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AppleWin
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AppleWin/source/Applewin.cpp

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/*
AppleWin : An Apple //e emulator for Windows
Copyright (C) 1994-1996, Michael O'Brien
Copyright (C) 1999-2001, Oliver Schmidt
Copyright (C) 2002-2005, Tom Charlesworth
Copyright (C) 2006-2014, Tom Charlesworth, Michael Pohoreski
AppleWin 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 2 of the License, or
(at your option) any later version.
AppleWin 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 AppleWin; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/* Description: main
*
* Author: Various
*/
#include "StdAfx.h"
#include "Applewin.h"
#include "CardManager.h"
#include "CPU.h"
#include "Debug.h"
#include "Disk.h"
#include "DiskImage.h"
#include "Frame.h"
#include "Harddisk.h"
#include "Joystick.h"
#include "Keyboard.h"
#include "LanguageCard.h"
#include "Log.h"
#include "Memory.h"
#include "Mockingboard.h"
#include "MouseInterface.h"
#include "ParallelPrinter.h"
#include "Registry.h"
#include "Riff.h"
#include "SaveState.h"
#include "SerialComms.h"
#include "SoundCore.h"
#include "Speaker.h"
#ifdef USE_SPEECH_API
#include "Speech.h"
#endif
#include "Video.h"
#include "RGBMonitor.h"
#include "NTSC.h"
#include "Configuration/About.h"
#include "Configuration/PropertySheet.h"
#include "Tfe/Tfe.h"
static const UINT VERSIONSTRING_SIZE = 16;
static UINT16 g_AppleWinVersion[4] = {0};
static UINT16 g_OldAppleWinVersion[4] = {0};
TCHAR VERSIONSTRING[VERSIONSTRING_SIZE] = "xx.yy.zz.ww";
std::string g_pAppTitle;
eApple2Type g_Apple2Type = A2TYPE_APPLE2EENHANCED;
bool g_bFullSpeed = false;
//=================================================
// Win32
HINSTANCE g_hInstance = (HINSTANCE)0;
AppMode_e g_nAppMode = MODE_LOGO;
static bool g_bLoadedSaveState = false;
static bool g_bSysClkOK = false;
std::string g_sStartDir; // NB. AppleWin.exe maybe relative to this! (GH#663)
std::string g_sProgramDir; // Directory of where AppleWin executable resides
std::string g_sDebugDir; // TODO: Not currently used
std::string g_sScreenShotDir; // TODO: Not currently used
std::string g_sConfigFile; // INI file to use instead of Registry
bool g_bCapturePrintScreenKey = true;
static bool g_bHookSystemKey = true;
static bool g_bHookAltTab = false;
static bool g_bHookAltGrControl = false;
std::string g_sCurrentDir; // Also Starting Dir. Debugger uses this when load/save
bool g_bRestart = false;
bool g_bRestartFullScreen = false;
DWORD g_dwSpeed = SPEED_NORMAL; // Affected by Config dialog's speed slider bar
double g_fCurrentCLK6502 = CLK_6502_NTSC; // Affected by Config dialog's speed slider bar
static double g_fMHz = 1.0; // Affected by Config dialog's speed slider bar
int g_nCpuCyclesFeedback = 0;
DWORD g_dwCyclesThisFrame = 0;
bool g_bDisableDirectInput = false;
bool g_bDisableDirectSound = false;
bool g_bDisableDirectSoundMockingboard = false;
int g_nMemoryClearType = MIP_FF_FF_00_00; // Note: -1 = random MIP in Memory.cpp MemReset()
CardManager g_CardMgr;
IPropertySheet& sg_PropertySheet = * new CPropertySheet;
HANDLE g_hCustomRomF8 = INVALID_HANDLE_VALUE; // Cmd-line specified custom F8 ROM at $F800..$FFFF
static bool g_bCustomRomF8Failed = false; // Set if custom F8 ROM file failed
HANDLE g_hCustomRom = INVALID_HANDLE_VALUE; // Cmd-line specified custom ROM at $C000..$FFFF(16KiB) or $D000..$FFFF(12KiB)
static bool g_bCustomRomFailed = false; // Set if custom ROM file failed
static bool g_bEnableSpeech = false;
#ifdef USE_SPEECH_API
CSpeech g_Speech;
#endif
//===========================================================================
#ifdef LOG_PERF_TIMINGS
static UINT64 g_timeTotal = 0;
UINT64 g_timeCpu = 0;
UINT64 g_timeVideo = 0; // part of timeCpu
UINT64 g_timeMB_Timer = 0; // part of timeCpu
UINT64 g_timeMB_NoTimer = 0;
UINT64 g_timeSpeaker = 0;
static UINT64 g_timeVideoRefresh = 0;
void LogPerfTimings(void)
{
if (g_timeTotal)
{
UINT64 cpu = g_timeCpu - g_timeVideo - g_timeMB_Timer;
UINT64 video = g_timeVideo + g_timeVideoRefresh;
UINT64 spkr = g_timeSpeaker;
UINT64 mb = g_timeMB_Timer + g_timeMB_NoTimer;
UINT64 audio = spkr + mb;
UINT64 other = g_timeTotal - g_timeCpu - g_timeSpeaker - g_timeMB_NoTimer - g_timeVideoRefresh;
LogOutput("Perf breakdown:\n");
LogOutput(". CPU %% = %6.2f\n", (double)cpu / (double)g_timeTotal * 100.0);
LogOutput(". Video %% = %6.2f\n", (double)video / (double)g_timeTotal * 100.0);
LogOutput("... NTSC %% = %6.2f\n", (double)g_timeVideo / (double)g_timeTotal * 100.0);
LogOutput("... refresh %% = %6.2f\n", (double)g_timeVideoRefresh / (double)g_timeTotal * 100.0);
LogOutput(". Audio %% = %6.2f\n", (double)audio / (double)g_timeTotal * 100.0);
LogOutput("... Speaker %% = %6.2f\n", (double)spkr / (double)g_timeTotal * 100.0);
LogOutput("... MB %% = %6.2f\n", (double)mb / (double)g_timeTotal * 100.0);
LogOutput(". Other %% = %6.2f\n", (double)other / (double)g_timeTotal * 100.0);
LogOutput(". TOTAL %% = %6.2f\n", (double)(cpu+video+audio+other) / (double)g_timeTotal * 100.0);
}
}
#endif
//===========================================================================
static DWORD dwLogKeyReadTickStart;
static bool bLogKeyReadDone = false;
void LogFileTimeUntilFirstKeyReadReset(void)
{
#ifdef LOG_PERF_TIMINGS
LogPerfTimings();
#endif
if (!g_fh)
return;
dwLogKeyReadTickStart = GetTickCount();
bLogKeyReadDone = false;
}
// Log the time from emulation restart/reboot until the first key read: BIT $C000
// . AZTEC.DSK (DOS 3.3) does prior LDY $C000 reads, but the BIT $C000 is at the "Press any key" message
// . Phasor1.dsk / ProDOS 1.1.1: PC=E797: B1 50: LDA ($50),Y / "Select an Option:" message
// . Rescue Raiders v1.3,v1.5: PC=895: LDA $C000 / boot to intro
void LogFileTimeUntilFirstKeyRead(void)
{
if (!g_fh || bLogKeyReadDone)
return;
if ( (mem[regs.pc-3] != 0x2C) // AZTEC: bit $c000
&& !((regs.pc-2) == 0xE797 && mem[regs.pc-2] == 0xB1 && mem[regs.pc-1] == 0x50) // Phasor1: lda ($50),y
&& !((regs.pc-3) == 0x0895 && mem[regs.pc-3] == 0xAD) // Rescue Raiders v1.3,v1.5: lda $c000
)
return;
DWORD dwTime = GetTickCount() - dwLogKeyReadTickStart;
LogFileOutput("Time from emulation reboot until first $C000 access: %d msec\n", dwTime);
bLogKeyReadDone = true;
}
//---------------------------------------------------------------------------
eApple2Type GetApple2Type(void)
{
return g_Apple2Type;
}
void SetApple2Type(eApple2Type type)
{
g_Apple2Type = type;
SetMainCpuDefault(type);
}
const UINT16* GetOldAppleWinVersion(void)
{
return g_OldAppleWinVersion;
}
bool GetLoadedSaveStateFlag(void)
{
return g_bLoadedSaveState;
}
void SetLoadedSaveStateFlag(const bool bFlag)
{
g_bLoadedSaveState = bFlag;
}
bool GetHookAltGrControl(void)
{
return g_bHookAltGrControl;
}
static void ResetToLogoMode(void)
{
g_nAppMode = MODE_LOGO;
SetLoadedSaveStateFlag(false);
}
//---------------------------------------------------------------------------
static bool g_bPriorityNormal = true;
// Make APPLEWIN process higher priority
void SetPriorityAboveNormal(void)
{
if (!g_bPriorityNormal)
return;
if ( SetPriorityClass(GetCurrentProcess(), ABOVE_NORMAL_PRIORITY_CLASS) )
{
SetThreadPriority(GetCurrentThread(), THREAD_PRIORITY_ABOVE_NORMAL);
g_bPriorityNormal = false;
}
}
// Make APPLEWIN process normal priority
void SetPriorityNormal(void)
{
if (g_bPriorityNormal)
return;
if ( SetPriorityClass(GetCurrentProcess(), NORMAL_PRIORITY_CLASS) )
{
SetThreadPriority(GetCurrentThread(), THREAD_PRIORITY_NORMAL);
g_bPriorityNormal = true;
}
}
//---------------------------------------------------------------------------
static UINT g_uModeStepping_Cycles = 0;
static bool g_uModeStepping_LastGetKey_ScrollLock = false;
static void ContinueExecution(void)
{
#ifdef LOG_PERF_TIMINGS
PerfMarker* pPerfMarkerTotal = new PerfMarker(g_timeTotal);
#endif
_ASSERT(g_nAppMode == MODE_RUNNING || g_nAppMode == MODE_STEPPING);
const double fUsecPerSec = 1.e6;
#if 1
const UINT nExecutionPeriodUsec = 1000; // 1.0ms
// const UINT nExecutionPeriodUsec = 100; // 0.1ms
const double fExecutionPeriodClks = g_fCurrentCLK6502 * ((double)nExecutionPeriodUsec / fUsecPerSec);
#else
const double fExecutionPeriodClks = 1800.0;
const UINT nExecutionPeriodUsec = (UINT) (fUsecPerSec * (fExecutionPeriodClks / g_fCurrentCLK6502));
#endif
//
bool bScrollLock_FullSpeed = false;
if (sg_PropertySheet.GetScrollLockToggle())
{
bScrollLock_FullSpeed = g_bScrollLock_FullSpeed;
}
else
{
if (g_nAppMode == MODE_RUNNING)
{
bScrollLock_FullSpeed = GetKeyState(VK_SCROLL) < 0;
}
else if (!IsDebugSteppingAtFullSpeed()) // Implicitly: MODE_STEPPING
{
// NB. For MODE_STEPPING: GetKeyState() is slow, so only call periodically
// . 0x3FFF is roughly the number of cycles in a video frame, which seems a reasonable rate to call GetKeyState()
if ((g_uModeStepping_Cycles & 0x3FFF) == 0)
g_uModeStepping_LastGetKey_ScrollLock = GetKeyState(VK_SCROLL) < 0;
bScrollLock_FullSpeed = g_uModeStepping_LastGetKey_ScrollLock;
}
}
const bool bWasFullSpeed = g_bFullSpeed;
g_bFullSpeed = (g_dwSpeed == SPEED_MAX) ||
bScrollLock_FullSpeed ||
(g_CardMgr.GetDisk2CardMgr().IsConditionForFullSpeed() && !Spkr_IsActive() && !MB_IsActive()) ||
IsDebugSteppingAtFullSpeed();
if (g_bFullSpeed)
{
if (!bWasFullSpeed)
VideoRedrawScreenDuringFullSpeed(0, true); // Init for full-speed mode
// Don't call Spkr_Mute() - will get speaker clicks
MB_Mute();
SysClk_StopTimer();
#ifdef USE_SPEECH_API
g_Speech.Reset(); // TODO: Put this on a timer (in emulated cycles)... otherwise CATALOG cuts out
#endif
g_nCpuCyclesFeedback = 0; // For the case when this is a big -ve number
// Switch to normal priority so that APPLEWIN process doesn't hog machine!
//. EG: No disk in Drive-1, and boot Apple: Windows will start to crawl!
SetPriorityNormal();
}
else
{
if (bWasFullSpeed)
VideoRedrawScreenAfterFullSpeed(g_dwCyclesThisFrame);
// Don't call Spkr_Demute()
MB_Demute();
SysClk_StartTimerUsec(nExecutionPeriodUsec);
// Switch to higher priority, eg. for audio (BUG #015394)
SetPriorityAboveNormal();
}
//
int nCyclesWithFeedback = (int) fExecutionPeriodClks + g_nCpuCyclesFeedback;
const UINT uCyclesToExecuteWithFeedback = (nCyclesWithFeedback >= 0) ? nCyclesWithFeedback
: 0;
const DWORD uCyclesToExecute = (g_nAppMode == MODE_RUNNING) ? uCyclesToExecuteWithFeedback
/* MODE_STEPPING */ : 0;
const bool bVideoUpdate = !g_bFullSpeed;
const DWORD uActualCyclesExecuted = CpuExecute(uCyclesToExecute, bVideoUpdate);
g_dwCyclesThisFrame += uActualCyclesExecuted;
g_CardMgr.GetDisk2CardMgr().UpdateDriveState(uActualCyclesExecuted);
JoyUpdateButtonLatch(nExecutionPeriodUsec); // Button latch time is independent of CPU clock frequency
PrintUpdate(uActualCyclesExecuted);
MB_PeriodicUpdate(uActualCyclesExecuted);
//
DWORD uSpkrActualCyclesExecuted = uActualCyclesExecuted;
bool bModeStepping_WaitTimer = false;
if (g_nAppMode == MODE_STEPPING && !IsDebugSteppingAtFullSpeed())
{
g_uModeStepping_Cycles += uActualCyclesExecuted;
if (g_uModeStepping_Cycles >= uCyclesToExecuteWithFeedback)
{
uSpkrActualCyclesExecuted = g_uModeStepping_Cycles;
g_uModeStepping_Cycles -= uCyclesToExecuteWithFeedback;
bModeStepping_WaitTimer = true;
}
}
// For MODE_STEPPING: do this speaker update periodically
// - Otherwise kills performance due to sound-buffer lock/unlock for every 6502 opcode!
if (g_nAppMode == MODE_RUNNING || bModeStepping_WaitTimer)
SpkrUpdate(uSpkrActualCyclesExecuted);
//
const UINT dwClksPerFrame = NTSC_GetCyclesPerFrame();
if (g_dwCyclesThisFrame >= dwClksPerFrame && !VideoGetVblBarEx(g_dwCyclesThisFrame))
{
#ifdef LOG_PERF_TIMINGS
PerfMarker perfMarkerVideoRefresh(g_timeVideoRefresh);
#endif
g_dwCyclesThisFrame -= dwClksPerFrame;
if (g_bFullSpeed)
VideoRedrawScreenDuringFullSpeed(g_dwCyclesThisFrame);
else
VideoRefreshScreen(); // Just copy the output of our Apple framebuffer to the system Back Buffer
}
#ifdef LOG_PERF_TIMINGS
delete pPerfMarkerTotal; // Explicitly call dtor *before* SysClk_WaitTimer()
#endif
if ((g_nAppMode == MODE_RUNNING && !g_bFullSpeed) || bModeStepping_WaitTimer)
{
SysClk_WaitTimer();
}
}
void SingleStep(bool bReinit)
{
if (bReinit)
{
g_uModeStepping_Cycles = 0;
g_uModeStepping_LastGetKey_ScrollLock = false;
}
ContinueExecution();
}
//===========================================================================
double Get6502BaseClock(void)
{
return (GetVideoRefreshRate() == VR_50HZ) ? CLK_6502_PAL : CLK_6502_NTSC;
}
void UseClockMultiplier(double clockMultiplier)
{
if (clockMultiplier == 0.0)
return;
if (clockMultiplier < 1.0)
{
if (clockMultiplier < 0.5)
clockMultiplier = 0.5;
g_dwSpeed = (ULONG)((clockMultiplier - 0.5) * 20); // [0.5..0.9] -> [0..9]
}
else
{
g_dwSpeed = (ULONG)(clockMultiplier * 10);
if (g_dwSpeed >= SPEED_MAX)
g_dwSpeed = SPEED_MAX - 1;
}
SetCurrentCLK6502();
}
void SetCurrentCLK6502(void)
{
static DWORD dwPrevSpeed = (DWORD) -1;
static VideoRefreshRate_e prevVideoRefreshRate = VR_NONE;
if (dwPrevSpeed == g_dwSpeed && GetVideoRefreshRate() == prevVideoRefreshRate)
return;
dwPrevSpeed = g_dwSpeed;
prevVideoRefreshRate = GetVideoRefreshRate();
// SPEED_MIN = 0 = 0.50 MHz
// SPEED_NORMAL = 10 = 1.00 MHz
// 20 = 2.00 MHz
// SPEED_MAX-1 = 39 = 3.90 MHz
// SPEED_MAX = 40 = ???? MHz (run full-speed, /g_fCurrentCLK6502/ is ignored)
if(g_dwSpeed < SPEED_NORMAL)
g_fMHz = 0.5 + (double)g_dwSpeed * 0.05;
else
g_fMHz = (double)g_dwSpeed / 10.0;
g_fCurrentCLK6502 = Get6502BaseClock() * g_fMHz;
//
// Now re-init modules that are dependent on /g_fCurrentCLK6502/
//
SpkrReinitialize();
MB_Reinitialize();
}
//===========================================================================
void EnterMessageLoop(void)
{
MSG message;
PeekMessage(&message, NULL, 0, 0, PM_NOREMOVE);
while (message.message!=WM_QUIT)
{
if (PeekMessage(&message, NULL, 0, 0, PM_REMOVE))
{
TranslateMessage(&message);
DispatchMessage(&message);
while ((g_nAppMode == MODE_RUNNING) || (g_nAppMode == MODE_STEPPING))
{
if (PeekMessage(&message,0,0,0,PM_REMOVE))
{
if (message.message == WM_QUIT)
return;
TranslateMessage(&message);
DispatchMessage(&message);
}
else if (g_nAppMode == MODE_STEPPING)
{
DebugContinueStepping();
}
else
{
ContinueExecution();
if (g_nAppMode != MODE_DEBUG)
{
if (g_bFullSpeed)
ContinueExecution();
}
}
}
}
else
{
if (g_nAppMode == MODE_DEBUG)
DebuggerUpdate();
else if (g_nAppMode == MODE_PAUSED)
Sleep(1); // Stop process hogging CPU - 1ms, as need to fade-out speaker sound buffer
else if (g_nAppMode == MODE_LOGO)
Sleep(1); // Stop process hogging CPU (NB. don't delay for too long otherwise key input can be slow in other apps - GH#569)
}
}
}
//===========================================================================
static void GetProgramDirectory(void)
{
TCHAR programDir[MAX_PATH];
GetModuleFileName((HINSTANCE)0, programDir, MAX_PATH);
programDir[MAX_PATH-1] = 0;
g_sProgramDir = programDir;
int loop = g_sProgramDir.size();
while (loop--)
{
if ((g_sProgramDir[loop] == TEXT('\\')) || (g_sProgramDir[loop] == TEXT(':')))
{
g_sProgramDir.resize(loop + 1); // this reduces the size
break;
}
}
}
//===========================================================================
// Backwards compatibility with AppleWin <1.24.0
static void LoadConfigOldJoystick_v1(const UINT uJoyNum)
{
DWORD dwOldJoyType;
if (!REGLOAD(TEXT(uJoyNum==0 ? REGVALUE_OLD_JOYSTICK0_EMU_TYPE1 : REGVALUE_OLD_JOYSTICK1_EMU_TYPE1), &dwOldJoyType))
return; // EG. Old AppleWin never installed
UINT uNewJoyType;
switch (dwOldJoyType)
{
case 0: // Disabled
default:
uNewJoyType = J0C_DISABLED;
break;
case 1: // PC Joystick
uNewJoyType = J0C_JOYSTICK1;
break;
case 2: // Keyboard (standard)
uNewJoyType = J0C_KEYBD_NUMPAD;
sg_PropertySheet.SetJoystickCenteringControl(JOYSTICK_MODE_FLOATING);
break;
case 3: // Keyboard (centering)
uNewJoyType = J0C_KEYBD_NUMPAD;
sg_PropertySheet.SetJoystickCenteringControl(JOYSTICK_MODE_CENTERING);
break;
case 4: // Mouse
uNewJoyType = J0C_MOUSE;
break;
}
JoySetJoyType(uJoyNum, uNewJoyType);
}
//Reads configuration from the registry entries
void LoadConfiguration(void)
{
DWORD dwComputerType = 0;
eApple2Type apple2Type = A2TYPE_APPLE2EENHANCED;
if (REGLOAD(TEXT(REGVALUE_APPLE2_TYPE), &dwComputerType))
{
const DWORD dwLoadedComputerType = dwComputerType;
if ( (dwComputerType >= A2TYPE_MAX) ||
(dwComputerType >= A2TYPE_UNDEFINED && dwComputerType < A2TYPE_CLONE) ||
(dwComputerType >= A2TYPE_CLONE_A2_MAX && dwComputerType < A2TYPE_CLONE_A2E) )
dwComputerType = A2TYPE_APPLE2EENHANCED;
// Remap the bad Pravets models (before AppleWin v1.26)
if (dwComputerType == A2TYPE_BAD_PRAVETS82) dwComputerType = A2TYPE_PRAVETS82;
if (dwComputerType == A2TYPE_BAD_PRAVETS8M) dwComputerType = A2TYPE_PRAVETS8M;
// Remap the bad Pravets models (at AppleWin v1.26) - GH#415
if (dwComputerType == A2TYPE_CLONE) dwComputerType = A2TYPE_PRAVETS82;
if (dwLoadedComputerType != dwComputerType)
{
char sText[100];
StringCbPrintf(sText, sizeof(sText), "Unsupported Apple2Type(%d). Changing to %d", dwLoadedComputerType, dwComputerType);
LogFileOutput("%s\n", sText);
MessageBox(
GetDesktopWindow(), // NB. g_hFrameWindow is not yet valid
sText,
"Load Configuration",
MB_ICONSTOP | MB_SETFOREGROUND);
sg_PropertySheet.ConfigSaveApple2Type((eApple2Type)dwComputerType);
}
apple2Type = (eApple2Type) dwComputerType;
}
else if (REGLOAD(TEXT(REGVALUE_OLD_APPLE2_TYPE), &dwComputerType)) // Support older AppleWin registry entries
{
switch (dwComputerType)
{
// NB. No A2TYPE_APPLE2E (this is correct)
case 0: apple2Type = A2TYPE_APPLE2; break;
case 1: apple2Type = A2TYPE_APPLE2PLUS; break;
case 2: apple2Type = A2TYPE_APPLE2EENHANCED; break;
default: apple2Type = A2TYPE_APPLE2EENHANCED; break;
}
}
SetApple2Type(apple2Type);
//
DWORD dwMainCpuType;
REGLOAD_DEFAULT(TEXT(REGVALUE_CPU_TYPE), &dwMainCpuType, CPU_65C02);
if (dwMainCpuType != CPU_6502 && dwMainCpuType != CPU_65C02)
dwMainCpuType = CPU_65C02;
SetMainCpu((eCpuType)dwMainCpuType);
//
DWORD dwJoyType;
if (REGLOAD(TEXT(REGVALUE_JOYSTICK0_EMU_TYPE), &dwJoyType))
JoySetJoyType(JN_JOYSTICK0, dwJoyType);
else if (REGLOAD(TEXT(REGVALUE_OLD_JOYSTICK0_EMU_TYPE2), &dwJoyType)) // GH#434
JoySetJoyType(JN_JOYSTICK0, dwJoyType);
else
LoadConfigOldJoystick_v1(JN_JOYSTICK0);
if (REGLOAD(TEXT(REGVALUE_JOYSTICK1_EMU_TYPE), &dwJoyType))
JoySetJoyType(JN_JOYSTICK1, dwJoyType);
else if (REGLOAD(TEXT(REGVALUE_OLD_JOYSTICK1_EMU_TYPE2), &dwJoyType)) // GH#434
JoySetJoyType(JN_JOYSTICK1, dwJoyType);
else
LoadConfigOldJoystick_v1(JN_JOYSTICK1);
DWORD dwSoundType;
REGLOAD_DEFAULT(TEXT(REGVALUE_SOUND_EMULATION), &dwSoundType, REG_SOUNDTYPE_WAVE);
switch (dwSoundType)
{
case REG_SOUNDTYPE_NONE:
case REG_SOUNDTYPE_DIRECT: // Not supported from 1.26
case REG_SOUNDTYPE_SMART: // Not supported from 1.26
default:
soundtype = SOUND_NONE;
break;
case REG_SOUNDTYPE_WAVE:
soundtype = SOUND_WAVE;
break;
}
TCHAR serialPortName[CSuperSerialCard::SIZEOF_SERIALCHOICE_ITEM];
if (RegLoadString(
TEXT(REG_CONFIG),
TEXT(REGVALUE_SERIAL_PORT_NAME),
TRUE,
serialPortName,
CSuperSerialCard::SIZEOF_SERIALCHOICE_ITEM))
{
if (g_CardMgr.IsSSCInstalled())
g_CardMgr.GetSSC()->SetSerialPortName(serialPortName);
}
REGLOAD_DEFAULT(TEXT(REGVALUE_EMULATION_SPEED), &g_dwSpeed, SPEED_NORMAL);
Config_Load_Video();
SetCurrentCLK6502(); // Pre: g_dwSpeed && Config_Load_Video()->SetVideoRefreshRate()
DWORD dwEnhanceDisk;
REGLOAD_DEFAULT(TEXT(REGVALUE_ENHANCE_DISK_SPEED), &dwEnhanceDisk, 1);
g_CardMgr.GetDisk2CardMgr().SetEnhanceDisk(dwEnhanceDisk ? true : false);
//
DWORD dwTmp = 0;
if(REGLOAD(TEXT(REGVALUE_FS_SHOW_SUBUNIT_STATUS), &dwTmp))
SetFullScreenShowSubunitStatus(dwTmp ? true : false);
if(REGLOAD(TEXT(REGVALUE_THE_FREEZES_F8_ROM), &dwTmp))
sg_PropertySheet.SetTheFreezesF8Rom(dwTmp);
if(REGLOAD(TEXT(REGVALUE_SPKR_VOLUME), &dwTmp))
SpkrSetVolume(dwTmp, sg_PropertySheet.GetVolumeMax());
if(REGLOAD(TEXT(REGVALUE_MB_VOLUME), &dwTmp))
MB_SetVolume(dwTmp, sg_PropertySheet.GetVolumeMax());
if(REGLOAD(TEXT(REGVALUE_SAVE_STATE_ON_EXIT), &dwTmp))
g_bSaveStateOnExit = dwTmp ? true : false;
if(REGLOAD(TEXT(REGVALUE_DUMP_TO_PRINTER), &dwTmp))
g_bDumpToPrinter = dwTmp ? true : false;
if(REGLOAD(TEXT(REGVALUE_CONVERT_ENCODING), &dwTmp))
g_bConvertEncoding = dwTmp ? true : false;
if(REGLOAD(TEXT(REGVALUE_FILTER_UNPRINTABLE), &dwTmp))
g_bFilterUnprintable = dwTmp ? true : false;
if(REGLOAD(TEXT(REGVALUE_PRINTER_APPEND), &dwTmp))
g_bPrinterAppend = dwTmp ? true : false;
if(REGLOAD(TEXT(REGVALUE_HDD_ENABLED), &dwTmp)) // TODO: Change to REGVALUE_SLOT7
HD_SetEnabled(dwTmp ? true : false);
if(REGLOAD(TEXT(REGVALUE_PDL_XTRIM), &dwTmp))
JoySetTrim((short)dwTmp, true);
if(REGLOAD(TEXT(REGVALUE_PDL_YTRIM), &dwTmp))
JoySetTrim((short)dwTmp, false);
if(REGLOAD(TEXT(REGVALUE_SCROLLLOCK_TOGGLE), &dwTmp))
sg_PropertySheet.SetScrollLockToggle(dwTmp);
if(REGLOAD(TEXT(REGVALUE_CURSOR_CONTROL), &dwTmp))
sg_PropertySheet.SetJoystickCursorControl(dwTmp);
if(REGLOAD(TEXT(REGVALUE_AUTOFIRE), &dwTmp))
sg_PropertySheet.SetAutofire(dwTmp);
if(REGLOAD(TEXT(REGVALUE_SWAP_BUTTONS_0_AND_1), &dwTmp))
sg_PropertySheet.SetButtonsSwapState(dwTmp ? true : false);
if(REGLOAD(TEXT(REGVALUE_CENTERING_CONTROL), &dwTmp))
sg_PropertySheet.SetJoystickCenteringControl(dwTmp);
if(REGLOAD(TEXT(REGVALUE_MOUSE_CROSSHAIR), &dwTmp))
sg_PropertySheet.SetMouseShowCrosshair(dwTmp);
if(REGLOAD(TEXT(REGVALUE_MOUSE_RESTRICT_TO_WINDOW), &dwTmp))
sg_PropertySheet.SetMouseRestrictToWindow(dwTmp);
if(REGLOAD(TEXT(REGVALUE_SLOT4), &dwTmp))
g_CardMgr.Insert(4, (SS_CARDTYPE)dwTmp);
if(REGLOAD(TEXT(REGVALUE_SLOT5), &dwTmp))
g_CardMgr.Insert(5, (SS_CARDTYPE)dwTmp);
//
TCHAR szFilename[MAX_PATH];
RegLoadString(TEXT(REG_PREFS), TEXT(REGVALUE_PREF_HDV_START_DIR), 1, szFilename, MAX_PATH, TEXT(""));
if (szFilename[0] == '\0')
GetCurrentDirectory(sizeof(szFilename), szFilename);
SetCurrentImageDir(szFilename);
HD_LoadLastDiskImage(HARDDISK_1);
HD_LoadLastDiskImage(HARDDISK_2);
//
// Current/Starting Dir is the "root" of where the user keeps his disk images
RegLoadString(TEXT(REG_PREFS), TEXT(REGVALUE_PREF_START_DIR), 1, szFilename, MAX_PATH, TEXT(""));
if (szFilename[0] == '\0')
GetCurrentDirectory(sizeof(szFilename), szFilename);
SetCurrentImageDir(szFilename);
g_CardMgr.GetDisk2CardMgr().LoadLastDiskImage();
//
DWORD dwTfeEnabled;
REGLOAD_DEFAULT(TEXT(REGVALUE_UTHERNET_ACTIVE), &dwTfeEnabled, 0);
tfe_enabled = dwTfeEnabled ? 1 : 0;
RegLoadString(TEXT(REG_CONFIG), TEXT(REGVALUE_UTHERNET_INTERFACE), 1, szFilename, MAX_PATH, TEXT(""));
update_tfe_interface(szFilename, NULL);
//
RegLoadString(TEXT(REG_CONFIG), TEXT(REGVALUE_SAVESTATE_FILENAME), 1, szFilename, MAX_PATH, TEXT(""));
Snapshot_SetFilename(szFilename); // If not in Registry than default will be used (ie. g_sCurrentDir + default filename)
RegLoadString(TEXT(REG_CONFIG), TEXT(REGVALUE_PRINTER_FILENAME), 1, szFilename, MAX_PATH, TEXT(""));
Printer_SetFilename(szFilename); // If not in Registry than default will be used
REGLOAD_DEFAULT(TEXT(REGVALUE_PRINTER_IDLE_LIMIT), &dwTmp, 10);
Printer_SetIdleLimit(dwTmp);
if (REGLOAD(TEXT(REGVALUE_WINDOW_SCALE), &dwTmp))
SetViewportScale(dwTmp);
if (REGLOAD(TEXT(REGVALUE_CONFIRM_REBOOT), &dwTmp))
g_bConfirmReboot = dwTmp;
}
//===========================================================================
bool SetCurrentImageDir(const std::string & pszImageDir)
{
g_sCurrentDir = pszImageDir;
int nLen = g_sCurrentDir.size();
if ((nLen > 0) && (g_sCurrentDir[ nLen - 1 ] != '\\'))
g_sCurrentDir += '\\';
if( SetCurrentDirectory(g_sCurrentDir.c_str()) )
return true;
return false;
}
//===========================================================================
// TODO: Added dialog option of which file extensions to registry
static bool g_bRegisterFileTypes = true;
void RegisterExtensions(void)
{
TCHAR szCommandTmp[MAX_PATH];
GetModuleFileName((HMODULE)0,szCommandTmp,MAX_PATH);
TCHAR command[MAX_PATH];
wsprintf(command, "\"%s\"", szCommandTmp); // Wrap path & filename in quotes & null terminate
TCHAR icon[MAX_PATH];
wsprintf(icon,TEXT("%s,1"),(LPCTSTR)command);
_tcscat(command,TEXT(" \"%1\"")); // Append "%1"
// _tcscat(command,TEXT("-d1 %1\"")); // Append "%1"
// sprintf(command, "\"%s\" \"-d1 %%1\"", szCommandTmp); // Wrap path & filename in quotes & null terminate
// NB. Registry access to HKLM typically results in ErrorCode 5(ACCESS DENIED), as UAC requires elevated permissions (Run as administrator).
// . HKEY_CLASSES_ROOT\CLSID is a merged view of HKLM\SOFTWARE\Classes and HKCU\SOFTWARE\Classes
// NB. Reflect extensions in DELREG.INF
// RegSetValue(HKEY_CLASSES_ROOT,".bin",REG_SZ,"DiskImage",0); // Removed as .bin is too generic
const char* pValueName = ".bin";
LSTATUS res = RegDeleteValue(HKEY_CLASSES_ROOT, pValueName);
if (res != NOERROR && res != ERROR_FILE_NOT_FOUND) LogFileOutput("RegDeleteValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = ".do";
res = RegSetValue(HKEY_CLASSES_ROOT, pValueName ,REG_SZ,"DiskImage",0);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = ".dsk";
res = RegSetValue(HKEY_CLASSES_ROOT, pValueName, REG_SZ,"DiskImage",0);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = ".nib";
res = RegSetValue(HKEY_CLASSES_ROOT, pValueName, REG_SZ,"DiskImage",0);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = ".po";
res = RegSetValue(HKEY_CLASSES_ROOT, pValueName, REG_SZ,"DiskImage",0);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = ".woz";
res = RegSetValue(HKEY_CLASSES_ROOT, pValueName, REG_SZ,"DiskImage",0);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
// RegSetValue(HKEY_CLASSES_ROOT,".2mg",REG_SZ,"DiskImage",0); // Don't grab this, as not all .2mg images are supported (so defer to CiderPress)
// RegSetValue(HKEY_CLASSES_ROOT,".2img",REG_SZ,"DiskImage",0); // Don't grab this, as not all .2mg images are supported (so defer to CiderPress)
// RegSetValue(HKEY_CLASSES_ROOT,".aws.yaml",REG_SZ,"DiskImage",0); // NB. Can't grab this extension (even though it returns 0!) with embedded period (and .yaml is too generic) - GH#548
// RegSetValue(HKEY_CLASSES_ROOT,".hdv",REG_SZ,"DiskImage",0); // TO DO
pValueName = "DiskImage";
res = RegSetValue(HKEY_CLASSES_ROOT,
pValueName,
REG_SZ,"Disk Image",0);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = "DiskImage\\DefaultIcon";
res = RegSetValue(HKEY_CLASSES_ROOT,
pValueName,
REG_SZ,icon,0);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
// This key can interfere....
// HKEY_CURRENT_USER\Software\Microsoft\Windows\CurrentVersion\Explorer\FileExt\.dsk
pValueName = "DiskImage\\shell\\open\\command";
res = RegSetValue(HKEY_CLASSES_ROOT,
pValueName,
REG_SZ,command,_tcslen(command)+1);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = "DiskImage\\shell\\open\\ddeexec";
res = RegSetValue(HKEY_CLASSES_ROOT,
pValueName,
REG_SZ,"%1",3);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = "DiskImage\\shell\\open\\ddeexec\\application";
res = RegSetValue(HKEY_CLASSES_ROOT,
pValueName,
REG_SZ,"applewin",_tcslen("applewin")+1);
// REG_SZ,szCommandTmp,_tcslen(szCommandTmp)+1);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
pValueName = "DiskImage\\shell\\open\\ddeexec\\topic";
res = RegSetValue(HKEY_CLASSES_ROOT,
pValueName,
REG_SZ,"system",_tcslen("system")+1);
if (res != NOERROR) LogFileOutput("RegSetValue(%s) failed (0x%08X)\n", pValueName, res);
}
//===========================================================================
// NB. On a restart, it's OK to call RegisterHotKey() again since the old g_hFrameWindow has been destroyed
static void RegisterHotKeys(void)
{
BOOL bStatus[3] = {0,0,0};
bStatus[0] = RegisterHotKey(
g_hFrameWindow , // HWND hWnd
VK_SNAPSHOT_560, // int id (user/custom id)
0 , // UINT fsModifiers
VK_SNAPSHOT // UINT vk = PrintScreen
);
bStatus[1] = RegisterHotKey(
g_hFrameWindow , // HWND hWnd
VK_SNAPSHOT_280, // int id (user/custom id)
MOD_SHIFT , // UINT fsModifiers
VK_SNAPSHOT // UINT vk = PrintScreen
);
bStatus[2] = RegisterHotKey(
g_hFrameWindow , // HWND hWnd
VK_SNAPSHOT_TEXT, // int id (user/custom id)
MOD_CONTROL , // UINT fsModifiers
VK_SNAPSHOT // UINT vk = PrintScreen
);
if ((!bStatus[0] || !bStatus[1] || !bStatus[2]))
{
std::string msg("Unable to register for PrintScreen key(s):\n");
if (!bStatus[0])
msg += "\n. PrintScreen";
if (!bStatus[1])
msg += "\n. Shift+PrintScreen";
if (!bStatus[2])
msg += "\n. Ctrl+PrintScreen";
if (g_bShowPrintScreenWarningDialog)
MessageBox( g_hFrameWindow, msg.c_str(), "Warning", MB_ICONASTERISK | MB_OK );
msg += "\n";
LogFileOutput(msg.c_str());
}
}
//---------------------------------------------------------------------------
static HINSTANCE g_hinstDLL = 0;
static HHOOK g_hhook = 0;
static HANDLE g_hHookThread = NULL;
static DWORD g_HookThreadId = 0;
// Pre: g_hFrameWindow must be valid
static bool HookFilterForKeyboard()
{
g_hinstDLL = LoadLibrary(TEXT("HookFilter.dll"));
_ASSERT(g_hFrameWindow);
typedef void (*RegisterHWNDProc)(HWND, bool, bool);
RegisterHWNDProc RegisterHWND = (RegisterHWNDProc) GetProcAddress(g_hinstDLL, "RegisterHWND");
if (RegisterHWND)
RegisterHWND(g_hFrameWindow, g_bHookAltTab, g_bHookAltGrControl);
HOOKPROC hkprcLowLevelKeyboardProc = (HOOKPROC) GetProcAddress(g_hinstDLL, "LowLevelKeyboardProc");
g_hhook = SetWindowsHookEx(
WH_KEYBOARD_LL,
hkprcLowLevelKeyboardProc,
g_hinstDLL,
0);
if (g_hhook != 0 && g_hFrameWindow != 0)
return true;
std::string msg("Failed to install hook filter for system keys");
DWORD dwErr = GetLastError();
MessageBox(GetDesktopWindow(), msg.c_str(), "Warning", MB_ICONASTERISK | MB_OK);
msg += "\n";
LogFileOutput(msg.c_str());
return false;
}
static void UnhookFilterForKeyboard()
{
UnhookWindowsHookEx(g_hhook);
FreeLibrary(g_hinstDLL);
}
static DWORD WINAPI HookThread(LPVOID lpParameter)
{
if (!HookFilterForKeyboard())
return -1;
MSG msg;
while(GetMessage(&msg, NULL, 0, 0) > 0)
{
if (msg.message == WM_QUIT)
break;
TranslateMessage(&msg);
DispatchMessage(&msg);
}
UnhookFilterForKeyboard();
return 0;
}
static bool InitHookThread()
{
g_hHookThread = CreateThread(NULL, // lpThreadAttributes
0, // dwStackSize
(LPTHREAD_START_ROUTINE) HookThread,
0, // lpParameter
0, // dwCreationFlags : 0 = Run immediately
&g_HookThreadId); // lpThreadId
if (g_hHookThread == NULL)
return false;
return true;
}
static void UninitHookThread()
{
if (g_hHookThread)
{
if (!PostThreadMessage(g_HookThreadId, WM_QUIT, 0, 0))
{
_ASSERT(0);
return;
}
do
{
DWORD dwExitCode;
if (GetExitCodeThread(g_hHookThread, &dwExitCode))
{
if(dwExitCode == STILL_ACTIVE)
Sleep(10);
else
break;
}
}
while(1);
CloseHandle(g_hHookThread);
g_hHookThread = NULL;
g_HookThreadId = 0;
}
}
//===========================================================================
LPSTR GetCurrArg(LPSTR lpCmdLine)
{
if(*lpCmdLine == '\"')
lpCmdLine++;
return lpCmdLine;
}
LPSTR GetNextArg(LPSTR lpCmdLine)
{
int bInQuotes = 0;
while(*lpCmdLine)
{
if(*lpCmdLine == '\"')
{
bInQuotes ^= 1;
if(!bInQuotes)
{
*lpCmdLine++ = 0x00; // Assume end-quote is end of this arg
continue;
}
}
if((*lpCmdLine == ' ') && !bInQuotes)
{
*lpCmdLine++ = 0x00;
break;
}
lpCmdLine++;
}
return lpCmdLine;
}
//---------------------------------------------------------------------------
static std::string GetFullPath(LPCSTR szFileName)
{
std::string strPathName;
if (szFileName[0] == '\\' || szFileName[1] == ':')
{
// Abs pathname
strPathName = szFileName;
}
else
{
// Rel pathname (GH#663)
strPathName = g_sStartDir;
strPathName.append(szFileName);
}
return strPathName;
}
static void SetCurrentDir(std::string pathname)
{
// Due to the order HDDs/disks are inserted, then s7 insertions take priority over s6 & s5; and d2 takes priority over d1:
// . if -s6[dN] and -hN are specified, then g_sCurrentDir will be set to the HDD image's path
// . if -s5[dN] and -s6[dN] are specified, then g_sCurrentDir will be set to the s6 image's path
// . if -[sN]d1 and -[sN]d2 are specified, then g_sCurrentDir will be set to the d2 image's path
// This is purely dependent on the current order of InsertFloppyDisks() & InsertHardDisks() - ie. very brittle!
// . better to use -current-dir to be explicit
std::size_t found = pathname.find_last_of("\\");
std::string path = pathname.substr(0, found);
SetCurrentImageDir(path);
}
static bool DoDiskInsert(const UINT slot, const int nDrive, LPCSTR szFileName)
{
Disk2InterfaceCard& disk2Card = dynamic_cast<Disk2InterfaceCard&>(g_CardMgr.GetRef(slot));
std::string strPathName = GetFullPath(szFileName);
if (strPathName.empty()) return false;
ImageError_e Error = disk2Card.InsertDisk(nDrive, strPathName.c_str(), IMAGE_USE_FILES_WRITE_PROTECT_STATUS, IMAGE_DONT_CREATE);
bool res = (Error == eIMAGE_ERROR_NONE);
if (res)
SetCurrentDir(strPathName);
return res;
}
static bool DoHardDiskInsert(const int nDrive, LPCSTR szFileName)
{
std::string strPathName = GetFullPath(szFileName);
if (strPathName.empty()) return false;
BOOL bRes = HD_Insert(nDrive, strPathName.c_str());
bool res = (bRes == TRUE);
if (res)
SetCurrentDir(strPathName);
return res;
}
static void InsertFloppyDisks(const UINT slot, LPSTR szImageName_drive[NUM_DRIVES], bool& bBoot)
{
_ASSERT(slot == 5 || slot == 6);
if (!szImageName_drive[DRIVE_1] && !szImageName_drive[DRIVE_2])
return;
bool bRes = true;
if (szImageName_drive[DRIVE_1])
{
bRes = DoDiskInsert(slot, DRIVE_1, szImageName_drive[DRIVE_1]);
LogFileOutput("Init: S%d, DoDiskInsert(D1), res=%d\n", slot, bRes);
FrameRefreshStatus(DRAW_LEDS | DRAW_BUTTON_DRIVES); // floppy activity LEDs and floppy buttons
bBoot = true;
}
if (szImageName_drive[DRIVE_2])
{
bRes |= DoDiskInsert(slot, DRIVE_2, szImageName_drive[DRIVE_2]);
LogFileOutput("Init: S%d, DoDiskInsert(D2), res=%d\n", slot, bRes);
}
if (!bRes)
MessageBox(g_hFrameWindow, "Failed to insert floppy disk(s) - see log file", "Warning", MB_ICONASTERISK | MB_OK);
}
static void InsertHardDisks(LPSTR szImageName_harddisk[NUM_HARDDISKS], bool& bBoot)
{
if (!szImageName_harddisk[HARDDISK_1] && !szImageName_harddisk[HARDDISK_2])
return;
// Enable the Harddisk controller card
HD_SetEnabled(true);
DWORD dwTmp;
BOOL res = REGLOAD(TEXT(REGVALUE_HDD_ENABLED), &dwTmp);
if (!res || !dwTmp)
REGSAVE(TEXT(REGVALUE_HDD_ENABLED), 1); // Config: HDD Enabled
//
bool bRes = true;
if (szImageName_harddisk[HARDDISK_1])
{
bRes = DoHardDiskInsert(HARDDISK_1, szImageName_harddisk[HARDDISK_1]);
LogFileOutput("Init: DoHardDiskInsert(HDD1), res=%d\n", bRes);
FrameRefreshStatus(DRAW_LEDS); // harddisk activity LED
bBoot = true;
}
if (szImageName_harddisk[HARDDISK_2])
{
bRes |= DoHardDiskInsert(HARDDISK_2, szImageName_harddisk[HARDDISK_2]);
LogFileOutput("Init: DoHardDiskInsert(HDD2), res=%d\n", bRes);
}
if (!bRes)
MessageBox(g_hFrameWindow, "Failed to insert harddisk(s) - see log file", "Warning", MB_ICONASTERISK | MB_OK);
}
static void UnplugHardDiskControllerCard(void)
{
HD_SetEnabled(false);
DWORD dwTmp;
BOOL res = REGLOAD(TEXT(REGVALUE_HDD_ENABLED), &dwTmp);
if (!res || dwTmp)
REGSAVE(TEXT(REGVALUE_HDD_ENABLED), 0); // Config: HDD Disabled
}
static bool CheckOldAppleWinVersion(void)
{
TCHAR szOldAppleWinVersion[VERSIONSTRING_SIZE + 1];
RegLoadString(TEXT(REG_CONFIG), TEXT(REGVALUE_VERSION), 1, szOldAppleWinVersion, VERSIONSTRING_SIZE, TEXT(""));
const bool bShowAboutDlg = strcmp(szOldAppleWinVersion, VERSIONSTRING) != 0;
// version: xx.yy.zz.ww
char* p0 = szOldAppleWinVersion;
int len = strlen(szOldAppleWinVersion);
szOldAppleWinVersion[len] = '.'; // append a null terminator
szOldAppleWinVersion[len + 1] = '\0';
for (UINT i=0; i<4; i++)
{
char* p1 = strstr(p0, ".");
if (!p1)
break;
*p1 = 0;
g_OldAppleWinVersion[i] = atoi(p0);
p0 = p1+1;
}
return bShowAboutDlg;
}
//---------------------------------------------------------------------------
static void ExceptionHandler(const char* pError)
{
MessageBox( g_hFrameWindow,
pError,
TEXT("Runtime Exception"),
MB_ICONEXCLAMATION | MB_SETFOREGROUND);
LogFileOutput("Runtime Exception: %s\n", pError);
}
//---------------------------------------------------------------------------
static bool ProcessCmdLine(LPSTR lpCmdLine);
static void GetAppleWinVersion(void);
static void OneTimeInitialization(HINSTANCE passinstance);
static void RepeatInitialization(void);
static void Shutdown(void);
struct CmdLine
{
CmdLine()
{
bShutdown = false;
bSetFullScreen = false;
bBoot = false;
bChangedDisplayResolution = false;
bSlot0LanguageCard = false;
bSlot7EmptyOnExit = false;
bSwapButtons0and1 = false;
bRemoveNoSlotClock = false;
bestWidth = 0;
bestHeight = 0;
szImageName_harddisk[HARDDISK_1] = NULL;
szImageName_harddisk[HARDDISK_2] = NULL;
szSnapshotName = NULL;
szScreenshotFilename = NULL;
uRamWorksExPages = 0;
uSaturnBanks = 0;
newVideoType = -1;
newVideoStyleEnableMask = 0;
newVideoStyleDisableMask = 0;
newVideoRefreshRate = VR_NONE;
clockMultiplier = 0.0; // 0 => not set from cmd-line
model = A2TYPE_MAX;
for (UINT i = 0; i < NUM_SLOTS; i++)
{
bSlotEmpty[i] = false;
slotInsert[i] = CT_Empty;
szImageName_drive[i][DRIVE_1] = NULL;
szImageName_drive[i][DRIVE_2] = NULL;
}
}
bool bShutdown;
bool bSetFullScreen;
bool bBoot;
bool bChangedDisplayResolution;
bool bSlot0LanguageCard;
bool bSlotEmpty[NUM_SLOTS];
bool bSlot7EmptyOnExit;
bool bSwapButtons0and1;
bool bRemoveNoSlotClock;
SS_CARDTYPE slotInsert[NUM_SLOTS];
UINT bestWidth;
UINT bestHeight;
LPSTR szImageName_drive[NUM_SLOTS][NUM_DRIVES];
LPSTR szImageName_harddisk[NUM_HARDDISKS];
LPSTR szSnapshotName;
LPSTR szScreenshotFilename;
UINT uRamWorksExPages;
UINT uSaturnBanks;
int newVideoType;
int newVideoStyleEnableMask;
int newVideoStyleDisableMask;
VideoRefreshRate_e newVideoRefreshRate;
double clockMultiplier;
eApple2Type model;
std::string strCurrentDir;
};
static CmdLine g_cmdLine;
int APIENTRY WinMain(HINSTANCE passinstance, HINSTANCE, LPSTR lpCmdLine, int)
{
char startDir[_MAX_PATH];
GetCurrentDirectory(sizeof(startDir), startDir);
g_sStartDir = startDir;
if (*(g_sStartDir.end()-1) != '\\') g_sStartDir += '\\';
if (!ProcessCmdLine(lpCmdLine))
return 0;
LogFileOutput("g_sStartDir = %s\n", g_sStartDir.c_str());
GetAppleWinVersion();
OneTimeInitialization(passinstance);
try
{
do
{
g_bRestart = false;
RepeatInitialization();
// ENTER THE MAIN MESSAGE LOOP
LogFileOutput("Main: EnterMessageLoop()\n");
EnterMessageLoop();
LogFileOutput("Main: LeaveMessageLoop()\n");
if (g_bRestart)
{
g_cmdLine.bSetFullScreen = g_bRestartFullScreen;
g_bRestartFullScreen = false;
}
MB_Reset();
LogFileOutput("Main: MB_Reset()\n");
CMouseInterface* pMouseCard = g_CardMgr.GetMouseCard();
if (pMouseCard)
{
pMouseCard->Reset(); // Deassert any pending IRQs - GH#514
LogFileOutput("Main: CMouseInterface::Uninitialize()\n");
}
DSUninit();
LogFileOutput("Main: DSUninit()\n");
if (g_bHookSystemKey)
{
UninitHookThread();
LogFileOutput("Main: UnhookFilterForKeyboard()\n");
}
}
while (g_bRestart);
}
catch(std::runtime_error exception)
{
ExceptionHandler(exception.what());
}
catch(std::exception exception)
{
ExceptionHandler(exception.what());
}
Shutdown();
return 0;
}
static bool ProcessCmdLine(LPSTR lpCmdLine)
{
const std::string strCmdLine(lpCmdLine); // Keep a copy for log ouput
std::string strUnsupported;
// If 1st param looks like an abs pathname then assume that an associated filetype has been double-clicked
// NB. Handled by WM_DDE_INITIATE & WM_DDE_EXECUTE msgs
if ((lpCmdLine[0] >= '\"' && lpCmdLine[1] >= 'A' && lpCmdLine[1] <= 'Z' && lpCmdLine[2] == ':') // always in quotes
|| strncmp("\\\\?\\", lpCmdLine, 4) == 0)
return true;
while (*lpCmdLine)
{
LPSTR lpNextArg = GetNextArg(lpCmdLine);
if (((strcmp(lpCmdLine, "-l") == 0) || (strcmp(lpCmdLine, "-log") == 0)) && (g_fh == NULL))
{
LogInit();
}
else if (strcmp(lpCmdLine, "-noreg") == 0)
{
g_bRegisterFileTypes = false;
}
else if (strcmp(lpCmdLine, "-conf") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
char buf[MAX_PATH];
DWORD res = GetFullPathName(lpCmdLine, MAX_PATH, buf, NULL);
if (res == 0)
LogFileOutput("Failed to open configuration file: %s\n", lpCmdLine);
else
g_sConfigFile = buf;
}
else if (strcmp(lpCmdLine, "-d1") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.szImageName_drive[SLOT6][DRIVE_1] = lpCmdLine;
}
else if (strcmp(lpCmdLine, "-d2") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.szImageName_drive[SLOT6][DRIVE_2] = lpCmdLine;
}
else if (strcmp(lpCmdLine, "-h1") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.szImageName_harddisk[HARDDISK_1] = lpCmdLine;
}
else if (strcmp(lpCmdLine, "-h2") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.szImageName_harddisk[HARDDISK_2] = lpCmdLine;
}
else if (lpCmdLine[0] == '-' && lpCmdLine[1] == 's' && lpCmdLine[2] >= '1' && lpCmdLine[2] <= '7')
{
const UINT slot = lpCmdLine[2] - '0';
if (lpCmdLine[3] == 0) // -s[1..7] <card>
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
if (strcmp(lpCmdLine, "empty") == 0)
g_cmdLine.bSlotEmpty[slot] = true;
if (strcmp(lpCmdLine, "diskii") == 0)
g_cmdLine.slotInsert[slot] = CT_Disk2;
}
else if (lpCmdLine[3] == 'd' && (lpCmdLine[4] == '1' || lpCmdLine[4] == '2')) // -s[1..7]d[1|2] <dsk-image>
{
const UINT drive = lpCmdLine[4] == '1' ? DRIVE_1 : DRIVE_2;
if (slot != 5 && slot != 6)
{
LogFileOutput("Unsupported arg: %s\n", lpCmdLine);
}
else
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.szImageName_drive[slot][drive] = lpCmdLine;
}
}
else if (strcmp(lpCmdLine, "-s7-empty-on-exit") == 0)
{
g_cmdLine.bSlot7EmptyOnExit = true;
}
else
{
LogFileOutput("Unsupported arg: %s\n", lpCmdLine);
}
}
else if (strcmp(lpCmdLine, "-load-state") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.szSnapshotName = lpCmdLine;
}
else if (strcmp(lpCmdLine, "-f") == 0)
{
g_cmdLine.bSetFullScreen = true;
}
#define CMD_FS_HEIGHT "-fs-height="
else if (strncmp(lpCmdLine, CMD_FS_HEIGHT, sizeof(CMD_FS_HEIGHT)-1) == 0)
{
g_cmdLine.bSetFullScreen = true; // Implied
LPSTR lpTmp = lpCmdLine + sizeof(CMD_FS_HEIGHT)-1;
bool bRes = false;
if (strcmp(lpTmp, "best") == 0)
{
bRes = GetBestDisplayResolutionForFullScreen(g_cmdLine.bestWidth, g_cmdLine.bestHeight);
}
else
{
UINT userSpecifiedHeight = atoi(lpTmp);
if (userSpecifiedHeight)
bRes = GetBestDisplayResolutionForFullScreen(g_cmdLine.bestWidth, g_cmdLine.bestHeight, userSpecifiedHeight);
else
LogFileOutput("Invalid cmd-line parameter for -fs-height=x switch\n");
}
if (bRes)
LogFileOutput("Best resolution for -fs-height=x switch: Width=%d, Height=%d\n", g_cmdLine.bestWidth, g_cmdLine.bestHeight);
else
LogFileOutput("Failed to set parameter for -fs-height=x switch\n");
}
else if (strcmp(lpCmdLine, "-no-di") == 0)
{
g_bDisableDirectInput = true;
}
else if (strcmp(lpCmdLine, "-m") == 0)
{
g_bDisableDirectSound = true;
}
else if (strcmp(lpCmdLine, "-no-mb") == 0)
{
g_bDisableDirectSoundMockingboard = true;
}
else if (strcmp(lpCmdLine, "-memclear") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_nMemoryClearType = atoi(lpCmdLine);
if (g_nMemoryClearType < 0)
g_nMemoryClearType = 0;
else
if (g_nMemoryClearType >= NUM_MIP)
g_nMemoryClearType = NUM_MIP - 1;
}
#ifdef RAMWORKS
else if (strcmp(lpCmdLine, "-r") == 0) // RamWorks size [1..127]
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.uRamWorksExPages = atoi(lpCmdLine);
if (g_cmdLine.uRamWorksExPages > kMaxExMemoryBanks)
g_cmdLine.uRamWorksExPages = kMaxExMemoryBanks;
else
if (g_cmdLine.uRamWorksExPages < 1)
g_cmdLine.uRamWorksExPages = 1;
}
#endif
else if (strcmp(lpCmdLine, "-s0") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
if (strcmp(lpCmdLine, "saturn") == 0 || strcmp(lpCmdLine, "saturn128") == 0)
g_cmdLine.uSaturnBanks = Saturn128K::kMaxSaturnBanks;
else if (strcmp(lpCmdLine, "saturn64") == 0)
g_cmdLine.uSaturnBanks = Saturn128K::kMaxSaturnBanks/2;
else if (strcmp(lpCmdLine, "languagecard") == 0 || strcmp(lpCmdLine, "lc") == 0)
g_cmdLine.bSlot0LanguageCard = true;
}
else if (strcmp(lpCmdLine, "-f8rom") == 0) // Use custom 2K ROM at [$F800..$FFFF]
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
if (g_hCustomRomF8 != INVALID_HANDLE_VALUE) // Stop resource leak if -f8rom is specified twice!
CloseHandle(g_hCustomRomF8);
g_hCustomRomF8 = CreateFile(lpCmdLine, GENERIC_READ, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_READONLY, NULL);
if ((g_hCustomRomF8 == INVALID_HANDLE_VALUE) || (GetFileSize(g_hCustomRomF8, NULL) != 0x800))
g_bCustomRomF8Failed = true;
}
else if (strcmp(lpCmdLine, "-rom") == 0) // Use custom 16K at [$C000..$FFFF] or 12K ROM at [$D000..$FFFF]
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
if (g_hCustomRom != INVALID_HANDLE_VALUE) // Stop resource leak if -rom is specified twice!
CloseHandle(g_hCustomRom);
g_hCustomRom = CreateFile(lpCmdLine, GENERIC_READ, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_READONLY, NULL);
if ((g_hCustomRom == INVALID_HANDLE_VALUE) || ((GetFileSize(g_hCustomRom, NULL) != 0x4000) && (GetFileSize(g_hCustomRom, NULL) != 0x3000)))
g_bCustomRomFailed = true;
}
else if (strcmp(lpCmdLine, "-videorom") == 0) // Use 2K (for II/II+). Use 4K,8K or 16K video ROM (for Enhanced //e)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
if (!ReadVideoRomFile(lpCmdLine))
{
std::string msg = "Failed to load video rom (not found or not exactly 2/4/8/16KiB)\n";
LogFileOutput("%s", msg.c_str());
MessageBox(g_hFrameWindow, msg.c_str(), TEXT("AppleWin Error"), MB_OK);
}
else
{
SetVideoRomRockerSwitch(true); // Use PAL char set
}
}
else if (strcmp(lpCmdLine, "-printscreen") == 0) // Turn on display of the last filename print screen was saved to
{
g_bDisplayPrintScreenFileName = true;
}
else if (strcmp(lpCmdLine, "-no-printscreen-key") == 0) // Don't try to capture PrintScreen key GH#469
{
g_bCapturePrintScreenKey = false;
}
else if (strcmp(lpCmdLine, "-no-printscreen-dlg") == 0) // Turn off the PrintScreen warning message dialog (if PrintScreen key can't be grabbed)
{
g_bShowPrintScreenWarningDialog = false;
}
else if (strcmp(lpCmdLine, "-no-hook-system-key") == 0) // Don't hook the System keys (eg. Left-ALT+ESC/SPACE/TAB) GH#556
{
g_bHookSystemKey = false;
}
else if (strcmp(lpCmdLine, "-hook-alt-tab") == 0) // GH#556
{
g_bHookAltTab = true;
}
else if (strcmp(lpCmdLine, "-hook-altgr-control") == 0) // GH#556
{
g_bHookAltGrControl = true;
}
else if (strcmp(lpCmdLine, "-altgr-sends-wmchar") == 0) // GH#625
{
KeybSetAltGrSendsWM_CHAR(true);
}
else if (strcmp(lpCmdLine, "-no-hook-alt") == 0) // GH#583
{
JoySetHookAltKeys(false);
}
else if (strcmp(lpCmdLine, "-left-alt-control-buttons") == 0) // GH#743
{
JoySetButtonVirtualKey(0, VK_CONTROL);
JoySetButtonVirtualKey(1, VK_MENU);
}
else if (strcmp(lpCmdLine, "-right-alt-control-buttons") == 0) // GH#743
{
JoySetButtonVirtualKey(0, VK_MENU | KF_EXTENDED);
JoySetButtonVirtualKey(1, VK_CONTROL | KF_EXTENDED);
}
else if (strcmp(lpCmdLine, "-swap-buttons") == 0)
{
g_cmdLine.bSwapButtons0and1 = true;
}
else if (strcmp(lpCmdLine, "-spkr-inc") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
const int nErrorInc = atoi(lpCmdLine);
SoundCore_SetErrorInc( nErrorInc );
}
else if (strcmp(lpCmdLine, "-spkr-max") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
const int nErrorMax = atoi(lpCmdLine);
SoundCore_SetErrorMax( nErrorMax );
}
else if (strcmp(lpCmdLine, "-use-real-printer") == 0) // Enable control in Advanced config to allow dumping to a real printer
{
g_bEnableDumpToRealPrinter = true;
}
else if (strcmp(lpCmdLine, "-speech") == 0)
{
g_bEnableSpeech = true;
}
else if (strcmp(lpCmdLine, "-multimon") == 0)
{
g_bMultiMon = true;
}
else if ((strcmp(lpCmdLine, "-dcd") == 0) || (strcmp(lpCmdLine, "-modem") == 0)) // GH#386
{
if (g_CardMgr.IsSSCInstalled())
g_CardMgr.GetSSC()->SupportDCD(true);
}
else if (strcmp(lpCmdLine, "-alt-enter=toggle-full-screen") == 0) // GH#556
{
SetAltEnterToggleFullScreen(true);
}
else if (strcmp(lpCmdLine, "-alt-enter=open-apple-enter") == 0) // GH#556
{
SetAltEnterToggleFullScreen(false);
}
else if (strcmp(lpCmdLine, "-video-mode=rgb-monitor") == 0) // GH#616
{
g_cmdLine.newVideoType = VT_COLOR_MONITOR_RGB;
}
else if (strcmp(lpCmdLine, "-video-style=vertical-blend") == 0) // GH#616
{
g_cmdLine.newVideoStyleEnableMask = VS_COLOR_VERTICAL_BLEND;
}
else if (strcmp(lpCmdLine, "-video-style=no-vertical-blend") == 0) // GH#616
{
g_cmdLine.newVideoStyleDisableMask = VS_COLOR_VERTICAL_BLEND;
}
else if (strcmp(lpCmdLine, "-rgb-card-invert-bit7") == 0) // GH#633
{
RGB_SetInvertBit7(true);
}
else if (strcmp(lpCmdLine, "-screenshot-and-exit") == 0) // GH#616: For testing - Use in combination with -load-state
{
g_cmdLine.szScreenshotFilename = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
}
else if (strcmp(lpCmdLine, "-clock-multiplier") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.clockMultiplier = atof(lpCmdLine);
}
else if (strcmp(lpCmdLine, "-model") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
if (strcmp(lpCmdLine, "apple2") == 0)
g_cmdLine.model = A2TYPE_APPLE2;
else if (strcmp(lpCmdLine, "apple2p") == 0)
g_cmdLine.model = A2TYPE_APPLE2PLUS;
else if (strcmp(lpCmdLine, "apple2jp") == 0)
g_cmdLine.model = A2TYPE_APPLE2JPLUS;
else if (strcmp(lpCmdLine, "apple2e") == 0)
g_cmdLine.model = A2TYPE_APPLE2E;
else if (strcmp(lpCmdLine, "apple2ee") == 0)
g_cmdLine.model = A2TYPE_APPLE2EENHANCED;
else
LogFileOutput("-model: unsupported type: %s\n", lpCmdLine);
}
else if (_stricmp(lpCmdLine, "-50hz") == 0) // (case-insensitive)
{
g_cmdLine.newVideoRefreshRate = VR_50HZ;
}
else if (_stricmp(lpCmdLine, "-60hz") == 0) // (case-insensitive)
{
g_cmdLine.newVideoRefreshRate = VR_60HZ;
}
else if (strcmp(lpCmdLine, "-power-on") == 0)
{
g_cmdLine.bBoot = true;
}
else if (strcmp(lpCmdLine, "-current-dir") == 0)
{
lpCmdLine = GetCurrArg(lpNextArg);
lpNextArg = GetNextArg(lpNextArg);
g_cmdLine.strCurrentDir = lpCmdLine;
}
else if (strcmp(lpCmdLine, "-no-nsc") == 0)
{
g_cmdLine.bRemoveNoSlotClock = true;
}
else // unsupported
{
LogFileOutput("Unsupported arg: %s\n", lpCmdLine);
strUnsupported += lpCmdLine;
strUnsupported += "\n";
}
lpCmdLine = lpNextArg;
}
LogFileOutput("CmdLine: %s\n", strCmdLine.c_str());
bool ok = true;
if (!strUnsupported.empty())
{
std::string msg("Unsupported commands:\n\n");
msg += strUnsupported;
msg += "\n";
msg += "Continue running AppleWin?";
int res = MessageBox(GetDesktopWindow(), // NB. g_hFrameWindow is not yet valid
msg.c_str(),
"AppleWin Command Line",
MB_ICONSTOP | MB_SETFOREGROUND | MB_YESNO);
ok = (res != IDNO);
}
return ok;
}
static void GetAppleWinVersion(void)
{
char szPath[_MAX_PATH];
if (0 == GetModuleFileName(NULL, szPath, sizeof(szPath)))
strcpy_s(szPath, sizeof(szPath), __argv[0]);
// Extract application version and store in a global variable
DWORD dwHandle, dwVerInfoSize;
dwVerInfoSize = GetFileVersionInfoSize(szPath, &dwHandle);
if (dwVerInfoSize > 0)
{
char* pVerInfoBlock = new char[dwVerInfoSize];
if (GetFileVersionInfo(szPath, NULL, dwVerInfoSize, pVerInfoBlock))
{
VS_FIXEDFILEINFO* pFixedFileInfo;
UINT pFixedFileInfoLen;
VerQueryValue(pVerInfoBlock, TEXT("\\"), (LPVOID*) &pFixedFileInfo, (PUINT) &pFixedFileInfoLen);
// Construct version string from fixed file info block
unsigned long major = g_AppleWinVersion[0] = pFixedFileInfo->dwFileVersionMS >> 16;
unsigned long minor = g_AppleWinVersion[1] = pFixedFileInfo->dwFileVersionMS & 0xffff;
unsigned long fix = g_AppleWinVersion[2] = pFixedFileInfo->dwFileVersionLS >> 16;
unsigned long fix_minor = g_AppleWinVersion[3] = pFixedFileInfo->dwFileVersionLS & 0xffff;
StringCbPrintf(VERSIONSTRING, VERSIONSTRING_SIZE, "%d.%d.%d.%d", major, minor, fix, fix_minor);
}
delete [] pVerInfoBlock;
}
LogFileOutput("AppleWin version: %s\n", VERSIONSTRING);
}
// DO ONE-TIME INITIALIZATION
static void OneTimeInitialization(HINSTANCE passinstance)
{
#if 0
#ifdef RIFF_SPKR
RiffInitWriteFile("Spkr.wav", SPKR_SAMPLE_RATE, 1);
#endif
#ifdef RIFF_MB
RiffInitWriteFile("Mockingboard.wav", 44100, 2);
#endif
#endif
// Initialize COM - so we can use CoCreateInstance
// . NB. DSInit() & DIMouse::DirectInputInit are done when g_hFrameWindow is created (WM_CREATE)
HRESULT hr = CoInitializeEx(NULL, COINIT_APARTMENTTHREADED);
LogFileOutput("Init: CoInitializeEx(), hr=0x%08X\n", hr);
g_bSysClkOK = SysClk_InitTimer();
LogFileOutput("Init: SysClk_InitTimer(), res=%d\n", g_bSysClkOK ? 1:0);
#ifdef USE_SPEECH_API
if (g_bEnableSpeech)
{
const bool bSpeechOK = g_Speech.Init();
LogFileOutput("Init: SysClk_InitTimer(), res=%d\n", bSpeechOK ? 1:0);
}
#endif
#if 0
DDInit(); // For WaitForVerticalBlank()
#endif
g_hInstance = passinstance;
GdiSetBatchLimit(512);
LogFileOutput("Init: GdiSetBatchLimit()\n");
GetProgramDirectory();
LogFileOutput("Init: GetProgramDirectory()\n");
if (g_bRegisterFileTypes)
{
RegisterExtensions();
LogFileOutput("Init: RegisterExtensions()\n");
}
FrameRegisterClass();
LogFileOutput("Init: FrameRegisterClass()\n");
ImageInitialize();
LogFileOutput("Init: ImageInitialize()\n");
}
// DO INITIALIZATION THAT MUST BE REPEATED FOR A RESTART
static void RepeatInitialization(void)
{
ResetToLogoMode();
// NB. g_OldAppleWinVersion needed by LoadConfiguration() -> Config_Load_Video()
const bool bShowAboutDlg = CheckOldAppleWinVersion(); // Post: g_OldAppleWinVersion
LoadConfiguration();
LogFileOutput("Main: LoadConfiguration()\n");
if (g_cmdLine.model != A2TYPE_MAX)
SetApple2Type(g_cmdLine.model);
if (g_cmdLine.newVideoType >= 0)
{
SetVideoType( (VideoType_e)g_cmdLine.newVideoType );
g_cmdLine.newVideoType = -1; // Don't reapply after a restart
}
SetVideoStyle( (VideoStyle_e) ((GetVideoStyle() | g_cmdLine.newVideoStyleEnableMask) & ~g_cmdLine.newVideoStyleDisableMask) );
if (g_cmdLine.newVideoRefreshRate != VR_NONE)
{
SetVideoRefreshRate(g_cmdLine.newVideoRefreshRate);
g_cmdLine.newVideoRefreshRate = VR_NONE; // Don't reapply after a restart
SetCurrentCLK6502();
}
UseClockMultiplier(g_cmdLine.clockMultiplier);
g_cmdLine.clockMultiplier = 0.0;
// Apply the memory expansion switches after loading the Apple II machine type
#ifdef RAMWORKS
if (g_cmdLine.uRamWorksExPages)
{
SetRamWorksMemorySize(g_cmdLine.uRamWorksExPages);
SetExpansionMemType(CT_RamWorksIII);
g_cmdLine.uRamWorksExPages = 0; // Don't reapply after a restart
}
#endif
if (g_cmdLine.uSaturnBanks)
{
SetSaturnMemorySize(g_cmdLine.uSaturnBanks); // Set number of banks before constructing Saturn card
SetExpansionMemType(CT_Saturn128K);
g_cmdLine.uSaturnBanks = 0; // Don't reapply after a restart
}
if (g_cmdLine.bSlot0LanguageCard)
{
SetExpansionMemType(CT_LanguageCard);
g_cmdLine.bSlot0LanguageCard = false; // Don't reapply after a restart
}
if (g_cmdLine.bSwapButtons0and1)
{
sg_PropertySheet.SetButtonsSwapState(true);
// Reapply after a restart - TODO: grey-out the Config UI for "Swap 0/1" when this cmd line is passed in
}
DebugInitialize();
LogFileOutput("Main: DebugInitialize()\n");
JoyInitialize();
LogFileOutput("Main: JoyInitialize()\n");
VideoInitialize(); // g_pFramebufferinfo been created now
LogFileOutput("Main: VideoInitialize()\n");
LogFileOutput("Main: FrameCreateWindow() - pre\n");
FrameCreateWindow(); // g_hFrameWindow is now valid
LogFileOutput("Main: FrameCreateWindow() - post\n");
// Allow the 4 hardcoded slots to be configurated as empty
// NB. this state is not persisted to the Registry/conf.ini (just as '-s7 empty' isn't)
// TODO: support bSlotEmpty[] for slots: 0,4,5
if (g_cmdLine.bSlotEmpty[SLOT1])
g_CardMgr.Remove(SLOT1);
if (g_cmdLine.bSlotEmpty[SLOT2])
g_CardMgr.Remove(SLOT2);
if (g_cmdLine.bSlotEmpty[SLOT3])
g_CardMgr.Remove(SLOT3);
if (g_cmdLine.bSlotEmpty[SLOT6])
g_CardMgr.Remove(SLOT6);
if (g_cmdLine.slotInsert[SLOT5] != CT_Empty)
{
if (g_CardMgr.QuerySlot(SLOT4) == CT_MockingboardC && g_cmdLine.slotInsert[SLOT5] != CT_MockingboardC) // Currently MB occupies slot4+5 when enabled
{
g_CardMgr.Remove(SLOT4);
g_CardMgr.Remove(SLOT5);
}
g_CardMgr.Insert(SLOT5, g_cmdLine.slotInsert[SLOT5]);
}
// Pre: may need g_hFrameWindow for MessageBox errors
// Post: may enable HDD, required for MemInitialize()->MemInitializeIO()
{
bool temp = false;
InsertFloppyDisks(SLOT5, g_cmdLine.szImageName_drive[SLOT5], temp);
//g_cmdLine.szImageName_drive[SLOT5][DRIVE_1] = g_cmdLine.szImageName_drive[SLOT5][DRIVE_2] = NULL; // *Do* insert on a restart (since no way they could have changed)
InsertFloppyDisks(SLOT6, g_cmdLine.szImageName_drive[SLOT6], g_cmdLine.bBoot);
g_cmdLine.szImageName_drive[SLOT6][DRIVE_1] = g_cmdLine.szImageName_drive[SLOT6][DRIVE_2] = NULL; // Don't insert on a restart
InsertHardDisks(g_cmdLine.szImageName_harddisk, g_cmdLine.bBoot);
g_cmdLine.szImageName_harddisk[HARDDISK_1] = g_cmdLine.szImageName_harddisk[HARDDISK_2] = NULL; // Don't insert on a restart
if (g_cmdLine.bSlotEmpty[7])
HD_SetEnabled(false); // Disable HDD controller, but don't persist this to Registry/conf.ini (consistent with other '-sn empty' cmds)
}
// Set *after* InsertFloppyDisks() & InsertHardDisks(), which both update g_sCurrentDir
if (!g_cmdLine.strCurrentDir.empty())
SetCurrentImageDir(g_cmdLine.strCurrentDir);
if (g_cmdLine.bRemoveNoSlotClock)
MemRemoveNoSlotClock();
MemInitialize();
LogFileOutput("Main: MemInitialize()\n");
// Show About dialog after creating main window (need g_hFrameWindow)
if (bShowAboutDlg)
{
if (!AboutDlg())
g_cmdLine.bShutdown = true; // Close everything down
else
RegSaveString(TEXT(REG_CONFIG), TEXT(REGVALUE_VERSION), 1, VERSIONSTRING); // Only save version after user accepts license
}
if (g_bCapturePrintScreenKey)
{
RegisterHotKeys(); // needs valid g_hFrameWindow
LogFileOutput("Main: RegisterHotKeys()\n");
}
if (g_bHookSystemKey)
{
if (InitHookThread()) // needs valid g_hFrameWindow (for message pump)
LogFileOutput("Main: HookFilterForKeyboard()\n");
}
// Need to test if it's safe to call ResetMachineState(). In the meantime, just call Disk2Card's Reset():
g_CardMgr.GetDisk2CardMgr().Reset(true); // Switch from a booting A][+ to a non-autostart A][, so need to turn off floppy motor
LogFileOutput("Main: DiskReset()\n");
HD_Reset(); // GH#515
LogFileOutput("Main: HDDReset()\n");
if (!g_bSysClkOK)
{
MessageBox(g_hFrameWindow, "DirectX failed to create SystemClock instance", TEXT("AppleWin Error"), MB_OK);
g_cmdLine.bShutdown = true;
}
if (g_bCustomRomF8Failed || g_bCustomRomFailed || (g_hCustomRomF8 != INVALID_HANDLE_VALUE && g_hCustomRom != INVALID_HANDLE_VALUE))
{
std::string msg = g_bCustomRomF8Failed ? "Failed to load custom F8 rom (not found or not exactly 2KiB)\n"
: g_bCustomRomFailed ? "Failed to load custom rom (not found or not exactly 12KiB or 16KiB)\n"
: "Unsupported -rom and -f8rom being used at the same time\n";
LogFileOutput("%s", msg.c_str());
MessageBox(g_hFrameWindow, msg.c_str(), TEXT("AppleWin Error"), MB_OK);
g_cmdLine.bShutdown = true;
}
tfe_init();
LogFileOutput("Main: tfe_init()\n");
if (g_cmdLine.szSnapshotName)
{
std::string strPathname(g_cmdLine.szSnapshotName);
int nIdx = strPathname.find_last_of('\\');
if (nIdx >= 0 && nIdx+1 < (int)strPathname.length())
{
const std::string strPath = strPathname.substr(0, nIdx+1);
SetCurrentImageDir(strPath);
}
// Override value just loaded from Registry by LoadConfiguration()
// . NB. Registry value is not updated with this cmd-line value
Snapshot_SetFilename(g_cmdLine.szSnapshotName);
Snapshot_LoadState();
g_cmdLine.bBoot = true;
#if _DEBUG && 0 // Debug/test: Save a duplicate of the save-state file in tmp folder
std::string saveName = std::string("tmp\\") + std::string(szSnapshotName);
Snapshot_SetFilename(saveName);
g_bSaveStateOnExit = true;
bShutdown = true;
#endif
g_cmdLine.szSnapshotName = NULL;
}
else
{
Snapshot_Startup(); // Do this after everything has been init'ed
LogFileOutput("Main: Snapshot_Startup()\n");
}
if (g_cmdLine.szScreenshotFilename)
{
Video_RedrawAndTakeScreenShot(g_cmdLine.szScreenshotFilename);
g_cmdLine.bShutdown = true;
}
if (g_cmdLine.bShutdown)
{
PostMessage(g_hFrameWindow, WM_DESTROY, 0, 0); // Close everything down
// NB. If shutting down, then don't post any other messages (GH#286)
}
else
{
if (g_cmdLine.bSetFullScreen)
{
if (g_cmdLine.bestWidth && g_cmdLine.bestHeight)
{
DEVMODE devMode;
memset(&devMode, 0, sizeof(devMode));
devMode.dmSize = sizeof(devMode);
devMode.dmPelsWidth = g_cmdLine.bestWidth;
devMode.dmPelsHeight = g_cmdLine.bestHeight;
devMode.dmFields = DM_PELSWIDTH | DM_PELSHEIGHT;
DWORD dwFlags = 0;
LONG res = ChangeDisplaySettings(&devMode, dwFlags);
if (res == 0)
g_cmdLine.bChangedDisplayResolution = true;
}
PostMessage(g_hFrameWindow, WM_USER_FULLSCREEN, 0, 0);
g_cmdLine.bSetFullScreen = false;
}
if (g_cmdLine.bBoot)
{
PostMessage(g_hFrameWindow, WM_USER_BOOT, 0, 0);
g_cmdLine.bBoot = false;
}
}
SetMouseCardInstalled( g_CardMgr.IsMouseCardInstalled() );
}
static void Shutdown(void)
{
if (g_cmdLine.bChangedDisplayResolution)
ChangeDisplaySettings(NULL, 0); // restore default
// Release COM
DDUninit();
SysClk_UninitTimer();
LogFileOutput("Exit: SysClk_UninitTimer()\n");
CoUninitialize();
LogFileOutput("Exit: CoUninitialize()\n");
tfe_shutdown();
LogFileOutput("Exit: tfe_shutdown()\n");
LogDone();
RiffFinishWriteFile();
if (g_hCustomRomF8 != INVALID_HANDLE_VALUE)
CloseHandle(g_hCustomRomF8);
if (g_hCustomRom != INVALID_HANDLE_VALUE)
CloseHandle(g_hCustomRom);
if (g_cmdLine.bSlot7EmptyOnExit)
UnplugHardDiskControllerCard();
}
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