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%
% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[PrelInfo]{The @PrelInfo@ interface to the compiler's prelude knowledge}
\begin{code}
{-# OPTIONS -fno-warn-tabs #-}
-- The above warning supression flag is a temporary kludge.
-- While working on this module you are encouraged to remove it and
-- detab the module (please do the detabbing in a separate patch). See
-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#TabsvsSpaces
-- for details
module PrelInfo (
wiredInIds, ghcPrimIds,
primOpRules, builtinRules,
ghcPrimExports,
wiredInThings, basicKnownKeyNames,
primOpId,
-- Random other things
maybeCharLikeCon, maybeIntLikeCon,
-- Class categories
isNumericClass, isStandardClass
) where
#include "HsVersions.h"
import PrelNames
import PrelRules
import Avail
import PrimOp
import DataCon
import Id
import MkId
import TysPrim
import TysWiredIn
import HscTypes
import Class
import TyCon
import Util
import {-# SOURCE #-} TcTypeNats ( typeNatTyCons )
import Data.Array
\end{code}
%************************************************************************
%* *
\subsection[builtinNameInfo]{Lookup built-in names}
%* *
%************************************************************************
Notes about wired in things
~~~~~~~~~~~~~~~~~~~~~~~~~~~
* Wired-in things are Ids\/TyCons that are completely known to the compiler.
They are global values in GHC, (e.g. listTyCon :: TyCon).
* A wired in Name contains the thing itself inside the Name:
see Name.wiredInNameTyThing_maybe
(E.g. listTyConName contains listTyCon.
* The name cache is initialised with (the names of) all wired-in things
* The type checker sees if the Name is wired in before looking up
the name in the type environment. So the type envt itself contains
no wired in things.
* MkIface prunes out wired-in things before putting them in an interface file.
So interface files never contain wired-in things.
\begin{code}
wiredInThings :: [TyThing]
-- This list is used only to initialise HscMain.knownKeyNames
-- to ensure that when you say "Prelude.map" in your source code, you
-- get a Name with the correct known key (See Note [Known-key names])
wiredInThings
= concat
[ -- Wired in TyCons and their implicit Ids
tycon_things
, concatMap implicitTyThings tycon_things
-- Wired in Ids
, map AnId wiredInIds
-- PrimOps
, map (AnId . primOpId) allThePrimOps
]
where
tycon_things = map ATyCon ([funTyCon] ++ primTyCons ++ wiredInTyCons
++ typeNatTyCons)
\end{code}
We let a lot of "non-standard" values be visible, so that we can make
sense of them in interface pragmas. It's cool, though they all have
"non-standard" names, so they won't get past the parser in user code.
%************************************************************************
%* *
PrimOpIds
%* *
%************************************************************************
\begin{code}
primOpIds :: Array Int Id
-- A cache of the PrimOp Ids, indexed by PrimOp tag
primOpIds = array (1,maxPrimOpTag) [ (primOpTag op, mkPrimOpId op)
| op <- allThePrimOps ]
primOpId :: PrimOp -> Id
primOpId op = primOpIds ! primOpTag op
\end{code}
%************************************************************************
%* *
\subsection{Export lists for pseudo-modules (GHC.Prim)}
%* *
%************************************************************************
GHC.Prim "exports" all the primops and primitive types, some
wired-in Ids.
\begin{code}
ghcPrimExports :: [IfaceExport]
ghcPrimExports
= map (Avail . idName) ghcPrimIds ++
map (Avail . idName . primOpId) allThePrimOps ++
[ AvailTC n [n]
| tc <- funTyCon : coercibleTyCon : primTyCons, let n = tyConName tc ]
\end{code}
%************************************************************************
%* *
\subsection{Built-in keys}
%* *
%************************************************************************
ToDo: make it do the ``like'' part properly (as in 0.26 and before).
\begin{code}
maybeCharLikeCon, maybeIntLikeCon :: DataCon -> Bool
maybeCharLikeCon con = con `hasKey` charDataConKey
maybeIntLikeCon con = con `hasKey` intDataConKey
\end{code}
%************************************************************************
%* *
\subsection{Class predicates}
%* *
%************************************************************************
\begin{code}
isNumericClass, isStandardClass :: Class -> Bool
isNumericClass clas = classKey clas `is_elem` numericClassKeys
isStandardClass clas = classKey clas `is_elem` standardClassKeys
is_elem :: Eq a => a -> [a] -> Bool
is_elem = isIn "is_X_Class"
\end{code}
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