{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE PatternGuards #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE NoMonoLocalBinds #-}
{-# LANGUAGE NondecreasingIndentation #-}

-- | See <https://github.com/ezyang/ghc-proposals/blob/backpack/proposals/0000-backpack.rst>
--
-- WARNING: The contents of this module are HIGHLY experimental.
-- We may refactor it under you.
module Distribution.Backpack.Configure (
    configureComponentLocalBuildInfos,
) where

import Prelude ()
import Distribution.Compat.Prelude hiding ((<>))

import Distribution.Backpack
import Distribution.Backpack.FullUnitId
import Distribution.Backpack.PreExistingComponent
import Distribution.Backpack.ConfiguredComponent
import Distribution.Backpack.LinkedComponent
import Distribution.Backpack.ReadyComponent
import Distribution.Backpack.ComponentsGraph
import Distribution.Backpack.Id

import Distribution.Simple.Compiler hiding (Flag)
import Distribution.Package
import qualified Distribution.InstalledPackageInfo as Installed
import Distribution.InstalledPackageInfo (InstalledPackageInfo
                                         ,emptyInstalledPackageInfo)
import qualified Distribution.Simple.PackageIndex as PackageIndex
import Distribution.Simple.PackageIndex (InstalledPackageIndex)
import Distribution.PackageDescription as PD hiding (Flag)
import Distribution.ModuleName
import Distribution.Simple.Setup as Setup
import Distribution.Simple.LocalBuildInfo
import Distribution.Types.AnnotatedId
import Distribution.Types.ComponentRequestedSpec
import Distribution.Types.ComponentInclude
import Distribution.Types.MungedPackageName
import Distribution.Verbosity
import qualified Distribution.Compat.Graph as Graph
import Distribution.Compat.Graph (Graph, IsNode(..))
import Distribution.Utils.LogProgress

import Data.Either
    ( lefts )
import qualified Data.Set as Set
import qualified Data.Map as Map
import Distribution.Pretty
import Text.PrettyPrint

------------------------------------------------------------------------------
-- Pipeline
------------------------------------------------------------------------------

configureComponentLocalBuildInfos
    :: Verbosity
    -> Bool                   -- use_external_internal_deps
    -> ComponentRequestedSpec
    -> Bool                   -- deterministic
    -> Flag String            -- configIPID
    -> Flag ComponentId       -- configCID
    -> PackageDescription
    -> [PreExistingComponent]
    -> FlagAssignment         -- configConfigurationsFlags
    -> [(ModuleName, Module)] -- configInstantiateWith
    -> InstalledPackageIndex
    -> Compiler
    -> LogProgress ([ComponentLocalBuildInfo], InstalledPackageIndex)
configureComponentLocalBuildInfos
    verbosity use_external_internal_deps enabled deterministic ipid_flag cid_flag pkg_descr
    prePkgDeps flagAssignment instantiate_with installedPackageSet comp = do
    -- NB: In single component mode, this returns a *single* component.
    -- In this graph, the graph is NOT closed.
    graph0 <- case mkComponentsGraph enabled pkg_descr of
                Left ccycle -> dieProgress (componentCycleMsg ccycle)
                Right g -> return (componentsGraphToList g)
    infoProgress $ hang (text "Source component graph:") 4
                        (dispComponentsWithDeps graph0)

    let conf_pkg_map = Map.fromListWith Map.union
            [(pc_pkgname pkg,
                Map.singleton (pc_compname pkg)
                              (AnnotatedId {
                                ann_id = pc_cid pkg,
                                ann_pid = packageId pkg,
                                ann_cname = pc_compname pkg
                              }))
            | pkg <- prePkgDeps]
    graph1 <- toConfiguredComponents use_external_internal_deps
                    flagAssignment
                    deterministic ipid_flag cid_flag pkg_descr
                    conf_pkg_map (map fst graph0)
    infoProgress $ hang (text "Configured component graph:") 4
                        (vcat (map dispConfiguredComponent graph1))

    let shape_pkg_map = Map.fromList
            [ (pc_cid pkg, (pc_open_uid pkg, pc_shape pkg))
            | pkg <- prePkgDeps]
        uid_lookup def_uid
            | Just pkg <- PackageIndex.lookupUnitId installedPackageSet uid
            = FullUnitId (Installed.installedComponentId pkg)
                 (Map.fromList (Installed.instantiatedWith pkg))
            | otherwise = error ("uid_lookup: " ++ prettyShow uid)
          where uid = unDefUnitId def_uid
    graph2 <- toLinkedComponents verbosity uid_lookup
                    (package pkg_descr) shape_pkg_map graph1

    infoProgress $
        hang (text "Linked component graph:") 4
             (vcat (map dispLinkedComponent graph2))

    let pid_map = Map.fromList $
            [ (pc_uid pkg, pc_munged_id pkg)
            | pkg <- prePkgDeps] ++
            [ (Installed.installedUnitId pkg, mungedId pkg)
            | (_, Module uid _) <- instantiate_with
            , Just pkg <- [PackageIndex.lookupUnitId
                                installedPackageSet (unDefUnitId uid)] ]
        subst = Map.fromList instantiate_with
        graph3 = toReadyComponents pid_map subst graph2
        graph4 = Graph.revTopSort (Graph.fromDistinctList graph3)

    infoProgress $ hang (text "Ready component graph:") 4
                        (vcat (map dispReadyComponent graph4))

    toComponentLocalBuildInfos comp installedPackageSet pkg_descr prePkgDeps graph4

------------------------------------------------------------------------------
-- ComponentLocalBuildInfo
------------------------------------------------------------------------------

toComponentLocalBuildInfos
    :: Compiler
    -> InstalledPackageIndex -- FULL set
    -> PackageDescription
    -> [PreExistingComponent] -- external package deps
    -> [ReadyComponent]
    -> LogProgress ([ComponentLocalBuildInfo],
                    InstalledPackageIndex) -- only relevant packages
toComponentLocalBuildInfos
    comp installedPackageSet pkg_descr externalPkgDeps graph = do
    -- Check and make sure that every instantiated component exists.
    -- We have to do this now, because prior to linking/instantiating
    -- we don't actually know what the full set of 'UnitId's we need
    -- are.
    let -- TODO: This is actually a bit questionable performance-wise,
        -- since we will pay for the ALL installed packages even if
        -- they are not related to what we are building.  This was true
        -- in the old configure code.
        external_graph :: Graph (Either InstalledPackageInfo ReadyComponent)
        external_graph = Graph.fromDistinctList
                       . map Left
                       $ PackageIndex.allPackages installedPackageSet
        internal_graph :: Graph (Either InstalledPackageInfo ReadyComponent)
        internal_graph = Graph.fromDistinctList
                       . map Right
                       $ graph
        combined_graph = Graph.unionRight external_graph internal_graph
        Just local_graph = Graph.closure combined_graph (map nodeKey graph)
        -- The database of transitively reachable installed packages that the
        -- external components the package (as a whole) depends on.  This will be
        -- used in several ways:
        --
        --      * We'll use it to do a consistency check so we're not depending
        --        on multiple versions of the same package (TODO: someday relax
        --        this for private dependencies.)  See right below.
        --
        --      * We'll pass it on in the LocalBuildInfo, where preprocessors
        --        and other things will incorrectly use it to determine what
        --        the include paths and everything should be.
        --
        packageDependsIndex = PackageIndex.fromList (lefts local_graph)
        fullIndex = Graph.fromDistinctList local_graph
    case Graph.broken fullIndex of
        [] -> return ()
        broken ->
          -- TODO: ppr this
          dieProgress . text $
                "The following packages are broken because other"
             ++ " packages they depend on are missing. These broken "
             ++ "packages must be rebuilt before they can be used.\n"
             -- TODO: Undupe.
             ++ unlines [ "installed package "
                       ++ prettyShow (packageId pkg)
                       ++ " is broken due to missing package "
                       ++ intercalate ", " (map prettyShow deps)
                        | (Left pkg, deps) <- broken ]
             ++ unlines [ "planned package "
                       ++ prettyShow (packageId pkg)
                       ++ " is broken due to missing package "
                       ++ intercalate ", " (map prettyShow deps)
                        | (Right pkg, deps) <- broken ]

    -- In this section, we'd like to look at the 'packageDependsIndex'
    -- and see if we've picked multiple versions of the same
    -- installed package (this is bad, because it means you might
    -- get an error could not match foo-0.1:Type with foo-0.2:Type).
    --
    -- What is pseudoTopPkg for? I have no idea.  It was used
    -- in the very original commit which introduced checking for
    -- inconsistencies 5115bb2be4e13841ea07dc9166b9d9afa5f0d012,
    -- and then moved out of PackageIndex and put here later.
    -- TODO: Try this code without it...
    --
    -- TODO: Move this into a helper function
    --
    -- TODO: This is probably wrong for Backpack
    let pseudoTopPkg :: InstalledPackageInfo
        pseudoTopPkg = emptyInstalledPackageInfo {
            Installed.installedUnitId = mkLegacyUnitId (packageId pkg_descr),
            Installed.sourcePackageId = packageId pkg_descr,
            Installed.depends = map pc_uid externalPkgDeps
          }
    case PackageIndex.dependencyInconsistencies
       . PackageIndex.insert pseudoTopPkg
       $ packageDependsIndex of
      [] -> return ()
      inconsistencies ->
        warnProgress $
          hang (text "This package indirectly depends on multiple versions of the same" <+>
                text "package. This is very likely to cause a compile failure.") 2
               (vcat [ text "package" <+> pretty (packageName user) <+>
                       parens (pretty (installedUnitId user)) <+> text "requires" <+>
                       pretty inst
                     | (_dep_key, insts) <- inconsistencies
                     , (inst, users) <- insts
                     , user <- users ])
    let clbis = mkLinkedComponentsLocalBuildInfo comp graph
    -- forM clbis $ \(clbi,deps) -> info verbosity $ "UNIT" ++ hashUnitId (componentUnitId clbi) ++ "\n" ++ intercalate "\n" (map hashUnitId deps)
    return (clbis, packageDependsIndex)

-- Build ComponentLocalBuildInfo for each component we are going
-- to build.
--
-- This conversion is lossy; we lose some invariants from ReadyComponent
mkLinkedComponentsLocalBuildInfo
    :: Compiler
    -> [ReadyComponent]
    -> [ComponentLocalBuildInfo]
mkLinkedComponentsLocalBuildInfo comp rcs = map go rcs
  where
    internalUnits = Set.fromList (map rc_uid rcs)
    isInternal x = Set.member x internalUnits
    go rc =
      case rc_component rc of
      CLib lib ->
        let convModuleExport (modname', (Module uid modname))
              | this_uid == unDefUnitId uid
              , modname' == modname
              = Installed.ExposedModule modname' Nothing
              | otherwise
              = Installed.ExposedModule modname'
                  (Just (OpenModule (DefiniteUnitId uid) modname))
            convOpenModuleExport (modname', modu@(OpenModule uid modname))
              | uid == this_open_uid
              , modname' == modname
              = Installed.ExposedModule modname' Nothing
              | otherwise
              = Installed.ExposedModule modname' (Just modu)
            convOpenModuleExport (_, OpenModuleVar _)
                = error "convOpenModuleExport: top-level modvar"
            exports =
                -- Loses invariants
                case rc_i rc of
                    Left indefc -> map convOpenModuleExport
                                 $ Map.toList (indefc_provides indefc)
                    Right instc -> map convModuleExport
                                 $ Map.toList (instc_provides instc)
            insts =
                case rc_i rc of
                    Left indefc -> [ (m, OpenModuleVar m) | m <- indefc_requires indefc ]
                    Right instc -> [ (m, OpenModule (DefiniteUnitId uid') m')
                                   | (m, Module uid' m') <- instc_insts instc ]

            compat_name = MungedPackageName (packageName rc) (libName lib)
            compat_key = computeCompatPackageKey comp compat_name (packageVersion rc) this_uid

        in LibComponentLocalBuildInfo {
          componentPackageDeps = cpds,
          componentUnitId = this_uid,
          componentComponentId = this_cid,
          componentInstantiatedWith = insts,
          componentIsIndefinite_ = is_indefinite,
          componentLocalName = cname,
          componentInternalDeps = internal_deps,
          componentExeDeps = exe_deps,
          componentIncludes = includes,
          componentExposedModules = exports,
          componentIsPublic = rc_public rc,
          componentCompatPackageKey = compat_key,
          componentCompatPackageName = compat_name
        }
      CFLib _ ->
        FLibComponentLocalBuildInfo {
          componentUnitId = this_uid,
          componentComponentId = this_cid,
          componentLocalName = cname,
          componentPackageDeps = cpds,
          componentExeDeps = exe_deps,
          componentInternalDeps = internal_deps,
          componentIncludes = includes
        }
      CExe _ ->
        ExeComponentLocalBuildInfo {
          componentUnitId = this_uid,
          componentComponentId = this_cid,
          componentLocalName = cname,
          componentPackageDeps = cpds,
          componentExeDeps = exe_deps,
          componentInternalDeps = internal_deps,
          componentIncludes = includes
        }
      CTest _ ->
        TestComponentLocalBuildInfo {
          componentUnitId = this_uid,
          componentComponentId = this_cid,
          componentLocalName = cname,
          componentPackageDeps = cpds,
          componentExeDeps = exe_deps,
          componentInternalDeps = internal_deps,
          componentIncludes = includes
        }
      CBench _ ->
        BenchComponentLocalBuildInfo {
          componentUnitId = this_uid,
          componentComponentId = this_cid,
          componentLocalName = cname,
          componentPackageDeps = cpds,
          componentExeDeps = exe_deps,
          componentInternalDeps = internal_deps,
          componentIncludes = includes
        }
     where
      this_uid      = rc_uid rc
      this_open_uid = rc_open_uid rc
      this_cid      = rc_cid rc
      cname = componentName (rc_component rc)
      cpds = rc_depends rc
      exe_deps = map ann_id $ rc_exe_deps rc
      is_indefinite =
        case rc_i rc of
            Left _ -> True
            Right _ -> False
      includes =
        map (\ci -> (ci_id ci, ci_renaming ci)) $
            case rc_i rc of
                Left indefc ->
                    indefc_includes indefc
                Right instc ->
                    map (\ci -> ci { ci_ann_id = fmap DefiniteUnitId (ci_ann_id ci) })
                        (instc_includes instc)
      internal_deps = filter isInternal (nodeNeighbors rc)