{-# LANGUAGE CPP #-}

module GHC.Types.Name.Ppr
   ( mkPrintUnqualified
   , mkQualModule
   , mkQualPackage
   , pkgQual
   )
where

#include "HsVersions.h"

import GHC.Prelude

import GHC.Unit
import GHC.Unit.Env
import GHC.Unit.State

import GHC.Core.TyCon

import GHC.Types.Name
import GHC.Types.Name.Reader

import GHC.Builtin.Types

import GHC.Utils.Outputable
import GHC.Utils.Panic
import GHC.Utils.Misc


{-
Note [Printing original names]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Deciding how to print names is pretty tricky.  We are given a name
P:M.T, where P is the package name, M is the defining module, and T is
the occurrence name, and we have to decide in which form to display
the name given a GlobalRdrEnv describing the current scope.

Ideally we want to display the name in the form in which it is in
scope.  However, the name might not be in scope at all, and that's
where it gets tricky.  Here are the cases:

 1. T uniquely maps to  P:M.T      --->  "T"      NameUnqual
 2. There is an X for which X.T
       uniquely maps to  P:M.T     --->  "X.T"    NameQual X
 3. There is no binding for "M.T"  --->  "M.T"    NameNotInScope1
 4. Otherwise                      --->  "P:M.T"  NameNotInScope2

(3) and (4) apply when the entity P:M.T is not in the GlobalRdrEnv at
all. In these cases we still want to refer to the name as "M.T", *but*
"M.T" might mean something else in the current scope (e.g. if there's
an "import X as M"), so to avoid confusion we avoid using "M.T" if
there's already a binding for it.  Instead we write P:M.T.

There's one further subtlety: in case (3), what if there are two
things around, P1:M.T and P2:M.T?  Then we don't want to print both of
them as M.T!  However only one of the modules P1:M and P2:M can be
exposed (say P2), so we use M.T for that, and P1:M.T for the other one.
This is handled by the qual_mod component of PrintUnqualified, inside
the (ppr mod) of case (3), in Name.pprModulePrefix

Note [Printing unit ids]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
In the old days, original names were tied to PackageIds, which directly
corresponded to the entities that users wrote in Cabal files, and were perfectly
suitable for printing when we need to disambiguate packages.  However, with
instantiated units, the situation can be different: if the key is instantiated
with some holes, we should try to give the user some more useful information.
-}

-- | Creates some functions that work out the best ways to format
-- names for the user according to a set of heuristics.
mkPrintUnqualified :: UnitEnv -> GlobalRdrEnv -> PrintUnqualified
mkPrintUnqualified :: UnitEnv -> GlobalRdrEnv -> PrintUnqualified
mkPrintUnqualified UnitEnv
unit_env GlobalRdrEnv
env
 = QueryQualifyName
-> QueryQualifyModule -> QueryQualifyPackage -> PrintUnqualified
QueryQualify QueryQualifyName
qual_name
      (UnitState -> HomeUnit -> QueryQualifyModule
mkQualModule UnitState
unit_state HomeUnit
home_unit)
      (UnitState -> QueryQualifyPackage
mkQualPackage UnitState
unit_state)
  where
  unit_state :: UnitState
unit_state = UnitEnv -> UnitState
ue_units UnitEnv
unit_env
  home_unit :: HomeUnit
home_unit  = UnitEnv -> HomeUnit
ue_home_unit UnitEnv
unit_env
  qual_name :: QueryQualifyName
qual_name Module
mod OccName
occ
        | [GlobalRdrElt
gre] <- [GlobalRdrElt]
unqual_gres
        , GlobalRdrElt -> Bool
right_name GlobalRdrElt
gre
        = QualifyName
NameUnqual   -- If there's a unique entity that's in scope
                       -- unqualified with 'occ' AND that entity is
                       -- the right one, then we can use the unqualified name

        | [] <- [GlobalRdrElt]
unqual_gres
        , (Name -> Bool) -> [Name] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any Name -> Bool
is_name [Name]
forceUnqualNames
        , Bool -> Bool
not (OccName -> Bool
isDerivedOccName OccName
occ)
        = QualifyName
NameUnqual   -- Don't qualify names that come from modules
                       -- that come with GHC, often appear in error messages,
                       -- but aren't typically in scope. Doing this does not
                       -- cause ambiguity, and it reduces the amount of
                       -- qualification in error messages thus improving
                       -- readability.
                       --
                       -- A motivating example is 'Constraint'. It's often not
                       -- in scope, but printing GHC.Prim.Constraint seems
                       -- overkill.

        | [GlobalRdrElt
gre] <- [GlobalRdrElt]
qual_gres
        = ModuleName -> QualifyName
NameQual (GlobalRdrElt -> ModuleName
greQualModName GlobalRdrElt
gre)

        | [GlobalRdrElt] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null [GlobalRdrElt]
qual_gres
        = if [GlobalRdrElt] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null (RdrName -> GlobalRdrEnv -> [GlobalRdrElt]
lookupGRE_RdrName (ModuleName -> OccName -> RdrName
mkRdrQual (Module -> ModuleName
forall unit. GenModule unit -> ModuleName
moduleName Module
mod) OccName
occ) GlobalRdrEnv
env)
          then QualifyName
NameNotInScope1
          else QualifyName
NameNotInScope2

        | Bool
otherwise
        = QualifyName
NameNotInScope1   -- Can happen if 'f' is bound twice in the module
                            -- Eg  f = True; g = 0; f = False
      where
        is_name :: Name -> Bool
        is_name :: Name -> Bool
is_name Name
name = ASSERT2( isExternalName name, ppr name )
                       HasDebugCallStack => Name -> Module
Name -> Module
nameModule Name
name Module -> QueryQualifyModule
forall a. Eq a => a -> a -> Bool
== Module
mod Bool -> Bool -> Bool
&& Name -> OccName
nameOccName Name
name OccName -> OccName -> Bool
forall a. Eq a => a -> a -> Bool
== OccName
occ

        forceUnqualNames :: [Name]
        forceUnqualNames :: [Name]
forceUnqualNames =
          (TyCon -> Name) -> [TyCon] -> [Name]
forall a b. (a -> b) -> [a] -> [b]
map TyCon -> Name
tyConName [ TyCon
constraintKindTyCon, TyCon
heqTyCon, TyCon
coercibleTyCon ]
          [Name] -> [Name] -> [Name]
forall a. [a] -> [a] -> [a]
++ [ Name
eqTyConName ]

        right_name :: GlobalRdrElt -> Bool
right_name GlobalRdrElt
gre = GlobalRdrElt -> Maybe Module
greDefinitionModule GlobalRdrElt
gre Maybe Module -> Maybe Module -> Bool
forall a. Eq a => a -> a -> Bool
== Module -> Maybe Module
forall a. a -> Maybe a
Just Module
mod

        unqual_gres :: [GlobalRdrElt]
unqual_gres = RdrName -> GlobalRdrEnv -> [GlobalRdrElt]
lookupGRE_RdrName (OccName -> RdrName
mkRdrUnqual OccName
occ) GlobalRdrEnv
env
        qual_gres :: [GlobalRdrElt]
qual_gres   = (GlobalRdrElt -> Bool) -> [GlobalRdrElt] -> [GlobalRdrElt]
forall a. (a -> Bool) -> [a] -> [a]
filter GlobalRdrElt -> Bool
right_name (GlobalRdrEnv -> OccName -> [GlobalRdrElt]
lookupGlobalRdrEnv GlobalRdrEnv
env OccName
occ)

    -- we can mention a module P:M without the P: qualifier iff
    -- "import M" would resolve unambiguously to P:M.  (if P is the
    -- current package we can just assume it is unqualified).

-- | Creates a function for formatting modules based on two heuristics:
-- (1) if the module is the current module, don't qualify, and (2) if there
-- is only one exposed package which exports this module, don't qualify.
mkQualModule :: UnitState -> HomeUnit -> QueryQualifyModule
mkQualModule :: UnitState -> HomeUnit -> QueryQualifyModule
mkQualModule UnitState
unit_state HomeUnit
home_unit Module
mod
     | HomeUnit -> QueryQualifyModule
isHomeModule HomeUnit
home_unit Module
mod = Bool
False

     | [(Module
_, UnitInfo
pkgconfig)] <- [(Module, UnitInfo)]
lookup,
       UnitInfo -> Unit
mkUnit UnitInfo
pkgconfig Unit -> QueryQualifyPackage
forall a. Eq a => a -> a -> Bool
== Module -> Unit
forall unit. GenModule unit -> unit
moduleUnit Module
mod
        -- this says: we are given a module P:M, is there just one exposed package
        -- that exposes a module M, and is it package P?
     = Bool
False

     | Bool
otherwise = Bool
True
     where lookup :: [(Module, UnitInfo)]
lookup = UnitState -> ModuleName -> [(Module, UnitInfo)]
lookupModuleInAllUnits UnitState
unit_state (Module -> ModuleName
forall unit. GenModule unit -> ModuleName
moduleName Module
mod)

-- | Creates a function for formatting packages based on two heuristics:
-- (1) don't qualify if the package in question is "main", and (2) only qualify
-- with a unit id if the package ID would be ambiguous.
mkQualPackage :: UnitState -> QueryQualifyPackage
mkQualPackage :: UnitState -> QueryQualifyPackage
mkQualPackage UnitState
pkgs Unit
uid
     | Unit
uid Unit -> QueryQualifyPackage
forall a. Eq a => a -> a -> Bool
== Unit
mainUnit Bool -> Bool -> Bool
|| Unit
uid Unit -> QueryQualifyPackage
forall a. Eq a => a -> a -> Bool
== Unit
interactiveUnit
        -- Skip the lookup if it's main, since it won't be in the package
        -- database!
     = Bool
False
     | Just PackageId
pkgid <- Maybe PackageId
mb_pkgid
     , UnitState -> PackageId -> [UnitInfo]
searchPackageId UnitState
pkgs PackageId
pkgid [UnitInfo] -> Int -> Bool
forall a. [a] -> Int -> Bool
`lengthIs` Int
1
        -- this says: we are given a package pkg-0.1@MMM, are there only one
        -- exposed packages whose package ID is pkg-0.1?
     = Bool
False
     | Bool
otherwise
     = Bool
True
     where mb_pkgid :: Maybe PackageId
mb_pkgid = (UnitInfo -> PackageId) -> Maybe UnitInfo -> Maybe PackageId
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap UnitInfo -> PackageId
forall compid srcpkgid srcpkgname uid modulename mod.
GenericUnitInfo compid srcpkgid srcpkgname uid modulename mod
-> srcpkgid
unitPackageId (UnitState -> Unit -> Maybe UnitInfo
lookupUnit UnitState
pkgs Unit
uid)

-- | A function which only qualifies package names if necessary; but
-- qualifies all other identifiers.
pkgQual :: UnitState -> PrintUnqualified
pkgQual :: UnitState -> PrintUnqualified
pkgQual UnitState
pkgs = PrintUnqualified
alwaysQualify { queryQualifyPackage :: QueryQualifyPackage
queryQualifyPackage = UnitState -> QueryQualifyPackage
mkQualPackage UnitState
pkgs }