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/* Simulator model support for crisv32f.
THIS FILE IS MACHINE GENERATED WITH CGEN.
Copyright 1996-2016 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 crisv32f
#define WANT_CPU_CRISV32F
#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_crisv32_move_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_d_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_moveq (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_moveq.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
out_Rd = FLD (out_Rd);
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movs_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_muls_b.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
referenced |= 1 << 1;
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movs_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_muls_b.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
referenced |= 1 << 1;
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movu_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_muls_b.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
referenced |= 1 << 1;
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movu_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_muls_b.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
referenced |= 1 << 1;
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movecbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcbr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movecwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcwr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movecdr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cd.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
out_Rd = FLD (out_Rd);
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movscbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cb.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
out_Rd = FLD (out_Rd);
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movscwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cw.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
out_Rd = FLD (out_Rd);
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movucbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cb.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
out_Rd = FLD (out_Rd);
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movucwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cw.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
out_Rd = FLD (out_Rd);
referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addq (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addq.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subq (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addq.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmp_r_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_muls_b.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmp_r_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_muls_b.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmp_r_d_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_muls_b.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmp_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmp_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmp_m_d_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpcbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cb.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpcwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cw.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpcdr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cd.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpq (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andq.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmps_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmps_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpscbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cb.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpscwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cw.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpu_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpu_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpucbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cb.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_cmpucwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bound_cw.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_m_d_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movs_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_movs_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
if (insn_referenced & (1 << 0)) referenced |= 1 << 1;
if (insn_referenced & (1 << 7)) referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movs_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_movs_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
if (insn_referenced & (1 << 0)) referenced |= 1 << 1;
if (insn_referenced & (1 << 7)) referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movu_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_movs_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
if (insn_referenced & (1 << 0)) referenced |= 1 << 1;
if (insn_referenced & (1 << 7)) referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movu_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_movs_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
out_Rd = FLD (out_Rd);
if (insn_referenced & (1 << 0)) referenced |= 1 << 1;
if (insn_referenced & (1 << 7)) referenced |= 1 << 2;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_r_sprv32 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_m_sprv32.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_Rs = -1;
INT out_Pd = -1;
in_Rs = FLD (in_Rs);
out_Pd = FLD (out_Pd);
referenced |= 1 << 0;
if (insn_referenced & (1 << 2)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 0, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_spr_rv32 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_mcp.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_m_sprv32 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_m_sprv32.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
in_Rs = FLD (in_Rs);
out_Pd = FLD (out_Pd);
if (insn_referenced & (1 << 0)) referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 2, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p2 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p3 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p5 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p6 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p7 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p9 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p10 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p11 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p12 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p13 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p14 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_c_sprv32_p15 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_c_sprv32_p2.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Pd = -1;
out_Pd = FLD (out_Pd);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec_to_sr (current_cpu, idesc, 1, referenced, in_Rs, out_Pd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_spr_mv32 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_spr_mv32.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_w (current_cpu, idesc, 2, referenced);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_ss_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_move_spr_mv32.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_move_r_ss (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_mcp.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movem_r_m_v32 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_movem_r_m_v32.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_Rs = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT in_Rd = -1;
in_Rs = FLD (in_Rs);
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_movem_rtom (current_cpu, idesc, 1, referenced, in_Rs, in_Rd);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec_movem (current_cpu, idesc, 2, referenced, in_Rs, out_Rd);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_w (current_cpu, idesc, 3, referenced);
}
return cycles;
#undef FLD
}
static int
model_crisv32_movem_m_r_v32 (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_movem_m_r_v32.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_Rs = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT in_Rd = -1;
in_Rs = FLD (in_Rs);
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_movem_mtor (current_cpu, idesc, 2, referenced, in_Rs, in_Rd);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec_movem (current_cpu, idesc, 3, referenced, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_add_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_add_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_add_d_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_add_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_add_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_add_m_d_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addcbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcbr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addcwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcwr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addcdr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcdr.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_adds_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_adds_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_adds_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_adds_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addscbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcbr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addscwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcwr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addu_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addu_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addu_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_addu_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_adducbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcbr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_adducwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcwr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_sub_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_sub_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_sub_d_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_sub_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_sub_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_sub_m_d_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subcbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcbr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subcwr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcwr.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;
cycles += crisv32f_model_crisv32_u_const16 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subcdr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcdr.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;
cycles += crisv32f_model_crisv32_u_const32 (current_cpu, idesc, 0, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 1, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subs_b_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subs_w_r (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addc_m.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_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 0, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subs_m_b_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subs_m_w_m (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_add_m_b_m.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_Rs = -1;
in_Rs = FLD (in_Rs);
if (insn_referenced & (1 << 1)) referenced |= 1 << 0;
cycles += crisv32f_model_crisv32_u_mem (current_cpu, idesc, 0, referenced, in_Rs);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
cycles += crisv32f_model_crisv32_u_mem_r (current_cpu, idesc, 1, referenced);
}
{
int referenced = 0;
int UNUSED insn_referenced = abuf->written;
INT in_Rd = -1;
INT in_Rs = -1;
INT out_Rd = -1;
in_Rd = FLD (in_Rd);
in_Rs = FLD (in_Rs);
referenced |= 1 << 0;
if (insn_referenced & (1 << 1)) referenced |= 1 << 1;
cycles += crisv32f_model_crisv32_u_exec (current_cpu, idesc, 2, referenced, in_Rd, in_Rs, out_Rd);
}
return cycles;
#undef FLD
}
static int
model_crisv32_subscbr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_addcbr.f
const ARGBUF * UNUSED abuf = SEM_ARGBUF ((SEM_ARG) sem_arg);
const IDESC * UNUSED idesc = abuf->idesc;
int cycles = 0;