\begin{code}
module RnSource (
- rnSrcDecls, addTcgDUs,
- rnTyClDecls,
- rnSplice, checkTH
+ rnSrcDecls, addTcgDUs, rnTyClDecls
) where
#include "HsVersions.h"
import {-# SOURCE #-} RnExpr( rnLExpr )
import HsSyn
-import RdrName ( RdrName, isRdrDataCon, elemLocalRdrEnv,
- globalRdrEnvElts, GlobalRdrElt(..), isLocalGRE, rdrNameOcc )
+import RdrName ( RdrName, isRdrDataCon, elemLocalRdrEnv, rdrNameOcc )
import RdrHsSyn ( extractGenericPatTyVars, extractHsRhoRdrTyVars )
import RnHsSyn
import RnTypes ( rnLHsType, rnLHsTypes, rnHsSigType, rnHsTypeFVs, rnContext )
import Name ( Name, nameOccName )
import NameSet
import NameEnv
-import OccName
import Outputable
import Bag
import FastString
return decls'
addTcgDUs :: TcGblEnv -> DefUses -> TcGblEnv
+-- This function could be defined lower down in the module hierarchy,
+-- but there doesn't seem anywhere very logical to put it.
addTcgDUs tcg_env dus = tcg_env { tcg_dus = tcg_dus tcg_env `plusDU` dus }
rnList :: (a -> RnM (b, FreeVars)) -> [Located a] -> RnM ([Located b], FreeVars)
else lookupLocatedTopBndrRn tycon
; context' <- rnContext data_doc context
; typats' <- rnTyPats data_doc typatsMaybe
- ; (derivs', deriv_fvs) <- rn_derivs derivs
; condecls' <- rnConDecls (unLoc tycon') condecls
-- No need to check for duplicate constructor decls
-- since that is done by RnNames.extendGlobalRdrEnvRn
+ ; (derivs', deriv_fvs) <- rn_derivs derivs
; return (TyData {tcdND = new_or_data, tcdCtxt = context',
tcdLName = tycon', tcdTyVars = tyvars',
tcdTyPats = typats', tcdKindSig = Nothing,
-- do not scope over the constructor signatures
-- data T a where { T1 :: forall b. b-> b }
- ; (derivs', deriv_fvs) <- rn_derivs derivs
; condecls' <- rnConDecls (unLoc tycon') condecls
-- No need to check for duplicate constructor decls
-- since that is done by RnNames.extendGlobalRdrEnvRn
+ ; (derivs', deriv_fvs) <- rn_derivs derivs
; return (TyData {tcdND = new_or_data, tcdCtxt = noLoc [],
tcdLName = tycon', tcdTyVars = tyvars',
tcdTyPats = typats', tcdKindSig = sig,
ptext (sLit "(You can put a context on each contructor, though.)")]
\end{code}
+
%*********************************************************
%* *
\subsection{Support code for type/data declarations}
\end{code}
-%*********************************************************
-%* *
- Splices
-%* *
-%*********************************************************
-
-Note [Splices]
-~~~~~~~~~~~~~~
-Consider
- f = ...
- h = ...$(thing "f")...
-
-The splice can expand into literally anything, so when we do dependency
-analysis we must assume that it might mention 'f'. So we simply treat
-all locally-defined names as mentioned by any splice. This is terribly
-brutal, but I don't see what else to do. For example, it'll mean
-that every locally-defined thing will appear to be used, so no unused-binding
-warnings. But if we miss the dependency, then we might typecheck 'h' before 'f',
-and that will crash the type checker because 'f' isn't in scope.
-
-Currently, I'm not treating a splice as also mentioning every import,
-which is a bit inconsistent -- but there are a lot of them. We might
-thereby get some bogus unused-import warnings, but we won't crash the
-type checker. Not very satisfactory really.
-
-\begin{code}
-rnSplice :: HsSplice RdrName -> RnM (HsSplice Name, FreeVars)
-rnSplice (HsSplice n expr)
- = do { checkTH expr "splice"
- ; loc <- getSrcSpanM
- ; [n'] <- newLocalsRn [L loc n]
- ; (expr', fvs) <- rnLExpr expr
-
- -- Ugh! See Note [Splices] above
- ; lcl_rdr <- getLocalRdrEnv
- ; gbl_rdr <- getGlobalRdrEnv
- ; let gbl_names = mkNameSet [gre_name gre | gre <- globalRdrEnvElts gbl_rdr,
- isLocalGRE gre]
- lcl_names = mkNameSet (occEnvElts lcl_rdr)
-
- ; return (HsSplice n' expr', fvs `plusFV` lcl_names `plusFV` gbl_names) }
-
-checkTH :: Outputable a => a -> String -> RnM ()
-#ifdef GHCI
-checkTH _ _ = return () -- OK
-#else
-checkTH e what -- Raise an error in a stage-1 compiler
- = addErr (vcat [ptext (sLit "Template Haskell") <+> text what <+>
- ptext (sLit "illegal in a stage-1 compiler"),
- nest 2 (ppr e)])
-#endif
-\end{code}