mirror of
https://github.com/zydeco/minivmac4ios.git
synced 2024-11-26 00:49:20 +00:00
562 lines
9.8 KiB
C
Executable File
562 lines
9.8 KiB
C
Executable File
/*
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PROGMAIN.c
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Copyright (C) 2009 Bernd Schmidt, Philip Cummins, Paul C. Pratt
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You can redistribute this file and/or modify it under the terms
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of version 2 of the GNU General Public License as published by
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the Free Software Foundation. You should have received a copy
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of the license along with this file; see the file COPYING.
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This file 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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license for more details.
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*/
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/*
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PROGram MAIN.
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*/
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#ifndef AllFiles
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#include "SYSDEPNS.h"
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#include "MYOSGLUE.h"
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#include "EMCONFIG.h"
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#include "GLOBGLUE.h"
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#include "M68KITAB.h"
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#include "MINEM68K.h"
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#include "VIAEMDEV.h"
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#if EmVIA2
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#include "VIA2EMDV.h"
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#endif
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#include "IWMEMDEV.h"
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#include "SCCEMDEV.h"
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#if EmRTC
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#include "RTCEMDEV.h"
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#endif
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#include "ROMEMDEV.h"
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#include "SCSIEMDV.h"
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#include "SONYEMDV.h"
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#include "SCRNEMDV.h"
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#if EmVidCard
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#include "VIDEMDEV.h"
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#endif
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#if EmClassicKbrd
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#include "KBRDEMDV.h"
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#elif EmPMU
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#include "PMUEMDEV.h"
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#else
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#include "ADBEMDEV.h"
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#endif
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#if EmASC
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#include "ASCEMDEV.h"
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#else
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#if MySoundEnabled && (CurEmMd != kEmMd_PB100)
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#include "SNDEMDEV.h"
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#endif
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#endif
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#include "MOUSEMDV.h"
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#endif
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#include "PROGMAIN.h"
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LOCALPROC EmulatedHardwareZap(void)
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{
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Memory_Reset();
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ICT_Zap();
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IWM_Reset();
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SCC_Reset();
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SCSI_Reset();
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VIA1_Zap();
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#if EmVIA2
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VIA2_Zap();
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#endif
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Sony_Reset();
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Extn_Reset();
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m68k_reset();
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}
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LOCALPROC DoMacReset(void)
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{
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Sony_EjectAllDisks();
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EmulatedHardwareZap();
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}
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LOCALPROC InterruptReset_Update(void)
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{
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SetInterruptButton(falseblnr);
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/*
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in case has been set. so only stays set
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for 60th of a second.
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*/
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if (WantMacInterrupt) {
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SetInterruptButton(trueblnr);
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WantMacInterrupt = falseblnr;
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}
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if (WantMacReset) {
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DoMacReset();
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WantMacReset = falseblnr;
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}
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}
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LOCALPROC SubTickNotify(int SubTick)
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{
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#if 0
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dbglog_writeCStr("ending sub tick ");
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dbglog_writeNum(SubTick);
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dbglog_writeReturn();
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#endif
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#if MySoundEnabled && (CurEmMd != kEmMd_PB100)
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MacSound_SubTick(SubTick);
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#else
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UnusedParam(SubTick);
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#endif
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}
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#define CyclesScaledPerTick (130240UL * kMyClockMult * kCycleScale)
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#define CyclesScaledPerSubTick (CyclesScaledPerTick / kNumSubTicks)
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LOCALVAR ui4r SubTickCounter;
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LOCALPROC SubTickTaskDo(void)
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{
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SubTickNotify(SubTickCounter);
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++SubTickCounter;
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if (SubTickCounter < (kNumSubTicks - 1)) {
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/*
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final SubTick handled by SubTickTaskEnd,
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since CyclesScaledPerSubTick * kNumSubTicks
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might not equal CyclesScaledPerTick.
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*/
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ICT_add(kICT_SubTick, CyclesScaledPerSubTick);
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}
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}
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LOCALPROC SubTickTaskStart(void)
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{
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SubTickCounter = 0;
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ICT_add(kICT_SubTick, CyclesScaledPerSubTick);
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}
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LOCALPROC SubTickTaskEnd(void)
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{
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SubTickNotify(kNumSubTicks - 1);
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}
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LOCALPROC SixtiethSecondNotify(void)
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{
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#if dbglog_HAVE && 0
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dbglog_StartLine();
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dbglog_writeCStr("begin new Sixtieth");
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dbglog_writeReturn();
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#endif
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Mouse_Update();
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InterruptReset_Update();
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#if EmClassicKbrd
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KeyBoard_Update();
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#endif
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#if EmADB
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ADB_Update();
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#endif
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Sixtieth_PulseNtfy(); /* Vertical Blanking Interrupt */
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Sony_Update();
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#if EmLocalTalk
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LocalTalkTick();
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#endif
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#if EmRTC
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RTC_Interrupt();
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#endif
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#if EmVidCard
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Vid_Update();
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#endif
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#if EmASC
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ASC_Update();
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#endif
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SubTickTaskStart();
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}
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LOCALPROC SixtiethEndNotify(void)
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{
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SubTickTaskEnd();
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Mouse_EndTickNotify();
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Screen_EndTickNotify();
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#if dbglog_HAVE && 0
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dbglog_StartLine();
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dbglog_writeCStr("end Sixtieth");
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dbglog_writeReturn();
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#endif
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}
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LOCALPROC ExtraTimeBeginNotify(void)
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{
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#if 0
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dbglog_writeCStr("begin extra time");
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dbglog_writeReturn();
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#endif
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VIA1_ExtraTimeBegin();
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#if EmVIA2
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VIA2_ExtraTimeBegin();
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#endif
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}
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LOCALPROC ExtraTimeEndNotify(void)
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{
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VIA1_ExtraTimeEnd();
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#if EmVIA2
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VIA2_ExtraTimeEnd();
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#endif
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#if 0
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dbglog_writeCStr("end extra time");
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dbglog_writeReturn();
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#endif
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}
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GLOBALPROC EmulationReserveAlloc(void)
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{
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ReserveAllocOneBlock(&RAM,
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kRAM_Size + RAMSafetyMarginFudge, 5, falseblnr);
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#if EmVidCard
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ReserveAllocOneBlock(&VidROM, kVidROM_Size, 5, falseblnr);
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#endif
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#if IncludeVidMem
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ReserveAllocOneBlock(&VidMem,
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kVidMemRAM_Size + RAMSafetyMarginFudge, 5, trueblnr);
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#endif
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#if SmallGlobals
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MINEM68K_ReserveAlloc();
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#endif
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}
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LOCALFUNC blnr InitEmulation(void)
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{
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#if EmRTC
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if (RTC_Init())
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#endif
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if (ROM_Init())
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#if EmVidCard
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if (Vid_Init())
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#endif
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if (AddrSpac_Init())
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{
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EmulatedHardwareZap();
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return trueblnr;
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}
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return falseblnr;
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}
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LOCALPROC ICT_DoTask(int taskid)
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{
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switch (taskid) {
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case kICT_SubTick:
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SubTickTaskDo();
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break;
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#if EmClassicKbrd
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case kICT_Kybd_ReceiveEndCommand:
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DoKybd_ReceiveEndCommand();
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break;
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case kICT_Kybd_ReceiveCommand:
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DoKybd_ReceiveCommand();
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break;
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#endif
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#if EmADB
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case kICT_ADB_NewState:
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ADB_DoNewState();
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break;
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#endif
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#if EmPMU
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case kICT_PMU_Task:
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PMU_DoTask();
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break;
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#endif
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case kICT_VIA1_Timer1Check:
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VIA1_DoTimer1Check();
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break;
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case kICT_VIA1_Timer2Check:
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VIA1_DoTimer2Check();
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break;
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#if EmVIA2
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case kICT_VIA2_Timer1Check:
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VIA2_DoTimer1Check();
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break;
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case kICT_VIA2_Timer2Check:
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VIA2_DoTimer2Check();
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break;
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#endif
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default:
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ReportAbnormal("unknown taskid in ICT_DoTask");
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break;
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}
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}
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LOCALPROC ICT_DoCurrentTasks(void)
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{
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int i = 0;
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uimr m = ICTactive;
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while (0 != m) {
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if (0 != (m & 1)) {
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if (i >= kNumICTs) {
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/* shouldn't happen */
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ICTactive &= ((1 << kNumICTs) - 1);
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m = 0;
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} else if (ICTwhen[i] == NextiCount) {
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ICTactive &= ~ (1 << i);
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#ifdef _VIA_Debug
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fprintf(stderr, "doing task %d, %d\n", NextiCount, i);
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#endif
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ICT_DoTask(i);
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/*
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A Task may set the time of
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any task, including itself.
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But it cannot set any task
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to execute immediately, so
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one pass is sufficient.
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*/
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}
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}
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++i;
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m >>= 1;
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}
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}
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LOCALFUNC ui5b ICT_DoGetNext(ui5b maxn)
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{
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int i = 0;
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uimr m = ICTactive;
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ui5b v = maxn;
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while (0 != m) {
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if (0 != (m & 1)) {
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if (i >= kNumICTs) {
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/* shouldn't happen */
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m = 0;
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} else {
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ui5b d = ICTwhen[i] - NextiCount;
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/* at this point d must be > 0 */
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if (d < v) {
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#ifdef _VIA_Debug
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fprintf(stderr, "coming task %d, %d, %d\n",
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NextiCount, i, d);
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#endif
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v = d;
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}
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}
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}
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++i;
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m >>= 1;
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}
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return v;
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}
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LOCALPROC m68k_go_nCycles_1(ui5b n)
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{
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ui5b n2;
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ui5b StopiCount = NextiCount + n;
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do {
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ICT_DoCurrentTasks();
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n2 = ICT_DoGetNext(n);
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#if dbglog_HAVE && 0
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dbglog_StartLine();
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dbglog_writeCStr("before m68k_go_nCycles, NextiCount:");
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dbglog_writeHex(NextiCount);
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dbglog_writeCStr(", n2:");
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dbglog_writeHex(n2);
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dbglog_writeCStr(", n:");
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dbglog_writeHex(n);
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dbglog_writeReturn();
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#endif
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NextiCount += n2;
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m68k_go_nCycles(n2);
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n = StopiCount - NextiCount;
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} while (n != 0);
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}
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LOCALVAR ui5b ExtraSubTicksToDo = 0;
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LOCALPROC DoEmulateOneTick(void)
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{
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#if EnableAutoSlow
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{
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ui5r NewQuietTime = QuietTime + 1;
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if (NewQuietTime > QuietTime) {
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/* if not overflow */
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QuietTime = NewQuietTime;
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}
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}
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#endif
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#if EnableAutoSlow
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{
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ui5r NewQuietSubTicks = QuietSubTicks + kNumSubTicks;
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if (NewQuietSubTicks > QuietSubTicks) {
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/* if not overflow */
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QuietSubTicks = NewQuietSubTicks;
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}
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}
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#endif
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SixtiethSecondNotify();
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m68k_go_nCycles_1(CyclesScaledPerTick);
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SixtiethEndNotify();
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if ((ui3b) -1 == SpeedValue) {
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ExtraSubTicksToDo = (ui5b) -1;
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} else {
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ui5b ExtraAdd = (kNumSubTicks << SpeedValue) - kNumSubTicks;
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ui5b ExtraLimit = ExtraAdd << 3;
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ExtraSubTicksToDo += ExtraAdd;
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if (ExtraSubTicksToDo > ExtraLimit) {
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ExtraSubTicksToDo = ExtraLimit;
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}
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}
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}
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LOCALFUNC blnr MoreSubTicksToDo(void)
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{
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blnr v = falseblnr;
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if (ExtraTimeNotOver() && (ExtraSubTicksToDo > 0)) {
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#if EnableAutoSlow
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if ((QuietSubTicks >= 16384)
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&& (QuietTime >= 34)
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&& ! WantNotAutoSlow)
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{
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ExtraSubTicksToDo = 0;
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} else
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#endif
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{
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v = trueblnr;
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}
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}
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return v;
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}
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LOCALPROC DoEmulateExtraTime(void)
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{
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/*
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DoEmulateExtraTime is used for
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anything over emulation speed
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of 1x. It periodically calls
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ExtraTimeNotOver and stops
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when this returns false (or it
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is finished with emulating the
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extra time).
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*/
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if (MoreSubTicksToDo()) {
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ExtraTimeBeginNotify();
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do {
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#if EnableAutoSlow
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{
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ui5r NewQuietSubTicks = QuietSubTicks + 1;
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if (NewQuietSubTicks > QuietSubTicks) {
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/* if not overflow */
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QuietSubTicks = NewQuietSubTicks;
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}
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}
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#endif
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m68k_go_nCycles_1(CyclesScaledPerSubTick);
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--ExtraSubTicksToDo;
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} while (MoreSubTicksToDo());
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ExtraTimeEndNotify();
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}
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}
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LOCALVAR ui5b CurEmulatedTime = 0;
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/*
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The number of ticks that have been
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emulated so far.
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That is, the number of times
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"DoEmulateOneTick" has been called.
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*/
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LOCALPROC RunEmulatedTicksToTrueTime(void)
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{
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/*
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The general idea is to call DoEmulateOneTick
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once per tick.
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But if emulation is lagging, we'll try to
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catch up by calling DoEmulateOneTick multiple
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times, unless we're too far behind, in
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which case we forget it.
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If emulating one tick takes longer than
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a tick we don't want to sit here
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forever. So the maximum number of calls
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to DoEmulateOneTick is determined at
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the beginning, rather than just
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calling DoEmulateOneTick until
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CurEmulatedTime >= TrueEmulatedTime.
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*/
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si3b n = OnTrueTime - CurEmulatedTime;
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if (n > 0) {
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DoEmulateOneTick();
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++CurEmulatedTime;
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DoneWithDrawingForTick();
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if (n > 8) {
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/* emulation not fast enough */
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n = 8;
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CurEmulatedTime = OnTrueTime - n;
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}
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if (ExtraTimeNotOver() && (--n > 0)) {
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/* lagging, catch up */
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EmVideoDisable = trueblnr;
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do {
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DoEmulateOneTick();
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++CurEmulatedTime;
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} while (ExtraTimeNotOver()
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&& (--n > 0));
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EmVideoDisable = falseblnr;
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}
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EmLagTime = n;
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}
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}
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LOCALPROC MainEventLoop(void)
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{
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for (; ; ) {
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WaitForNextTick();
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if (ForceMacOff) {
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return;
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}
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RunEmulatedTicksToTrueTime();
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DoEmulateExtraTime();
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}
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}
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GLOBALPROC ProgramMain(void)
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{
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if (InitEmulation())
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{
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MainEventLoop();
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}
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}
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