ let name = "Top-level flag constraint does not constrain setup dep's flag" cs = [ExFlagConstraint (ScopeQualified QualToplevel "B") "flag" False] in runTest $ constraints cs $ mkTest dbSetupDepWithManualFlag name ["A"] $ solverSuccess [ ("A", 1), ("B", 1), ("B", 2) , ("b-1-false-dep", 1), ("b-2-true-dep", 1) ] , let name = "Solver can toggle setup dep's flag to match top-level constraint" cs = [ ExFlagConstraint (ScopeQualified QualToplevel "B") "flag" False , ExVersionConstraint (ScopeAnyQualifier "b-2-true-dep") V.noVersion ] in runTest $ constraints cs $ mkTest dbSetupDepWithManualFlag name ["A"] $ solverSuccess [ ("A", 1), ("B", 1), ("B", 2) , ("b-1-false-dep", 1), ("b-2-false-dep", 1) ] , let name = "User can constrain flags separately with qualified constraints" cs = [ ExFlagConstraint (ScopeQualified QualToplevel "B") "flag" True , ExFlagConstraint (ScopeQualified (QualSetup "A") "B") "flag" False ] in runTest $ constraints cs $ mkTest dbSetupDepWithManualFlag name ["A"] $ solverSuccess [ ("A", 1), ("B", 1), ("B", 2) , ("b-1-true-dep", 1), ("b-2-false-dep", 1) ] -- Regression test for #4299 , let name = "Solver can link deps when only one has constrained manual flag" cs = [ExFlagConstraint (ScopeQualified QualToplevel "B") "flag" False] in runTest $ constraints cs $ mkTest dbLinkedSetupDepWithManualFlag name ["A"] $ solverSuccess [ ("A", 1), ("B", 1), ("b-1-false-dep", 1) ] , let name = "Solver cannot link deps that have conflicting manual flag constraints" cs = [ ExFlagConstraint (ScopeQualified QualToplevel "B") "flag" True , ExFlagConstraint (ScopeQualified (QualSetup "A") "B") "flag" False ] failureReason = "(constraint from unknown source requires opposite flag selection)" checkFullLog lns = all (\msg -> any (msg `isInfixOf`) lns) [ "rejecting: B-1.0.0:-flag " ++ failureReason , "rejecting: A:setup.B-1.0.0:+flag " ++ failureReason ] in runTest $ constraints cs $ mkTest dbLinkedSetupDepWithManualFlag name ["A"] $ SolverResult checkFullLog (Left $ const True) ] , testGroup "Stanzas" [ runTest $ enableAllTests $ mkTest db5 "simpleTest1" ["C"] (solverSuccess [("A", 2), ("C", 1)]) , runTest $ enableAllTests $ mkTest db5 "simpleTest2" ["D"] anySolverFailure , runTest $ enableAllTests $ mkTest db5 "simpleTest3" ["E"] (solverSuccess [("A", 1), ("E", 1)]) , runTest $ enableAllTests $ mkTest db5 "simpleTest4" ["F"] anySolverFailure -- TODO , runTest $ enableAllTests $ mkTest db5 "simpleTest5" ["G"] (solverSuccess [("A", 2), ("G", 1)]) , runTest $ enableAllTests $ mkTest db5 "simpleTest6" ["E", "G"] anySolverFailure , runTest $ indep $ enableAllTests $ mkTest db5 "simpleTest7" ["E", "G"] (solverSuccess [("A", 1), ("A", 2), ("E", 1), ("G", 1)]) , runTest $ enableAllTests $ mkTest db6 "depsWithTests1" ["C"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) , runTest $ indep $ enableAllTests $ mkTest db6 "depsWithTests2" ["C", "D"] (solverSuccess [("A", 1), ("B", 1), ("C", 1), ("D", 1)]) ] , testGroup "Setup dependencies" [ runTest $ mkTest db7 "setupDeps1" ["B"] (solverSuccess [("A", 2), ("B", 1)]) , runTest $ mkTest db7 "setupDeps2" ["C"] (solverSuccess [("A", 2), ("C", 1)]) , runTest $ mkTest db7 "setupDeps3" ["D"] (solverSuccess [("A", 1), ("D", 1)]) , runTest $ mkTest db7 "setupDeps4" ["E"] (solverSuccess [("A", 1), ("A", 2), ("E", 1)]) , runTest $ mkTest db7 "setupDeps5" ["F"] (solverSuccess [("A", 1), ("A", 2), ("F", 1)]) , runTest $ mkTest db8 "setupDeps6" ["C", "D"] (solverSuccess [("A", 1), ("B", 1), ("B", 2), ("C", 1), ("D", 1)]) , runTest $ mkTest db9 "setupDeps7" ["F", "G"] (solverSuccess [("A", 1), ("B", 1), ("B",2 ), ("C", 1), ("D", 1), ("E", 1), ("E", 2), ("F", 1), ("G", 1)]) , runTest $ mkTest db10 "setupDeps8" ["C"] (solverSuccess [("C", 1)]) , runTest $ indep $ mkTest dbSetupDeps "setupDeps9" ["A", "B"] (solverSuccess [("A", 1), ("B", 1), ("C", 1), ("D", 1), ("D", 2)]) ] , testGroup "Base shim" [ runTest $ mkTest db11 "baseShim1" ["A"] (solverSuccess [("A", 1)]) , runTest $ mkTest db12 "baseShim2" ["A"] (solverSuccess [("A", 1)]) , runTest $ mkTest db12 "baseShim3" ["B"] (solverSuccess [("B", 1)]) , runTest $ mkTest db12 "baseShim4" ["C"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) , runTest $ mkTest db12 "baseShim5" ["D"] anySolverFailure , runTest $ mkTest db12 "baseShim6" ["E"] (solverSuccess [("E", 1), ("syb", 2)]) ] , testGroup "Base" [ runTest $ mkTest dbBase "Refuse to install base without --allow-boot-library-installs" ["base"] $ solverFailure (isInfixOf "only already installed instances can be used") , runTest $ allowBootLibInstalls $ mkTest dbBase "Install base with --allow-boot-library-installs" ["base"] $ solverSuccess [("base", 1), ("ghc-prim", 1), ("integer-gmp", 1), ("integer-simple", 1)] ] , testGroup "Cycles" [ runTest $ mkTest db14 "simpleCycle1" ["A"] anySolverFailure , runTest $ mkTest db14 "simpleCycle2" ["A", "B"] anySolverFailure , runTest $ mkTest db14 "cycleWithFlagChoice1" ["C"] (solverSuccess [("C", 1), ("E", 1)]) , runTest $ mkTest db15 "cycleThroughSetupDep1" ["A"] anySolverFailure , runTest $ mkTest db15 "cycleThroughSetupDep2" ["B"] anySolverFailure , runTest $ mkTest db15 "cycleThroughSetupDep3" ["C"] (solverSuccess [("C", 2), ("D", 1)]) , runTest $ mkTest db15 "cycleThroughSetupDep4" ["D"] (solverSuccess [("D", 1)]) , runTest $ mkTest db15 "cycleThroughSetupDep5" ["E"] (solverSuccess [("C", 2), ("D", 1), ("E", 1)]) , runTest $ testCyclicDependencyErrorMessages "cyclic dependency error messages" ] , testGroup "Extensions" [ runTest $ mkTestExts [EnableExtension CPP] dbExts1 "unsupported" ["A"] anySolverFailure , runTest $ mkTestExts [EnableExtension CPP] dbExts1 "unsupportedIndirect" ["B"] anySolverFailure , runTest $ mkTestExts [EnableExtension RankNTypes] dbExts1 "supported" ["A"] (solverSuccess [("A",1)]) , runTest $ mkTestExts (map EnableExtension [CPP,RankNTypes]) dbExts1 "supportedIndirect" ["C"] (solverSuccess [("A",1),("B",1), ("C",1)]) , runTest $ mkTestExts [EnableExtension CPP] dbExts1 "disabledExtension" ["D"] anySolverFailure , runTest $ mkTestExts (map EnableExtension [CPP,RankNTypes]) dbExts1 "disabledExtension" ["D"] anySolverFailure , runTest $ mkTestExts (UnknownExtension "custom" : map EnableExtension [CPP,RankNTypes]) dbExts1 "supportedUnknown" ["E"] (solverSuccess [("A",1),("B",1),("C",1),("E",1)]) ] , testGroup "Languages" [ runTest $ mkTestLangs [Haskell98] dbLangs1 "unsupported" ["A"] anySolverFailure , runTest $ mkTestLangs [Haskell98,Haskell2010] dbLangs1 "supported" ["A"] (solverSuccess [("A",1)]) , runTest $ mkTestLangs [Haskell98] dbLangs1 "unsupportedIndirect" ["B"] anySolverFailure , runTest $ mkTestLangs [Haskell98, Haskell2010, UnknownLanguage "Haskell3000"] dbLangs1 "supportedUnknown" ["C"] (solverSuccess [("A",1),("B",1),("C",1)]) ] , testGroup "Qualified Package Constraints" [ runTest $ mkTest dbConstraints "install latest versions without constraints" ["A", "B", "C"] $ solverSuccess [("A", 7), ("B", 8), ("C", 9), ("D", 7), ("D", 8), ("D", 9)] , let cs = [ ExVersionConstraint (ScopeAnyQualifier "D") $ mkVersionRange 1 4 ] in runTest $ constraints cs $ mkTest dbConstraints "force older versions with unqualified constraint" ["A", "B", "C"] $ solverSuccess [("A", 1), ("B", 2), ("C", 3), ("D", 1), ("D", 2), ("D", 3)] , let cs = [ ExVersionConstraint (ScopeQualified QualToplevel "D") $ mkVersionRange 1 4 , ExVersionConstraint (ScopeQualified (QualSetup "B") "D") $ mkVersionRange 4 7 ] in runTest $ constraints cs $ mkTest dbConstraints "force multiple versions with qualified constraints" ["A", "B", "C"] $ solverSuccess [("A", 1), ("B", 5), ("C", 9), ("D", 1), ("D", 5), ("D", 9)] , let cs = [ ExVersionConstraint (ScopeAnySetupQualifier "D") $ mkVersionRange 1 4 ] in runTest $ constraints cs $ mkTest dbConstraints "constrain package across setup scripts" ["A", "B", "C"] $ solverSuccess [("A", 7), ("B", 2), ("C", 3), ("D", 2), ("D", 3), ("D", 7)] ] , testGroup "Package Preferences" [ runTest $ preferences [ ExPkgPref "A" $ mkvrThis 1] $ mkTest db13 "selectPreferredVersionSimple" ["A"] (solverSuccess [("A", 1)]) , runTest $ preferences [ ExPkgPref "A" $ mkvrOrEarlier 2] $ mkTest db13 "selectPreferredVersionSimple2" ["A"] (solverSuccess [("A", 2)]) , runTest $ preferences [ ExPkgPref "A" $ mkvrOrEarlier 2 , ExPkgPref "A" $ mkvrOrEarlier 1] $ mkTest db13 "selectPreferredVersionMultiple" ["A"] (solverSuccess [("A", 1)]) , runTest $ preferences [ ExPkgPref "A" $ mkvrOrEarlier 1 , ExPkgPref "A" $ mkvrOrEarlier 2] $ mkTest db13 "selectPreferredVersionMultiple2" ["A"] (solverSuccess [("A", 1)]) , runTest $ preferences [ ExPkgPref "A" $ mkvrThis 1 , ExPkgPref "A" $ mkvrThis 2] $ mkTest db13 "selectPreferredVersionMultiple3" ["A"] (solverSuccess [("A", 2)]) , runTest $ preferences [ ExPkgPref "A" $ mkvrThis 1 , ExPkgPref "A" $ mkvrOrEarlier 2] $ mkTest db13 "selectPreferredVersionMultiple4" ["A"] (solverSuccess [("A", 1)]) ] , testGroup "Stanza Preferences" [ runTest $ mkTest dbStanzaPreferences1 "disable tests by default" ["pkg"] $ solverSuccess [("pkg", 1)] , runTest $ preferences [ExStanzaPref "pkg" [TestStanzas]] $ mkTest dbStanzaPreferences1 "enable tests with testing preference" ["pkg"] $ solverSuccess [("pkg", 1), ("test-dep", 1)] , runTest $ preferences [ExStanzaPref "pkg" [TestStanzas]] $ mkTest dbStanzaPreferences2 "disable testing when it's not possible" ["pkg"] $ solverSuccess [("pkg", 1)] ] , testGroup "Buildable Field" [ testBuildable "avoid building component with unknown dependency" (ExAny "unknown") , testBuildable "avoid building component with unknown extension" (ExExt (UnknownExtension "unknown")) , testBuildable "avoid building component with unknown language" (ExLang (UnknownLanguage "unknown")) , runTest $ mkTest dbBuildable1 "choose flags that set buildable to false" ["pkg"] (solverSuccess [("flag1-false", 1), ("flag2-true", 1), ("pkg", 1)]) , runTest $ mkTest dbBuildable2 "choose version that sets buildable to false" ["A"] (solverSuccess [("A", 1), ("B", 2)]) ] , testGroup "Pkg-config dependencies" [ runTest $ mkTestPCDepends [] dbPC1 "noPkgs" ["A"] anySolverFailure , runTest $ mkTestPCDepends [("pkgA", "0")] dbPC1 "tooOld" ["A"] anySolverFailure , runTest $ mkTestPCDepends [("pkgA", "1.0.0"), ("pkgB", "1.0.0")] dbPC1 "pruneNotFound" ["C"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) , runTest $ mkTestPCDepends [("pkgA", "1.0.0"), ("pkgB", "2.0.0")] dbPC1 "chooseNewest" ["C"] (solverSuccess [("A", 1), ("B", 2), ("C", 1)]) ] , testGroup "Independent goals" [ runTest $ indep $ mkTest db16 "indepGoals1" ["A", "B"] (solverSuccess [("A", 1), ("B", 1), ("C", 1), ("D", 1), ("D", 2), ("E", 1)]) , runTest $ testIndepGoals2 "indepGoals2" , runTest $ testIndepGoals3 "indepGoals3" , runTest $ testIndepGoals4 "indepGoals4" , runTest $ testIndepGoals5 "indepGoals5 - fixed goal order" FixedGoalOrder , runTest $ testIndepGoals5 "indepGoals5 - default goal order" DefaultGoalOrder , runTest $ testIndepGoals6 "indepGoals6 - fixed goal order" FixedGoalOrder , runTest $ testIndepGoals6 "indepGoals6 - default goal order" DefaultGoalOrder ] -- Tests designed for the backjumping blog post , testGroup "Backjumping" [ runTest $ mkTest dbBJ1a "bj1a" ["A"] (solverSuccess [("A", 1), ("B", 1)]) , runTest $ mkTest dbBJ1b "bj1b" ["A"] (solverSuccess [("A", 1), ("B", 1)]) , runTest $ mkTest dbBJ1c "bj1c" ["A"] (solverSuccess [("A", 1), ("B", 1)]) , runTest $ mkTest dbBJ2 "bj2" ["A"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) , runTest $ mkTest dbBJ3 "bj3" ["A"] (solverSuccess [("A", 1), ("Ba", 1), ("C", 1)]) , runTest $ mkTest dbBJ4 "bj4" ["A"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) , runTest $ mkTest dbBJ5 "bj5" ["A"] (solverSuccess [("A", 1), ("B", 1), ("D", 1)]) , runTest $ mkTest dbBJ6 "bj6" ["A"] (solverSuccess [("A", 1), ("B", 1)]) , runTest $ mkTest dbBJ7 "bj7" ["A"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) , runTest $ indep $ mkTest dbBJ8 "bj8" ["A", "B"] (solverSuccess [("A", 1), ("B", 1), ("C", 1)]) ] -- Build-tools dependencies , testGroup "build-tools" [ runTest $ mkTest dbBuildTools1 "bt1" ["A"] (solverSuccess [("A", 1), ("alex", 1)]) , runTest $ mkTest dbBuildTools2 "bt2" ["A"] (solverSuccess [("A", 1)]) , runTest $ mkTest dbBuildTools3 "bt3" ["C"] (solverSuccess [("A", 1), ("B", 1), ("C", 1), ("alex", 1), ("alex", 2)]) , runTest $ mkTest dbBuildTools4 "bt4" ["B"] (solverSuccess [("A", 1), ("A", 2), ("B", 1), ("alex", 1)]) , runTest $ mkTest dbBuildTools5 "bt5" ["A"] (solverSuccess [("A", 1), ("alex", 1), ("happy", 1)]) , runTest $ mkTest dbBuildTools6 "bt6" ["B"] (solverSuccess [("A", 2), ("B", 2), ("warp", 1)]) ] -- Tests for the contents of the solver's log , testGroup "Solver log" [ -- See issue #3203. The solver should only choose a version for A once. runTest $ let db = [Right $ exAv "A" 1 []] p :: [String] -> Bool p lg = elem "targets: A" lg && length (filter ("trying: A" `isInfixOf`) lg) == 1 in mkTest db "deduplicate targets" ["A", "A"] $ SolverResult p $ Right [("A", 1)] , runTest $ let db = [Right $ exAv "A" 1 [ExAny "B"]] msg = "After searching the rest of the dependency tree exhaustively, " ++ "these were the goals I've had most trouble fulfilling: A, B" in mkTest db "exhaustive search failure message" ["A"] $ solverFailure (isInfixOf msg) ] ] where indep = independentGoals mkvrThis = V.thisVersion . makeV mkvrOrEarlier = V.orEarlierVersion . makeV makeV v = V.mkVersion [v,0,0] data GoalOrder = FixedGoalOrder | DefaultGoalOrder {------------------------------------------------------------------------------- Specific example database for the tests -------------------------------------------------------------------------------} db1 :: ExampleDb db1 = let a = exInst "A" 1 "A-1" [] in [ Left a , Right $ exAv "B" 1 [ExAny "A"] , Right $ exAv "B" 2 [ExAny "A"] , Right $ exAv "C" 1 [ExFix "B" 1] , Right $ exAv "D" 1 [ExFix "B" 2] , Right $ exAv "E" 1 [ExAny "B"] , Right $ exAv "F" 1 [ExFix "B" 1, ExAny "E"] , Right $ exAv "G" 1 [ExFix "B" 2, ExAny "E"] , Right $ exAv "Z" 1 [] ] -- In this example, we _can_ install C and D as independent goals, but we have -- to pick two diferent versions for B (arbitrarily) db2 :: ExampleDb db2 = [ Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [] , Right $ exAv "B" 1 [ExAny "A"] , Right $ exAv "B" 2 [ExAny "A"] , Right $ exAv "C" 1 [ExAny "B", ExFix "A" 1] , Right $ exAv "D" 1 [ExAny "B", ExFix "A" 2] ] db3 :: ExampleDb db3 = [ Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [] , Right $ exAv "B" 1 [exFlagged "flagB" [ExFix "A" 1] [ExFix "A" 2]] , Right $ exAv "C" 1 [ExFix "A" 1, ExAny "B"] , Right $ exAv "D" 1 [ExFix "A" 2, ExAny "B"] ] -- | Like db3, but the flag picks a different package rather than a -- different package version -- -- In db3 we cannot install C and D as independent goals because: -- -- * The multiple instance restriction says C and D _must_ share B -- * Since C relies on A-1, C needs B to be compiled with flagB on -- * Since D relies on A-2, D needs B to be compiled with flagB off -- * Hence C and D have incompatible requirements on B's flags. -- -- However, _even_ if we don't check explicitly that we pick the same flag -- assignment for 0.B and 1.B, we will still detect the problem because -- 0.B depends on 0.A-1, 1.B depends on 1.A-2, hence we cannot link 0.A to -- 1.A and therefore we cannot link 0.B to 1.B. -- -- In db4 the situation however is trickier. We again cannot install -- packages C and D as independent goals because: -- -- * As above, the multiple instance restriction says that C and D _must_ share B -- * Since C relies on Ax-2, it requires B to be compiled with flagB off -- * Since D relies on Ay-2, it requires B to be compiled with flagB on -- * Hence C and D have incompatible requirements on B's flags. -- -- But now this requirement is more indirect. If we only check dependencies -- we don't see the problem: -- -- * We link 0.B to 1.B -- * 0.B relies on Ay-1 -- * 1.B relies on Ax-1 -- -- We will insist that 0.Ay will be linked to 1.Ay, and 0.Ax to 1.Ax, but since -- we only ever assign to one of these, these constraints are never broken. db4 :: ExampleDb db4 = [ Right $ exAv "Ax" 1 [] , Right $ exAv "Ax" 2 [] , Right $ exAv "Ay" 1 [] , Right $ exAv "Ay" 2 [] , Right $ exAv "B" 1 [exFlagged "flagB" [ExFix "Ax" 1] [ExFix "Ay" 1]] , Right $ exAv "C" 1 [ExFix "Ax" 2, ExAny "B"] , Right $ exAv "D" 1 [ExFix "Ay" 2, ExAny "B"] ] -- | Simple database containing one package with a manual flag. dbManualFlags :: ExampleDb dbManualFlags = [ Right $ declareFlags [ExFlag "flag" True Manual] $ exAv "pkg" 1 [exFlagged "flag" [ExAny "true-dep"] [ExAny "false-dep"]] , Right $ exAv "true-dep" 1 [] , Right $ exAv "false-dep" 1 [] ] -- | Database containing a setup dependency with a manual flag. A's library and -- setup script depend on two different versions of B. B's manual flag can be -- set to different values in the two places where it is used. dbSetupDepWithManualFlag :: ExampleDb dbSetupDepWithManualFlag = let bFlags = [ExFlag "flag" True Manual] in [ Right $ exAv "A" 1 [ExFix "B" 1] `withSetupDeps` [ExFix "B" 2] , Right $ declareFlags bFlags $ exAv "B" 1 [exFlagged "flag" [ExAny "b-1-true-dep"] [ExAny "b-1-false-dep"]] , Right $ declareFlags bFlags $ exAv "B" 2 [exFlagged "flag" [ExAny "b-2-true-dep"] [ExAny "b-2-false-dep"]] , Right $ exAv "b-1-true-dep" 1 [] , Right $ exAv "b-1-false-dep" 1 [] , Right $ exAv "b-2-true-dep" 1 [] , Right $ exAv "b-2-false-dep" 1 [] ] -- | A database similar to 'dbSetupDepWithManualFlag', except that the library -- and setup script both depend on B-1. B must be linked because of the Single -- Instance Restriction, and its flag can only have one value. dbLinkedSetupDepWithManualFlag :: ExampleDb dbLinkedSetupDepWithManualFlag = [ Right $ exAv "A" 1 [ExFix "B" 1] `withSetupDeps` [ExFix "B" 1] , Right $ declareFlags [ExFlag "flag" True Manual] $ exAv "B" 1 [exFlagged "flag" [ExAny "b-1-true-dep"] [ExAny "b-1-false-dep"]] , Right $ exAv "b-1-true-dep" 1 [] , Right $ exAv "b-1-false-dep" 1 [] ] -- | Some tests involving testsuites -- -- Note that in this test framework test suites are always enabled; if you -- want to test without test suites just set up a test database without -- test suites. -- -- * C depends on A (through its test suite) -- * D depends on B-2 (through its test suite), but B-2 is unavailable -- * E depends on A-1 directly and on A through its test suite. We prefer -- to use A-1 for the test suite in this case. -- * F depends on A-1 directly and on A-2 through its test suite. In this -- case we currently fail to install F, although strictly speaking -- test suites should be considered independent goals. -- * G is like E, but for version A-2. This means that if we cannot install -- E and G together, unless we regard them as independent goals. db5 :: ExampleDb db5 = [ Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [] , Right $ exAv "B" 1 [] , Right $ exAv "C" 1 [] `withTest` ExTest "testC" [ExAny "A"] , Right $ exAv "D" 1 [] `withTest` ExTest "testD" [ExFix "B" 2] , Right $ exAv "E" 1 [ExFix "A" 1] `withTest` ExTest "testE" [ExAny "A"] , Right $ exAv "F" 1 [ExFix "A" 1] `withTest` ExTest "testF" [ExFix "A" 2] , Right $ exAv "G" 1 [ExFix "A" 2] `withTest` ExTest "testG" [ExAny "A"] ] -- Now the _dependencies_ have test suites -- -- * Installing C is a simple example. C wants version 1 of A, but depends on -- B, and B's testsuite depends on an any version of A. In this case we prefer -- to link (if we don't regard test suites as independent goals then of course -- linking here doesn't even come into it). -- * Installing [C, D] means that we prefer to link B -- depending on how we -- set things up, this means that we should also link their test suites. db6 :: ExampleDb db6 = [ Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [] , Right $ exAv "B" 1 [] `withTest` ExTest "testA" [ExAny "A"] , Right $ exAv "C" 1 [ExFix "A" 1, ExAny "B"] , Right $ exAv "D" 1 [ExAny "B"] ] -- Packages with setup dependencies -- -- Install.. -- * B: Simple example, just make sure setup deps are taken into account at all -- * C: Both the package and the setup script depend on any version of A. -- In this case we prefer to link -- * D: Variation on C.1 where the package requires a specific (not latest) -- version but the setup dependency is not fixed. Again, we prefer to -- link (picking the older version) -- * E: Variation on C.2 with the setup dependency the more inflexible. -- Currently, in this case we do not see the opportunity to link because -- we consider setup dependencies after normal dependencies; we will -- pick A.2 for E, then realize we cannot link E.setup.A to A.2, and pick -- A.1 instead. This isn't so easy to fix (if we want to fix it at all); -- in particular, considering setup dependencies _before_ other deps is -- not an improvement, because in general we would prefer to link setup -- setups to package deps, rather than the other way around. (For example, -- if we change this ordering then the test for D would start to install -- two versions of A). -- * F: The package and the setup script depend on different versions of A. -- This will only work if setup dependencies are considered independent. db7 :: ExampleDb db7 = [ Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [] , Right $ exAv "B" 1 [] `withSetupDeps` [ExAny "A"] , Right $ exAv "C" 1 [ExAny "A" ] `withSetupDeps` [ExAny "A" ] , Right $ exAv "D" 1 [ExFix "A" 1] `withSetupDeps` [ExAny "A" ] , Right $ exAv "E" 1 [ExAny "A" ] `withSetupDeps` [ExFix "A" 1] , Right $ exAv "F" 1 [ExFix "A" 2] `withSetupDeps` [ExFix "A" 1] ] -- If we install C and D together (not as independent goals), we need to build -- both B.1 and B.2, both of which depend on A. db8 :: ExampleDb db8 = [ Right $ exAv "A" 1 [] , Right $ exAv "B" 1 [ExAny "A"] , Right $ exAv "B" 2 [ExAny "A"] , Right $ exAv "C" 1 [] `withSetupDeps` [ExFix "B" 1] , Right $ exAv "D" 1 [] `withSetupDeps` [ExFix "B" 2] ] -- Extended version of `db8` so that we have nested setup dependencies db9 :: ExampleDb db9 = db8 ++ [ Right $ exAv "E" 1 [ExAny "C"] , Right $ exAv "E" 2 [ExAny "D"] , Right $ exAv "F" 1 [] `withSetupDeps` [ExFix "E" 1] , Right $ exAv "G" 1 [] `withSetupDeps` [ExFix "E" 2] ] -- Multiple already-installed packages with inter-dependencies, and one package -- (C) that depends on package A-1 for its setup script and package A-2 as a -- library dependency. db10 :: ExampleDb db10 = let rts = exInst "rts" 1 "rts-inst" [] ghc_prim = exInst "ghc-prim" 1 "ghc-prim-inst" [rts] base = exInst "base" 1 "base-inst" [rts, ghc_prim] a1 = exInst "A" 1 "A1-inst" [base] a2 = exInst "A" 2 "A2-inst" [base] in [ Left rts , Left ghc_prim , Left base , Left a1 , Left a2 , Right $ exAv "C" 1 [ExFix "A" 2] `withSetupDeps` [ExFix "A" 1] ] -- | This database tests that a package's setup dependencies are correctly -- linked when the package is linked. See pull request #3268. -- -- When A and B are installed as independent goals, their dependencies on C must -- be linked, due to the single instance restriction. Since C depends on D, 0.D -- and 1.D must be linked. C also has a setup dependency on D, so 0.C-setup.D -- and 1.C-setup.D must be linked. However, D's two link groups must remain -- independent. The solver should be able to choose D-1 for C's library and D-2 -- for C's setup script. dbSetupDeps :: ExampleDb dbSetupDeps = [ Right $ exAv "A" 1 [ExAny "C"] , Right $ exAv "B" 1 [ExAny "C"] , Right $ exAv "C" 1 [ExFix "D" 1] `withSetupDeps` [ExFix "D" 2] , Right $ exAv "D" 1 [] , Right $ exAv "D" 2 [] ] -- | Tests for dealing with base shims db11 :: ExampleDb db11 = let base3 = exInst "base" 3 "base-3-inst" [base4] base4 = exInst "base" 4 "base-4-inst" [] in [ Left base3 , Left base4 , Right $ exAv "A" 1 [ExFix "base" 3] ] -- | Slightly more realistic version of db11 where base-3 depends on syb -- This means that if a package depends on base-3 and on syb, then they MUST -- share the version of syb -- -- * Package A relies on base-3 (which relies on base-4) -- * Package B relies on base-4 -- * Package C relies on both A and B -- * Package D relies on base-3 and on syb-2, which is not possible because -- base-3 has a dependency on syb-1 (non-inheritance of the Base qualifier) -- * Package E relies on base-4 and on syb-2, which is fine. db12 :: ExampleDb db12 = let base3 = exInst "base" 3 "base-3-inst" [base4, syb1] base4 = exInst "base" 4 "base-4-inst" [] syb1 = exInst "syb" 1 "syb-1-inst" [base4] in [ Left base3 , Left base4 , Left syb1 , Right $ exAv "syb" 2 [ExFix "base" 4] , Right $ exAv "A" 1 [ExFix "base" 3, ExAny "syb"] , Right $ exAv "B" 1 [ExFix "base" 4, ExAny "syb"] , Right $ exAv "C" 1 [ExAny "A", ExAny "B"] , Right $ exAv "D" 1 [ExFix "base" 3, ExFix "syb" 2] , Right $ exAv "E" 1 [ExFix "base" 4, ExFix "syb" 2] ] dbBase :: ExampleDb dbBase = [ Right $ exAv "base" 1 [ExAny "ghc-prim", ExAny "integer-simple", ExAny "integer-gmp"] , Right $ exAv "ghc-prim" 1 [] , Right $ exAv "integer-simple" 1 [] , Right $ exAv "integer-gmp" 1 [] ] db13 :: ExampleDb db13 = [ Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [] , Right $ exAv "A" 3 [] ] -- | A, B, and C have three different dependencies on D that can be set to -- different versions with qualified constraints. Each version of D can only -- be depended upon by one version of A, B, or C, so that the versions of A, B, -- and C in the install plan indicate which version of D was chosen for each -- dependency. The one-to-one correspondence between versions of A, B, and C and -- versions of D also prevents linking, which would complicate the solver's -- behavior. dbConstraints :: ExampleDb dbConstraints = [Right $ exAv "A" v [ExFix "D" v] | v <- [1, 4, 7]] ++ [Right $ exAv "B" v [] `withSetupDeps` [ExFix "D" v] | v <- [2, 5, 8]] ++ [Right $ exAv "C" v [] `withSetupDeps` [ExFix "D" v] | v <- [3, 6, 9]] ++ [Right $ exAv "D" v [] | v <- [1..9]] dbStanzaPreferences1 :: ExampleDb dbStanzaPreferences1 = [ Right $ exAv "pkg" 1 [] `withTest` ExTest "test" [ExAny "test-dep"] , Right $ exAv "test-dep" 1 [] ] dbStanzaPreferences2 :: ExampleDb dbStanzaPreferences2 = [ Right $ exAv "pkg" 1 [] `withTest` ExTest "test" [ExAny "unknown"] ] -- | Database with some cycles -- -- * Simplest non-trivial cycle: A -> B and B -> A -- * There is a cycle C -> D -> C, but it can be broken by picking the -- right flag assignment. db14 :: ExampleDb db14 = [ Right $ exAv "A" 1 [ExAny "B"] , Right $ exAv "B" 1 [ExAny "A"] , Right $ exAv "C" 1 [exFlagged "flagC" [ExAny "D"] [ExAny "E"]] , Right $ exAv "D" 1 [ExAny "C"] , Right $ exAv "E" 1 [] ] -- | Cycles through setup dependencies -- -- The first cycle is unsolvable: package A has a setup dependency on B, -- B has a regular dependency on A, and we only have a single version available -- for both. -- -- The second cycle can be broken by picking different versions: package C-2.0 -- has a setup dependency on D, and D has a regular dependency on C-*. However, -- version C-1.0 is already available (perhaps it didn't have this setup dep). -- Thus, we should be able to break this cycle even if we are installing package -- E, which explictly depends on C-2.0. db15 :: ExampleDb db15 = [ -- First example (real cycle, no solution) Right $ exAv "A" 1 [] `withSetupDeps` [ExAny "B"] , Right $ exAv "B" 1 [ExAny "A"] -- Second example (cycle can be broken by picking versions carefully) , Left $ exInst "C" 1 "C-1-inst" [] , Right $ exAv "C" 2 [] `withSetupDeps` [ExAny "D"] , Right $ exAv "D" 1 [ExAny "C" ] , Right $ exAv "E" 1 [ExFix "C" 2] ] -- | Packages pkg-A, pkg-B, and pkg-C form a cycle. The solver should backtrack -- as soon as it chooses the last package in the cycle, to avoid searching parts -- of the tree that have no solution. Since there is no way to break the cycle, -- it should fail with an error message describing the cycle. testCyclicDependencyErrorMessages :: String -> SolverTest testCyclicDependencyErrorMessages name = goalOrder goals $ mkTest db name ["pkg-A"] $ SolverResult checkFullLog $ Left checkSummarizedLog where db :: ExampleDb db = [ Right $ exAv "pkg-A" 1 [ExAny "pkg-B"] , Right $ exAv "pkg-B" 1 [ExAny "pkg-C"] , Right $ exAv "pkg-C" 1 [ExAny "pkg-A", ExAny "pkg-D"] , Right $ exAv "pkg-D" 1 [ExAny "pkg-E"] , Right $ exAv "pkg-E" 1 [] ] -- The solver should backtrack as soon as pkg-A, pkg-B, and pkg-C form a -- cycle. It shouldn't try pkg-D or pkg-E. checkFullLog :: [String] -> Bool checkFullLog = not . any (\l -> "pkg-D" `isInfixOf` l || "pkg-E" `isInfixOf` l) checkSummarizedLog :: String -> Bool checkSummarizedLog = isInfixOf "rejecting: pkg-C-1.0.0 (cyclic dependencies; conflict set: pkg-A, pkg-B, pkg-C)" -- Solve for pkg-D and pkg-E last. goals :: [ExampleVar] goals = [P None ("pkg-" ++ [c]) | c <- ['A'..'E']] -- | Check that the solver can backtrack after encountering the SIR (issue #2843) -- -- When A and B are installed as independent goals, the single instance -- restriction prevents B from depending on C. This database tests that the -- solver can backtrack after encountering the single instance restriction and -- choose the only valid flag assignment (-flagA +flagB): -- -- > flagA flagB B depends on -- > On _ C-* -- > Off On E-* <-- only valid flag assignment -- > Off Off D-2.0, C-* -- -- Since A depends on C-* and D-1.0, and C-1.0 depends on any version of D, -- we must build C-1.0 against D-1.0. Since B depends on D-2.0, we cannot have -- C in the transitive closure of B's dependencies, because that would mean we -- would need two instances of C: one built against D-1.0 and one built against -- D-2.0. db16 :: ExampleDb db16 = [ Right $ exAv "A" 1 [ExAny "C", ExFix "D" 1] , Right $ exAv "B" 1 [ ExFix "D" 2 , exFlagged "flagA" [ExAny "C"] [exFlagged "flagB" [ExAny "E"] [ExAny "C"]]] , Right $ exAv "C" 1 [ExAny "D"] , Right $ exAv "D" 1 [] , Right $ exAv "D" 2 [] , Right $ exAv "E" 1 [] ] -- | This test checks that when the solver discovers a constraint on a -- package's version after choosing to link that package, it can backtrack to -- try alternative versions for the linked-to package. See pull request #3327. -- -- When A and B are installed as independent goals, their dependencies on C -- must be linked. Since C depends on D, A and B's dependencies on D must also -- be linked. This test fixes the goal order so that the solver chooses D-2 for -- both 0.D and 1.D before it encounters the test suites' constraints. The -- solver must backtrack to try D-1 for both 0.D and 1.D. testIndepGoals2 :: String -> SolverTest testIndepGoals2 name = goalOrder goals $ independentGoals $ enableAllTests $ mkTest db name ["A", "B"] $ solverSuccess [("A", 1), ("B", 1), ("C", 1), ("D", 1)] where db :: ExampleDb db = [ Right $ exAv "A" 1 [ExAny "C"] `withTest` ExTest "test" [ExFix "D" 1] , Right $ exAv "B" 1 [ExAny "C"] `withTest` ExTest "test" [ExFix "D" 1] , Right $ exAv "C" 1 [ExAny "D"] , Right $ exAv "D" 1 [] , Right $ exAv "D" 2 [] ] goals :: [ExampleVar] goals = [ P (Indep 0) "A" , P (Indep 0) "C" , P (Indep 0) "D" , P (Indep 1) "B" , P (Indep 1) "C" , P (Indep 1) "D" , S (Indep 1) "B" TestStanzas , S (Indep 0) "A" TestStanzas ] -- | Issue #2834 -- When both A and B are installed as independent goals, their dependencies on -- C must be linked. The only combination of C's flags that is consistent with -- A and B's dependencies on D is -flagA +flagB. This database tests that the -- solver can backtrack to find the right combination of flags (requiring F, but -- not E or G) and apply it to both 0.C and 1.C. -- -- > flagA flagB C depends on -- > On _ D-1, E-* -- > Off On F-* <-- Only valid choice -- > Off Off D-2, G-* -- -- The single instance restriction means we cannot have one instance of C -- built against D-1 and one instance built against D-2; since A depends on -- D-1, and B depends on C-2, it is therefore important that C cannot depend -- on any version of D. db18 :: ExampleDb db18 = [ Right $ exAv "A" 1 [ExAny "C", ExFix "D" 1] , Right $ exAv "B" 1 [ExAny "C", ExFix "D" 2] , Right $ exAv "C" 1 [exFlagged "flagA" [ExFix "D" 1, ExAny "E"] [exFlagged "flagB" [ExAny "F"] [ExFix "D" 2, ExAny "G"]]] , Right $ exAv "D" 1 [] , Right $ exAv "D" 2 [] , Right $ exAv "E" 1 [] , Right $ exAv "F" 1 [] , Right $ exAv "G" 1 [] ] -- | Tricky test case with independent goals (issue #2842) -- -- Suppose we are installing D, E, and F as independent goals: -- -- * D depends on A-* and C-1, requiring A-1 to be built against C-1 -- * E depends on B-* and C-2, requiring B-1 to be built against C-2 -- * F depends on A-* and B-*; this means we need A-1 and B-1 both to be built -- against the same version of C, violating the single instance restriction. -- -- We can visualize this DB as: -- -- > C-1 C-2 -- > /|\ /|\ -- > / | \ / | \ -- > / | X | \ -- > | | / \ | | -- > | |/ \| | -- > | + + | -- > | | | | -- > | A B | -- > \ |\ /| / -- > \ | \ / | / -- > \| V |/ -- > D F E testIndepGoals3 :: String -> SolverTest testIndepGoals3 name = goalOrder goals $ independentGoals $ mkTest db name ["D", "E", "F"] anySolverFailure where db :: ExampleDb db = [ Right $ exAv "A" 1 [ExAny "C"] , Right $ exAv "B" 1 [ExAny "C"] , Right $ exAv "C" 1 [] , Right $ exAv "C" 2 [] , Right $ exAv "D" 1 [ExAny "A", ExFix "C" 1] , Right $ exAv "E" 1 [ExAny "B", ExFix "C" 2] , Right $ exAv "F" 1 [ExAny "A", ExAny "B"] ] goals :: [ExampleVar] goals = [ P (Indep 0) "D" , P (Indep 0) "C" , P (Indep 0) "A" , P (Indep 1) "E" , P (Indep 1) "C" , P (Indep 1) "B" , P (Indep 2) "F" , P (Indep 2) "B" , P (Indep 2) "C" , P (Indep 2) "A" ] -- | This test checks that the solver correctly backjumps when dependencies -- of linked packages are not linked. It is an example where the conflict set -- from enforcing the single instance restriction is not sufficient. See pull -- request #3327. -- -- When A, B, and C are installed as independent goals with the specified goal -- order, the first choice that the solver makes for E is 0.E-2. Then, when it -- chooses dependencies for B and C, it links both 1.E and 2.E to 0.E. Finally, -- the solver discovers C's test's constraint on E. It must backtrack to try -- 1.E-1 and then link 2.E to 1.E. Backjumping all the way to 0.E does not lead -- to a solution, because 0.E's version is constrained by A and cannot be -- changed. testIndepGoals4 :: String -> SolverTest testIndepGoals4 name = goalOrder goals $ independentGoals $ enableAllTests $ mkTest db name ["A", "B", "C"] $ solverSuccess [("A",1), ("B",1), ("C",1), ("D",1), ("E",1), ("E",2)] where db :: ExampleDb db = [ Right $ exAv "A" 1 [ExFix "E" 2] , Right $ exAv "B" 1 [ExAny "D"] , Right $ exAv "C" 1 [ExAny "D"] `withTest` ExTest "test" [ExFix "E" 1] , Right $ exAv "D" 1 [ExAny "E"] , Right $ exAv "E" 1 [] , Right $ exAv "E" 2 [] ] goals :: [ExampleVar] goals = [ P (Indep 0) "A" , P (Indep 0) "E" , P (Indep 1) "B" , P (Indep 1) "D" , P (Indep 1) "E" , P (Indep 2) "C" , P (Indep 2) "D" , P (Indep 2) "E" , S (Indep 2) "C" TestStanzas ] -- | Test the trace messages that we get when a package refers to an unknown pkg -- -- TODO: Currently we don't actually test the trace messages, and this particular -- test still suceeds. The trace can only be verified by hand. db21 :: ExampleDb db21 = [ Right $ exAv "A" 1 [ExAny "B"] , Right $ exAv "A" 2 [ExAny "C"] -- A-2.0 will be tried first, but C unknown , Right $ exAv "B" 1 [] ] -- | A variant of 'db21', which actually fails. db22 :: ExampleDb db22 = [ Right $ exAv "A" 1 [ExAny "B"] , Right $ exAv "A" 2 [ExAny "C"] ] -- | Another test for the unknown package message. This database tests that -- filtering out redundant conflict set messages in the solver log doesn't -- interfere with generating a message about a missing package (part of issue -- #3617). The conflict set for the missing package is {A, B}. That conflict set -- is propagated up the tree to the level of A. Since the conflict set is the -- same at both levels, the solver only keeps one of the backjumping messages. db23 :: ExampleDb db23 = [ Right $ exAv "A" 1 [ExAny "B"] ] -- | Database for (unsuccessfully) trying to expose a bug in the handling -- of implied linking constraints. The question is whether an implied linking -- constraint should only have the introducing package in its conflict set, -- or also its link target. -- -- It turns out that as long as the Single Instance Restriction is in place, -- it does not matter, because there will aways be an option that is failing -- due to the SIR, which contains the link target in its conflict set. -- -- Even if the SIR is not in place, if there is a solution, one will always -- be found, because without the SIR, linking is always optional, but never -- necessary. -- testIndepGoals5 :: String -> GoalOrder -> SolverTest testIndepGoals5 name fixGoalOrder = case fixGoalOrder of FixedGoalOrder -> goalOrder goals test DefaultGoalOrder -> test where test :: SolverTest test = independentGoals $ mkTest db name ["X", "Y"] $ solverSuccess [("A", 1), ("A", 2), ("B", 1), ("C", 1), ("C", 2), ("X", 1), ("Y", 1)] db :: ExampleDb db = [ Right $ exAv "X" 1 [ExFix "C" 2, ExAny "A"] , Right $ exAv "Y" 1 [ExFix "C" 1, ExFix "A" 2] , Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [ExAny "B"] , Right $ exAv "B" 1 [ExAny "C"] , Right $ exAv "C" 1 [] , Right $ exAv "C" 2 [] ] goals :: [ExampleVar] goals = [ P (Indep 0) "X" , P (Indep 0) "A" , P (Indep 0) "B" , P (Indep 0) "C" , P (Indep 1) "Y" , P (Indep 1) "A" , P (Indep 1) "B" , P (Indep 1) "C" ] -- | A simplified version of 'testIndepGoals5'. testIndepGoals6 :: String -> GoalOrder -> SolverTest testIndepGoals6 name fixGoalOrder = case fixGoalOrder of FixedGoalOrder -> goalOrder goals test DefaultGoalOrder -> test where test :: SolverTest test = independentGoals $ mkTest db name ["X", "Y"] $ solverSuccess [("A", 1), ("A", 2), ("B", 1), ("B", 2), ("X", 1), ("Y", 1)] db :: ExampleDb db = [ Right $ exAv "X" 1 [ExFix "B" 2, ExAny "A"] , Right $ exAv "Y" 1 [ExFix "B" 1, ExFix "A" 2] , Right $ exAv "A" 1 [] , Right $ exAv "A" 2 [ExAny "B"] , Right $ exAv "B" 1 [] , Right $ exAv "B" 2 [] ] goals :: [ExampleVar] goals = [ P (Indep 0) "X" , P (Indep 0) "A" , P (Indep 0) "B" , P (Indep 1) "Y" , P (Indep 1) "A" , P (Indep 1) "B" ] dbExts1 :: ExampleDb dbExts1 = [ Right $ exAv "A" 1 [ExExt (EnableExtension RankNTypes)] , Right $ exAv "B" 1 [ExExt (EnableExtension CPP), ExAny "A"] , Right $ exAv "C" 1 [ExAny "B"] , Right $ exAv "D" 1 [ExExt (DisableExtension CPP), ExAny "B"] , Right $ exAv "E" 1 [ExExt (UnknownExtension "custom"), ExAny "C"] ] dbLangs1 :: ExampleDb dbLangs1 = [ Right $ exAv "A" 1 [ExLang Haskell2010] , Right $ exAv "B" 1 [ExLang Haskell98, ExAny "A"] , Right $ exAv "C" 1 [ExLang (UnknownLanguage "Haskell3000"), ExAny "B"] ] -- | cabal must set enable-exe to false in order to avoid the unavailable -- dependency. Flags are true by default. The flag choice causes "pkg" to -- depend on "false-dep". testBuildable :: String -> ExampleDependency -> TestTree testBuildable testName unavailableDep = runTest $ mkTestExtLangPC (Just []) (Just [Haskell98]) [] db testName ["pkg"] expected where expected = solverSuccess [("false-dep", 1), ("pkg", 1)] db = [ Right $ exAv "pkg" 1 [exFlagged "enable-exe" [ExAny "true-dep"] [ExAny "false-dep"]] `withExe` ExExe "exe" [ unavailableDep , ExFlagged "enable-exe" (Buildable []) NotBuildable ] , Right $ exAv "true-dep" 1 [] , Right $ exAv "false-dep" 1 [] ] -- | cabal must choose -flag1 +flag2 for "pkg", which requires packages -- "flag1-false" and "flag2-true". dbBuildable1 :: ExampleDb dbBuildable1 = [ Right $ exAv "pkg" 1 [ exFlagged "flag1" [ExAny "flag1-true"] [ExAny "flag1-false"] , exFlagged "flag2" [ExAny "flag2-true"] [ExAny "flag2-false"]] `withExes` [ ExExe "exe1" [ ExAny "unknown" , ExFlagged "flag1" (Buildable []) NotBuildable , ExFlagged "flag2" (Buildable []) NotBuildable] , ExExe "exe2" [ ExAny "unknown" , ExFlagged "flag1" (Buildable []) (Buildable [ExFlagged "flag2" NotBuildable (Buildable [])])] ] , Right $ exAv "flag1-true" 1 [] , Right $ exAv "flag1-false" 1 [] , Right $ exAv "flag2-true" 1 [] , Right $ exAv "flag2-false" 1 [] ] -- | cabal must pick B-2 to avoid the unknown dependency. dbBuildable2 :: ExampleDb dbBuildable2 = [ Right $ exAv "A" 1 [ExAny "B"] , Right $ exAv "B" 1 [ExAny "unknown"] , Right $ exAv "B" 2 [] `withExe` ExExe "exe" [ ExAny "unknown" , ExFlagged "disable-exe" NotBuildable (Buildable []) ] , Right $ exAv "B" 3 [ExAny "unknown"] ] -- | Package databases for testing @pkg-config@ dependencies. dbPC1 :: ExampleDb dbPC1 = [ Right $ exAv "A" 1 [ExPkg ("pkgA", 1)] , Right $ exAv "B" 1 [ExPkg ("pkgB", 1), ExAny "A"] , Right $ exAv "B" 2 [ExPkg ("pkgB", 2), ExAny "A"] , Right $ exAv "C" 1 [ExAny "B"] ] {------------------------------------------------------------------------------- Simple databases for the illustrations for the backjumping blog post -------------------------------------------------------------------------------} -- | Motivate conflict sets dbBJ1a :: ExampleDb dbBJ1a = [ Right $ exAv "A" 1 [ExFix "B" 1] , Right $ exAv "A" 2 [ExFix "B" 2] , Right $ exAv "B" 1 [] ] -- | Show that we can skip some decisions dbBJ1b :: ExampleDb dbBJ1b = [ Right $ exAv "A" 1 [ExFix "B" 1] , Right $ exAv "A" 2 [ExFix "B" 2, ExAny "C"] , Right $ exAv "B" 1 [] , Right $ exAv "C" 1 [] , Right $ exAv "C" 2 [] ] -- | Motivate why both A and B need to be in the conflict set dbBJ1c :: ExampleDb dbBJ1c = [ Right $ exAv "A" 1 [ExFix "B" 1] , Right $ exAv "B" 1 [] , Right $ exAv "B" 2 [] ] -- | Motivate the need for accumulating conflict sets while we walk the tree dbBJ2 :: ExampleDb dbBJ2 = [ Right $ exAv "A" 1 [ExFix "B" 1] , Right $ exAv "A" 2 [ExFix "B" 2] , Right $ exAv "B" 1 [ExFix "C" 1] , Right $ exAv "B" 2 [ExFix "C" 2] , Right $ exAv "C" 1 [] ] -- | Motivate the need for `QGoalReason` dbBJ3 :: ExampleDb dbBJ3 = [ Right $ exAv "A" 1 [ExAny "Ba"] , Right $ exAv "A" 2 [ExAny "Bb"] , Right $ exAv "Ba" 1 [ExFix "C" 1] , Right $ exAv "Bb" 1 [ExFix "C" 2] , Right $ exAv "C" 1 [] ] -- | `QGOalReason` not unique dbBJ4 :: ExampleDb dbBJ4 = [ Right $ exAv "A" 1 [ExAny "B", ExAny "C"] , Right $ exAv "B" 1 [ExAny "C"] , Right $ exAv "C" 1 [] ] -- | Flags are represented somewhat strangely in the tree -- -- This example probably won't be in the blog post itself but as a separate -- bug report (#3409) dbBJ5 :: ExampleDb dbBJ5 = [ Right $ exAv "A" 1 [exFlagged "flagA" [ExFix "B" 1] [ExFix "C" 1]] , Right $ exAv "B" 1 [ExFix "D" 1] , Right $ exAv "C" 1 [ExFix "D" 2] , Right $ exAv "D" 1 [] ] -- | Conflict sets for cycles dbBJ6 :: ExampleDb dbBJ6 = [ Right $ exAv "A" 1 [ExAny "B"] , Right $ exAv "B" 1 [] , Right $ exAv "B" 2 [ExAny "C"] , Right $ exAv "C" 1 [ExAny "A"] ] -- | Conflicts not unique dbBJ7 :: ExampleDb dbBJ7 = [ Right $ exAv "A" 1 [ExAny "B", ExFix "C" 1] , Right $ exAv "B" 1 [ExFix "C" 1] , Right $ exAv "C" 1 [] , Right $ exAv "C" 2 [] ] -- | Conflict sets for SIR (C shared subgoal of independent goals A, B) dbBJ8 :: ExampleDb dbBJ8 = [ Right $ exAv "A" 1 [ExAny "C"] , Right $ exAv "B" 1 [ExAny "C"] , Right $ exAv "C" 1 [] ] {------------------------------------------------------------------------------- Databases for build-tools -------------------------------------------------------------------------------} dbBuildTools1 :: ExampleDb dbBuildTools1 = [ Right $ exAv "alex" 1 [], Right $ exAv "A" 1 [ExBuildToolAny "alex"] ] -- Test that build-tools on a random thing doesn't matter (only -- the ones we recognize need to be in db) dbBuildTools2 :: ExampleDb dbBuildTools2 = [ Right $ exAv "A" 1 [ExBuildToolAny "otherdude"] ] -- Test that we can solve for different versions of executables dbBuildTools3 :: ExampleDb dbBuildTools3 = [ Right $ exAv "alex" 1 [], Right $ exAv "alex" 2 [], Right $ exAv "A" 1 [ExBuildToolFix "alex" 1], Right $ exAv "B" 1 [ExBuildToolFix "alex" 2], Right $ exAv "C" 1 [ExAny "A", ExAny "B"] ] -- Test that exe is not related to library choices dbBuildTools4 :: ExampleDb dbBuildTools4 = [ Right $ exAv "alex" 1 [ExFix "A" 1], Right $ exAv "A" 1 [], Right $ exAv "A" 2 [], Right $ exAv "B" 1 [ExBuildToolFix "alex" 1, ExFix "A" 2] ] -- Test that build-tools on build-tools works dbBuildTools5 :: ExampleDb dbBuildTools5 = [ Right $ exAv "alex" 1 [], Right $ exAv "happy" 1 [ExBuildToolAny "alex"], Right $ exAv "A" 1 [ExBuildToolAny "happy"] ] -- Test that build-depends on library/executable package works. -- Extracted from https://github.com/haskell/cabal/issues/3775 dbBuildTools6 :: ExampleDb dbBuildTools6 = [ Right $ exAv "warp" 1 [], -- NB: the warp build-depends refers to the package, not the internal -- executable! Right $ exAv "A" 2 [ExFix "warp" 1] `withExe` ExExe "warp" [ExAny "A"], Right $ exAv "B" 2 [ExAny "A", ExAny "warp"] ]