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[/] [openrisc/] [trunk/] [gnu-old/] [gdb-7.1/] [sim/] [lm32/] [model.c] - Rev 857

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/* Simulator model support for lm32bf.
 
THIS FILE IS MACHINE GENERATED WITH CGEN.
 
Copyright 1996-2010 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, write to the Free Software Foundation, Inc.,
   51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA.
 
*/
 
#define WANT_CPU lm32bf
#define WANT_CPU_LM32BF
 
#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_lm32_add (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_and (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_andi (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_andhii (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_b (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_bi (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_be (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_bg (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_bge (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_bgeu (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_bgu (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_bne (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_call (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_be.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_calli (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_bi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpe (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpei (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpg (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpgi (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpge (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpgei (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpgeu (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpgeui (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpgu (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpgui (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpne (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_cmpnei (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_divu (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_lb (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_lbu (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_lh (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_lhu (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_lw (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_modu (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_mul (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_muli (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_nor (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_nori (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_or (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_ori (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_orhii (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_rcsr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_rcsr.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sb (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sextb (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sexth (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sh (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sl (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sli (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sri (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sru (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_srui (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sub (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_sw (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_user (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_wcsr (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_wcsr.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_xor (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_xori (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_xnor (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_user.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_xnori (SIM_CPU *current_cpu, void *sem_arg)
{
#define FLD(f) abuf->fields.sfmt_andi.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 += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_break (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
static int
model_lm32_scall (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;
    cycles += lm32bf_model_lm32_u_exec (current_cpu, idesc, 0, referenced);
  }
  return cycles;
#undef FLD
}
 
/* We assume UNIT_NONE == 0 because the tables don't always terminate
   entries with it.  */
 
/* Model timing data for `lm32'.  */
 
static const INSN_TIMING lm32_timing[] = {
  { LM32BF_INSN_X_INVALID, 0, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_X_AFTER, 0, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_X_BEFORE, 0, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_X_CTI_CHAIN, 0, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_X_CHAIN, 0, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_X_BEGIN, 0, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_ADD, model_lm32_add, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_ADDI, model_lm32_addi, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_AND, model_lm32_and, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_ANDI, model_lm32_andi, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_ANDHII, model_lm32_andhii, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_B, model_lm32_b, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BI, model_lm32_bi, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BE, model_lm32_be, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BG, model_lm32_bg, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BGE, model_lm32_bge, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BGEU, model_lm32_bgeu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BGU, model_lm32_bgu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BNE, model_lm32_bne, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CALL, model_lm32_call, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CALLI, model_lm32_calli, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPE, model_lm32_cmpe, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPEI, model_lm32_cmpei, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPG, model_lm32_cmpg, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPGI, model_lm32_cmpgi, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPGE, model_lm32_cmpge, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPGEI, model_lm32_cmpgei, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPGEU, model_lm32_cmpgeu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPGEUI, model_lm32_cmpgeui, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPGU, model_lm32_cmpgu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPGUI, model_lm32_cmpgui, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPNE, model_lm32_cmpne, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_CMPNEI, model_lm32_cmpnei, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_DIVU, model_lm32_divu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_LB, model_lm32_lb, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_LBU, model_lm32_lbu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_LH, model_lm32_lh, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_LHU, model_lm32_lhu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_LW, model_lm32_lw, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_MODU, model_lm32_modu, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_MUL, model_lm32_mul, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_MULI, model_lm32_muli, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_NOR, model_lm32_nor, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_NORI, model_lm32_nori, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_OR, model_lm32_or, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_ORI, model_lm32_ori, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_ORHII, model_lm32_orhii, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_RCSR, model_lm32_rcsr, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SB, model_lm32_sb, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SEXTB, model_lm32_sextb, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SEXTH, model_lm32_sexth, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SH, model_lm32_sh, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SL, model_lm32_sl, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SLI, model_lm32_sli, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SR, model_lm32_sr, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SRI, model_lm32_sri, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SRU, model_lm32_sru, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SRUI, model_lm32_srui, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SUB, model_lm32_sub, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SW, model_lm32_sw, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_USER, model_lm32_user, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_WCSR, model_lm32_wcsr, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_XOR, model_lm32_xor, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_XORI, model_lm32_xori, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_XNOR, model_lm32_xnor, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_XNORI, model_lm32_xnori, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_BREAK, model_lm32_break, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
  { LM32BF_INSN_SCALL, model_lm32_scall, { { (int) UNIT_LM32_U_EXEC, 1, 1 } } },
};
 
#endif /* WITH_PROFILE_MODEL_P */
 
static void
lm32_model_init (SIM_CPU *cpu)
{
  CPU_MODEL_DATA (cpu) = (void *) zalloc (sizeof (MODEL_LM32_DATA));
}
 
#if WITH_PROFILE_MODEL_P
#define TIMING_DATA(td) td
#else
#define TIMING_DATA(td) 0
#endif
 
static const MODEL lm32_models[] =
{
  { "lm32", & lm32_mach, MODEL_LM32, TIMING_DATA (& lm32_timing[0]), lm32_model_init },
  { 0 }
};
 
/* The properties of this cpu's implementation.  */
 
static const MACH_IMP_PROPERTIES lm32bf_imp_properties =
{
  sizeof (SIM_CPU),
#if WITH_SCACHE
  sizeof (SCACHE)
#else
  0
#endif
};
 
 
static void
lm32bf_prepare_run (SIM_CPU *cpu)
{
  if (CPU_IDESC (cpu) == NULL)
    lm32bf_init_idesc_table (cpu);
}
 
static const CGEN_INSN *
lm32bf_get_idata (SIM_CPU *cpu, int inum)
{
  return CPU_IDESC (cpu) [inum].idata;
}
 
static void
lm32_init_cpu (SIM_CPU *cpu)
{
  CPU_REG_FETCH (cpu) = lm32bf_fetch_register;
  CPU_REG_STORE (cpu) = lm32bf_store_register;
  CPU_PC_FETCH (cpu) = lm32bf_h_pc_get;
  CPU_PC_STORE (cpu) = lm32bf_h_pc_set;
  CPU_GET_IDATA (cpu) = lm32bf_get_idata;
  CPU_MAX_INSNS (cpu) = LM32BF_INSN__MAX;
  CPU_INSN_NAME (cpu) = cgen_insn_name;
  CPU_FULL_ENGINE_FN (cpu) = lm32bf_engine_run_full;
#if WITH_FAST
  CPU_FAST_ENGINE_FN (cpu) = lm32bf_engine_run_fast;
#else
  CPU_FAST_ENGINE_FN (cpu) = lm32bf_engine_run_full;
#endif
}
 
const MACH lm32_mach =
{
  "lm32", "lm32", MACH_LM32,
  32, 32, & lm32_models[0], & lm32bf_imp_properties,
  lm32_init_cpu,
  lm32bf_prepare_run
};
 
 

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