path: root/compiler/basicTypes/RdrName.lhs

%
% (c) The University of Glasgow 2006
% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%

\begin{code}
{-# LANGUAGE DeriveDataTypeable #-}

-- |
-- #name_types#
-- GHC uses several kinds of name internally:
--
-- * 'OccName.OccName': see "OccName#name_types"
--
-- * 'RdrName.RdrName' is the type of names that come directly from the parser. They
--   have not yet had their scoping and binding resolved by the renamer and can be
--   thought of to a first approximation as an 'OccName.OccName' with an optional module
--   qualifier
--
-- * 'Name.Name': see "Name#name_types"
--
-- * 'Id.Id': see "Id#name_types"
--
-- * 'Var.Var': see "Var#name_types"
module RdrName (
        -- * The main type
	RdrName(..),	-- Constructors exported only to BinIface

	-- ** Construction
	mkRdrUnqual, mkRdrQual, 
	mkUnqual, mkVarUnqual, mkQual, mkOrig,
	nameRdrName, getRdrName, 

	-- ** Destruction
	rdrNameOcc, rdrNameSpace, setRdrNameSpace,
	isRdrDataCon, isRdrTyVar, isRdrTc, isQual, isQual_maybe, isUnqual, 
	isOrig, isOrig_maybe, isExact, isExact_maybe, isSrcRdrName,

	-- ** Printing
	showRdrName,

	-- * Local mapping of 'RdrName' to 'Name.Name'
	LocalRdrEnv, emptyLocalRdrEnv, extendLocalRdrEnv, extendLocalRdrEnvList,
	lookupLocalRdrEnv, lookupLocalRdrOcc, elemLocalRdrEnv,

	-- * Global mapping of 'RdrName' to 'GlobalRdrElt's
	GlobalRdrEnv, emptyGlobalRdrEnv, mkGlobalRdrEnv, plusGlobalRdrEnv, 
	lookupGlobalRdrEnv, extendGlobalRdrEnv,
	pprGlobalRdrEnv, globalRdrEnvElts,
	lookupGRE_RdrName, lookupGRE_Name, getGRE_NameQualifier_maybes,
        transformGREs, findLocalDupsRdrEnv, pickGREs,

	-- ** Global 'RdrName' mapping elements: 'GlobalRdrElt', 'Provenance', 'ImportSpec'
	GlobalRdrElt(..), isLocalGRE, unQualOK, qualSpecOK, unQualSpecOK,
	Provenance(..), pprNameProvenance,
	Parent(..), 
	ImportSpec(..), ImpDeclSpec(..), ImpItemSpec(..), 
	importSpecLoc, importSpecModule, isExplicitItem
  ) where 

#include "HsVersions.h"

import Module
import Name
import Maybes
import SrcLoc
import FastString
import Outputable
import Util

import Data.Data
\end{code}

%************************************************************************
%*									*
\subsection{The main data type}
%*									*
%************************************************************************

\begin{code}
-- | Do not use the data constructors of RdrName directly: prefer the family
-- of functions that creates them, such as 'mkRdrUnqual'
data RdrName
  = Unqual OccName
	-- ^ Used for ordinary, unqualified occurrences, e.g. @x@, @y@ or @Foo@.
	-- Create such a 'RdrName' with 'mkRdrUnqual'

  | Qual ModuleName OccName
	-- ^ A qualified name written by the user in 
	-- /source/ code.  The module isn't necessarily 
	-- the module where the thing is defined; 
	-- just the one from which it is imported.
	-- Examples are @Bar.x@, @Bar.y@ or @Bar.Foo@.
	-- Create such a 'RdrName' with 'mkRdrQual'

  | Orig Module OccName
	-- ^ An original name; the module is the /defining/ module.
	-- This is used when GHC generates code that will be fed
	-- into the renamer (e.g. from deriving clauses), but where
	-- we want to say \"Use Prelude.map dammit\". One of these
	-- can be created with 'mkOrig'
 
  | Exact Name
	-- ^ We know exactly the 'Name'. This is used:
	--
	--  (1) When the parser parses built-in syntax like @[]@
	--	and @(,)@, but wants a 'RdrName' from it
	--
	--  (2) By Template Haskell, when TH has generated a unique name
	--
	-- Such a 'RdrName' can be created by using 'getRdrName' on a 'Name'
  deriving (Data, Typeable)
\end{code}


%************************************************************************
%*									*
\subsection{Simple functions}
%*									*
%************************************************************************

\begin{code}
rdrNameOcc :: RdrName -> OccName
rdrNameOcc (Qual _ occ) = occ
rdrNameOcc (Unqual occ) = occ
rdrNameOcc (Orig _ occ) = occ
rdrNameOcc (Exact name) = nameOccName name

rdrNameSpace :: RdrName -> NameSpace
rdrNameSpace = occNameSpace . rdrNameOcc

setRdrNameSpace :: RdrName -> NameSpace -> RdrName
-- ^ This rather gruesome function is used mainly by the parser.
-- When parsing:
--
-- > data T a = T | T1 Int
--
-- we parse the data constructors as /types/ because of parser ambiguities,
-- so then we need to change the /type constr/ to a /data constr/
--
-- The exact-name case /can/ occur when parsing:
--
-- > data [] a = [] | a : [a]
--
-- For the exact-name case we return an original name.
setRdrNameSpace (Unqual occ) ns = Unqual (setOccNameSpace ns occ)
setRdrNameSpace (Qual m occ) ns = Qual m (setOccNameSpace ns occ)
setRdrNameSpace (Orig m occ) ns = Orig m (setOccNameSpace ns occ)
setRdrNameSpace (Exact n)    ns = ASSERT( isExternalName n ) 
		       	          Orig (nameModule n)
				       (setOccNameSpace ns (nameOccName n))
\end{code}

\begin{code}
	-- These two are the basic constructors
mkRdrUnqual :: OccName -> RdrName
mkRdrUnqual occ = Unqual occ

mkRdrQual :: ModuleName -> OccName -> RdrName
mkRdrQual mod occ = Qual mod occ

mkOrig :: Module -> OccName -> RdrName
mkOrig mod occ = Orig mod occ

---------------
	-- These two are used when parsing source files
	-- They do encode the module and occurrence names
mkUnqual :: NameSpace -> FastString -> RdrName
mkUnqual sp n = Unqual (mkOccNameFS sp n)

mkVarUnqual :: FastString -> RdrName
mkVarUnqual n = Unqual (mkVarOccFS n)

-- | Make a qualified 'RdrName' in the given namespace and where the 'ModuleName' and
-- the 'OccName' are taken from the first and second elements of the tuple respectively
mkQual :: NameSpace -> (FastString, FastString) -> RdrName
mkQual sp (m, n) = Qual (mkModuleNameFS m) (mkOccNameFS sp n)

getRdrName :: NamedThing thing => thing -> RdrName
getRdrName name = nameRdrName (getName name)

nameRdrName :: Name -> RdrName
nameRdrName name = Exact name
-- Keep the Name even for Internal names, so that the
-- unique is still there for debug printing, particularly
-- of Types (which are converted to IfaceTypes before printing)

nukeExact :: Name -> RdrName
nukeExact n 
  | isExternalName n = Orig (nameModule n) (nameOccName n)
  | otherwise	     = Unqual (nameOccName n)
\end{code}

\begin{code}
isRdrDataCon :: RdrName -> Bool
isRdrTyVar   :: RdrName -> Bool
isRdrTc      :: RdrName -> Bool

isRdrDataCon rn = isDataOcc (rdrNameOcc rn)
isRdrTyVar   rn = isTvOcc   (rdrNameOcc rn)
isRdrTc      rn = isTcOcc   (rdrNameOcc rn)

isSrcRdrName :: RdrName -> Bool
isSrcRdrName (Unqual _) = True
isSrcRdrName (Qual _ _) = True
isSrcRdrName _		= False

isUnqual :: RdrName -> Bool
isUnqual (Unqual _) = True
isUnqual _          = False

isQual :: RdrName -> Bool
isQual (Qual _ _) = True
isQual _	  = False

isQual_maybe :: RdrName -> Maybe (ModuleName, OccName)
isQual_maybe (Qual m n) = Just (m,n)
isQual_maybe _	        = Nothing

isOrig :: RdrName -> Bool
isOrig (Orig _ _) = True
isOrig _	  = False

isOrig_maybe :: RdrName -> Maybe (Module, OccName)
isOrig_maybe (Orig m n) = Just (m,n)
isOrig_maybe _		= Nothing

isExact :: RdrName -> Bool
isExact (Exact _) = True
isExact _         = False

isExact_maybe :: RdrName -> Maybe Name
isExact_maybe (Exact n) = Just n
isExact_maybe _         = Nothing
\end{code}


%************************************************************************
%*									*
\subsection{Instances}
%*									*
%************************************************************************

\begin{code}
instance Outputable RdrName where
    ppr (Exact name)   = ppr name
    ppr (Unqual occ)   = ppr occ
    ppr (Qual mod occ) = ppr mod <> dot <> ppr occ
    ppr (Orig mod occ) = getPprStyle (\sty -> pprModulePrefix sty mod occ <> ppr occ)

instance OutputableBndr RdrName where
    pprBndr _ n 
	| isTvOcc (rdrNameOcc n) = char '@' <+> ppr n
	| otherwise		 = ppr n

showRdrName :: RdrName -> String
showRdrName r = showSDoc (ppr r)

instance Eq RdrName where
    (Exact n1) 	  == (Exact n2)    = n1==n2
	-- Convert exact to orig
    (Exact n1) 	  == r2@(Orig _ _) = nukeExact n1 == r2
    r1@(Orig _ _) == (Exact n2)    = r1 == nukeExact n2

    (Orig m1 o1)  == (Orig m2 o2)  = m1==m2 && o1==o2
    (Qual m1 o1)  == (Qual m2 o2)  = m1==m2 && o1==o2
    (Unqual o1)   == (Unqual o2)   = o1==o2
    _             == _             = False

instance Ord RdrName where
    a <= b = case (a `compare` b) of { LT -> True;  EQ -> True;  GT -> False }
    a <	 b = case (a `compare` b) of { LT -> True;  EQ -> False; GT -> False }
    a >= b = case (a `compare` b) of { LT -> False; EQ -> True;  GT -> True  }
    a >	 b = case (a `compare` b) of { LT -> False; EQ -> False; GT -> True  }

	-- Exact < Unqual < Qual < Orig
	-- [Note: Apr 2004] We used to use nukeExact to convert Exact to Orig 
	-- 	before comparing so that Prelude.map == the exact Prelude.map, but 
	--	that meant that we reported duplicates when renaming bindings 
	--	generated by Template Haskell; e.g 
	--	do { n1 <- newName "foo"; n2 <- newName "foo"; 
	--	     <decl involving n1,n2> }
	--	I think we can do without this conversion
    compare (Exact n1) (Exact n2) = n1 `compare` n2
    compare (Exact _)  _          = LT

    compare (Unqual _)   (Exact _)    = GT
    compare (Unqual o1)  (Unqual  o2) = o1 `compare` o2
    compare (Unqual _)   _ 	      = LT

    compare (Qual _ _)   (Exact _)    = GT
    compare (Qual _ _)   (Unqual _)   = GT
    compare (Qual m1 o1) (Qual m2 o2) = (o1 `compare` o2) `thenCmp` (m1 `compare` m2) 
    compare (Qual _ _)   (Orig _ _)   = LT

    compare (Orig m1 o1) (Orig m2 o2) = (o1 `compare` o2) `thenCmp` (m1 `compare` m2) 
    compare (Orig _ _)   _	      = GT
\end{code}

%************************************************************************
%*									*
			LocalRdrEnv
%*									*
%************************************************************************

\begin{code}
-- | This environment is used to store local bindings (@let@, @where@, lambda, @case@).
-- It is keyed by OccName, because we never use it for qualified names
type LocalRdrEnv = OccEnv Name

emptyLocalRdrEnv :: LocalRdrEnv
emptyLocalRdrEnv = emptyOccEnv

extendLocalRdrEnv :: LocalRdrEnv -> Name -> LocalRdrEnv
extendLocalRdrEnv env name
  = extendOccEnv env (nameOccName name) name

extendLocalRdrEnvList :: LocalRdrEnv -> [Name] -> LocalRdrEnv
extendLocalRdrEnvList env names
  = extendOccEnvList env [(nameOccName n, n) | n <- names]

lookupLocalRdrEnv :: LocalRdrEnv -> RdrName -> Maybe Name
lookupLocalRdrEnv _   (Exact name) = Just name
lookupLocalRdrEnv env (Unqual occ) = lookupOccEnv env occ
lookupLocalRdrEnv _   _            = Nothing

lookupLocalRdrOcc :: LocalRdrEnv -> OccName -> Maybe Name
lookupLocalRdrOcc env occ = lookupOccEnv env occ

elemLocalRdrEnv :: RdrName -> LocalRdrEnv -> Bool
elemLocalRdrEnv rdr_name env 
  | isUnqual rdr_name = rdrNameOcc rdr_name `elemOccEnv` env
  | otherwise	      = False
\end{code}

%************************************************************************
%*									*
			GlobalRdrEnv
%*									*
%************************************************************************

\begin{code}
type GlobalRdrEnv = OccEnv [GlobalRdrElt]
-- ^ Keyed by 'OccName'; when looking up a qualified name
-- we look up the 'OccName' part, and then check the 'Provenance'
-- to see if the appropriate qualification is valid.  This
-- saves routinely doubling the size of the env by adding both
-- qualified and unqualified names to the domain.
--
-- The list in the codomain is required because there may be name clashes
-- These only get reported on lookup, not on construction
--
-- INVARIANT: All the members of the list have distinct 
--	      'gre_name' fields; that is, no duplicate Names
--
-- INVARIANT: Imported provenance => Name is an ExternalName
-- 	      However LocalDefs can have an InternalName.  This
--	      happens only when type-checking a [d| ... |] Template
--	      Haskell quotation; see this note in RnNames
--	      Note [Top-level Names in Template Haskell decl quotes]

-- | An element of the 'GlobalRdrEnv'
data GlobalRdrElt 
  = GRE { gre_name :: Name,
	  gre_par  :: Parent,
	  gre_prov :: Provenance	-- ^ Why it's in scope
    }

-- | The children of a Name are the things that are abbreviated by the ".."
--   notation in export lists.  Specifically:
--	TyCon	Children are * data constructors
--			     * record field ids
--	Class	Children are * class operations
-- Each child has the parent thing as its Parent
data Parent = NoParent | ParentIs Name
	      deriving (Eq)

instance Outputable Parent where
   ppr NoParent     = empty
   ppr (ParentIs n) = ptext (sLit "parent:") <> ppr n
   

plusParent :: Parent -> Parent -> Parent
plusParent p1 p2 = ASSERT2( p1 == p2, parens (ppr p1) <+> parens (ppr p2) )
                   p1

emptyGlobalRdrEnv :: GlobalRdrEnv
emptyGlobalRdrEnv = emptyOccEnv

globalRdrEnvElts :: GlobalRdrEnv -> [GlobalRdrElt]
globalRdrEnvElts env = foldOccEnv (++) [] env

instance Outputable GlobalRdrElt where
  ppr gre = ppr name <+> parens (ppr (gre_par gre) <+> pprNameProvenance gre)
	  where
	    name = gre_name gre

pprGlobalRdrEnv :: GlobalRdrEnv -> SDoc
pprGlobalRdrEnv env
  = vcat (map pp (occEnvElts env))
  where
    pp gres = ppr (nameOccName (gre_name (head gres))) <> colon <+> 
	      vcat [ ppr (gre_name gre) <+> pprNameProvenance gre
		   | gre <- gres]
\end{code}

\begin{code}
lookupGlobalRdrEnv :: GlobalRdrEnv -> OccName -> [GlobalRdrElt]
lookupGlobalRdrEnv env occ_name = case lookupOccEnv env occ_name of
					Nothing   -> []
					Just gres -> gres

extendGlobalRdrEnv :: GlobalRdrEnv -> GlobalRdrElt -> GlobalRdrEnv
extendGlobalRdrEnv env gre = extendOccEnv_Acc (:) singleton env occ gre
  where
    occ = nameOccName (gre_name gre)

lookupGRE_RdrName :: RdrName -> GlobalRdrEnv -> [GlobalRdrElt]
lookupGRE_RdrName rdr_name env
  = case lookupOccEnv env (rdrNameOcc rdr_name) of
	Nothing   -> []
	Just gres -> pickGREs rdr_name gres

lookupGRE_Name :: GlobalRdrEnv -> Name -> [GlobalRdrElt]
lookupGRE_Name env name
  = [ gre | gre <- lookupGlobalRdrEnv env (nameOccName name),
	    gre_name gre == name ]

getGRE_NameQualifier_maybes :: GlobalRdrEnv -> Name -> [Maybe [ModuleName]]
-- Returns all the qualifiers by which 'x' is in scope
-- Nothing means "the unqualified version is in scope"
getGRE_NameQualifier_maybes env
  = map qualifier_maybe . map gre_prov . lookupGRE_Name env
  where
    qualifier_maybe LocalDef       = Nothing
    qualifier_maybe (Imported iss) = Just $ map (is_as . is_decl) iss

pickGREs :: RdrName -> [GlobalRdrElt] -> [GlobalRdrElt]
-- ^ Take a list of GREs which have the right OccName
-- Pick those GREs that are suitable for this RdrName
-- And for those, keep only only the Provenances that are suitable
-- 
-- Consider:
--
-- @
--	 module A ( f ) where
--	 import qualified Foo( f )
--	 import Baz( f )
--	 f = undefined
-- @
--
-- Let's suppose that @Foo.f@ and @Baz.f@ are the same entity really.
-- The export of @f@ is ambiguous because it's in scope from the local def
-- and the import.  The lookup of @Unqual f@ should return a GRE for
-- the locally-defined @f@, and a GRE for the imported @f@, with a /single/ 
-- provenance, namely the one for @Baz(f)@.
pickGREs rdr_name gres
  = mapCatMaybes pick gres
  where
    rdr_is_unqual = isUnqual rdr_name
    rdr_is_qual   = isQual_maybe rdr_name

    pick :: GlobalRdrElt -> Maybe GlobalRdrElt
    pick gre@(GRE {gre_prov = LocalDef, gre_name = n}) 	-- Local def
	| rdr_is_unqual		 	   = Just gre
	| Just (mod,_) <- rdr_is_qual 	     -- Qualified name
	, Just n_mod <- nameModule_maybe n   -- Binder is External
	, mod == moduleName n_mod  	   = Just gre
	| otherwise 			   = Nothing
    pick gre@(GRE {gre_prov = Imported [is]})	-- Single import (efficiency)
	| rdr_is_unqual,
	  not (is_qual (is_decl is))	= Just gre
	| Just (mod,_) <- rdr_is_qual, 
	  mod == is_as (is_decl is)	= Just gre
	| otherwise     		= Nothing
    pick gre@(GRE {gre_prov = Imported is})	-- Multiple import
	| null filtered_is = Nothing
	| otherwise	   = Just (gre {gre_prov = Imported filtered_is})
	where
	  filtered_is | rdr_is_unqual
   		      = filter (not . is_qual    . is_decl) is
		      | Just (mod,_) <- rdr_is_qual 
	              = filter ((== mod) . is_as . is_decl) is
		      | otherwise
		      = []

isLocalGRE :: GlobalRdrElt -> Bool
isLocalGRE (GRE {gre_prov = LocalDef}) = True
isLocalGRE _                           = False

unQualOK :: GlobalRdrElt -> Bool
-- ^ Test if an unqualifed version of this thing would be in scope
unQualOK (GRE {gre_prov = LocalDef})    = True
unQualOK (GRE {gre_prov = Imported is}) = any unQualSpecOK is

plusGlobalRdrEnv :: GlobalRdrEnv -> GlobalRdrEnv -> GlobalRdrEnv
plusGlobalRdrEnv env1 env2 = plusOccEnv_C (foldr insertGRE) env1 env2

mkGlobalRdrEnv :: [GlobalRdrElt] -> GlobalRdrEnv
mkGlobalRdrEnv gres
  = foldr add emptyGlobalRdrEnv gres
  where
    add gre env = extendOccEnv_Acc insertGRE singleton env 
				   (nameOccName (gre_name gre)) 
				   gre

findLocalDupsRdrEnv :: GlobalRdrEnv -> [OccName] -> (GlobalRdrEnv, [[Name]])
-- ^ For each 'OccName', see if there are multiple local definitions
-- for it.  If so, remove all but one (to suppress subsequent error messages)
-- and return a list of the duplicate bindings
findLocalDupsRdrEnv rdr_env occs 
  = go rdr_env [] occs
  where
    go rdr_env dups [] = (rdr_env, dups)
    go rdr_env dups (occ:occs)
      = case filter isLocalGRE gres of
	  []       -> WARN( True, ppr occ <+> ppr rdr_env ) 
		      go rdr_env dups occs	-- Weird!  No binding for occ
	  [_]      -> go rdr_env dups occs	-- The common case
	  dup_gres -> go (extendOccEnv rdr_env occ (head dup_gres : nonlocal_gres))
   		         (map gre_name dup_gres : dups)
			 occs
      where
        gres = lookupOccEnv rdr_env occ `orElse` []
	nonlocal_gres = filterOut isLocalGRE gres


insertGRE :: GlobalRdrElt -> [GlobalRdrElt] -> [GlobalRdrElt]
insertGRE new_g [] = [new_g]
insertGRE new_g (old_g : old_gs)
	| gre_name new_g == gre_name old_g
	= new_g `plusGRE` old_g : old_gs
	| otherwise
	= old_g : insertGRE new_g old_gs

plusGRE :: GlobalRdrElt -> GlobalRdrElt -> GlobalRdrElt
-- Used when the gre_name fields match
plusGRE g1 g2
  = GRE { gre_name = gre_name g1,
	  gre_prov = gre_prov g1 `plusProv`   gre_prov g2,
	  gre_par  = gre_par  g1 `plusParent` gre_par  g2 }

transformGREs :: (GlobalRdrElt -> GlobalRdrElt)
	      -> [OccName] 
              -> GlobalRdrEnv -> GlobalRdrEnv
-- ^ Apply a transformation function to the GREs for these OccNames
transformGREs trans_gre occs rdr_env
  = foldr trans rdr_env occs
  where
    trans occ env 
      = case lookupOccEnv env occ of 
           Just gres -> extendOccEnv env occ (map trans_gre gres)
           Nothing   -> env
\end{code}

%************************************************************************
%*									*
			Provenance
%*									*
%************************************************************************

\begin{code}
-- | The 'Provenance' of something says how it came to be in scope.
-- It's quite elaborate so that we can give accurate unused-name warnings.
data Provenance
  = LocalDef		-- ^ The thing was defined locally
  | Imported 		
	[ImportSpec]	-- ^ The thing was imported.
	                -- 
	                -- INVARIANT: the list of 'ImportSpec' is non-empty

data ImportSpec = ImpSpec { is_decl :: ImpDeclSpec,
			    is_item ::  ImpItemSpec }
		deriving( Eq, Ord )

-- | Describes a particular import declaration and is
-- shared among all the 'Provenance's for that decl
data ImpDeclSpec
  = ImpDeclSpec {
	is_mod      :: ModuleName, -- ^ Module imported, e.g. @import Muggle@
				   -- Note the @Muggle@ may well not be 
				   -- the defining module for this thing!

                                   -- TODO: either should be Module, or there
                                   -- should be a Maybe PackageId here too.
	is_as       :: ModuleName, -- ^ Import alias, e.g. from @as M@ (or @Muggle@ if there is no @as@ clause)
	is_qual     :: Bool,	   -- ^ Was this import qualified?
	is_dloc     :: SrcSpan	   -- ^ The location of the entire import declaration
    }

-- | Describes import info a particular Name
data ImpItemSpec
  = ImpAll		-- ^ The import had no import list, 
			-- or had a hiding list

  | ImpSome {
	is_explicit :: Bool,
	is_iloc     :: SrcSpan	-- Location of the import item
    }   -- ^ The import had an import list.
	-- The 'is_explicit' field is @True@ iff the thing was named 
	-- /explicitly/ in the import specs rather
	-- than being imported as part of a "..." group. Consider:
	--
	-- > import C( T(..) )
	--
	-- Here the constructors of @T@ are not named explicitly; 
	-- only @T@ is named explicitly.

unQualSpecOK :: ImportSpec -> Bool
-- ^ Is in scope unqualified?
unQualSpecOK is = not (is_qual (is_decl is))

qualSpecOK :: ModuleName -> ImportSpec -> Bool
-- ^ Is in scope qualified with the given module?
qualSpecOK mod is = mod == is_as (is_decl is)

importSpecLoc :: ImportSpec -> SrcSpan
importSpecLoc (ImpSpec decl ImpAll) = is_dloc decl
importSpecLoc (ImpSpec _    item)   = is_iloc item

importSpecModule :: ImportSpec -> ModuleName
importSpecModule is = is_mod (is_decl is)

isExplicitItem :: ImpItemSpec -> Bool
isExplicitItem ImpAll 			     = False
isExplicitItem (ImpSome {is_explicit = exp}) = exp

-- Note [Comparing provenance]
-- Comparison of provenance is just used for grouping 
-- error messages (in RnEnv.warnUnusedBinds)
instance Eq Provenance where
  p1 == p2 = case p1 `compare` p2 of EQ -> True; _ -> False

instance Eq ImpDeclSpec where
  p1 == p2 = case p1 `compare` p2 of EQ -> True; _ -> False

instance Eq ImpItemSpec where
  p1 == p2 = case p1 `compare` p2 of EQ -> True; _ -> False

instance Ord Provenance where
   compare LocalDef      LocalDef   	 = EQ
   compare LocalDef      (Imported _) 	 = LT
   compare (Imported _ ) LocalDef	 = GT
   compare (Imported is1) (Imported is2) = compare (head is1) 
	{- See Note [Comparing provenance] -}	   (head is2)

instance Ord ImpDeclSpec where
   compare is1 is2 = (is_mod is1 `compare` is_mod is2) `thenCmp` 
		     (is_dloc is1 `compare` is_dloc is2)

instance Ord ImpItemSpec where
   compare is1 is2 = is_iloc is1 `compare` is_iloc is2
\end{code}

\begin{code}
plusProv :: Provenance -> Provenance -> Provenance
-- Choose LocalDef over Imported
-- There is an obscure bug lurking here; in the presence
-- of recursive modules, something can be imported *and* locally
-- defined, and one might refer to it with a qualified name from
-- the import -- but I'm going to ignore that because it makes
-- the isLocalGRE predicate so much nicer this way
plusProv LocalDef        LocalDef        = panic "plusProv"
plusProv LocalDef        _               = LocalDef
plusProv _               LocalDef        = LocalDef
plusProv (Imported is1)  (Imported is2)  = Imported (is1++is2)

pprNameProvenance :: GlobalRdrElt -> SDoc
-- ^ Print out the place where the name was imported
pprNameProvenance (GRE {gre_name = name, gre_prov = LocalDef})
  = ptext (sLit "defined at") <+> ppr (nameSrcLoc name)
pprNameProvenance (GRE {gre_name = name, gre_prov = Imported whys})
  = case whys of
	(why:_) -> sep [ppr why, nest 2 (ppr_defn (nameSrcLoc name))]
	[] -> panic "pprNameProvenance"

-- If we know the exact definition point (which we may do with GHCi)
-- then show that too.  But not if it's just "imported from X".
ppr_defn :: SrcLoc -> SDoc
ppr_defn loc | isGoodSrcLoc loc = parens (ptext (sLit "defined at") <+> ppr loc)
	     | otherwise	= empty

instance Outputable ImportSpec where
   ppr imp_spec
     = ptext (sLit "imported from") <+> ppr (importSpecModule imp_spec) 
	<+> if isGoodSrcSpan loc then ptext (sLit "at") <+> ppr loc
				 else empty
     where
       loc = importSpecLoc imp_spec
\end{code}