189 lines
6.1 KiB
OCaml
189 lines
6.1 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 1997 Institut National de Recherche en Informatique et *)
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(* Automatique. Distributed only by permission. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* Instruction selection for the Motorola 68k *)
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open Misc
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open Cmm
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open Reg
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open Arch
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open Mach
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(* Auxiliary for recognizing addressing modes *)
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type addressing_expr =
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Asymbol of string
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| Alinear of expression
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| Aadd of expression * expression
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| Ascale of expression * int
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| Ascaledadd of expression * expression * int
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let rec select_addr exp =
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match exp with
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Cconst_symbol s ->
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(Asymbol s, 0)
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| Cop((Caddi | Cadda), [arg; Cconst_int m]) ->
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let (a, n) = select_addr arg in (a, n + m)
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| Cop((Csubi | Csuba), [arg; Cconst_int m]) ->
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let (a, n) = select_addr arg in (a, n - m)
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| Cop((Caddi | Cadda), [Cconst_int m; arg]) ->
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let (a, n) = select_addr arg in (a, n + m)
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| Cop(Clsl, [arg; Cconst_int(1|2|3 as shift)]) ->
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begin match select_addr arg with
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(Alinear e, n) -> (Ascale(e, 1 lsl shift), n lsl shift)
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| _ -> (Alinear exp, 0)
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end
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| Cop(Cmuli, [arg; Cconst_int(2|4|8 as mult)]) ->
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begin match select_addr arg with
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(Alinear e, n) -> (Ascale(e, mult), n * mult)
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| _ -> (Alinear exp, 0)
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end
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| Cop(Cmuli, [Cconst_int(2|4|8 as mult); arg]) ->
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begin match select_addr arg with
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(Alinear e, n) -> (Ascale(e, mult), n * mult)
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| _ -> (Alinear exp, 0)
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end
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| Cop((Caddi | Cadda), [arg1; arg2]) ->
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begin match (select_addr arg1, select_addr arg2) with
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((Alinear e1, n1), (Alinear e2, n2)) ->
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(Aadd(e1, e2), n1 + n2)
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| ((Alinear e1, n1), (Ascale(e2, scale), n2)) ->
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(Ascaledadd(e1, e2, scale), n1 + n2)
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| ((Ascale(e1, scale), n1), (Alinear e2, n2)) ->
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(Ascaledadd(e2, e1, scale), n1 + n2)
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| (_, (Ascale(e2, scale), n2)) ->
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(Ascaledadd(arg1, e2, scale), n2)
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| ((Ascale(e1, scale), n1), _) ->
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(Ascaledadd(arg2, e1, scale), n1)
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| _ ->
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(Aadd(arg1, arg2), 0)
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end
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| arg ->
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(Alinear arg, 0)
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(* Special constraints on operand and result registers for two-address
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instructions *)
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exception Use_default
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let pseudoregs_for_operation op arg res =
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match op with
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(* Two-address binary operations *)
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Iintop(Iadd | Isub | Imul | Idiv | Imod | Ilsl | Ilsr | Iasr) |
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Iaddf | Isubf | Imulf | Idivf ->
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([|res.(0); arg.(1)|], res, false)
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(* Two-address binary operations, forcing the second argument to be
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in a data register *)
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| Iintop(Iand | Ior | Ixor) ->
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let newarg1 = Reg.create Int in
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([|res.(0); newarg1|], res, false)
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(* Two-address unary operations *)
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| Iintop_imm((Iadd | Isub | Imul | Idiv | Imod | Iand | Ior | Ixor |
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Ilsl | Ilsr | Iasr), _) ->
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(res, res, false)
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(* Other instructions are regular *)
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| _ -> raise Use_default
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(* The selector *)
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class selector () as self =
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inherit Selectgen.selector_generic() as super
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method is_immediate (n : int) = true
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(* Select addressing modes *)
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method select_addressing exp =
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match select_addr exp with
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(Asymbol s, d) ->
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(Ibased(s, d), Ctuple [])
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| (Alinear e, d) ->
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(Iindexed d, e)
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| (Aadd(e1, e2), d) ->
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(Iindexed2 d, Ctuple[e1; e2])
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| (Ascale(e, scale), d) ->
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(Iscaled(scale, d), e)
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| (Ascaledadd(e1, e2, scale), d) ->
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(Iindexed2scaled(scale, d), Ctuple[e1; e2])
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method select_operation op args =
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match op with
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(* Recognize the LEA instruction *)
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Cadda | Csuba ->
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begin match self#select_addressing (Cop(op, args)) with
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(Iindexed d, _) -> super#select_operation op args
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| (addr, arg) -> (Ispecific(Ilea addr), [arg])
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end
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| _ ->
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super#select_operation op args
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(* Selection of immediate shifts -- only if count is between 1 and 8 *)
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method select_shift op = function
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[arg1; Cconst_int n] when n >= 1 && n <= 8 -> (Iintop_imm(op, n), [arg1])
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| args -> (Iintop op, args)
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(* Select store operations *)
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method select_store addr exp =
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match exp with
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Cconst_int n -> (Ispecific(Istore_int(n, addr)), Ctuple [])
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| Cconst_pointer n -> (Ispecific(Istore_int(n, addr)), Ctuple [])
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| Cconst_symbol s -> (Ispecific(Istore_symbol(s, addr)), Ctuple [])
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| _ -> raise Use_default
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(* Deal with register constraints *)
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method insert_op op rs rd =
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try
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let (rsrc, rdst, move_res) = pseudoregs_for_operation op rs rd in
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self#insert_moves rs rsrc;
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self#insert (Iop op) rsrc rdst;
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if move_res then begin
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self#insert_moves rdst rd;
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rd
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end else
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rdst
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with Use_default ->
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super#insert_op op rs rd
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(* Select push operations for external calls *)
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method select_push exp =
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match exp with
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Cconst_int n -> (Ispecific(Ipush_int n), Ctuple [])
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| Cconst_pointer n -> (Ispecific(Ipush_int n), Ctuple [])
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| Cconst_symbol s -> (Ispecific(Ipush_symbol s), Ctuple [])
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| Cop(Cload ty, [loc]) when ty = typ_float ->
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let (addr, arg) = self#select_addressing loc in
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(Ispecific(Ipush_load_float addr), arg)
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| Cop(Cload ty, [loc]) when ty = typ_addr or ty = typ_int ->
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let (addr, arg) = self#select_addressing loc in
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(Ispecific(Ipush_load addr), arg)
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| _ -> (Ispecific(Ipush), exp)
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method emit_extcall_args env args =
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let rec emit_pushes = function
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[] -> 0
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| e :: el ->
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let ofs = emit_pushes el in
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let (op, arg) = self#select_push e in
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let r = self#emit_expr env arg in
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self#insert (Iop op) r [||];
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ofs + Selectgen.size_expr env e
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in ([||], emit_pushes args)
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end
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let fundecl f = (new selector ())#emit_fundecl f
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