ocaml/asmcomp/reloadgen.ml

141 lines
4.5 KiB
OCaml

(***********************************************************************)
(* *)
(* OCaml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. All rights reserved. This file is distributed *)
(* under the terms of the Q Public License version 1.0. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* Insert load/stores for pseudoregs that got assigned to stack locations. *)
open Misc
open Reg
open Mach
let access_stack r =
try
for i = 0 to Array.length r - 1 do
match r.(i).loc with Stack _ -> raise Exit | _ -> ()
done;
false
with Exit ->
true
let insert_move src dst next =
if src.loc = dst.loc
then next
else instr_cons (Iop Imove) [|src|] [|dst|] next
let insert_moves src dst next =
let rec insmoves i =
if i >= Array.length src
then next
else insert_move src.(i) dst.(i) (insmoves (i+1))
in insmoves 0
class reload_generic = object (self)
val mutable redo_regalloc = false
method makereg r =
match r.loc with
Unknown -> fatal_error "Reload.makereg"
| Reg _ -> r
| Stack _ ->
redo_regalloc <- true;
let newr = Reg.clone r in
(* Strongly discourage spilling this register *)
newr.spill_cost <- 100000;
newr
method private makeregs rv =
let n = Array.length rv in
let newv = Array.create n Reg.dummy in
for i = 0 to n-1 do newv.(i) <- self#makereg rv.(i) done;
newv
method private makereg1 rv =
let newv = Array.copy rv in
newv.(0) <- self#makereg rv.(0);
newv
method reload_operation op arg res =
(* By default, assume that arguments and results must reside
in hardware registers. For moves, allow one arg or one
res to be stack-allocated, but do something for
stack-to-stack moves *)
match op with
Imove | Ireload | Ispill ->
begin match arg.(0), res.(0) with
{loc = Stack s1}, {loc = Stack s2} when s1 <> s2 ->
([| self#makereg arg.(0) |], res)
| _ ->
(arg, res)
end
| _ ->
(self#makeregs arg, self#makeregs res)
method reload_test tst args =
self#makeregs args
method private reload i =
match i.desc with
(* For function calls, returns, etc: the arguments and results are
already at the correct position (e.g. on stack for some arguments).
However, something needs to be done for the function pointer in
indirect calls. *)
Iend | Ireturn | Iop(Itailcall_imm _) | Iraise -> i
| Iop(Itailcall_ind) ->
let newarg = self#makereg1 i.arg in
insert_moves i.arg newarg
{i with arg = newarg}
| Iop(Icall_imm _ | Iextcall _) ->
{i with next = self#reload i.next}
| Iop(Icall_ind) ->
let newarg = self#makereg1 i.arg in
insert_moves i.arg newarg
{i with arg = newarg; next = self#reload i.next}
| Iop op ->
let (newarg, newres) = self#reload_operation op i.arg i.res in
insert_moves i.arg newarg
{i with arg = newarg; res = newres; next =
(insert_moves newres i.res
(self#reload i.next))}
| Iifthenelse(tst, ifso, ifnot) ->
let newarg = self#reload_test tst i.arg in
insert_moves i.arg newarg
(instr_cons
(Iifthenelse(tst, self#reload ifso, self#reload ifnot)) newarg [||]
(self#reload i.next))
| Iswitch(index, cases) ->
let newarg = self#makeregs i.arg in
insert_moves i.arg newarg
(instr_cons (Iswitch(index, Array.map (self#reload) cases)) newarg [||]
(self#reload i.next))
| Iloop body ->
instr_cons (Iloop(self#reload body)) [||] [||] (self#reload i.next)
| Icatch(nfail, body, handler) ->
instr_cons
(Icatch(nfail, self#reload body, self#reload handler)) [||] [||]
(self#reload i.next)
| Iexit i ->
instr_cons (Iexit i) [||] [||] dummy_instr
| Itrywith(body, handler) ->
instr_cons (Itrywith(self#reload body, self#reload handler)) [||] [||]
(self#reload i.next)
method fundecl f =
redo_regalloc <- false;
let new_body = self#reload f.fun_body in
({fun_name = f.fun_name; fun_args = f.fun_args;
fun_body = new_body; fun_fast = f.fun_fast},
redo_regalloc)
end