(***********************************************************************) (* *) (* Objective Caml *) (* *) (* 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. *) (* *) (***********************************************************************) (* $Id$ *) (* Representation of machine code by sequences of pseudoinstructions *) type integer_comparison = Isigned of Cmm.comparison | Iunsigned of Cmm.comparison type integer_operation = Iadd | Isub | Imul | Idiv | Imod | Iand | Ior | Ixor | Ilsl | Ilsr | Iasr | Icomp of integer_comparison | Icheckbound type test = Itruetest | Ifalsetest | Iinttest of integer_comparison | Iinttest_imm of integer_comparison * int | Ifloattest of Cmm.comparison * bool | Ioddtest | Ieventest type operation = Imove | Ispill | Ireload | Iconst_int of nativeint | Iconst_float of string | Iconst_symbol of string | Icall_ind | Icall_imm of string | Itailcall_ind | Itailcall_imm of string | Iextcall of string * bool | Istackoffset of int | Iload of Cmm.memory_chunk * Arch.addressing_mode | Istore of Cmm.memory_chunk * Arch.addressing_mode | Ialloc of int | Iintop of integer_operation | Iintop_imm of integer_operation * int | Inegf | Iabsf | Iaddf | Isubf | Imulf | Idivf | Ifloatofint | Iintoffloat | Ispecific of Arch.specific_operation type instruction = { desc: instruction_desc; next: instruction; arg: Reg.t array; res: Reg.t array; mutable live: Reg.Set.t } and instruction_desc = Iend | Iop of operation | Ireturn | Iifthenelse of test * instruction * instruction | Iswitch of int array * instruction array | Iloop of instruction | Icatch of instruction * instruction | Iexit | Itrywith of instruction * instruction | Iraise type fundecl = { fun_name: string; fun_args: Reg.t array; fun_body: instruction; fun_fast: bool } let rec dummy_instr = { desc = Iend; next = dummy_instr; arg = [||]; res = [||]; live = Reg.Set.empty } let end_instr () = { desc = Iend; next = dummy_instr; arg = [||]; res = [||]; live = Reg.Set.empty } let instr_cons d a r n = { desc = d; next = n; arg = a; res = r; live = Reg.Set.empty } let instr_cons_live d a r l n = { desc = d; next = n; arg = a; res = r; live = l } let rec instr_iter f i = match i.desc with Iend -> () | _ -> f i; match i.desc with Iend -> () | Ireturn | Iop(Itailcall_ind) | Iop(Itailcall_imm _) -> () | Iifthenelse(tst, ifso, ifnot) -> instr_iter f ifso; instr_iter f ifnot; instr_iter f i.next | Iswitch(index, cases) -> for i = 0 to Array.length cases - 1 do instr_iter f cases.(i) done; instr_iter f i.next | Iloop(body) -> instr_iter f body; instr_iter f i.next | Icatch(body, handler) -> instr_iter f body; instr_iter f handler; instr_iter f i.next | Iexit -> () | Itrywith(body, handler) -> instr_iter f body; instr_iter f handler; instr_iter f i.next | Iraise -> () | _ -> instr_iter f i.next