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384 lines
11 KiB
C
384 lines
11 KiB
C
/* @(#) $Id: CpuModule_InternalState.c,v 1.9 2012-08-12 16:51:02 peschau Exp $ */
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/*=========================================================================*/
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/* Fellow */
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/* 68000 internal state */
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/* */
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/* Author: Petter Schau */
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/* */
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/* Copyright (C) 1991, 1992, 1996 Free Software Foundation, Inc. */
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/* */
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/* This program is free software; you can redistribute it and/or modify */
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/* it under the terms of the GNU General Public License as published by */
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/* the Free Software Foundation; either version 2, or (at your option) */
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/* any later version. */
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/* */
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/* This program is distributed in the hope that it will be useful, */
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/* but WITHOUT ANY WARRANTY; without even the implied warranty of */
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/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
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/* GNU General Public License for more details. */
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/* */
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/* You should have received a copy of the GNU General Public License */
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/* along with this program; if not, write to the Free Software Foundation, */
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/* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
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/*=========================================================================*/
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#include "defs.h"
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#include "CpuModule.h"
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#include "fellow.h"
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#include "fmem.h"
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#include "CpuModule_Internal.h"
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/* M68k registers */
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static ULO cpu_regs[2][8]; /* 0 - data, 1 - address */
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static ULO cpu_pc;
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static ULO cpu_usp;
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static ULO cpu_ssp;
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static ULO cpu_msp;
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static ULO cpu_sfc;
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static ULO cpu_dfc;
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ULO cpu_sr; // Not static because flags calculation use it extensively
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static ULO cpu_vbr;
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static UWO cpu_prefetch_word;
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static ULO cpu_cacr;
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static ULO cpu_caar;
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/* Irq management */
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static BOOLE cpu_raise_irq;
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static ULO cpu_raise_irq_level;
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/* Reset values */
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static ULO cpu_initial_pc;
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static ULO cpu_initial_sp;
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/* Flag set if CPU is stopped */
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static BOOLE cpu_stop;
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/* The current CPU model */
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static ULO cpu_model_major = -1;
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static ULO cpu_model_minor;
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static UBY cpu_model_mask;
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/* For exception handling */
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#ifdef CPU_INSTRUCTION_LOGGING
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static UWO cpu_current_opcode;
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#endif
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static ULO cpu_original_pc;
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/* Number of cycles taken by the last intstruction */
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static ULO cpu_instruction_time;
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/* Getters and setters */
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void cpuSetDReg(ULO i, ULO value) {cpu_regs[0][i] = value;}
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ULO cpuGetDReg(ULO i) {return cpu_regs[0][i];}
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void cpuSetAReg(ULO i, ULO value) {cpu_regs[1][i] = value;}
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ULO cpuGetAReg(ULO i) {return cpu_regs[1][i];}
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void cpuSetReg(ULO da, ULO i, ULO value) {cpu_regs[da][i] = value;}
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ULO cpuGetReg(ULO da, ULO i) {return cpu_regs[da][i];}
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/// <summary>
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/// Get the supervisor bit from sr.
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/// </summary>
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BOOLE cpuGetFlagSupervisor(void)
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{
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return cpu_sr & 0x2000;
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}
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/// <summary>
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/// Get the master/irq state bit from sr.
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/// </summary>
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BOOLE cpuGetFlagMaster(void)
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{
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return cpu_sr & 0x1000;
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}
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void cpuSetUspDirect(ULO usp) {cpu_usp = usp;}
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ULO cpuGetUspDirect(void) {return cpu_usp;}
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ULO cpuGetUspAutoMap(void) {return (cpuGetFlagSupervisor()) ? cpuGetUspDirect() : cpuGetAReg(7);}
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void cpuSetSspDirect(ULO ssp) {cpu_ssp = ssp;}
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ULO cpuGetSspDirect(void) {return cpu_ssp;}
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ULO cpuGetSspAutoMap(void) {return (cpuGetFlagSupervisor()) ? cpuGetAReg(7) : cpuGetSspDirect();}
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void cpuSetMspDirect(ULO msp) {cpu_msp = msp;}
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ULO cpuGetMspDirect(void) {return cpu_msp;}
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/// <summary>
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/// Returns the master stack pointer.
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/// </summary>
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ULO cpuGetMspAutoMap(void)
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{
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if (cpuGetFlagSupervisor() && cpuGetFlagMaster())
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{
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return cpuGetAReg(7);
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}
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return cpuGetMspDirect();
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}
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/// <summary>
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/// Sets the master stack pointer.
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/// </summary>
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void cpuSetMspAutoMap(ULO new_msp)
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{
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if (cpuGetFlagSupervisor() && cpuGetFlagMaster())
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{
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cpuSetAReg(7, new_msp);
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}
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else
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{
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cpuSetMspDirect(new_msp);
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}
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}
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/// <summary>
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/// Returns the interrupt stack pointer. ssp is used as isp.
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/// </summary>
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ULO cpuGetIspAutoMap(void)
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{
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if (cpuGetFlagSupervisor() && !cpuGetFlagMaster())
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{
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return cpuGetAReg(7);
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}
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return cpuGetSspDirect();
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}
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/// <summary>
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/// Sets the interrupt stack pointer. ssp is used as isp.
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/// </summary>
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void cpuSetIspAutoMap(ULO new_isp)
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{
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if (cpuGetFlagSupervisor() && !cpuGetFlagMaster())
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{
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cpuSetAReg(7, new_isp);
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}
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else
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{
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cpuSetSspDirect(new_isp);
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}
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}
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void cpuSetPC(ULO address) {cpu_pc = address;}
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ULO cpuGetPC(void) {return cpu_pc;}
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void cpuSetStop(BOOLE stop) {cpu_stop = stop;}
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BOOLE cpuGetStop(void) {return cpu_stop;}
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void cpuSetVbr(ULO vbr) {cpu_vbr = vbr;}
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ULO cpuGetVbr(void) {return cpu_vbr;}
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void cpuSetSfc(ULO sfc) {cpu_sfc = sfc;}
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ULO cpuGetSfc(void) {return cpu_sfc;}
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void cpuSetDfc(ULO dfc) {cpu_dfc = dfc;}
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ULO cpuGetDfc(void) {return cpu_dfc;}
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void cpuSetCacr(ULO cacr) {cpu_cacr = cacr;}
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ULO cpuGetCacr(void) {return cpu_cacr;}
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void cpuSetCaar(ULO caar) {cpu_caar = caar;}
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ULO cpuGetCaar(void) {return cpu_caar;}
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void cpuSetSR(ULO sr) {cpu_sr = sr;}
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ULO cpuGetSR(void) {return cpu_sr;}
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void cpuSetInstructionTime(ULO cycles) {cpu_instruction_time = cycles;}
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ULO cpuGetInstructionTime(void) {return cpu_instruction_time;}
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void cpuSetOriginalPC(ULO pc) {cpu_original_pc = pc;}
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ULO cpuGetOriginalPC(void) {return cpu_original_pc;}
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#ifdef CPU_INSTRUCTION_LOGGING
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void cpuSetCurrentOpcode(UWO opcode) {cpu_current_opcode = opcode;}
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UWO cpuGetCurrentOpcode(void) {return cpu_current_opcode;}
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#endif
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void cpuSetRaiseInterrupt(BOOLE raise_irq) {cpu_raise_irq = raise_irq;}
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BOOLE cpuGetRaiseInterrupt(void) {return cpu_raise_irq;}
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void cpuSetRaiseInterruptLevel(ULO raise_irq_level) {cpu_raise_irq_level = raise_irq_level;}
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ULO cpuGetRaiseInterruptLevel(void) {return cpu_raise_irq_level;}
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ULO cpuGetIrqLevel(void) {return (cpu_sr & 0x0700) >> 8;}
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void cpuSetInitialPC(ULO pc) {cpu_initial_pc = pc;}
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ULO cpuGetInitialPC(void) {return cpu_initial_pc;}
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void cpuSetInitialSP(ULO sp) {cpu_initial_sp = sp;}
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ULO cpuGetInitialSP(void) {return cpu_initial_sp;}
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void cpuSetModelMask(UBY model_mask) {cpu_model_mask = model_mask;}
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UBY cpuGetModelMask(void) {return cpu_model_mask;}
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ULO cpuGetModelMajor(void) {return cpu_model_major;}
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ULO cpuGetModelMinor(void) {return cpu_model_minor;}
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static void cpuCalculateModelMask(void)
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{
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switch (cpuGetModelMajor())
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{
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case 0:
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cpuSetModelMask(0x01);
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break;
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case 1:
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cpuSetModelMask(0x02);
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break;
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case 2:
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cpuSetModelMask(0x04);
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break;
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case 3:
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cpuSetModelMask(0x08);
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break;
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}
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}
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void cpuSetModel(ULO major, ULO minor)
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{
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BOOLE makeOpcodeTable = (cpu_model_major != major);
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cpu_model_major = major;
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cpu_model_minor = minor;
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cpuCalculateModelMask();
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cpuStackFrameInit();
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if (makeOpcodeTable) cpuMakeOpcodeTableForModel();
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}
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void cpuSetDRegWord(ULO regno, UWO val) {*((WOR*)&cpu_regs[0][regno]) = val;}
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void cpuSetDRegByte(ULO regno, UBY val) {*((UBY*)&cpu_regs[0][regno]) = val;}
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UWO cpuGetRegWord(ULO i, ULO regno) {return (UWO)cpu_regs[i][regno];}
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UWO cpuGetDRegWord(ULO regno) {return (UWO)cpu_regs[0][regno];}
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UBY cpuGetDRegByte(ULO regno) {return (UBY)cpu_regs[0][regno];}
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ULO cpuGetDRegWordSignExtLong(ULO regno) {return cpuSignExtWordToLong(cpuGetDRegWord(regno));}
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UWO cpuGetDRegByteSignExtWord(ULO regno) {return cpuSignExtByteToWord(cpuGetDRegByte(regno));}
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ULO cpuGetDRegByteSignExtLong(ULO regno) {return cpuSignExtByteToLong(cpuGetDRegByte(regno));}
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UWO cpuGetARegWord(ULO regno) {return (UWO)cpu_regs[1][regno];}
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UBY cpuGetARegByte(ULO regno) {return (UBY)cpu_regs[1][regno];}
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typedef UWO (*cpuGetWordFunc)(void);
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typedef ULO (*cpuGetLongFunc)(void);
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static UWO cpuGetNextWordInternal(void)
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{
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UWO data = memoryReadWord(cpuGetPC() + 2);
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return data;
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}
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static ULO cpuGetNextLongInternal(void)
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{
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ULO data = memoryReadLong(cpuGetPC() + 2);
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return data;
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}
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UWO cpuGetNextWord(void)
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{
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UWO tmp = cpu_prefetch_word;
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cpu_prefetch_word = cpuGetNextWordInternal();
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cpuSetPC(cpuGetPC() + 2);
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return tmp;
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}
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ULO cpuGetNextWordSignExt(void)
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{
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return cpuSignExtWordToLong(cpuGetNextWord());
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}
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ULO cpuGetNextLong(void)
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{
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ULO tmp = cpu_prefetch_word << 16;
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ULO data = cpuGetNextLongInternal();
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cpu_prefetch_word = (UWO) data;
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cpuSetPC(cpuGetPC() + 4);
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return tmp | (data >> 16);
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}
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void cpuInitializePrefetch(void)
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{
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cpu_prefetch_word = memoryReadWord(cpuGetPC());
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}
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void cpuClearPrefetch(void)
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{
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cpu_prefetch_word = 0;
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}
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void cpuSkipNextWord(void)
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{
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cpuSetPC(cpuGetPC() + 2);
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cpuInitializePrefetch();
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}
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void cpuSkipNextLong(void)
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{
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cpuSetPC(cpuGetPC() + 4);
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cpuInitializePrefetch();
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}
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void cpuInitializeFromNewPC(ULO new_pc)
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{
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cpuSetPC(new_pc);
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cpuInitializePrefetch();
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}
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void cpuSaveState(FILE *F)
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{
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ULO i, j;
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fwrite(&cpu_model_major, sizeof(cpu_model_major), 1, F);
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fwrite(&cpu_model_minor, sizeof(cpu_model_minor), 1, F);
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for (i = 0; i < 2; i++)
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{
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for (j = 0; j < 7; j++)
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{
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fwrite(&cpu_regs[i][j], sizeof(cpu_regs[i][j]), 1, F);
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}
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}
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fwrite(&cpu_pc, sizeof(cpu_pc), 1, F);
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fwrite(&cpu_usp, sizeof(cpu_usp), 1, F);
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fwrite(&cpu_ssp, sizeof(cpu_ssp), 1, F);
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fwrite(&cpu_msp, sizeof(cpu_msp), 1, F);
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fwrite(&cpu_sfc, sizeof(cpu_sfc), 1, F);
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fwrite(&cpu_dfc, sizeof(cpu_dfc), 1, F);
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fwrite(&cpu_sr, sizeof(cpu_sr), 1, F);
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fwrite(&cpu_prefetch_word, sizeof(cpu_prefetch_word), 1, F);
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fwrite(&cpu_vbr, sizeof(cpu_vbr), 1, F);
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fwrite(&cpu_cacr, sizeof(cpu_cacr), 1, F);
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fwrite(&cpu_caar, sizeof(cpu_caar), 1, F);
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fwrite(&cpu_initial_pc, sizeof(cpu_initial_pc), 1, F);
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fwrite(&cpu_initial_sp, sizeof(cpu_initial_sp), 1, F);
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}
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void cpuLoadState(FILE *F)
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{
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ULO i, j;
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fread(&cpu_model_major, sizeof(cpu_model_major), 1, F);
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fread(&cpu_model_minor, sizeof(cpu_model_minor), 1, F);
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for (i = 0; i < 2; i++)
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{
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for (j = 0; j < 7; j++)
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{
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fread(&cpu_regs[i][j], sizeof(cpu_regs[i][j]), 1, F);
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}
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}
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fread(&cpu_pc, sizeof(cpu_pc), 1, F);
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fread(&cpu_usp, sizeof(cpu_usp), 1, F);
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fread(&cpu_ssp, sizeof(cpu_ssp), 1, F);
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fread(&cpu_msp, sizeof(cpu_msp), 1, F);
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fread(&cpu_sfc, sizeof(cpu_sfc), 1, F);
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fread(&cpu_dfc, sizeof(cpu_dfc), 1, F);
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fread(&cpu_sr, sizeof(cpu_sr), 1, F);
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fread(&cpu_prefetch_word, sizeof(cpu_prefetch_word), 1, F);
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fread(&cpu_vbr, sizeof(cpu_vbr), 1, F);
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fread(&cpu_cacr, sizeof(cpu_cacr), 1, F);
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fread(&cpu_caar, sizeof(cpu_caar), 1, F);
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fread(&cpu_initial_pc, sizeof(cpu_initial_pc), 1, F);
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fread(&cpu_initial_sp, sizeof(cpu_initial_sp), 1, F);
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cpuSetModel(cpu_model_major, cpu_model_minor); // Recalculates stack frames etc.
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}
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