{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}

module Distribution.Types.GenericPackageDescription (
    GenericPackageDescription(..),
    emptyGenericPackageDescription,
    Flag(..),
    emptyFlag,
    FlagName,
    mkFlagName,
    unFlagName,
    FlagAssignment,
    mkFlagAssignment,
    unFlagAssignment,
    lookupFlagAssignment,
    insertFlagAssignment,
    diffFlagAssignment,
    findDuplicateFlagAssignments,
    nullFlagAssignment,
    showFlagValue,
    dispFlagAssignment,
    parsecFlagAssignment,
    ConfVar(..),
) where

import Prelude ()
import Distribution.Compat.Prelude
import Distribution.Utils.ShortText
import Distribution.Utils.Generic (lowercase)
import qualified Text.PrettyPrint as Disp
import qualified Data.Map as Map
import qualified Distribution.Compat.CharParsing as P

-- lens
import Distribution.Compat.Lens                     as L
import qualified Distribution.Types.BuildInfo.Lens  as L

import Distribution.Types.PackageDescription

import Distribution.Types.Dependency
import Distribution.Types.Library
import Distribution.Types.ForeignLib
import Distribution.Types.Executable
import Distribution.Types.TestSuite
import Distribution.Types.Benchmark
import Distribution.Types.UnqualComponentName
import Distribution.Types.CondTree

import Distribution.Package
import Distribution.Version
import Distribution.Compiler
import Distribution.System
import Distribution.Parsec
import Distribution.Pretty

-- ---------------------------------------------------------------------------
-- The 'GenericPackageDescription' type

data GenericPackageDescription =
  GenericPackageDescription
  { packageDescription :: PackageDescription
  , genPackageFlags    :: [Flag]
  , condLibrary        :: Maybe (CondTree ConfVar [Dependency] Library)
  , condSubLibraries   :: [( UnqualComponentName
                           , CondTree ConfVar [Dependency] Library )]
  , condForeignLibs    :: [( UnqualComponentName
                           , CondTree ConfVar [Dependency] ForeignLib )]
  , condExecutables    :: [( UnqualComponentName
                           , CondTree ConfVar [Dependency] Executable )]
  , condTestSuites     :: [( UnqualComponentName
                           , CondTree ConfVar [Dependency] TestSuite )]
  , condBenchmarks     :: [( UnqualComponentName
                           , CondTree ConfVar [Dependency] Benchmark )]
  }
    deriving (Show, Eq, Typeable, Data, Generic)

instance Package GenericPackageDescription where
  packageId = packageId . packageDescription

instance Binary GenericPackageDescription

instance NFData GenericPackageDescription where rnf = genericRnf

emptyGenericPackageDescription :: GenericPackageDescription
emptyGenericPackageDescription = GenericPackageDescription emptyPackageDescription [] Nothing [] [] [] [] []

-- -----------------------------------------------------------------------------
-- Traversal Instances

instance L.HasBuildInfos GenericPackageDescription where
  traverseBuildInfos f (GenericPackageDescription p a1 x1 x2 x3 x4 x5 x6) =
    GenericPackageDescription
        <$> L.traverseBuildInfos f p
        <*> pure a1
        <*> (traverse . traverse . L.buildInfo) f x1
        <*> (traverse . L._2 . traverse . L.buildInfo) f x2
        <*> (traverse . L._2 . traverse . L.buildInfo) f x3
        <*> (traverse . L._2 . traverse . L.buildInfo) f x4
        <*> (traverse . L._2 . traverse . L.buildInfo) f x5
        <*> (traverse . L._2 . traverse . L.buildInfo) f x6

-- -----------------------------------------------------------------------------
-- The Flag' type

-- | A flag can represent a feature to be included, or a way of linking
--   a target against its dependencies, or in fact whatever you can think of.
data Flag = MkFlag
    { flagName        :: FlagName
    , flagDescription :: String
    , flagDefault     :: Bool
    , flagManual      :: Bool
    }
    deriving (Show, Eq, Typeable, Data, Generic)

instance Binary Flag

instance NFData Flag where rnf = genericRnf

-- | A 'Flag' initialized with default parameters.
emptyFlag :: FlagName -> Flag
emptyFlag name = MkFlag
    { flagName        = name
    , flagDescription = ""
    , flagDefault     = True
    , flagManual      = False
    }

-- | A 'FlagName' is the name of a user-defined configuration flag
--
-- Use 'mkFlagName' and 'unFlagName' to convert from/to a 'String'.
--
-- This type is opaque since @Cabal-2.0@
--
-- @since 2.0.0.2
newtype FlagName = FlagName ShortText
    deriving (Eq, Generic, Ord, Show, Read, Typeable, Data, NFData)

-- | Construct a 'FlagName' from a 'String'
--
-- 'mkFlagName' is the inverse to 'unFlagName'
--
-- Note: No validations are performed to ensure that the resulting
-- 'FlagName' is valid
--
-- @since 2.0.0.2
mkFlagName :: String -> FlagName
mkFlagName = FlagName . toShortText

-- | 'mkFlagName'
--
-- @since 2.0.0.2
instance IsString FlagName where
    fromString = mkFlagName

-- | Convert 'FlagName' to 'String'
--
-- @since 2.0.0.2
unFlagName :: FlagName -> String
unFlagName (FlagName s) = fromShortText s

instance Binary FlagName

instance Pretty FlagName where
    pretty = Disp.text . unFlagName

instance Parsec FlagName where
    -- Note:  we don't check that FlagName doesn't have leading dash,
    -- cabal check will do that.
    parsec = mkFlagName . lowercase <$> parsec'
      where
        parsec' = (:) <$> lead <*> rest
        lead = P.satisfy (\c ->  isAlphaNum c || c == '_')
        rest = P.munch (\c -> isAlphaNum c ||  c == '_' || c == '-')

-- | A 'FlagAssignment' is a total or partial mapping of 'FlagName's to
-- 'Bool' flag values. It represents the flags chosen by the user or
-- discovered during configuration. For example @--flags=foo --flags=-bar@
-- becomes @[("foo", True), ("bar", False)]@
--
newtype FlagAssignment
  = FlagAssignment { getFlagAssignment :: Map.Map FlagName (Int, Bool) }
  deriving (Binary, Generic, NFData)

instance Eq FlagAssignment where
  (==) (FlagAssignment m1) (FlagAssignment m2)
    = fmap snd m1 == fmap snd m2

instance Ord FlagAssignment where
  compare (FlagAssignment m1) (FlagAssignment m2)
    = fmap snd m1 `compare` fmap snd m2

-- | Combines pairs of values contained in the 'FlagAssignment' Map.
--
-- The last flag specified takes precedence, and we record the number
-- of times we have seen the flag.
--
combineFlagValues :: (Int, Bool) -> (Int, Bool) -> (Int, Bool)
combineFlagValues (c1, _) (c2, b2) = (c1 + c2, b2)

-- The 'Semigroup' instance currently is right-biased.
--
-- If duplicate flags are specified, we want the last flag specified to
-- take precedence and we want to know how many times the flag has been
-- specified so that we have the option of warning the user about
-- supplying duplicate flags.
instance Semigroup FlagAssignment where
  (<>) (FlagAssignment m1) (FlagAssignment m2)
    = FlagAssignment (Map.unionWith combineFlagValues m1 m2)

instance Monoid FlagAssignment where
  mempty = FlagAssignment Map.empty
  mappend = (<>)

-- | Construct a 'FlagAssignment' from a list of flag/value pairs.
--
-- If duplicate flags occur in the input list, the later entries
-- in the list will take precedence.
--
-- @since 2.2.0
mkFlagAssignment :: [(FlagName, Bool)] -> FlagAssignment
mkFlagAssignment =
  FlagAssignment .
  Map.fromListWith (flip combineFlagValues) . fmap (fmap (\b -> (1, b)))

-- | Deconstruct a 'FlagAssignment' into a list of flag/value pairs.
--
-- @ 'null' ('findDuplicateFlagAssignments' fa) ==> ('mkFlagAssignment' . 'unFlagAssignment') fa == fa @
--
-- @since 2.2.0
unFlagAssignment :: FlagAssignment -> [(FlagName, Bool)]
unFlagAssignment = fmap (fmap snd) . Map.toList . getFlagAssignment

-- | Test whether 'FlagAssignment' is empty.
--
-- @since 2.2.0
nullFlagAssignment :: FlagAssignment -> Bool
nullFlagAssignment = Map.null . getFlagAssignment

-- | Lookup the value for a flag
--
-- Returns 'Nothing' if the flag isn't contained in the 'FlagAssignment'.
--
-- @since 2.2.0
lookupFlagAssignment :: FlagName -> FlagAssignment -> Maybe Bool
lookupFlagAssignment fn = fmap snd . Map.lookup fn . getFlagAssignment

-- | Insert or update the boolean value of a flag.
--
-- If the flag is already present in the 'FlagAssigment', the
-- value will be updated and the fact that multiple values have
-- been provided for that flag will be recorded so that a
-- warning can be generated later on.
--
-- @since 2.2.0
insertFlagAssignment :: FlagName -> Bool -> FlagAssignment -> FlagAssignment
-- TODO: this currently just shadows prior values for an existing
-- flag; rather than enforcing uniqueness at construction, it's
-- verified later on via `D.C.Dependency.configuredPackageProblems`
insertFlagAssignment flag val =
  FlagAssignment .
  Map.insertWith (flip combineFlagValues) flag (1, val) .  getFlagAssignment

-- | Remove all flag-assignments from the first 'FlagAssignment' that
-- are contained in the second 'FlagAssignment'
--
-- NB/TODO: This currently only removes flag assignments which also
-- match the value assignment! We should review the code which uses
-- this operation to figure out if this it's not enough to only
-- compare the flagnames without the values.
--
-- @since 2.2.0
diffFlagAssignment :: FlagAssignment -> FlagAssignment -> FlagAssignment
diffFlagAssignment fa1 fa2 = FlagAssignment
  (Map.difference (getFlagAssignment fa1) (getFlagAssignment fa2))

-- | Find the 'FlagName's that have been listed more than once.
--
-- @since 2.2.0
findDuplicateFlagAssignments :: FlagAssignment -> [FlagName]
findDuplicateFlagAssignments =
  Map.keys . Map.filter ((> 1) . fst) . getFlagAssignment

-- | @since 2.2.0
instance Read FlagAssignment where
    readsPrec p s = [ (FlagAssignment x, rest) | (x,rest) <- readsPrec p s ]

-- | @since 2.2.0
instance Show FlagAssignment where
    showsPrec p (FlagAssignment xs) = showsPrec p xs

-- | String representation of a flag-value pair.
showFlagValue :: (FlagName, Bool) -> String
showFlagValue (f, True)   = '+' : unFlagName f
showFlagValue (f, False)  = '-' : unFlagName f

-- | Pretty-prints a flag assignment.
dispFlagAssignment :: FlagAssignment -> Disp.Doc
dispFlagAssignment = Disp.hsep . map (Disp.text . showFlagValue) . unFlagAssignment

-- | Parses a flag assignment.
parsecFlagAssignment :: CabalParsing m => m FlagAssignment
parsecFlagAssignment = mkFlagAssignment <$>
                       P.sepBy (onFlag <|> offFlag) P.skipSpaces1
  where
    onFlag = do
        _ <- P.optional (P.char '+')
        f <- parsec
        return (f, True)
    offFlag = do
        _ <- P.char '-'
        f <- parsec
        return (f, False)
-- {-# DEPRECATED parseFlagAssignment "Use parsecFlagAssignment. This symbol will be removed in Cabal-3.0 (est. Mar 2019)." #-}

-- -----------------------------------------------------------------------------
-- The 'CondVar' type

-- | A @ConfVar@ represents the variable type used.
data ConfVar = OS OS
             | Arch Arch
             | Flag FlagName
             | Impl CompilerFlavor VersionRange
    deriving (Eq, Show, Typeable, Data, Generic)

instance Binary ConfVar

instance NFData ConfVar where rnf = genericRnf