-----------------------------------------------------------------------------
-- |
-- Module      :  Distribution.InstalledPackageInfo
-- Copyright   :  (c) The University of Glasgow 2004
--
-- Maintainer  :  libraries@haskell.org
-- Portability :  portable
--
-- This is the information about an /installed/ package that
-- is communicated to the @ghc-pkg@ program in order to register
-- a package.  @ghc-pkg@ now consumes this package format (as of version
-- 6.4). This is specific to GHC at the moment.
--
-- The @.cabal@ file format is for describing a package that is not yet
-- installed. It has a lot of flexibility, like conditionals and dependency
-- ranges. As such, that format is not at all suitable for describing a package
-- that has already been built and installed. By the time we get to that stage,
-- we have resolved all conditionals and resolved dependency version
-- constraints to exact versions of dependent packages. So, this module defines
-- the 'InstalledPackageInfo' data structure that contains all the info we keep
-- about an installed package. There is a parser and pretty printer. The
-- textual format is rather simpler than the @.cabal@ format: there are no
-- sections, for example.

-- This module is meant to be local-only to Distribution...

module Distribution.InstalledPackageInfo (
        InstalledPackageInfo(..),
        installedComponentId,
        installedOpenUnitId,
        sourceComponentName,
        requiredSignatures,
        ExposedModule(..),
        AbiDependency(..),
        emptyInstalledPackageInfo,
        parseInstalledPackageInfo,
        showInstalledPackageInfo,
        showFullInstalledPackageInfo,
        showInstalledPackageInfoField,
        showSimpleInstalledPackageInfoField,
  ) where

import Distribution.Compat.Prelude
import Prelude ()

import Distribution.Backpack
import Distribution.CabalSpecVersion         (cabalSpecLatest)
import Distribution.FieldGrammar
import Distribution.FieldGrammar.FieldDescrs
import Distribution.Fields.Pretty
import Distribution.ModuleName
import Distribution.Package                  hiding (installedUnitId)
import Distribution.Types.ComponentName
import Distribution.Utils.Generic            (toUTF8BS)

import Data.ByteString (ByteString)

import qualified Data.Map            as Map
import qualified Distribution.Fields as P
import qualified Text.PrettyPrint    as Disp

import Distribution.Types.InstalledPackageInfo
import Distribution.Types.InstalledPackageInfo.FieldGrammar

-- $setup
-- >>> :set -XOverloadedStrings

installedComponentId :: InstalledPackageInfo -> ComponentId
installedComponentId :: InstalledPackageInfo -> ComponentId
installedComponentId InstalledPackageInfo
ipi =
    case ComponentId -> String
unComponentId (InstalledPackageInfo -> ComponentId
installedComponentId_ InstalledPackageInfo
ipi) of
        String
"" -> String -> ComponentId
mkComponentId (UnitId -> String
unUnitId (InstalledPackageInfo -> UnitId
installedUnitId InstalledPackageInfo
ipi))
        String
_  -> InstalledPackageInfo -> ComponentId
installedComponentId_ InstalledPackageInfo
ipi

-- | Get the indefinite unit identity representing this package.
-- This IS NOT guaranteed to give you a substitution; for
-- instantiated packages you will get @DefiniteUnitId (installedUnitId ipi)@.
-- For indefinite libraries, however, you will correctly get
-- an @OpenUnitId@ with the appropriate 'OpenModuleSubst'.
installedOpenUnitId :: InstalledPackageInfo -> OpenUnitId
installedOpenUnitId :: InstalledPackageInfo -> OpenUnitId
installedOpenUnitId InstalledPackageInfo
ipi
    = UnitId -> ComponentId -> OpenModuleSubst -> OpenUnitId
mkOpenUnitId (InstalledPackageInfo -> UnitId
installedUnitId InstalledPackageInfo
ipi) (InstalledPackageInfo -> ComponentId
installedComponentId InstalledPackageInfo
ipi) (forall k a. Ord k => [(k, a)] -> Map k a
Map.fromList (InstalledPackageInfo -> [(ModuleName, OpenModule)]
instantiatedWith InstalledPackageInfo
ipi))

-- | Returns the set of module names which need to be filled for
-- an indefinite package, or the empty set if the package is definite.
requiredSignatures :: InstalledPackageInfo -> Set ModuleName
requiredSignatures :: InstalledPackageInfo -> Set ModuleName
requiredSignatures InstalledPackageInfo
ipi = OpenModuleSubst -> Set ModuleName
openModuleSubstFreeHoles (forall k a. Ord k => [(k, a)] -> Map k a
Map.fromList (InstalledPackageInfo -> [(ModuleName, OpenModule)]
instantiatedWith InstalledPackageInfo
ipi))

-- -----------------------------------------------------------------------------
-- Munging

sourceComponentName :: InstalledPackageInfo -> ComponentName
sourceComponentName :: InstalledPackageInfo -> ComponentName
sourceComponentName = LibraryName -> ComponentName
CLibName forall b c a. (b -> c) -> (a -> b) -> a -> c
. InstalledPackageInfo -> LibraryName
sourceLibName

-- -----------------------------------------------------------------------------
-- Parsing

-- | Return either errors, or IPI with list of warnings
parseInstalledPackageInfo
    :: ByteString
    -> Either (NonEmpty String) ([String], InstalledPackageInfo)
parseInstalledPackageInfo :: ByteString
-> Either (NonEmpty String) ([String], InstalledPackageInfo)
parseInstalledPackageInfo ByteString
s = case ByteString -> Either ParseError [Field Position]
P.readFields ByteString
s of
    Left ParseError
err -> forall a b. a -> Either a b
Left (forall a. Show a => a -> String
show ParseError
err forall a. a -> [a] -> NonEmpty a
:| [])
    Right [Field Position]
fs -> case forall ann. [Field ann] -> (Fields ann, [[Section ann]])
partitionFields [Field Position]
fs of
        (Fields Position
fs', [[Section Position]]
_) -> case forall a.
ParseResult a
-> ([PWarning], Either (Maybe Version, NonEmpty PError) a)
P.runParseResult forall a b. (a -> b) -> a -> b
$ forall s a.
CabalSpecVersion
-> Fields Position -> ParsecFieldGrammar s a -> ParseResult a
parseFieldGrammar CabalSpecVersion
cabalSpecLatest Fields Position
fs' forall (c :: * -> Constraint) (g :: * -> * -> *).
(FieldGrammar c g, Applicative (g InstalledPackageInfo),
 Applicative (g Basic), c (Identity AbiHash),
 c (Identity LibraryVisibility), c (Identity PackageName),
 c (Identity UnitId), c (Identity UnqualComponentName),
 c (List FSep (Identity AbiDependency) AbiDependency),
 c (List FSep (Identity UnitId) UnitId),
 c (List FSep (MQuoted ModuleName) ModuleName),
 c (List FSep FilePathNT String), c (List FSep Token String),
 c (MQuoted MungedPackageName), c (MQuoted Version),
 c CompatPackageKey, c ExposedModules, c InstWith,
 c SpecLicenseLenient) =>
g InstalledPackageInfo InstalledPackageInfo
ipiFieldGrammar of
            ([PWarning]
ws, Right InstalledPackageInfo
x) -> InstalledPackageInfo
x forall a b. NFData a => a -> b -> b
`deepseq` forall a b. b -> Either a b
Right ([String]
ws', InstalledPackageInfo
x) where
                ws' :: [String]
ws' = [ String -> PWarning -> String
P.showPWarning String
"" PWarning
w
                      | w :: PWarning
w@(P.PWarning PWarnType
wt Position
_ String
_) <- [PWarning]
ws
                      -- filter out warnings about experimental features
                      , PWarnType
wt forall a. Eq a => a -> a -> Bool
/= PWarnType
P.PWTExperimental
                      ]
            ([PWarning]
_,  Left (Maybe Version
_, NonEmpty PError
errs)) -> forall a b. a -> Either a b
Left NonEmpty String
errs' where
                errs' :: NonEmpty String
errs' = forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (String -> PError -> String
P.showPError String
"") NonEmpty PError
errs

-- -----------------------------------------------------------------------------
-- Pretty-printing

-- | Pretty print 'InstalledPackageInfo'.
--
-- @pkgRoot@ isn't printed, as ghc-pkg prints it manually (as GHC-8.4).
showInstalledPackageInfo :: InstalledPackageInfo -> String
showInstalledPackageInfo :: InstalledPackageInfo -> String
showInstalledPackageInfo InstalledPackageInfo
ipi =
    InstalledPackageInfo -> String
showFullInstalledPackageInfo InstalledPackageInfo
ipi { pkgRoot :: Maybe String
pkgRoot = forall a. Maybe a
Nothing }

-- | The variant of 'showInstalledPackageInfo' which outputs @pkgroot@ field too.
showFullInstalledPackageInfo :: InstalledPackageInfo -> String
showFullInstalledPackageInfo :: InstalledPackageInfo -> String
showFullInstalledPackageInfo = forall ann. (ann -> CommentPosition) -> [PrettyField ann] -> String
P.showFields (forall a b. a -> b -> a
const CommentPosition
NoComment) forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall s a.
CabalSpecVersion -> PrettyFieldGrammar s a -> s -> [PrettyField ()]
prettyFieldGrammar CabalSpecVersion
cabalSpecLatest forall (c :: * -> Constraint) (g :: * -> * -> *).
(FieldGrammar c g, Applicative (g InstalledPackageInfo),
 Applicative (g Basic), c (Identity AbiHash),
 c (Identity LibraryVisibility), c (Identity PackageName),
 c (Identity UnitId), c (Identity UnqualComponentName),
 c (List FSep (Identity AbiDependency) AbiDependency),
 c (List FSep (Identity UnitId) UnitId),
 c (List FSep (MQuoted ModuleName) ModuleName),
 c (List FSep FilePathNT String), c (List FSep Token String),
 c (MQuoted MungedPackageName), c (MQuoted Version),
 c CompatPackageKey, c ExposedModules, c InstWith,
 c SpecLicenseLenient) =>
g InstalledPackageInfo InstalledPackageInfo
ipiFieldGrammar

-- |
--
-- >>> let ipi = emptyInstalledPackageInfo { maintainer = "Tester" }
-- >>> fmap ($ ipi) $ showInstalledPackageInfoField "maintainer"
-- Just "maintainer: Tester"
showInstalledPackageInfoField :: String -> Maybe (InstalledPackageInfo -> String)
showInstalledPackageInfoField :: String -> Maybe (InstalledPackageInfo -> String)
showInstalledPackageInfoField String
fn =
    forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (\InstalledPackageInfo -> Doc
g -> Doc -> String
Disp.render forall b c a. (b -> c) -> (a -> b) -> a -> c
. String -> Doc -> Doc
ppField String
fn forall b c a. (b -> c) -> (a -> b) -> a -> c
. InstalledPackageInfo -> Doc
g) forall a b. (a -> b) -> a -> b
$ forall s a. FieldDescrs s a -> ByteString -> Maybe (s -> Doc)
fieldDescrPretty forall (c :: * -> Constraint) (g :: * -> * -> *).
(FieldGrammar c g, Applicative (g InstalledPackageInfo),
 Applicative (g Basic), c (Identity AbiHash),
 c (Identity LibraryVisibility), c (Identity PackageName),
 c (Identity UnitId), c (Identity UnqualComponentName),
 c (List FSep (Identity AbiDependency) AbiDependency),
 c (List FSep (Identity UnitId) UnitId),
 c (List FSep (MQuoted ModuleName) ModuleName),
 c (List FSep FilePathNT String), c (List FSep Token String),
 c (MQuoted MungedPackageName), c (MQuoted Version),
 c CompatPackageKey, c ExposedModules, c InstWith,
 c SpecLicenseLenient) =>
g InstalledPackageInfo InstalledPackageInfo
ipiFieldGrammar (String -> ByteString
toUTF8BS String
fn)

showSimpleInstalledPackageInfoField :: String -> Maybe (InstalledPackageInfo -> String)
showSimpleInstalledPackageInfoField :: String -> Maybe (InstalledPackageInfo -> String)
showSimpleInstalledPackageInfoField String
fn =
    forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Style -> Doc -> String
Disp.renderStyle Style
myStyle forall b c a. (b -> c) -> (a -> b) -> a -> c
.) forall a b. (a -> b) -> a -> b
$ forall s a. FieldDescrs s a -> ByteString -> Maybe (s -> Doc)
fieldDescrPretty forall (c :: * -> Constraint) (g :: * -> * -> *).
(FieldGrammar c g, Applicative (g InstalledPackageInfo),
 Applicative (g Basic), c (Identity AbiHash),
 c (Identity LibraryVisibility), c (Identity PackageName),
 c (Identity UnitId), c (Identity UnqualComponentName),
 c (List FSep (Identity AbiDependency) AbiDependency),
 c (List FSep (Identity UnitId) UnitId),
 c (List FSep (MQuoted ModuleName) ModuleName),
 c (List FSep FilePathNT String), c (List FSep Token String),
 c (MQuoted MungedPackageName), c (MQuoted Version),
 c CompatPackageKey, c ExposedModules, c InstWith,
 c SpecLicenseLenient) =>
g InstalledPackageInfo InstalledPackageInfo
ipiFieldGrammar (String -> ByteString
toUTF8BS String
fn)
  where
    myStyle :: Style
myStyle = Style
Disp.style { mode :: Mode
Disp.mode = Mode
Disp.LeftMode }

ppField :: String -> Disp.Doc -> Disp.Doc
ppField :: String -> Doc -> Doc
ppField String
name Doc
fielddoc
     | Doc -> Bool
Disp.isEmpty Doc
fielddoc = forall a. Monoid a => a
mempty
     | Bool
otherwise             = String -> Doc
Disp.text String
name Doc -> Doc -> Doc
<<>> Doc
Disp.colon Doc -> Doc -> Doc
Disp.<+> Doc
fielddoc