\begin{code}
module DsBinds ( dsTopLHsBinds, dsLHsBinds, decomposeRuleLhs, dsSpec,
- dsHsWrapper, dsTcEvBinds, dsEvBinds, wrapDsEvBinds,
+ dsHsWrapper, dsTcEvBinds, dsEvBinds, wrapDsEvBinds,
DsEvBind(..), AutoScc(..)
) where
dsHsBind :: AutoScc -> HsBind Id -> DsM (OrdList (Id,CoreExpr))
dsHsBind _ (VarBind { var_id = var, var_rhs = expr, var_inline = inline_regardless })
- = do { core_expr <- dsLExpr expr
+ = do { core_expr <- dsLExpr expr
-- Dictionary bindings are always VarBinds,
-- so we only need do this here
ds_pair (EvBind v r) = (v, dsEvTerm r)
dsEvTerm :: EvTerm -> CoreExpr
-dsEvTerm (EvId v) = Var v
-dsEvTerm (EvCast v co) = Cast (Var v) co
+dsEvTerm (EvId v) = Var v
+dsEvTerm (EvCast v co) = Cast (Var v) co
dsEvTerm (EvDFunApp df tys vars) = Var df `mkTyApps` tys `mkVarApps` vars
dsEvTerm (EvCoercion co) = Type co
dsEvTerm (EvSuperClass d n)
specUnfolding :: (CoreExpr -> CoreExpr) -> Type
-> Unfolding -> DsM (Unfolding, OrdList (Id,CoreExpr))
+{- [Dec 10: TEMPORARILY commented out, until we can straighten out how to
+ generate unfoldings for specialised DFuns
+
specUnfolding wrap_fn spec_ty (DFunUnfolding _ _ ops)
= do { let spec_rhss = map wrap_fn ops
; spec_ids <- mapM (mkSysLocalM (fsLit "spec") . exprType) spec_rhss
; return (mkDFunUnfolding spec_ty (map Var spec_ids), toOL (spec_ids `zip` spec_rhss)) }
+-}
specUnfolding _ _ _
= return (noUnfolding, nilOL)
-{-
-mkArbitraryTypeEnv :: [TyVar] -> [([TyVar], a, b, c)] -> TyVarEnv Type
--- If any of the tyvars is missing from any of the lists in
--- the second arg, return a binding in the result
-mkArbitraryTypeEnv tyvars exports
- = go emptyVarEnv exports
- where
- go env [] = env
- go env ((ltvs, _, _, _) : exports)
- = go env' exports
- where
- env' = foldl extend env [tv | tv <- tyvars
- , not (tv `elem` ltvs)
- , not (tv `elemVarEnv` env)]
-
- extend env tv = extendVarEnv env tv (dsMkArbitraryType tv)
--}
-
dsMkArbitraryType :: TcTyVar -> Type
dsMkArbitraryType tv = anyTypeOfKind (tyVarKind tv)
\end{code}