/* Simulator model support for m32r2f. THIS FILE IS MACHINE GENERATED WITH CGEN. Copyright 1996-2017 Free Software Foundation, Inc. This file is part of the GNU simulators. This file is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. It is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, see <http://www.gnu.org/licenses/>. */ #define WANT_CPU m32r2f #define WANT_CPU_M32R2F #include "sim-main.h" /* The profiling data is recorded here, but is accessed via the profiling mechanism. After all, this is information for profiling. */ #if WITH_PROFILE_MODEL_P /* Model handlers for each insn. */ static int model_m32r2_add (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_add3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_and (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_and3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_and3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_or (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_or3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_and3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_xor (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_xor3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_and3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_addi (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_addi.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_addv (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_addv3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_addx (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_bc8 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl8.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bc24 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl24.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_beq (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 3)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_beqz (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_bgez (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_bgtz (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_blez (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_bltz (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_bnez (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_bl8 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl8.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bl24 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl24.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bcl8 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl8.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 4)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bcl24 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl24.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 4)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bnc8 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl8.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bnc24 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl24.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bne (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_beq.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 3)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 1, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_bra8 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl8.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bra24 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl24.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bncl8 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl8.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 4)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_bncl24 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bl24.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; if (insn_referenced & (1 << 4)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_cmp (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_cmpi (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_d.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_cmpu (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_cmpui (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_d.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_cmpeq (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_cmpz (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_div (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_divu (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_rem (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_remu (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_remh (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_remuh (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_remb (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_remub (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_divuh (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_divb (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_divub (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_divh (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; if (insn_referenced & (1 << 0)) referenced |= 1 << 1; if (insn_referenced & (1 << 2)) referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_jc (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_jl.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; in_sr = FLD (in_sr); if (insn_referenced & (1 << 1)) referenced |= 1 << 0; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_jnc (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_jl.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; in_sr = FLD (in_sr); if (insn_referenced & (1 << 1)) referenced |= 1 << 0; if (insn_referenced & (1 << 2)) referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_jl (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_jl.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; in_sr = FLD (in_sr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_jmp (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_jl.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; in_sr = FLD (in_sr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cti (current_cpu, idesc, 0, referenced, in_sr); } return cycles; #undef FLD } static int model_m32r2_ld (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ld_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldb (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldb_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldh (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldh_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldub (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldub_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_lduh (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_lduh_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ld_plus (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_sr); out_dr = FLD (out_sr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 1, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ld24 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld24.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldi8 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_addi.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_ldi16 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_lock (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_machi_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_maclo_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_macwhi_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_macwlo_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_mul (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mulhi_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_mullo_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_mulwhi_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_mulwlo_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_machi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_mv (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mvfachi_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_mvfachi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mvfaclo_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_mvfachi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mvfacmi_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_mvfachi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mvfc (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mvtachi_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_mvtachi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_src1); cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mvtaclo_a (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_mvtachi_a.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_src1); cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_mvtc (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); referenced |= 1 << 0; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_neg (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_nop (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_empty.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_not (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_rac_dsi (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_rac_dsi.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_rach_dsi (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_rac_dsi.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_rte (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_empty.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_seth (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_seth.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; out_dr = FLD (out_dr); referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sll (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sll3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_slli (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_slli.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sra (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sra3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_srai (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_slli.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_srl (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_srl3 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add3.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_srli (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_slli.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_st (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_st_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_d.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_stb (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_stb_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_d.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_sth (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_sth_d (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_d.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_st_plus (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_src2); out_dr = FLD (out_src2); cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 1, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sth_plus (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_src2); out_dr = FLD (out_src2); cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 1, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_stb_plus (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_src2); out_dr = FLD (out_src2); cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 1, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_st_minus (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = 0; INT in_src2 = 0; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_store (current_cpu, idesc, 0, referenced, in_src1, in_src2); } { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_dr = FLD (in_src2); out_dr = FLD (out_src2); cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 1, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sub (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_subv (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_subx (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_add.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); in_dr = FLD (in_dr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 1; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_trap (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_trap.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_unlock (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = 0; INT out_dr = 0; cycles += m32r2f_model_m32r2_u_load (current_cpu, idesc, 0, referenced, in_sr, out_dr); } return cycles; #undef FLD } static int model_m32r2_satb (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sath (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_sat (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_ld_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); out_dr = FLD (out_dr); if (insn_referenced & (1 << 1)) referenced |= 1 << 0; referenced |= 1 << 2; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_pcmpbz (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src2 = FLD (in_src2); referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_cmp (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_sadd (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_empty.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_macwu1 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_msblo (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_mulwu1 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_maclh1 (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_st_plus.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_src1 = -1; INT in_src2 = -1; in_src1 = FLD (in_src1); in_src2 = FLD (in_src2); referenced |= 1 << 0; referenced |= 1 << 1; cycles += m32r2f_model_m32r2_u_mac (current_cpu, idesc, 0, referenced, in_src1, in_src2); } return cycles; #undef FLD } static int model_m32r2_sc (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_empty.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_snc (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_empty.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_clrpsw (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_clrpsw.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_setpsw (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_clrpsw.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_bset (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bset.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); referenced |= 1 << 0; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_bclr (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bset.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); referenced |= 1 << 0; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } static int model_m32r2_btst (SIM_CPU *current_cpu, void *sem_arg) { #define FLD(f) abuf->fields.sfmt_bset.f const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg); const IDESC * UNUSED idesc = abuf->idesc; int cycles = 0; { int referenced = 0; int UNUSED insn_referenced = abuf->written; INT in_sr = -1; INT in_dr = -1; INT out_dr = -1; in_sr = FLD (in_sr); referenced |= 1 << 0; cycles += m32r2f_model_m32r2_u_exec (current_cpu, idesc, 0, referenced, in_sr, in_dr, out_dr); } return cycles; #undef FLD } /* We assume UNIT_NONE == 0 because the tables don't always terminate entries with it. */ /* Model timing data for `m32r2'. */ static const INSN_TIMING m32r2_timing[] = { { M32R2F_INSN_X_INVALID, 0, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_X_AFTER, 0, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_X_BEFORE, 0, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_X_CTI_CHAIN, 0, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_X_CHAIN, 0, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_X_BEGIN, 0, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_ADD, model_m32r2_add, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_ADD3, model_m32r2_add3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_AND, model_m32r2_and, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_AND3, model_m32r2_and3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_OR, model_m32r2_or, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_OR3, model_m32r2_or3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_XOR, model_m32r2_xor, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_XOR3, model_m32r2_xor3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_ADDI, model_m32r2_addi, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_ADDV, model_m32r2_addv, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_ADDV3, model_m32r2_addv3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_ADDX, model_m32r2_addx, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_BC8, model_m32r2_bc8, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BC24, model_m32r2_bc24, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BEQ, model_m32r2_beq, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BEQZ, model_m32r2_beqz, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BGEZ, model_m32r2_bgez, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BGTZ, model_m32r2_bgtz, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BLEZ, model_m32r2_blez, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BLTZ, model_m32r2_bltz, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BNEZ, model_m32r2_bnez, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BL8, model_m32r2_bl8, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BL24, model_m32r2_bl24, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BCL8, model_m32r2_bcl8, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BCL24, model_m32r2_bcl24, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BNC8, model_m32r2_bnc8, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BNC24, model_m32r2_bnc24, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BNE, model_m32r2_bne, { { (int) UNIT_M32R2_U_CTI, 1, 1 }, { (int) UNIT_M32R2_U_CMP, 1, 0 } } }, { M32R2F_INSN_BRA8, model_m32r2_bra8, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BRA24, model_m32r2_bra24, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BNCL8, model_m32r2_bncl8, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_BNCL24, model_m32r2_bncl24, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_CMP, model_m32r2_cmp, { { (int) UNIT_M32R2_U_CMP, 1, 1 } } }, { M32R2F_INSN_CMPI, model_m32r2_cmpi, { { (int) UNIT_M32R2_U_CMP, 1, 1 } } }, { M32R2F_INSN_CMPU, model_m32r2_cmpu, { { (int) UNIT_M32R2_U_CMP, 1, 1 } } }, { M32R2F_INSN_CMPUI, model_m32r2_cmpui, { { (int) UNIT_M32R2_U_CMP, 1, 1 } } }, { M32R2F_INSN_CMPEQ, model_m32r2_cmpeq, { { (int) UNIT_M32R2_U_CMP, 1, 1 } } }, { M32R2F_INSN_CMPZ, model_m32r2_cmpz, { { (int) UNIT_M32R2_U_CMP, 1, 1 } } }, { M32R2F_INSN_DIV, model_m32r2_div, { { (int) UNIT_M32R2_U_EXEC, 1, 37 } } }, { M32R2F_INSN_DIVU, model_m32r2_divu, { { (int) UNIT_M32R2_U_EXEC, 1, 37 } } }, { M32R2F_INSN_REM, model_m32r2_rem, { { (int) UNIT_M32R2_U_EXEC, 1, 37 } } }, { M32R2F_INSN_REMU, model_m32r2_remu, { { (int) UNIT_M32R2_U_EXEC, 1, 37 } } }, { M32R2F_INSN_REMH, model_m32r2_remh, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_REMUH, model_m32r2_remuh, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_REMB, model_m32r2_remb, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_REMUB, model_m32r2_remub, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_DIVUH, model_m32r2_divuh, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_DIVB, model_m32r2_divb, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_DIVUB, model_m32r2_divub, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_DIVH, model_m32r2_divh, { { (int) UNIT_M32R2_U_EXEC, 1, 21 } } }, { M32R2F_INSN_JC, model_m32r2_jc, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_JNC, model_m32r2_jnc, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_JL, model_m32r2_jl, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_JMP, model_m32r2_jmp, { { (int) UNIT_M32R2_U_CTI, 1, 1 } } }, { M32R2F_INSN_LD, model_m32r2_ld, { { (int) UNIT_M32R2_U_LOAD, 1, 1 } } }, { M32R2F_INSN_LD_D, model_m32r2_ld_d, { { (int) UNIT_M32R2_U_LOAD, 1, 2 } } }, { M32R2F_INSN_LDB, model_m32r2_ldb, { { (int) UNIT_M32R2_U_LOAD, 1, 1 } } }, { M32R2F_INSN_LDB_D, model_m32r2_ldb_d, { { (int) UNIT_M32R2_U_LOAD, 1, 2 } } }, { M32R2F_INSN_LDH, model_m32r2_ldh, { { (int) UNIT_M32R2_U_LOAD, 1, 1 } } }, { M32R2F_INSN_LDH_D, model_m32r2_ldh_d, { { (int) UNIT_M32R2_U_LOAD, 1, 2 } } }, { M32R2F_INSN_LDUB, model_m32r2_ldub, { { (int) UNIT_M32R2_U_LOAD, 1, 1 } } }, { M32R2F_INSN_LDUB_D, model_m32r2_ldub_d, { { (int) UNIT_M32R2_U_LOAD, 1, 2 } } }, { M32R2F_INSN_LDUH, model_m32r2_lduh, { { (int) UNIT_M32R2_U_LOAD, 1, 1 } } }, { M32R2F_INSN_LDUH_D, model_m32r2_lduh_d, { { (int) UNIT_M32R2_U_LOAD, 1, 2 } } }, { M32R2F_INSN_LD_PLUS, model_m32r2_ld_plus, { { (int) UNIT_M32R2_U_LOAD, 1, 1 }, { (int) UNIT_M32R2_U_EXEC, 1, 0 } } }, { M32R2F_INSN_LD24, model_m32r2_ld24, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_LDI8, model_m32r2_ldi8, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_LDI16, model_m32r2_ldi16, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_LOCK, model_m32r2_lock, { { (int) UNIT_M32R2_U_LOAD, 1, 1 } } }, { M32R2F_INSN_MACHI_A, model_m32r2_machi_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MACLO_A, model_m32r2_maclo_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MACWHI_A, model_m32r2_macwhi_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MACWLO_A, model_m32r2_macwlo_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MUL, model_m32r2_mul, { { (int) UNIT_M32R2_U_EXEC, 1, 4 } } }, { M32R2F_INSN_MULHI_A, model_m32r2_mulhi_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MULLO_A, model_m32r2_mullo_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MULWHI_A, model_m32r2_mulwhi_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MULWLO_A, model_m32r2_mulwlo_a, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MV, model_m32r2_mv, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_MVFACHI_A, model_m32r2_mvfachi_a, { { (int) UNIT_M32R2_U_EXEC, 1, 2 } } }, { M32R2F_INSN_MVFACLO_A, model_m32r2_mvfaclo_a, { { (int) UNIT_M32R2_U_EXEC, 1, 2 } } }, { M32R2F_INSN_MVFACMI_A, model_m32r2_mvfacmi_a, { { (int) UNIT_M32R2_U_EXEC, 1, 2 } } }, { M32R2F_INSN_MVFC, model_m32r2_mvfc, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_MVTACHI_A, model_m32r2_mvtachi_a, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_MVTACLO_A, model_m32r2_mvtaclo_a, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_MVTC, model_m32r2_mvtc, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_NEG, model_m32r2_neg, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_NOP, model_m32r2_nop, { { (int) UNIT_M32R2_U_EXEC, 1, 0 } } }, { M32R2F_INSN_NOT, model_m32r2_not, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_RAC_DSI, model_m32r2_rac_dsi, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_RACH_DSI, model_m32r2_rach_dsi, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_RTE, model_m32r2_rte, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SETH, model_m32r2_seth, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SLL, model_m32r2_sll, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SLL3, model_m32r2_sll3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SLLI, model_m32r2_slli, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SRA, model_m32r2_sra, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SRA3, model_m32r2_sra3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SRAI, model_m32r2_srai, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SRL, model_m32r2_srl, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SRL3, model_m32r2_srl3, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SRLI, model_m32r2_srli, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_ST, model_m32r2_st, { { (int) UNIT_M32R2_U_STORE, 1, 1 } } }, { M32R2F_INSN_ST_D, model_m32r2_st_d, { { (int) UNIT_M32R2_U_STORE, 1, 2 } } }, { M32R2F_INSN_STB, model_m32r2_stb, { { (int) UNIT_M32R2_U_STORE, 1, 1 } } }, { M32R2F_INSN_STB_D, model_m32r2_stb_d, { { (int) UNIT_M32R2_U_STORE, 1, 2 } } }, { M32R2F_INSN_STH, model_m32r2_sth, { { (int) UNIT_M32R2_U_STORE, 1, 1 } } }, { M32R2F_INSN_STH_D, model_m32r2_sth_d, { { (int) UNIT_M32R2_U_STORE, 1, 2 } } }, { M32R2F_INSN_ST_PLUS, model_m32r2_st_plus, { { (int) UNIT_M32R2_U_STORE, 1, 1 }, { (int) UNIT_M32R2_U_EXEC, 1, 0 } } }, { M32R2F_INSN_STH_PLUS, model_m32r2_sth_plus, { { (int) UNIT_M32R2_U_STORE, 1, 1 }, { (int) UNIT_M32R2_U_EXEC, 1, 0 } } }, { M32R2F_INSN_STB_PLUS, model_m32r2_stb_plus, { { (int) UNIT_M32R2_U_STORE, 1, 1 }, { (int) UNIT_M32R2_U_EXEC, 1, 0 } } }, { M32R2F_INSN_ST_MINUS, model_m32r2_st_minus, { { (int) UNIT_M32R2_U_STORE, 1, 1 }, { (int) UNIT_M32R2_U_EXEC, 1, 0 } } }, { M32R2F_INSN_SUB, model_m32r2_sub, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SUBV, model_m32r2_subv, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SUBX, model_m32r2_subx, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_TRAP, model_m32r2_trap, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_UNLOCK, model_m32r2_unlock, { { (int) UNIT_M32R2_U_LOAD, 1, 1 } } }, { M32R2F_INSN_SATB, model_m32r2_satb, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SATH, model_m32r2_sath, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SAT, model_m32r2_sat, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_PCMPBZ, model_m32r2_pcmpbz, { { (int) UNIT_M32R2_U_CMP, 1, 1 } } }, { M32R2F_INSN_SADD, model_m32r2_sadd, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MACWU1, model_m32r2_macwu1, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MSBLO, model_m32r2_msblo, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MULWU1, model_m32r2_mulwu1, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_MACLH1, model_m32r2_maclh1, { { (int) UNIT_M32R2_U_MAC, 1, 1 } } }, { M32R2F_INSN_SC, model_m32r2_sc, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SNC, model_m32r2_snc, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_CLRPSW, model_m32r2_clrpsw, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_SETPSW, model_m32r2_setpsw, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_BSET, model_m32r2_bset, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_BCLR, model_m32r2_bclr, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, { M32R2F_INSN_BTST, model_m32r2_btst, { { (int) UNIT_M32R2_U_EXEC, 1, 1 } } }, }; #endif /* WITH_PROFILE_MODEL_P */ static void m32r2_model_init (SIM_CPU *cpu) { CPU_MODEL_DATA (cpu) = (void *) zalloc (sizeof (MODEL_M32R2_DATA)); } #if WITH_PROFILE_MODEL_P #define TIMING_DATA(td) td #else #define TIMING_DATA(td) 0 #endif static const SIM_MODEL m32r2_models[] = { { "m32r2", & m32r2_mach, MODEL_M32R2, TIMING_DATA (& m32r2_timing[0]), m32r2_model_init }, { 0 } }; /* The properties of this cpu's implementation. */ static const SIM_MACH_IMP_PROPERTIES m32r2f_imp_properties = { sizeof (SIM_CPU), #if WITH_SCACHE sizeof (SCACHE) #else 0 #endif }; static void m32r2f_prepare_run (SIM_CPU *cpu) { if (CPU_IDESC (cpu) == NULL) m32r2f_init_idesc_table (cpu); } static const CGEN_INSN * m32r2f_get_idata (SIM_CPU *cpu, int inum) { return CPU_IDESC (cpu) [inum].idata; } static void m32r2_init_cpu (SIM_CPU *cpu) { CPU_REG_FETCH (cpu) = m32r2f_fetch_register; CPU_REG_STORE (cpu) = m32r2f_store_register; CPU_PC_FETCH (cpu) = m32r2f_h_pc_get; CPU_PC_STORE (cpu) = m32r2f_h_pc_set; CPU_GET_IDATA (cpu) = m32r2f_get_idata; CPU_MAX_INSNS (cpu) = M32R2F_INSN__MAX; CPU_INSN_NAME (cpu) = cgen_insn_name; CPU_FULL_ENGINE_FN (cpu) = m32r2f_engine_run_full; #if WITH_FAST CPU_FAST_ENGINE_FN (cpu) = m32r2f_engine_run_fast; #else CPU_FAST_ENGINE_FN (cpu) = m32r2f_engine_run_full; #endif } const SIM_MACH m32r2_mach = { "m32r2", "m32r2", MACH_M32R2, 32, 32, & m32r2_models[0], & m32r2f_imp_properties, m32r2_init_cpu, m32r2f_prepare_run };