-> ArgInfo
mkArgInfo fun n_val_args call_cont
+ | n_val_args < idArity fun -- Note [Unsaturated functions]
+ = ArgInfo { ai_rules = False
+ , ai_strs = vanilla_stricts
+ , ai_discs = vanilla_discounts }
+ | otherwise
= ArgInfo { ai_rules = interestingArgContext fun call_cont
, ai_strs = arg_stricts
, ai_discs = arg_discounts }
else
map isStrictDmd demands ++ vanilla_stricts
- other -> vanilla_stricts -- Not enough args, or no strictness
+ | otherwise
+ -> WARN( True, text "More demands than arity" <+> ppr fun <+> ppr (idArity fun)
+ <+> ppr n_val_args <+> ppr demands )
+ vanilla_stricts -- Not enough args, or no strictness
+
+{- Note [Unsaturated functions]
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Consider (test eyeball/inline4)
+ x = a:as
+ y = f x
+where f has arity 2. Then we do not want to inline 'x', because
+it'll just be floated out again. Even if f has lots of discounts
+on its first argument -- it must be saturated for these to kick in
+-}
interestingArgContext :: Id -> SimplCont -> Bool
-- If the argument has form (f x y), where x,y are boring,
= case getMode env of
SimplGently -> False
-- No inlining at all when doing gentle stuff,
- -- except for local things that occur once
+ -- except for local things that occur once (pre/postInlineUnconditionally)
-- The reason is that too little clean-up happens if you
-- don't inline use-once things. Also a bit of inlining is *good* for
-- full laziness; it can expose constant sub-expressions.
= do { uniq <- getUniqueM
; let poly_name = setNameUnique (idName var) uniq -- Keep same name
poly_ty = mkForAllTys tvs_here (idType var) -- But new type of course
- poly_id = mkLocalId poly_name poly_ty
+ poly_id = transferPolyIdInfo var $ -- Note [transferPolyIdInfo] in Id.lhs
+ mkLocalId poly_name poly_ty
; return (poly_id, mkTyApps (Var poly_id) (mkTyVarTys tvs_here)) }
-- In the olden days, it was crucial to copy the occInfo of the original var,
-- because we were looking at occurrence-analysed but as yet unsimplified code!