hackport-0.5.5: cabal/cabal-install/tests/UnitTests/Distribution/Solver/Modular/DSL.hs
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE ScopedTypeVariables #-}
-- | DSL for testing the modular solver
module UnitTests.Distribution.Solver.Modular.DSL (
ExampleDependency(..)
, Dependencies(..)
, ExTest(..)
, ExExe(..)
, ExConstraint(..)
, ExPreference(..)
, ExampleDb
, ExampleVersionRange
, ExamplePkgVersion
, ExamplePkgName
, ExampleFlagName
, ExFlag(..)
, ExampleAvailable(..)
, ExampleInstalled(..)
, ExampleQualifier(..)
, ExampleVar(..)
, EnableAllTests(..)
, exAv
, exInst
, exFlagged
, exResolve
, extractInstallPlan
, declareFlags
, withSetupDeps
, withTest
, withTests
, withExe
, withExes
, runProgress
, mkSimpleVersion
, mkVersionRange
) where
import Prelude ()
import Distribution.Solver.Compat.Prelude
-- base
import Data.Either (partitionEithers)
import qualified Data.Map as Map
-- Cabal
import qualified Distribution.Compiler as C
import qualified Distribution.InstalledPackageInfo as IPI
import Distribution.License (License(..))
import qualified Distribution.ModuleName as Module
import qualified Distribution.Package as C
hiding (HasUnitId(..))
import qualified Distribution.Types.ExeDependency as C
import qualified Distribution.Types.LegacyExeDependency as C
import qualified Distribution.Types.PkgconfigDependency as C
import qualified Distribution.Types.UnqualComponentName as C
import qualified Distribution.Types.CondTree as C
import qualified Distribution.PackageDescription as C
import qualified Distribution.PackageDescription.Check as C
import qualified Distribution.Simple.PackageIndex as C.PackageIndex
import Distribution.Simple.Setup (BooleanFlag(..))
import qualified Distribution.System as C
import Distribution.Text (display)
import qualified Distribution.Version as C
import Language.Haskell.Extension (Extension(..), Language(..))
-- cabal-install
import Distribution.Client.Dependency
import Distribution.Client.Dependency.Types
import Distribution.Client.Types
import qualified Distribution.Client.SolverInstallPlan as CI.SolverInstallPlan
import Distribution.Solver.Types.ComponentDeps (ComponentDeps)
import qualified Distribution.Solver.Types.ComponentDeps as CD
import Distribution.Solver.Types.ConstraintSource
import Distribution.Solver.Types.Flag
import Distribution.Solver.Types.LabeledPackageConstraint
import Distribution.Solver.Types.OptionalStanza
import qualified Distribution.Solver.Types.PackageIndex as CI.PackageIndex
import Distribution.Solver.Types.PackageConstraint
import qualified Distribution.Solver.Types.PackagePath as P
import qualified Distribution.Solver.Types.PkgConfigDb as PC
import Distribution.Solver.Types.Settings
import Distribution.Solver.Types.SolverPackage
import Distribution.Solver.Types.SourcePackage
import Distribution.Solver.Types.Variable
{-------------------------------------------------------------------------------
Example package database DSL
In order to be able to set simple examples up quickly, we define a very
simple version of the package database here explicitly designed for use in
tests.
The design of `ExampleDb` takes the perspective of the solver, not the
perspective of the package DB. This makes it easier to set up tests for
various parts of the solver, but makes the mapping somewhat awkward, because
it means we first map from "solver perspective" `ExampleDb` to the package
database format, and then the modular solver internally in `IndexConversion`
maps this back to the solver specific data structures.
IMPLEMENTATION NOTES
--------------------
TODO: Perhaps these should be made comments of the corresponding data type
definitions. For now these are just my own conclusions and may be wrong.
* The difference between `GenericPackageDescription` and `PackageDescription`
is that `PackageDescription` describes a particular _configuration_ of a
package (for instance, see documentation for `checkPackage`). A
`GenericPackageDescription` can be turned into a `PackageDescription` in
two ways:
a. `finalizePD` does the proper translation, by taking
into account the platform, available dependencies, etc. and picks a
flag assignment (or gives an error if no flag assignment can be found)
b. `flattenPackageDescription` ignores flag assignment and just joins all
components together.
The slightly odd thing is that a `GenericPackageDescription` contains a
`PackageDescription` as a field; both of the above functions do the same
thing: they take the embedded `PackageDescription` as a basis for the result
value, but override `library`, `executables`, `testSuites`, `benchmarks`
and `buildDepends`.
* The `condTreeComponents` fields of a `CondTree` is a list of triples
`(condition, then-branch, else-branch)`, where the `else-branch` is
optional.
-------------------------------------------------------------------------------}
type ExamplePkgName = String
type ExamplePkgVersion = Int
type ExamplePkgHash = String -- for example "installed" packages
type ExampleFlagName = String
type ExampleTestName = String
type ExampleExeName = String
type ExampleVersionRange = C.VersionRange
data Dependencies = NotBuildable | Buildable [ExampleDependency]
deriving Show
data ExampleDependency =
-- | Simple dependency on any version
ExAny ExamplePkgName
-- | Simple dependency on a fixed version
| ExFix ExamplePkgName ExamplePkgVersion
-- | Simple dependency on a range of versions, with an inclusive lower bound
-- and an exclusive upper bound.
| ExRange ExamplePkgName ExamplePkgVersion ExamplePkgVersion
-- | Build-tool-depends dependency
| ExBuildToolAny ExamplePkgName ExampleExeName
-- | Build-tool-depends dependency on a fixed version
| ExBuildToolFix ExamplePkgName ExampleExeName ExamplePkgVersion
-- | Legacy build-tools dependency
| ExLegacyBuildToolAny ExamplePkgName
-- | Legacy build-tools dependency on a fixed version
| ExLegacyBuildToolFix ExamplePkgName ExamplePkgVersion
-- | Dependencies indexed by a flag
| ExFlagged ExampleFlagName Dependencies Dependencies
-- | Dependency on a language extension
| ExExt Extension
-- | Dependency on a language version
| ExLang Language
-- | Dependency on a pkg-config package
| ExPkg (ExamplePkgName, ExamplePkgVersion)
deriving Show
-- | Simplified version of D.Types.GenericPackageDescription.Flag for use in
-- example source packages.
data ExFlag = ExFlag {
exFlagName :: ExampleFlagName
, exFlagDefault :: Bool
, exFlagType :: FlagType
} deriving Show
data ExTest = ExTest ExampleTestName [ExampleDependency]
data ExExe = ExExe ExampleExeName [ExampleDependency]
exFlagged :: ExampleFlagName -> [ExampleDependency] -> [ExampleDependency]
-> ExampleDependency
exFlagged n t e = ExFlagged n (Buildable t) (Buildable e)
data ExConstraint =
ExVersionConstraint ConstraintScope ExampleVersionRange
| ExFlagConstraint ConstraintScope ExampleFlagName Bool
| ExStanzaConstraint ConstraintScope [OptionalStanza]
deriving Show
data ExPreference =
ExPkgPref ExamplePkgName ExampleVersionRange
| ExStanzaPref ExamplePkgName [OptionalStanza]
deriving Show
data ExampleAvailable = ExAv {
exAvName :: ExamplePkgName
, exAvVersion :: ExamplePkgVersion
, exAvDeps :: ComponentDeps [ExampleDependency]
-- Setting flags here is only necessary to override the default values of
-- the fields in C.Flag.
, exAvFlags :: [ExFlag]
} deriving Show
data ExampleVar =
P ExampleQualifier ExamplePkgName
| F ExampleQualifier ExamplePkgName ExampleFlagName
| S ExampleQualifier ExamplePkgName OptionalStanza
data ExampleQualifier =
QualNone
| QualIndep ExamplePkgName
| QualSetup ExamplePkgName
-- The two package names are the build target and the package containing the
-- setup script.
| QualIndepSetup ExamplePkgName ExamplePkgName
-- The two package names are the package depending on the exe and the
-- package containing the exe.
| QualExe ExamplePkgName ExamplePkgName
-- | Whether to enable tests in all packages in a test case.
newtype EnableAllTests = EnableAllTests Bool
deriving BooleanFlag
-- | Constructs an 'ExampleAvailable' package for the 'ExampleDb',
-- given:
--
-- 1. The name 'ExamplePkgName' of the available package,
-- 2. The version 'ExamplePkgVersion' available
-- 3. The list of dependency constraints 'ExampleDependency'
-- that this package has. 'ExampleDependency' provides
-- a number of pre-canned dependency types to look at.
--
exAv :: ExamplePkgName -> ExamplePkgVersion -> [ExampleDependency]
-> ExampleAvailable
exAv n v ds = ExAv { exAvName = n, exAvVersion = v
, exAvDeps = CD.fromLibraryDeps ds, exAvFlags = [] }
-- | Override the default settings (e.g., manual vs. automatic) for a subset of
-- a package's flags.
declareFlags :: [ExFlag] -> ExampleAvailable -> ExampleAvailable
declareFlags flags ex = ex {
exAvFlags = flags
}
withSetupDeps :: ExampleAvailable -> [ExampleDependency] -> ExampleAvailable
withSetupDeps ex setupDeps = ex {
exAvDeps = exAvDeps ex <> CD.fromSetupDeps setupDeps
}
withTest :: ExampleAvailable -> ExTest -> ExampleAvailable
withTest ex test = withTests ex [test]
withTests :: ExampleAvailable -> [ExTest] -> ExampleAvailable
withTests ex tests =
let testCDs = CD.fromList [(CD.ComponentTest $ C.mkUnqualComponentName name, deps)
| ExTest name deps <- tests]
in ex { exAvDeps = exAvDeps ex <> testCDs }
withExe :: ExampleAvailable -> ExExe -> ExampleAvailable
withExe ex exe = withExes ex [exe]
withExes :: ExampleAvailable -> [ExExe] -> ExampleAvailable
withExes ex exes =
let exeCDs = CD.fromList [(CD.ComponentExe $ C.mkUnqualComponentName name, deps)
| ExExe name deps <- exes]
in ex { exAvDeps = exAvDeps ex <> exeCDs }
-- | An installed package in 'ExampleDb'; construct me with 'exInst'.
data ExampleInstalled = ExInst {
exInstName :: ExamplePkgName
, exInstVersion :: ExamplePkgVersion
, exInstHash :: ExamplePkgHash
, exInstBuildAgainst :: [ExamplePkgHash]
} deriving Show
-- | Constructs an example installed package given:
--
-- 1. The name of the package 'ExamplePkgName', i.e., 'String'
-- 2. The version of the package 'ExamplePkgVersion', i.e., 'Int'
-- 3. The IPID for the package 'ExamplePkgHash', i.e., 'String'
-- (just some unique identifier for the package.)
-- 4. The 'ExampleInstalled' packages which this package was
-- compiled against.)
--
exInst :: ExamplePkgName -> ExamplePkgVersion -> ExamplePkgHash
-> [ExampleInstalled] -> ExampleInstalled
exInst pn v hash deps = ExInst pn v hash (map exInstHash deps)
-- | An example package database is a list of installed packages
-- 'ExampleInstalled' and available packages 'ExampleAvailable'.
-- Generally, you want to use 'exInst' and 'exAv' to construct
-- these packages.
type ExampleDb = [Either ExampleInstalled ExampleAvailable]
type DependencyTree a = C.CondTree C.ConfVar [C.Dependency] a
type DependencyComponent a = C.CondBranch C.ConfVar [C.Dependency] a
exDbPkgs :: ExampleDb -> [ExamplePkgName]
exDbPkgs = map (either exInstName exAvName)
exAvSrcPkg :: ExampleAvailable -> UnresolvedSourcePackage
exAvSrcPkg ex =
let pkgId = exAvPkgId ex
flags :: [C.Flag]
flags =
let declaredFlags :: Map ExampleFlagName C.Flag
declaredFlags =
Map.fromListWith
(\f1 f2 -> error $ "duplicate flag declarations: " ++ show [f1, f2])
[(exFlagName flag, mkFlag flag) | flag <- exAvFlags ex]
usedFlags :: Map ExampleFlagName C.Flag
usedFlags = Map.fromList [(fn, mkDefaultFlag fn) | fn <- names]
where
names = concatMap extractFlags $
CD.libraryDeps (exAvDeps ex)
++ concatMap snd testSuites
++ concatMap snd executables
in -- 'declaredFlags' overrides 'usedFlags' to give flags non-default settings:
Map.elems $ declaredFlags `Map.union` usedFlags
testSuites = [(name, deps) | (CD.ComponentTest name, deps) <- CD.toList (exAvDeps ex)]
executables = [(name, deps) | (CD.ComponentExe name, deps) <- CD.toList (exAvDeps ex)]
setup = case CD.setupDeps (exAvDeps ex) of
[] -> Nothing
deps -> Just C.SetupBuildInfo {
C.setupDepends = mkSetupDeps deps,
C.defaultSetupDepends = False
}
package = SourcePackage {
packageInfoId = pkgId
, packageSource = LocalTarballPackage "<<path>>"
, packageDescrOverride = Nothing
, packageDescription = C.GenericPackageDescription {
C.packageDescription = C.emptyPackageDescription {
C.package = pkgId
, C.setupBuildInfo = setup
, C.license = BSD3
, C.buildType = if isNothing setup
then Just C.Simple
else Just C.Custom
, C.category = "category"
, C.maintainer = "maintainer"
, C.description = "description"
, C.synopsis = "synopsis"
, C.licenseFiles = ["LICENSE"]
, C.specVersionRaw = Left $ C.mkVersion [1,12]
}
, C.genPackageFlags = flags
, C.condLibrary =
let mkLib bi = mempty { C.libBuildInfo = bi }
in Just $ mkCondTree defaultLib mkLib $ mkBuildInfoTree $
Buildable (CD.libraryDeps (exAvDeps ex))
, C.condSubLibraries = []
, C.condForeignLibs = []
, C.condExecutables =
let mkTree = mkCondTree defaultExe mkExe . mkBuildInfoTree . Buildable
mkExe bi = mempty { C.buildInfo = bi }
in map (\(t, deps) -> (t, mkTree deps)) executables
, C.condTestSuites =
let mkTree = mkCondTree defaultTest mkTest . mkBuildInfoTree . Buildable
mkTest bi = mempty { C.testBuildInfo = bi }
in map (\(t, deps) -> (t, mkTree deps)) testSuites
, C.condBenchmarks = []
}
}
pkgCheckErrors =
-- We ignore these warnings because some unit tests test that the
-- solver allows unknown extensions/languages when the compiler
-- supports them.
let ignore = ["Unknown extensions:", "Unknown languages:"]
in [ err | err <- C.checkPackage (packageDescription package) Nothing
, not $ any (`isPrefixOf` C.explanation err) ignore ]
in if null pkgCheckErrors
then package
else error $ "invalid GenericPackageDescription for package "
++ display pkgId ++ ": " ++ show pkgCheckErrors
where
defaultTopLevelBuildInfo :: C.BuildInfo
defaultTopLevelBuildInfo = mempty { C.defaultLanguage = Just Haskell98 }
defaultLib :: C.Library
defaultLib = mempty { C.exposedModules = [Module.fromString "Module"] }
defaultExe :: C.Executable
defaultExe = mempty { C.modulePath = "Main.hs" }
defaultTest :: C.TestSuite
defaultTest = mempty {
C.testInterface = C.TestSuiteExeV10 (C.mkVersion [1,0]) "Test.hs"
}
-- Split the set of dependencies into the set of dependencies of the library,
-- the dependencies of the test suites and extensions.
splitTopLevel :: [ExampleDependency]
-> ( [ExampleDependency]
, [Extension]
, Maybe Language
, [(ExamplePkgName, ExamplePkgVersion)] -- pkg-config
, [(ExamplePkgName, ExampleExeName, C.VersionRange)] -- build tools
, [(ExamplePkgName, C.VersionRange)] -- legacy build tools
)
splitTopLevel [] =
([], [], Nothing, [], [], [])
splitTopLevel (ExBuildToolAny p e:deps) =
let (other, exts, lang, pcpkgs, exes, legacyExes) = splitTopLevel deps
in (other, exts, lang, pcpkgs, (p, e, C.anyVersion):exes, legacyExes)
splitTopLevel (ExBuildToolFix p e v:deps) =
let (other, exts, lang, pcpkgs, exes, legacyExes) = splitTopLevel deps
in (other, exts, lang, pcpkgs, (p, e, C.thisVersion (mkSimpleVersion v)):exes, legacyExes)
splitTopLevel (ExLegacyBuildToolAny p:deps) =
let (other, exts, lang, pcpkgs, exes, legacyExes) = splitTopLevel deps
in (other, exts, lang, pcpkgs, exes, (p, C.anyVersion):legacyExes)
splitTopLevel (ExLegacyBuildToolFix p v:deps) =
let (other, exts, lang, pcpkgs, exes, legacyExes) = splitTopLevel deps
in (other, exts, lang, pcpkgs, exes, (p, C.thisVersion (mkSimpleVersion v)):legacyExes)
splitTopLevel (ExExt ext:deps) =
let (other, exts, lang, pcpkgs, exes, legacyExes) = splitTopLevel deps
in (other, ext:exts, lang, pcpkgs, exes, legacyExes)
splitTopLevel (ExLang lang:deps) =
case splitTopLevel deps of
(other, exts, Nothing, pcpkgs, exes, legacyExes) -> (other, exts, Just lang, pcpkgs, exes, legacyExes)
_ -> error "Only 1 Language dependency is supported"
splitTopLevel (ExPkg pkg:deps) =
let (other, exts, lang, pcpkgs, exes, legacyExes) = splitTopLevel deps
in (other, exts, lang, pkg:pcpkgs, exes, legacyExes)
splitTopLevel (dep:deps) =
let (other, exts, lang, pcpkgs, exes, legacyExes) = splitTopLevel deps
in (dep:other, exts, lang, pcpkgs, exes, legacyExes)
-- Extract the total set of flags used
extractFlags :: ExampleDependency -> [ExampleFlagName]
extractFlags (ExAny _) = []
extractFlags (ExFix _ _) = []
extractFlags (ExRange _ _ _) = []
extractFlags (ExBuildToolAny _ _) = []
extractFlags (ExBuildToolFix _ _ _) = []
extractFlags (ExLegacyBuildToolAny _) = []
extractFlags (ExLegacyBuildToolFix _ _) = []
extractFlags (ExFlagged f a b) =
f : concatMap extractFlags (deps a ++ deps b)
where
deps :: Dependencies -> [ExampleDependency]
deps NotBuildable = []
deps (Buildable ds) = ds
extractFlags (ExExt _) = []
extractFlags (ExLang _) = []
extractFlags (ExPkg _) = []
-- Convert a tree of BuildInfos into a tree of a specific component type.
-- 'defaultTopLevel' contains the default values for the component, and
-- 'mkComponent' creates a component from a 'BuildInfo'.
mkCondTree :: forall a. Semigroup a =>
a -> (C.BuildInfo -> a)
-> DependencyTree C.BuildInfo
-> DependencyTree a
mkCondTree defaultTopLevel mkComponent (C.CondNode topData topConstraints topComps) =
C.CondNode {
C.condTreeData =
defaultTopLevel <> mkComponent (defaultTopLevelBuildInfo <> topData)
, C.condTreeConstraints = topConstraints
, C.condTreeComponents = goComponents topComps
}
where
go :: DependencyTree C.BuildInfo -> DependencyTree a
go (C.CondNode ctData constraints comps) =
C.CondNode (mkComponent ctData) constraints (goComponents comps)
goComponents :: [DependencyComponent C.BuildInfo]
-> [DependencyComponent a]
goComponents comps = [C.CondBranch cond (go t) (go <$> me) | C.CondBranch cond t me <- comps]
mkBuildInfoTree :: Dependencies -> DependencyTree C.BuildInfo
mkBuildInfoTree NotBuildable =
C.CondNode {
C.condTreeData = mempty { C.buildable = False }
, C.condTreeConstraints = []
, C.condTreeComponents = []
}
mkBuildInfoTree (Buildable deps) =
let (libraryDeps, exts, mlang, pcpkgs, buildTools, legacyBuildTools) = splitTopLevel deps
(directDeps, flaggedDeps) = splitDeps libraryDeps
bi = mempty {
C.otherExtensions = exts
, C.defaultLanguage = mlang
, C.buildToolDepends = [ C.ExeDependency (C.mkPackageName p) (C.mkUnqualComponentName e) vr
| (p, e, vr) <- buildTools]
, C.buildTools = [ C.LegacyExeDependency n vr
| (n,vr) <- legacyBuildTools]
, C.pkgconfigDepends = [ C.PkgconfigDependency n' v'
| (n,v) <- pcpkgs
, let n' = C.mkPkgconfigName n
, let v' = C.thisVersion (mkSimpleVersion v) ]
}
in C.CondNode {
C.condTreeData = bi -- Necessary for language extensions
-- TODO: Arguably, build-tools dependencies should also
-- effect constraints on conditional tree. But no way to
-- distinguish between them
, C.condTreeConstraints = map mkDirect directDeps
, C.condTreeComponents = map mkFlagged flaggedDeps
}
mkDirect :: (ExamplePkgName, C.VersionRange) -> C.Dependency
mkDirect (dep, vr) = C.Dependency (C.mkPackageName dep) vr
mkFlagged :: (ExampleFlagName, Dependencies, Dependencies)
-> DependencyComponent C.BuildInfo
mkFlagged (f, a, b) =
C.CondBranch (C.Var (C.Flag (C.mkFlagName f)))
(mkBuildInfoTree a)
(Just (mkBuildInfoTree b))
-- Split a set of dependencies into direct dependencies and flagged
-- dependencies. A direct dependency is a tuple of the name of package and
-- its version range meant to be converted to a 'C.Dependency' with
-- 'mkDirect' for example. A flagged dependency is the set of dependencies
-- guarded by a flag.
splitDeps :: [ExampleDependency]
-> ( [(ExamplePkgName, C.VersionRange)]
, [(ExampleFlagName, Dependencies, Dependencies)]
)
splitDeps [] =
([], [])
splitDeps (ExAny p:deps) =
let (directDeps, flaggedDeps) = splitDeps deps
in ((p, C.anyVersion):directDeps, flaggedDeps)
splitDeps (ExFix p v:deps) =
let (directDeps, flaggedDeps) = splitDeps deps
in ((p, C.thisVersion $ mkSimpleVersion v):directDeps, flaggedDeps)
splitDeps (ExRange p v1 v2:deps) =
let (directDeps, flaggedDeps) = splitDeps deps
in ((p, mkVersionRange v1 v2):directDeps, flaggedDeps)
splitDeps (ExFlagged f a b:deps) =
let (directDeps, flaggedDeps) = splitDeps deps
in (directDeps, (f, a, b):flaggedDeps)
splitDeps (dep:_) = error $ "Unexpected dependency: " ++ show dep
-- custom-setup only supports simple dependencies
mkSetupDeps :: [ExampleDependency] -> [C.Dependency]
mkSetupDeps deps =
let (directDeps, []) = splitDeps deps in map mkDirect directDeps
mkSimpleVersion :: ExamplePkgVersion -> C.Version
mkSimpleVersion n = C.mkVersion [n, 0, 0]
mkVersionRange :: ExamplePkgVersion -> ExamplePkgVersion -> C.VersionRange
mkVersionRange v1 v2 =
C.intersectVersionRanges (C.orLaterVersion $ mkSimpleVersion v1)
(C.earlierVersion $ mkSimpleVersion v2)
mkFlag :: ExFlag -> C.Flag
mkFlag flag = C.MkFlag {
C.flagName = C.mkFlagName $ exFlagName flag
, C.flagDescription = ""
, C.flagDefault = exFlagDefault flag
, C.flagManual =
case exFlagType flag of
Manual -> True
Automatic -> False
}
mkDefaultFlag :: ExampleFlagName -> C.Flag
mkDefaultFlag flag = C.MkFlag {
C.flagName = C.mkFlagName flag
, C.flagDescription = ""
, C.flagDefault = True
, C.flagManual = False
}
exAvPkgId :: ExampleAvailable -> C.PackageIdentifier
exAvPkgId ex = C.PackageIdentifier {
pkgName = C.mkPackageName (exAvName ex)
, pkgVersion = C.mkVersion [exAvVersion ex, 0, 0]
}
exInstInfo :: ExampleInstalled -> IPI.InstalledPackageInfo
exInstInfo ex = IPI.emptyInstalledPackageInfo {
IPI.installedUnitId = C.mkUnitId (exInstHash ex)
, IPI.sourcePackageId = exInstPkgId ex
, IPI.depends = map C.mkUnitId (exInstBuildAgainst ex)
}
exInstPkgId :: ExampleInstalled -> C.PackageIdentifier
exInstPkgId ex = C.PackageIdentifier {
pkgName = C.mkPackageName (exInstName ex)
, pkgVersion = C.mkVersion [exInstVersion ex, 0, 0]
}
exAvIdx :: [ExampleAvailable] -> CI.PackageIndex.PackageIndex UnresolvedSourcePackage
exAvIdx = CI.PackageIndex.fromList . map exAvSrcPkg
exInstIdx :: [ExampleInstalled] -> C.PackageIndex.InstalledPackageIndex
exInstIdx = C.PackageIndex.fromList . map exInstInfo
exResolve :: ExampleDb
-- List of extensions supported by the compiler, or Nothing if unknown.
-> Maybe [Extension]
-- List of languages supported by the compiler, or Nothing if unknown.
-> Maybe [Language]
-> PC.PkgConfigDb
-> [ExamplePkgName]
-> Maybe Int
-> CountConflicts
-> IndependentGoals
-> ReorderGoals
-> AllowBootLibInstalls
-> EnableBackjumping
-> SolveExecutables
-> Maybe (Variable P.QPN -> Variable P.QPN -> Ordering)
-> [ExConstraint]
-> [ExPreference]
-> EnableAllTests
-> Progress String String CI.SolverInstallPlan.SolverInstallPlan
exResolve db exts langs pkgConfigDb targets mbj countConflicts indepGoals
reorder allowBootLibInstalls enableBj solveExes goalOrder constraints
prefs enableAllTests
= resolveDependencies C.buildPlatform compiler pkgConfigDb Modular params
where
defaultCompiler = C.unknownCompilerInfo C.buildCompilerId C.NoAbiTag
compiler = defaultCompiler { C.compilerInfoExtensions = exts
, C.compilerInfoLanguages = langs
}
(inst, avai) = partitionEithers db
instIdx = exInstIdx inst
avaiIdx = SourcePackageDb {
packageIndex = exAvIdx avai
, packagePreferences = Map.empty
}
enableTests
| asBool enableAllTests = fmap (\p -> PackageConstraint
(scopeToplevel (C.mkPackageName p))
(PackagePropertyStanzas [TestStanzas]))
(exDbPkgs db)
| otherwise = []
targets' = fmap (\p -> NamedPackage (C.mkPackageName p) []) targets
params = addConstraints (fmap toConstraint constraints)
$ addConstraints (fmap toLpc enableTests)
$ addPreferences (fmap toPref prefs)
$ setCountConflicts countConflicts
$ setIndependentGoals indepGoals
$ setReorderGoals reorder
$ setMaxBackjumps mbj
$ setAllowBootLibInstalls allowBootLibInstalls
$ setEnableBackjumping enableBj
$ setSolveExecutables solveExes
$ setGoalOrder goalOrder
$ standardInstallPolicy instIdx avaiIdx targets'
toLpc pc = LabeledPackageConstraint pc ConstraintSourceUnknown
toConstraint (ExVersionConstraint scope v) =
toLpc $ PackageConstraint scope (PackagePropertyVersion v)
toConstraint (ExFlagConstraint scope fn b) =
toLpc $ PackageConstraint scope (PackagePropertyFlags (C.mkFlagAssignment [(C.mkFlagName fn, b)]))
toConstraint (ExStanzaConstraint scope stanzas) =
toLpc $ PackageConstraint scope (PackagePropertyStanzas stanzas)
toPref (ExPkgPref n v) = PackageVersionPreference (C.mkPackageName n) v
toPref (ExStanzaPref n stanzas) = PackageStanzasPreference (C.mkPackageName n) stanzas
extractInstallPlan :: CI.SolverInstallPlan.SolverInstallPlan
-> [(ExamplePkgName, ExamplePkgVersion)]
extractInstallPlan = catMaybes . map confPkg . CI.SolverInstallPlan.toList
where
confPkg :: CI.SolverInstallPlan.SolverPlanPackage -> Maybe (String, Int)
confPkg (CI.SolverInstallPlan.Configured pkg) = Just $ srcPkg pkg
confPkg _ = Nothing
srcPkg :: SolverPackage UnresolvedPkgLoc -> (String, Int)
srcPkg cpkg =
let C.PackageIdentifier pn ver = packageInfoId (solverPkgSource cpkg)
in (C.unPackageName pn, head (C.versionNumbers ver))
{-------------------------------------------------------------------------------
Auxiliary
-------------------------------------------------------------------------------}
-- | Run Progress computation
runProgress :: Progress step e a -> ([step], Either e a)
runProgress = go
where
go (Step s p) = let (ss, result) = go p in (s:ss, result)
go (Fail e) = ([], Left e)
go (Done a) = ([], Right a)