AppleWin/source/Utilities.cpp

612 lines
18 KiB
C++

/*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 "Utilities.h"
#include "Core.h"
#include "CardManager.h"
#include "CPU.h"
#include "Joystick.h"
#include "Log.h"
#include "Mockingboard.h"
#include "MouseInterface.h"
#include "ParallelPrinter.h"
#include "Registry.h"
#include "Riff.h"
#include "SaveState.h"
#include "SerialComms.h"
#include "Speaker.h"
#include "Memory.h"
#include "Pravets.h"
#include "Keyboard.h"
#include "Mockingboard.h"
#include "Interface.h"
#include "SoundCore.h"
#include "Configuration/IPropertySheet.h"
#include "Tfe/tfe.h"
#ifdef USE_SPEECH_API
#include "Speech.h"
#endif
// 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;
GetPropertySheet().SetJoystickCenteringControl(JOYSTICK_MODE_FLOATING);
break;
case 3: // Keyboard (centering)
uNewJoyType = J0C_KEYBD_NUMPAD;
GetPropertySheet().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);
GetFrame().FrameMessageBox(
sText,
"Load Configuration",
MB_ICONSTOP | MB_SETFOREGROUND);
GetPropertySheet().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;
}
REGLOAD_DEFAULT(TEXT(REGVALUE_EMULATION_SPEED), &g_dwSpeed, SPEED_NORMAL);
GetVideo().Config_Load_Video();
SetCurrentCLK6502(); // Pre: g_dwSpeed && Config_Load_Video()->SetVideoRefreshRate()
//
DWORD dwTmp = 0;
if(REGLOAD(TEXT(REGVALUE_FS_SHOW_SUBUNIT_STATUS), &dwTmp))
GetFrame().SetFullScreenShowSubunitStatus(dwTmp ? true : false);
if(REGLOAD(TEXT(REGVALUE_THE_FREEZES_F8_ROM), &dwTmp))
GetPropertySheet().SetTheFreezesF8Rom(dwTmp);
if(REGLOAD(TEXT(REGVALUE_SPKR_VOLUME), &dwTmp))
SpkrSetVolume(dwTmp, GetPropertySheet().GetVolumeMax());
if(REGLOAD(TEXT(REGVALUE_MB_VOLUME), &dwTmp))
MB_SetVolume(dwTmp, GetPropertySheet().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_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))
GetPropertySheet().SetScrollLockToggle(dwTmp);
if(REGLOAD(TEXT(REGVALUE_CURSOR_CONTROL), &dwTmp))
GetPropertySheet().SetJoystickCursorControl(dwTmp);
if(REGLOAD(TEXT(REGVALUE_AUTOFIRE), &dwTmp))
GetPropertySheet().SetAutofire(dwTmp);
if(REGLOAD(TEXT(REGVALUE_SWAP_BUTTONS_0_AND_1), &dwTmp))
GetPropertySheet().SetButtonsSwapState(dwTmp ? true : false);
if(REGLOAD(TEXT(REGVALUE_CENTERING_CONTROL), &dwTmp))
GetPropertySheet().SetJoystickCenteringControl(dwTmp);
if(REGLOAD(TEXT(REGVALUE_MOUSE_CROSSHAIR), &dwTmp))
GetPropertySheet().SetMouseShowCrosshair(dwTmp);
if(REGLOAD(TEXT(REGVALUE_MOUSE_RESTRICT_TO_WINDOW), &dwTmp))
GetPropertySheet().SetMouseRestrictToWindow(dwTmp);
//
TCHAR szFilename[MAX_PATH];
//
for (UINT slot = SLOT0; slot <= SLOT7; slot++)
{
std::string& regSection = RegGetConfigSlotSection(slot);
if (RegLoadValue(regSection.c_str(), REGVALUE_CARD_TYPE, TRUE, &dwTmp))
{
GetCardMgr().Insert(slot, (SS_CARDTYPE)dwTmp, false);
if (slot == SLOT3)
{
tfe_enabled = 0;
if ((SS_CARDTYPE)dwTmp == CT_Uthernet) // TODO: move this to when UthernetCard object is instantiated
{
std::string& regSection = RegGetConfigSlotSection(slot);
if (RegLoadString(regSection.c_str(), REGVALUE_UTHERNET_INTERFACE, TRUE, szFilename, MAX_PATH, TEXT("")))
update_tfe_interface(szFilename);
tfe_init(true);
}
}
else if (slot == SLOT7)
{
if ((SS_CARDTYPE)dwTmp == CT_GenericHDD) // TODO: move this to when HarddiskInterfaceCard object is instantiated
HD_SetEnabled(true, false);
}
}
else // legacy (AppleWin 1.30.3 or earlier)
{
if (slot == SLOT3)
{
tfe_enabled = 0;
DWORD tfeEnabled;
REGLOAD_DEFAULT(TEXT(REGVALUE_UTHERNET_ACTIVE), &tfeEnabled, 0);
GetCardMgr().Insert(SLOT3, get_tfe_enabled() ? CT_Uthernet : CT_Empty);
// TODO: move this to when UthernetCard object is instantiated
RegLoadString(TEXT(REG_CONFIG), TEXT(REGVALUE_UTHERNET_INTERFACE), 1, szFilename, MAX_PATH, TEXT(""));
update_tfe_interface(szFilename);
if (tfeEnabled)
tfe_init(true);
}
else if (slot == SLOT4 && REGLOAD(TEXT(REGVALUE_SLOT4), &dwTmp))
GetCardMgr().Insert(SLOT4, (SS_CARDTYPE)dwTmp);
else if (slot == SLOT5 && REGLOAD(TEXT(REGVALUE_SLOT5), &dwTmp))
GetCardMgr().Insert(SLOT5, (SS_CARDTYPE)dwTmp);
else if (slot == SLOT7 && REGLOAD(TEXT(REGVALUE_HDD_ENABLED), &dwTmp))
HD_SetEnabled(dwTmp ? true : false);
}
}
//
// Load save-state pathname *before* inserting any harddisk/disk images (for both init & reinit cases)
// NB. inserting harddisk/disk can change snapshot pathname
RegLoadString(TEXT(REG_CONFIG), TEXT(REGVALUE_SAVESTATE_FILENAME), 1, szFilename, MAX_PATH, TEXT("")); // Can be pathname or just filename
Snapshot_SetFilename(szFilename); // If not in Registry than default will be used (ie. g_sCurrentDir + default filename)
//
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 their 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);
GetCardMgr().GetDisk2CardMgr().LoadLastDiskImage();
// Do this after populating the slots with Disk II controller(s)
DWORD dwEnhanceDisk;
REGLOAD_DEFAULT(TEXT(REGVALUE_ENHANCE_DISK_SPEED), &dwEnhanceDisk, 1);
GetCardMgr().GetDisk2CardMgr().SetEnhanceDisk(dwEnhanceDisk ? true : false);
//
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))
GetFrame().SetViewportScale(dwTmp);
if (REGLOAD(TEXT(REGVALUE_CONFIRM_REBOOT), &dwTmp))
GetFrame().g_bConfirmReboot = dwTmp;
}
static std::string GetFullPath(LPCSTR szFileName)
{
std::string strPathName;
if (szFileName[0] == PATH_SEPARATOR || szFileName[1] == ':')
{
// Abs pathname
strPathName = szFileName;
}
else
{
// Rel pathname (GH#663)
strPathName = g_sStartDir;
strPathName.append(szFileName);
}
return strPathName;
}
static void SetCurrentDir(const 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(PATH_SEPARATOR);
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&>(GetCardMgr().GetRef(slot));
if (szFileName[0] == '\0')
{
disk2Card.EjectDisk(nDrive);
return true;
}
std::string strPathName = GetFullPath(szFileName);
if (strPathName.empty()) return false;
ImageError_e Error = disk2Card.InsertDisk(nDrive, strPathName, 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)
{
if (szFileName[0] == '\0')
{
HD_Unplug(nDrive);
return true;
}
std::string strPathName = GetFullPath(szFileName);
if (strPathName.empty()) return false;
BOOL bRes = HD_Insert(nDrive, strPathName);
bool res = (bRes == TRUE);
if (res)
SetCurrentDir(strPathName);
return res;
}
void InsertFloppyDisks(const UINT slot, LPCSTR szImageName_drive[NUM_DRIVES], bool driveConnected[NUM_DRIVES], bool& bBoot)
{
_ASSERT(slot == 5 || slot == 6);
bool bRes = true;
if (!driveConnected[DRIVE_1])
{
dynamic_cast<Disk2InterfaceCard&>(GetCardMgr().GetRef(slot)).UnplugDrive(DRIVE_1);
}
else 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);
GetFrame().FrameRefreshStatus(DRAW_LEDS | DRAW_BUTTON_DRIVES | DRAW_DISK_STATUS); // floppy activity LEDs and floppy buttons
bBoot = true;
}
if (!driveConnected[DRIVE_2])
{
dynamic_cast<Disk2InterfaceCard&>(GetCardMgr().GetRef(slot)).UnplugDrive(DRIVE_2);
}
else 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)
GetFrame().FrameMessageBox("Failed to insert floppy disk(s) - see log file", "Warning", MB_ICONASTERISK | MB_OK);
}
void InsertHardDisks(LPCSTR szImageName_harddisk[NUM_HARDDISKS], bool& bBoot)
{
if (!szImageName_harddisk[HARDDISK_1] && !szImageName_harddisk[HARDDISK_2])
return;
HD_SetEnabled(true); // Enable the Harddisk controller card
bool bRes = true;
if (szImageName_harddisk[HARDDISK_1])
{
bRes = DoHardDiskInsert(HARDDISK_1, szImageName_harddisk[HARDDISK_1]);
LogFileOutput("Init: DoHardDiskInsert(HDD1), res=%d\n", bRes);
GetFrame().FrameRefreshStatus(DRAW_LEDS | DRAW_DISK_STATUS); // 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)
GetFrame().FrameMessageBox("Failed to insert harddisk(s) - see log file", "Warning", MB_ICONASTERISK | MB_OK);
}
void UnplugHardDiskControllerCard(void)
{
HD_SetEnabled(false);
}
void GetAppleWindowTitle()
{
switch (g_Apple2Type)
{
default:
case A2TYPE_APPLE2: g_pAppTitle = TITLE_APPLE_2; break;
case A2TYPE_APPLE2PLUS: g_pAppTitle = TITLE_APPLE_2_PLUS; break;
case A2TYPE_APPLE2JPLUS: g_pAppTitle = TITLE_APPLE_2_JPLUS; break;
case A2TYPE_APPLE2E: g_pAppTitle = TITLE_APPLE_2E; break;
case A2TYPE_APPLE2EENHANCED: g_pAppTitle = TITLE_APPLE_2E_ENHANCED; break;
case A2TYPE_PRAVETS82: g_pAppTitle = TITLE_PRAVETS_82; break;
case A2TYPE_PRAVETS8M: g_pAppTitle = TITLE_PRAVETS_8M; break;
case A2TYPE_PRAVETS8A: g_pAppTitle = TITLE_PRAVETS_8A; break;
case A2TYPE_TK30002E: g_pAppTitle = TITLE_TK3000_2E; break;
case A2TYPE_BASE64A: g_pAppTitle = TITLE_BASE64A; break;
}
#if _DEBUG
g_pAppTitle += " *DEBUG* ";
#endif
if (g_nAppMode == MODE_LOGO)
return;
g_pAppTitle += " - ";
if (GetVideo().IsVideoStyle(VS_HALF_SCANLINES))
g_pAppTitle += " 50% ";
g_pAppTitle += GetVideo().VideoGetAppWindowTitle();
if (GetCardMgr().GetDisk2CardMgr().IsAnyFirmware13Sector())
g_pAppTitle += " (S6-13) ";
if (g_hCustomRomF8 != INVALID_HANDLE_VALUE)
g_pAppTitle += TEXT(" (custom rom)");
else if (GetPropertySheet().GetTheFreezesF8Rom() && IS_APPLE2)
g_pAppTitle += TEXT(" (The Freeze's non-autostart F8 rom)");
switch (g_nAppMode)
{
case MODE_PAUSED: g_pAppTitle += std::string(TEXT(" [")) + TITLE_PAUSED + TEXT("]"); break;
case MODE_STEPPING: g_pAppTitle += std::string(TEXT(" [")) + TITLE_STEPPING + TEXT("]"); break;
}
}
//===========================================================================
// CtrlReset() vs ResetMachineState():
// . CPU:
// Ctrl+Reset : 6502.sp=-3 / CpuReset()
// Power cycle: 6502.sp=0x1ff / CpuInitialize()
// . Disk][:
// Ctrl+Reset : if motor-on, then motor-off but continue to spin for 1s
// Power cycle: motor-off & immediately stop spinning
// todo: consolidate CtrlReset() and ResetMachineState()
void ResetMachineState()
{
GetCardMgr().GetDisk2CardMgr().Reset(true);
HD_Reset();
g_bFullSpeed = 0; // Might've hit reset in middle of InternalCpuExecute() - so beep may get (partially) muted
MemReset(); // calls CpuInitialize(), CNoSlotClock.Reset()
GetPravets().Reset();
if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2)
dynamic_cast<Disk2InterfaceCard&>(GetCardMgr().GetRef(SLOT6)).Boot();
GetVideo().VideoResetState();
KeybReset();
if (GetCardMgr().IsSSCInstalled())
GetCardMgr().GetSSC()->CommReset();
PrintReset();
JoyReset();
MB_Reset(true);
SpkrReset();
if (GetCardMgr().IsMouseCardInstalled())
GetCardMgr().GetMouseCard()->Reset();
SetActiveCpu(GetMainCpu());
#ifdef USE_SPEECH_API
g_Speech.Reset();
#endif
SoundCore_SetFade(FADE_NONE);
LogFileTimeUntilFirstKeyReadReset();
}
//===========================================================================
/*
* In comments, UTAII is an abbreviation for a reference to "Understanding the Apple II" by James Sather
*/
// todo: consolidate CtrlReset() and ResetMachineState()
void CtrlReset()
{
if (!IS_APPLE2)
{
// For A][ & A][+, reset doesn't reset the LC switches (UTAII:5-29)
MemResetPaging();
// For A][ & A][+, reset doesn't reset the video mode (UTAII:4-4)
GetVideo().VideoResetState(); // Switch Alternate char set off
}
if (IsAppleIIeOrAbove(GetApple2Type()) || IsCopamBase64A(GetApple2Type()))
{
// For A][ & A][+, reset doesn't reset the annunciators (UTAIIe:I-5)
// Base 64A: on RESET does reset to ROM page 0 (GH#807)
MemAnnunciatorReset();
}
GetPravets().Reset();
GetCardMgr().GetDisk2CardMgr().Reset();
HD_Reset();
KeybReset();
if (GetCardMgr().IsSSCInstalled())
GetCardMgr().GetSSC()->CommReset();
MB_Reset(false);
if (GetCardMgr().IsMouseCardInstalled())
GetCardMgr().GetMouseCard()->Reset(); // Deassert any pending IRQs - GH#514
#ifdef USE_SPEECH_API
g_Speech.Reset();
#endif
CpuReset();
GetFrame().g_bFreshReset = true;
}