(* Liveness analysis. Annotate mach code with the set of regs live at each point. *) open Mach let live_at_exit = ref Reg.Set.empty let live_at_break = ref Reg.Set.empty let live_at_raise = ref Reg.Set.empty let rec live i finally = (* finally is the set of registers live after execution of the instruction sequence. The result of the function is the set of registers live just before the instruction sequence. The instruction i is annotated by the set of registers live across the instruction. *) match i.desc with Iend -> i.live <- finally; finally | Ireturn | Iop(Itailcall_ind) | Iop(Itailcall_imm _) -> (* i.live remains empty since no regs are live across *) Reg.set_of_array i.arg | Iifthenelse(test, ifso, ifnot) -> let at_join = live i.next finally in let at_fork = Reg.Set.union (live ifso at_join) (live ifnot at_join) in i.live <- at_fork; Reg.add_set_array at_fork i.arg | Iswitch(index, cases) -> let at_join = live i.next finally in let at_fork = ref Reg.Set.empty in for i = 0 to Array.length cases - 1 do at_fork := Reg.Set.union !at_fork (live cases.(i) at_join) done; i.live <- !at_fork; Reg.add_set_array !at_fork i.arg | Iloop(body) -> let at_top = ref Reg.Set.empty in (* Yes, there are better algorithms, but we'll just iterate till reaching a fixpoint. *) begin try while true do let new_at_top = Reg.Set.union !at_top (live body !at_top) in if Reg.Set.equal !at_top new_at_top then raise Exit; at_top := new_at_top done with Exit -> () end; i.live <- !at_top; !at_top | Icatch(body, handler) -> let at_join = live i.next finally in let before_handler = live handler at_join in let saved_live_at_exit = !live_at_exit in live_at_exit := before_handler; let before_body = live body at_join in live_at_exit := saved_live_at_exit; i.live <- before_body; before_body | Iexit -> (* i.live remains empty since no regs are live across *) !live_at_exit | Itrywith(body, handler) -> let at_join = live i.next finally in let before_handler = live handler at_join in let saved_live_at_raise = !live_at_raise in live_at_raise := Reg.Set.remove Proc.loc_exn_bucket before_handler; let before_body = live body at_join in live_at_raise := saved_live_at_raise; i.live <- before_body; before_body | Iraise -> (* i.live remains empty since no regs are live across *) Reg.add_set_array !live_at_raise i.arg | _ -> let across_after = Reg.diff_set_array (live i.next finally) i.res in let across = match i.desc with Iop(Icall_ind) | Iop(Icall_imm _) | Iop(Iextcall(_, _)) -> (* The function call may raise an exception, branching to the nearest enclosing try ... with. Hence, everything that must be live at the beginning of the exception handler must also be live across the call. *) Reg.Set.union across_after !live_at_raise | _ -> across_after in i.live <- across; Reg.add_set_array across i.arg let fundecl f = live f.fun_body Reg.Set.empty; ()