174 lines
5.7 KiB
OCaml
174 lines
5.7 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the Q Public License version 1.0. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* Construction of the interference graph.
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Annotate pseudoregs with interference lists and preference lists. *)
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module IntPairSet =
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Set.Make(struct type t = int * int let compare = compare end)
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open Misc
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open Reg
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open Mach
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let build_graph fundecl =
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(* The interference graph is represented in two ways:
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- by adjacency lists for each register
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- by a sparse bit matrix (a set of pairs of register stamps) *)
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let mat = ref IntPairSet.empty in
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(* Record an interference between two registers *)
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let add_interf ri rj =
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let i = ri.stamp and j = rj.stamp in
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if i <> j then begin
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let p = if i < j then (i, j) else (j, i) in
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if not(IntPairSet.mem p !mat) then begin
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mat := IntPairSet.add p !mat;
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if ri.loc = Unknown then ri.interf <- rj :: ri.interf;
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if rj.loc = Unknown then rj.interf <- ri :: rj.interf
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end
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end in
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(* Record interferences between a register array and a set of registers *)
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let add_interf_set v s =
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for i = 0 to Array.length v - 1 do
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let r1 = v.(i) in
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Reg.Set.iter (add_interf r1) s
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done in
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(* Record interferences between elements of an array *)
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let add_interf_self v =
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for i = 0 to Array.length v - 2 do
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let ri = v.(i) in
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for j = i+1 to Array.length v - 1 do
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add_interf ri v.(j)
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done
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done in
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(* Record interferences between the destination of a move and a set
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of live registers. Since the destination is equal to the source,
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do not add an interference between them if the source is still live
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afterwards. *)
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let add_interf_move src dst s =
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Reg.Set.iter (fun r -> if r.stamp <> src.stamp then add_interf dst r) s in
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(* Compute interferences *)
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let rec interf i =
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let destroyed = Proc.destroyed_at_oper i.desc in
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if Array.length destroyed > 0 then add_interf_set destroyed i.live;
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match i.desc with
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Iend -> ()
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| Ireturn -> ()
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| Iop(Imove | Ispill | Ireload) ->
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add_interf_move i.arg.(0) i.res.(0) i.live;
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interf i.next
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| Iop(Itailcall_ind) -> ()
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| Iop(Itailcall_imm lbl) -> ()
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| Iop op ->
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add_interf_set i.res i.live;
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add_interf_self i.res;
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interf i.next
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| Iifthenelse(tst, ifso, ifnot) ->
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interf ifso;
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interf ifnot;
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interf i.next
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| Iswitch(index, cases) ->
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for i = 0 to Array.length cases - 1 do
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interf cases.(i)
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done;
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interf i.next
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| Iloop body ->
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interf body; interf i.next
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| Icatch(_, body, handler) ->
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interf body; interf handler; interf i.next
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| Iexit _ ->
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()
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| Itrywith(body, handler) ->
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add_interf_set Proc.destroyed_at_raise handler.live;
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interf body; interf handler; interf i.next
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| Iraise -> () in
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(* Add a preference from one reg to another.
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Do not add anything if the two registers conflict,
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or if the source register already has a location. *)
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let add_pref weight r1 r2 =
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if weight > 0 then begin
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let i = r1.stamp and j = r2.stamp in
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if i <> j
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&& r1.loc = Unknown
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&& (let p = if i < j then (i, j) else (j, i) in
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not (IntPairSet.mem p !mat))
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then r1.prefer <- (r2, weight) :: r1.prefer
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end in
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(* Add a mutual preference between two regs *)
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let add_mutual_pref weight r1 r2 =
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add_pref weight r1 r2; add_pref weight r2 r1 in
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(* Update the spill cost of the registers involved in an operation *)
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let add_spill_cost cost arg =
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for i = 0 to Array.length arg - 1 do
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let r = arg.(i) in r.spill_cost <- r.spill_cost + cost
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done in
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(* Compute preferences and spill costs *)
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let rec prefer weight i =
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add_spill_cost weight i.arg;
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add_spill_cost weight i.res;
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match i.desc with
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Iend -> ()
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| Ireturn -> ()
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| Iop(Imove) ->
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add_mutual_pref weight i.arg.(0) i.res.(0);
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prefer weight i.next
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| Iop(Ispill) ->
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add_pref (weight / 4) i.arg.(0) i.res.(0);
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prefer weight i.next
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| Iop(Ireload) ->
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add_pref (weight / 4) i.res.(0) i.arg.(0);
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prefer weight i.next
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| Iop(Itailcall_ind) -> ()
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| Iop(Itailcall_imm lbl) -> ()
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| Iop op ->
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prefer weight i.next
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| Iifthenelse(tst, ifso, ifnot) ->
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prefer (weight / 2) ifso;
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prefer (weight / 2) ifnot;
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prefer weight i.next
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| Iswitch(index, cases) ->
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for i = 0 to Array.length cases - 1 do
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prefer (weight / 2) cases.(i)
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done;
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prefer weight i.next
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| Iloop body ->
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(* Avoid overflow of weight and spill_cost *)
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prefer (if weight < 1000 then 8 * weight else weight) body;
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prefer weight i.next
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| Icatch(_, body, handler) ->
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prefer weight body; prefer weight handler; prefer weight i.next
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| Iexit _ ->
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()
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| Itrywith(body, handler) ->
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prefer weight body; prefer weight handler; prefer weight i.next
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| Iraise -> ()
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in
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interf fundecl.fun_body; prefer 8 fundecl.fun_body
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