import Data.IORef
import PrelNames
import UniqSupply
+import UniqFM
+import CoreFVs
+import Type
+import Coercion
\end{code}
%************************************************************************
%************************************************************************
\begin{code}
+
-- | Main entry point to the desugarer.
deSugar :: HscEnv -> ModLocation -> TcGblEnv -> IO (Messages, Maybe ModGuts)
-- Can modify PCS by faulting in more declarations
final_prs = addExportFlagsAndRules target
export_set keep_alive rules_for_locals (fromOL all_prs)
- final_pgm = combineEvBinds ds_ev_binds final_prs
+ final_pgm = simplifyBinds $ combineEvBinds ds_ev_binds final_prs
-- Notice that we put the whole lot in a big Rec, even the foreign binds
-- When compiling PrelFloat, which defines data Float = F# Float#
-- we want F# to be in scope in the foreign marshalling code!
(vcat [ pprCoreBindings final_pgm
, pprRules rules_for_imps ])
- ; (ds_binds, ds_rules_for_imps) <- simpleOptPgm dflags final_pgm rules_for_imps
- -- The simpleOptPgm gets rid of type
- -- bindings plus any stupid dead code
-
- ; ds_binds' <- if dopt Opt_F_coqpass dflags
+ ; ds_binds <- if dopt Opt_F_coqpass dflags
then do { us <- mkSplitUniqSupply '~'
+ ; let do_flatten = dopt Opt_F_flatten dflags
+ ; let do_skolemize = dopt Opt_F_skolemize dflags
; return (coqPassCoreToCore
+ do_flatten
+ do_skolemize
hetmet_brak
hetmet_esc
hetmet_flatten
hetmet_unflatten
hetmet_flattened_id
us
- ds_binds
+ final_pgm
hetmet_PGArrow
hetmet_PGArrow_unit
hetmet_PGArrow_tensor
hetmet_pga_curryl
hetmet_pga_curryr)
}
- else return ds_binds
+ else return final_pgm
- ; dumpIfSet_dyn dflags Opt_D_coqpass "Coq Pass Output" $ text $ coqPassCoreToString ds_binds'
+ ; (ds_binds', ds_rules_for_imps) <- simpleOptPgm dflags ds_binds rules_for_imps
+ -- The simpleOptPgm gets rid of type
+ -- bindings plus any stupid dead code
- ; dumpIfSet_dyn dflags Opt_D_dump_coqpass "After Coq Pass" (text $ showSDoc $ pprCoreBindings ds_binds')
+ ; dumpIfSet_dyn dflags Opt_D_dump_proofs "Coq Pass Output" $ text $ coqPassCoreToString ds_binds'
+
+ ; dumpIfSet_dyn dflags Opt_D_coqpass "After Coq Pass" (text $ showSDoc $ pprCoreBindings ds_binds')
; endPass dflags CoreDesugar ds_binds' ds_rules_for_imps
-- ; return $ Vect v (Just rhs')
-- }
\end{code}
+
+
+
+\begin{code}
+--
+-- Simplification routines run before the flattener. We can't use
+-- simpleOptPgm -- it doesn't preserve the order of subexpressions or
+-- let-binding groups.
+--
+simplify :: Expr CoreBndr -> Expr CoreBndr
+simplify (Var v) = Var v
+simplify (App e1 e2) = App (simplify e1) (simplify e2)
+simplify (Lit lit) = Lit lit
+simplify (Note note e) = Note note (simplify e)
+simplify (Cast e co) = if tcEqType (fst $ coercionKind co) (snd $ coercionKind co)
+ then simplify e
+ else Cast (simplify e) co
+simplify (Lam v e) = Lam v (simplify e)
+simplify (Type t) = Type t
+simplify (Case e b ty as) = Case (simplify e) b ty (map (\(a,b,e) -> (a,b,simplify e)) as)
+simplify (Let bind body) = foldr Let (simplify body) (simplifyBind bind)
+
+simplifyBind :: Bind CoreBndr -> [Bind CoreBndr]
+simplifyBind (NonRec b e) = [NonRec b (simplify e)]
+simplifyBind (Rec []) = []
+simplifyBind (Rec (rbs@((b,e):rbs'))) =
+ if or $ map (\x -> elemUFM x (exprFreeIds e)) (map fst rbs)
+ then [Rec (map (\(v,e) -> (v,simplify e)) rbs)]
+ else (NonRec b (simplify e)):(simplifyBind $ Rec rbs')
+
+simplifyBinds = concatMap simplifyBind
+\end{code}
\ No newline at end of file