-> VM (Inline, Bool, VExpr)
vectFnExpr inline loop_breaker recFns e@(fvs, AnnLam bndr _)
- | isId bndr = -- pprTrace "vectFnExpr -- id" (ppr fvs )$
- onlyIfV True -- (isEmptyVarSet fvs) -- we check for free variables later. TODO: clean up
+ | isId bndr = onlyIfV True -- (isEmptyVarSet fvs) -- we check for free variables later. TODO: clean up
(mark DontInline True . vectScalarLam bs recFns $ deAnnotate body)
`orElseV` mark inlineMe False (vectLam inline loop_breaker fvs bs body)
where
(bs,body) = collectAnnValBinders e
-vectFnExpr _ _ _ e = pprTrace "vectFnExpr -- otherwise" (ppr "a" )$ mark DontInline False $ vectExpr e
+vectFnExpr _ _ _ e = mark DontInline False $ vectExpr e
mark :: Inline -> Bool -> VM a -> VM (Inline, Bool, a)
mark b isScalarFn p = do { x <- p; return (b, isScalarFn, x) }
vectScalarLam args recFns body
= do scalars' <- globalScalars
let scalars = unionVarSet (mkVarSet recFns) scalars'
-{- pprTrace "vectScalarLam uses" (ppr $ uses scalars body) $
- pprTrace "vectScalarLam is prim res" (ppr $ is_prim_ty res_ty) $
- pprTrace "vectScalarLam is scalar body" (ppr $ is_scalar (extendVarSetList scalars args) body) $
- pprTrace "vectScalarLam arg tys" (ppr $ arg_tys) $ -}
onlyIfV (all is_prim_ty arg_tys
&& is_prim_ty res_ty
&& is_scalar (extendVarSetList scalars args) body
(zipf `App` Var fn_var)
clo_var <- hoistExpr (fsLit "clo") clo DontInline
lclo <- liftPD (Var clo_var)
- {- pprTrace " lam is scalar" (ppr "") $ -}
return (Var clo_var, lclo)
where
arg_tys = map idType args
| isPrimTyCon tycon = False
| isAbstractTyCon tycon = True
| isFunTyCon tycon || isProductTyCon tycon || isTupleTyCon tycon = any (maybe_parr_ty' alreadySeen) args
- | isDataTyCon tycon = -- pprTrace "isDataTyCon" (ppr tycon) $
- any (maybe_parr_ty' alreadySeen) args ||
+ | isDataTyCon tycon = any (maybe_parr_ty' alreadySeen) args ||
hasParrDataCon alreadySeen tycon
| otherwise = True
where
is_scalar vs e@(Var v)
| Just _ <- isDataConId_maybe v = cantbe_parr_expr e
| otherwise = cantbe_parr_expr e && (v `elemVarSet` vs)
- is_scalar _ e@(Lit _) = -- pprTrace "is_scalar Lit" (ppr e) $
- cantbe_parr_expr e
+ is_scalar _ e@(Lit _) = cantbe_parr_expr e
- is_scalar vs e@(App e1 e2) = -- pprTrace "is_scalar App" (ppr e) $
- cantbe_parr_expr e &&
+ is_scalar vs e@(App e1 e2) = cantbe_parr_expr e &&
is_scalar vs e1 && is_scalar vs e2
is_scalar vs e@(Let (NonRec b letExpr) body)
- = -- pprTrace "is_scalar Let" (ppr e) $
- cantbe_parr_expr e &&
+ = cantbe_parr_expr e &&
is_scalar vs letExpr && is_scalar (extendVarSet vs b) body
- is_scalar vs e@(Let (Rec bnds) body)
+ is_scalar vs e@(Let (Rec bnds) body)
= let vs' = extendVarSetList vs (map fst bnds)
- in -- pprTrace "is_scalar Rec" (ppr e) $
- cantbe_parr_expr e &&
+ in cantbe_parr_expr e &&
all (is_scalar vs') (map snd bnds) && is_scalar vs' body
is_scalar vs e@(Case eC eId ty alts)
= let vs' = extendVarSet vs eId
- in -- pprTrace "is_scalar Case" (ppr e) $
- cantbe_parr_expr e &&
+ in cantbe_parr_expr e &&
is_prim_ty ty &&
is_scalar vs' eC &&
(all (is_scalar_alt vs') alts)
- is_scalar _ e = -- pprTrace "is_scalar other" (ppr e) $
- False
+ is_scalar _ _ = False
is_scalar_alt vs (_, bs, e)
= is_scalar (extendVarSetList vs bs) e
projects / ghc-hetmet.git / blobdiff