cabal-install-bundle-1.18.0.2: Distribution/Client/Dependency/Modular/IndexConversion.hs
module Distribution.Client.Dependency.Modular.IndexConversion where
import Data.List as L
import Data.Map as M
import Data.Maybe
import Prelude hiding (pi)
import qualified Distribution.Client.PackageIndex as CI
import Distribution.Client.Types
import Distribution.Compiler
import Distribution.InstalledPackageInfo as IPI
import Distribution.Package -- from Cabal
import Distribution.PackageDescription as PD -- from Cabal
import qualified Distribution.Simple.PackageIndex as SI
import Distribution.System
import Distribution.Client.Dependency.Modular.Dependency as D
import Distribution.Client.Dependency.Modular.Flag as F
import Distribution.Client.Dependency.Modular.Index
import Distribution.Client.Dependency.Modular.Package
import Distribution.Client.Dependency.Modular.Tree
import Distribution.Client.Dependency.Modular.Version
-- | Convert both the installed package index and the source package
-- index into one uniform solver index.
--
-- We use 'allPackagesBySourcePackageId' for the installed package index
-- because that returns us several instances of the same package and version
-- in order of preference. This allows us in principle to \"shadow\"
-- packages if there are several installed packages of the same version.
-- There are currently some shortcomings in both GHC and Cabal in
-- resolving these situations. However, the right thing to do is to
-- fix the problem there, so for now, shadowing is only activated if
-- explicitly requested.
convPIs :: OS -> Arch -> CompilerId -> Bool ->
SI.PackageIndex -> CI.PackageIndex SourcePackage -> Index
convPIs os arch cid sip iidx sidx =
mkIndex (convIPI' sip iidx ++ convSPI' os arch cid sidx)
-- | Convert a Cabal installed package index to the simpler,
-- more uniform index format of the solver.
convIPI' :: Bool -> SI.PackageIndex -> [(PN, I, PInfo)]
convIPI' sip idx =
-- apply shadowing whenever there are multple installed packages with
-- the same version
[ maybeShadow (convIP idx pkg)
| (_pkgid, pkgs) <- SI.allPackagesBySourcePackageId idx
, (maybeShadow, pkg) <- zip (id : repeat shadow) pkgs ]
where
-- shadowing is recorded in the package info
shadow (pn, i, PInfo fdeps fds encs _) | sip = (pn, i, PInfo fdeps fds encs (Just Shadowed))
shadow x = x
convIPI :: Bool -> SI.PackageIndex -> Index
convIPI sip = mkIndex . convIPI' sip
-- | Convert a single installed package into the solver-specific format.
convIP :: SI.PackageIndex -> InstalledPackageInfo -> (PN, I, PInfo)
convIP idx ipi =
let ipid = installedPackageId ipi
i = I (pkgVersion (sourcePackageId ipi)) (Inst ipid)
pn = pkgName (sourcePackageId ipi)
in case mapM (convIPId pn idx) (IPI.depends ipi) of
Nothing -> (pn, i, PInfo [] M.empty [] (Just Broken))
Just fds -> (pn, i, PInfo fds M.empty [] Nothing)
-- TODO: Installed packages should also store their encapsulations!
-- | Convert dependencies specified by an installed package id into
-- flagged dependencies of the solver.
--
-- May return Nothing if the package can't be found in the index. That
-- indicates that the original package having this dependency is broken
-- and should be ignored.
convIPId :: PN -> SI.PackageIndex -> InstalledPackageId -> Maybe (FlaggedDep PN)
convIPId pn' idx ipid =
case SI.lookupInstalledPackageId idx ipid of
Nothing -> Nothing
Just ipi -> let i = I (pkgVersion (sourcePackageId ipi)) (Inst ipid)
pn = pkgName (sourcePackageId ipi)
in Just (D.Simple (Dep pn (Fixed i (Goal (P pn') []))))
-- | Convert a cabal-install source package index to the simpler,
-- more uniform index format of the solver.
convSPI' :: OS -> Arch -> CompilerId ->
CI.PackageIndex SourcePackage -> [(PN, I, PInfo)]
convSPI' os arch cid = L.map (convSP os arch cid) . CI.allPackages
convSPI :: OS -> Arch -> CompilerId ->
CI.PackageIndex SourcePackage -> Index
convSPI os arch cid = mkIndex . convSPI' os arch cid
-- | Convert a single source package into the solver-specific format.
convSP :: OS -> Arch -> CompilerId -> SourcePackage -> (PN, I, PInfo)
convSP os arch cid (SourcePackage (PackageIdentifier pn pv) gpd _ _pl) =
let i = I pv InRepo
in (pn, i, convGPD os arch cid (PI pn i) gpd)
-- We do not use 'flattenPackageDescription' or 'finalizePackageDescription'
-- from 'Distribution.PackageDescription.Configuration' here, because we
-- want to keep the condition tree, but simplify much of the test.
-- | Convert a generic package description to a solver-specific 'PInfo'.
--
-- TODO: We currently just take all dependencies from all specified library,
-- executable and test components. This does not quite seem fair.
convGPD :: OS -> Arch -> CompilerId ->
PI PN -> GenericPackageDescription -> PInfo
convGPD os arch cid pi
(GenericPackageDescription _ flags libs exes tests benchs) =
let
fds = flagInfo flags
in
PInfo
(maybe [] (convCondTree os arch cid pi fds (const True) ) libs ++
concatMap (convCondTree os arch cid pi fds (const True) . snd) exes ++
prefix (Stanza (SN pi TestStanzas))
(L.map (convCondTree os arch cid pi fds (const True) . snd) tests) ++
prefix (Stanza (SN pi BenchStanzas))
(L.map (convCondTree os arch cid pi fds (const True) . snd) benchs))
fds
[] -- TODO: add encaps
Nothing
prefix :: (FlaggedDeps qpn -> FlaggedDep qpn) -> [FlaggedDeps qpn] -> FlaggedDeps qpn
prefix _ [] = []
prefix f fds = [f (concat fds)]
-- | Convert flag information.
flagInfo :: [PD.Flag] -> FlagInfo
flagInfo = M.fromList . L.map (\ (MkFlag fn _ b m) -> (fn, FInfo b m))
-- | Convert condition trees to flagged dependencies.
convCondTree :: OS -> Arch -> CompilerId -> PI PN -> FlagInfo ->
(a -> Bool) -> -- how to detect if a branch is active
CondTree ConfVar [Dependency] a -> FlaggedDeps PN
convCondTree os arch cid pi@(PI pn _) fds p (CondNode info ds branches)
| p info = L.map (D.Simple . convDep pn) ds -- unconditional dependencies
++ concatMap (convBranch os arch cid pi fds p) branches
| otherwise = []
-- | Branch interpreter.
--
-- Here, we try to simplify one of Cabal's condition tree branches into the
-- solver's flagged dependency format, which is weaker. Condition trees can
-- contain complex logical expression composed from flag choices and special
-- flags (such as architecture, or compiler flavour). We try to evaluate the
-- special flags and subsequently simplify to a tree that only depends on
-- simple flag choices.
convBranch :: OS -> Arch -> CompilerId ->
PI PN -> FlagInfo ->
(a -> Bool) -> -- how to detect if a branch is active
(Condition ConfVar,
CondTree ConfVar [Dependency] a,
Maybe (CondTree ConfVar [Dependency] a)) -> FlaggedDeps PN
convBranch os arch cid@(CompilerId cf cv) pi fds p (c', t', mf') =
go c' ( convCondTree os arch cid pi fds p t')
(maybe [] (convCondTree os arch cid pi fds p) mf')
where
go :: Condition ConfVar ->
FlaggedDeps PN -> FlaggedDeps PN -> FlaggedDeps PN
go (Lit True) t _ = t
go (Lit False) _ f = f
go (CNot c) t f = go c f t
go (CAnd c d) t f = go c (go d t f) f
go (COr c d) t f = go c t (go d t f)
go (Var (Flag fn)) t f = [Flagged (FN pi fn) (fds ! fn) t f]
go (Var (OS os')) t f
| os == os' = t
| otherwise = f
go (Var (Arch arch')) t f
| arch == arch' = t
| otherwise = f
go (Var (Impl cf' cvr')) t f
| cf == cf' && checkVR cvr' cv = t
| otherwise = f
-- | Convert a Cabal dependency to a solver-specific dependency.
convDep :: PN -> Dependency -> Dep PN
convDep pn' (Dependency pn vr) = Dep pn (Constrained [(vr, Goal (P pn') [])])
-- | Convert a Cabal package identifier to a solver-specific dependency.
convPI :: PN -> PackageIdentifier -> Dep PN
convPI pn' (PackageIdentifier pn v) = Dep pn (Constrained [(eqVR v, Goal (P pn') [])])