/**
* Let user browse given disk, insert disk if one selected.
*/
static void DlgDisk_BrowseDisk(char *dlgname, int drive, int diskid)
{
char *selname, *zip_path;
const char *tmpname, *realname;
assert(drive >= 0 && drive < MAX_FLOPPYDRIVES);
if (szDiskFileName[drive][0])
tmpname = szDiskFileName[drive];
else
tmpname = szDiskImageDirectory;
selname = SDLGui_FileSelect(tmpname, &zip_path, false);
if (!selname)
return;
printf("in)d%d:(%s)\n",drive,selname);
if (File_Exists(selname))
{printf("----------Exist)\n");
realname = Floppy_SetDiskFileName(drive, selname, zip_path);
if (realname)
File_ShrinkName(dlgname, realname, floppydlg[diskid].w);
}
else
{printf("---------not found\n");
Floppy_SetDiskFileNameNone(drive);
dlgname[0] = '\0';
}
if (zip_path)
free(zip_path);
free(selname);
}
/**
* Set given floppy drive image file name and handle
* different image extensions.
* Return corrected file name on success and NULL on failure.
*/
const char* Floppy_SetDiskFileName(int Drive, const char *pszFileName, const char *pszZipPath)
{
char *filename;
int i;
/* setting to empty or "none" ejects */
if (!*pszFileName || strcasecmp(pszFileName, "none") == 0)
{
return Floppy_SetDiskFileNameNone(Drive);
}
/* See if file exists, and if not, get/add correct extension */
if (!File_Exists(pszFileName))
filename = File_FindPossibleExtFileName(pszFileName, pszDiskImageNameExts);
else
filename = strdup(pszFileName);
if (!filename)
{
Log_AlertDlg((const char *)LOG_INFO, "Image '%s' not found", pszFileName);
return NULL;
}
#if 0
/* If we insert a disk into Drive A, should we try to put disk 2 into drive B? */
if (Drive == 0 && ConfigureParams.DiskImage.bAutoInsertDiskB)
{
/* Attempt to make up second filename, eg was 'auto_100a' to 'auto_100b' */
char *szDiskBFileName = Floppy_CreateDiskBFileName(filename);
if (szDiskBFileName)
{
/* recurse with Drive B */
Floppy_SetDiskFileName(1, szDiskBFileName, pszZipPath);
free(szDiskBFileName);
}
}
#endif
/* validity checks */
assert(Drive >= 0 && Drive < MAX_FLOPPYDRIVES);
for (i = 0; i < MAX_FLOPPYDRIVES; i++)
{
if (i == Drive)
continue;
/* prevent inserting same image to multiple drives */
if (strcmp(filename, /*ConfigureParams.DiskImage.*/szDiskFileName[i]) == 0)
{
Log_AlertDlg((const char *)LOG_ERROR, "ERROR: Cannot insert same floppy to multiple drives!");
return NULL;
}
}
/* do the changes */
if (pszZipPath)
strcpy(szDiskZipPath[Drive], pszZipPath);
else
szDiskZipPath[Drive][0] = '\0';
strcpy(szDiskFileName[Drive], filename);
free(filename);
//File_MakeAbsoluteName(ConfigureParams.DiskImage.szDiskFileName[Drive]);
return szDiskFileName[Drive];
}
/**
* Shorcut to load a disk image
*/
static void ShortCut_InsertDisk(int drive)
{
char *selname, *zip_path = NULL;
const char *tmpname;
char FileNameB[ FILENAME_MAX ];
char ZipPathB[ FILENAME_MAX ];
if (SDLGui_SetScreen(sdlscrn))
return;
/* Save current names for drive 1 before checking autoinsert */
strcpy ( FileNameB , ConfigureParams.DiskImage.szDiskFileName[ 1 ] );
strcpy ( ZipPathB , ConfigureParams.DiskImage.szDiskZipPath[ 1 ] );
if (ConfigureParams.DiskImage.szDiskFileName[drive][0])
tmpname = ConfigureParams.DiskImage.szDiskFileName[drive];
else
tmpname = ConfigureParams.DiskImage.szDiskImageDirectory;
Main_PauseEmulation(true);
selname = SDLGui_FileSelect("Floppy image:", tmpname, &zip_path, false);
if (selname)
{
if (File_Exists(selname))
Floppy_SetDiskFileName(drive, selname, zip_path);
else
Floppy_SetDiskFileNameNone(drive);
if (zip_path)
free(zip_path);
free(selname);
Floppy_InsertDiskIntoDrive(0);
/* Check if inserting into drive 0 also changed drive 1 with autoinsert */
if ( ( strcmp ( FileNameB , ConfigureParams.DiskImage.szDiskFileName[ 1 ] ) != 0 )
|| ( strcmp ( FileNameB , ConfigureParams.DiskImage.szDiskZipPath[ 1 ] ) != 0 ) )
Floppy_InsertDiskIntoDrive(1);
}
Main_UnPauseEmulation();
}
/**
* Ask whether new disk should be inserted to A: or B: and if yes, insert.
*/
static void DlgFloppy_QueryInsert(char *namea, int ida, char *nameb, int idb, const char *path)
{
const char *realname;
int diskid, dlgid;
char *dlgname;
SDLGui_CenterDlg(alertdlg);
int but;
do{
but=SDLGui_DoDialog(alertdlg, NULL);
{
if(but== DLGMOUNT_A){
dlgname = namea;
dlgid = ida;
diskid = 0;
}
else if(but == DLGMOUNT_B){
dlgname = nameb;
dlgid = idb;
diskid = 1;
}
}
gui_poll_events();
}
while (but != DLGMOUNT_CANCEL && but != DLGMOUNT_A && but != DLGMOUNT_B && but != SDLGUI_QUIT
&& but != SDLGUI_ERROR && !bQuitProgram);
realname = Floppy_SetDiskFileName(diskid, path, NULL);
if (realname)
File_ShrinkName(dlgname, realname, floppydlg[dlgid].w);
}
/**
* parse all Hatari command line options and set Hatari state accordingly.
* Returns true if everything was OK, false otherwise.
*/
bool Opt_ParseParameters(int argc, const char * const argv[])
{
int ncpu, skips, zoom, planes, cpuclock, threshold, memsize, port, freq, temp;
const char *errstr;
int i, ok = true;
int val;
/* Defaults for loading initial memory snap-shots */
bLoadMemorySave = false;
bLoadAutoSave = ConfigureParams.Memory.bAutoSave;
for(i = 1; i < argc; i++)
{
/* last argument can be a non-option */
if (argv[i][0] != '-' && i+1 == argc)
return Opt_HandleArgument(argv[i]);
/* WhichOption() checks also that there is an argument,
* so we don't need to check that below
*/
switch(Opt_WhichOption(argc, argv, i))
{
/* general options */
case OPT_HELP:
Opt_ShowHelp();
return false;
case OPT_VERSION:
Opt_ShowVersion();
return false;
case OPT_CONFIRMQUIT:
ok = Opt_Bool(argv[++i], OPT_CONFIRMQUIT, &ConfigureParams.Log.bConfirmQuit);
break;
case OPT_FASTFORWARD:
ok = Opt_Bool(argv[++i], OPT_FASTFORWARD, &ConfigureParams.System.bFastForward);
break;
case OPT_CONFIGFILE:
i += 1;
/* true -> file needs to exist */
ok = Opt_StrCpy(OPT_CONFIGFILE, true, sConfigFileName,
argv[i], sizeof(sConfigFileName), NULL);
if (ok)
{
Configuration_Load(NULL);
bLoadAutoSave = ConfigureParams.Memory.bAutoSave;
}
break;
/* common display options */
case OPT_MONO:
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_MONO;
bLoadAutoSave = false;
break;
case OPT_MONITOR:
i += 1;
if (strcasecmp(argv[i], "mono") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_MONO;
}
else if (strcasecmp(argv[i], "rgb") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_RGB;
}
else if (strcasecmp(argv[i], "vga") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_VGA;
}
else if (strcasecmp(argv[i], "tv") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_TV;
}
else
{
return Opt_ShowError(OPT_MONITOR, argv[i], "Unknown monitor type");
}
bLoadAutoSave = false;
break;
case OPT_FULLSCREEN:
ConfigureParams.Screen.bFullScreen = true;
break;
case OPT_WINDOW:
ConfigureParams.Screen.bFullScreen = false;
break;
case OPT_GRAB:
bGrabMouse = true;
break;
case OPT_FRAMESKIPS:
skips = atoi(argv[++i]);
if (skips < 0)
{
return Opt_ShowError(OPT_FRAMESKIPS, argv[i],
"Invalid frame skip value");
}
else if (skips > 8)
{
Log_Printf(LOG_WARN, "Extravagant frame skip value %d!\n", skips);
}
ConfigureParams.Screen.nFrameSkips = skips;
break;
case OPT_STATUSBAR:
ok = Opt_Bool(argv[++i], OPT_STATUSBAR, &ConfigureParams.Screen.bShowStatusbar);
break;
case OPT_DRIVE_LED:
ok = Opt_Bool(argv[++i], OPT_DRIVE_LED, &ConfigureParams.Screen.bShowDriveLed);
break;
case OPT_FORCEBPP:
planes = atoi(argv[++i]);
switch(planes)
{
case 32:
case 16:
case 15:
case 8:
break; /* supported */
case 24:
planes = 32; /* We do not support 24 bpp (yet) */
break;
default:
return Opt_ShowError(OPT_FORCEBPP, argv[i], "Invalid bit depth");
}
fprintf(stderr, "Hatari window BPP = %d.\n", planes);
ConfigureParams.Screen.nForceBpp = planes;
break;
/* ST/STE display options */
case OPT_BORDERS:
ok = Opt_Bool(argv[++i], OPT_BORDERS, &ConfigureParams.Screen.bAllowOverscan);
break;
case OPT_RESOLUTION_ST:
ok = Opt_Bool(argv[++i], OPT_RESOLUTION_ST, &ConfigureParams.Screen.bKeepResolutionST);
break;
case OPT_SPEC512:
threshold = atoi(argv[++i]);
if (threshold < 0 || threshold > 512)
{
return Opt_ShowError(OPT_SPEC512, argv[i],
"Invalid palette writes per line threshold for Spec512");
}
fprintf(stderr, "Spec512 threshold = %d palette writes per line.\n", threshold);
ConfigureParams.Screen.nSpec512Threshold = threshold;
break;
case OPT_ZOOM:
zoom = atoi(argv[++i]);
if (zoom < 1)
{
return Opt_ShowError(OPT_ZOOM, argv[i], "Invalid zoom value");
}
if (zoom > 1)
{
ConfigureParams.Screen.nMaxWidth = 2*(48+320+48);
ConfigureParams.Screen.nMaxHeight = 2*NUM_VISIBLE_LINES+24;
}
else
{
ConfigureParams.Screen.nMaxWidth = 1*(48+320+48);
ConfigureParams.Screen.nMaxHeight = 1*NUM_VISIBLE_LINES+12;
}
break;
/* Falcon/TT display options */
case OPT_RESOLUTION:
ok = Opt_Bool(argv[++i], OPT_RESOLUTION, &ConfigureParams.Screen.bKeepResolution);
break;
case OPT_MAXWIDTH:
ConfigureParams.Screen.nMaxWidth = atoi(argv[++i]);
break;
case OPT_MAXHEIGHT:
ConfigureParams.Screen.nMaxHeight = atoi(argv[++i]);
break;
case OPT_FORCE_MAX:
ok = Opt_Bool(argv[++i], OPT_FORCE_MAX, &ConfigureParams.Screen.bForceMax);
break;
case OPT_ASPECT:
ok = Opt_Bool(argv[++i], OPT_ASPECT, &ConfigureParams.Screen.bAspectCorrect);
break;
/* screen capture options */
case OPT_SCREEN_CROP:
ok = Opt_Bool(argv[++i], OPT_SCREEN_CROP, &ConfigureParams.Screen.bCrop);
break;
case OPT_AVIRECORD:
AviRecordOnStartup = true;
break;
case OPT_AVIRECORD_VCODEC:
i += 1;
if (strcasecmp(argv[i], "bmp") == 0)
{
ConfigureParams.Video.AviRecordVcodec = AVI_RECORD_VIDEO_CODEC_BMP;
}
else if (strcasecmp(argv[i], "png") == 0)
{
ConfigureParams.Video.AviRecordVcodec = AVI_RECORD_VIDEO_CODEC_PNG;
}
else
{
return Opt_ShowError(OPT_AVIRECORD_VCODEC, argv[i], "Unknown video codec");
}
break;
case OPT_AVIRECORD_FPS:
val = atoi(argv[++i]);
if (val < 0 || val > 100)
{
return Opt_ShowError(OPT_AVIRECORD_FPS, argv[i],
"Invalid frame rate for avi recording");
}
fprintf(stderr, "AVI recording FPS = %d.\n", val);
ConfigureParams.Video.AviRecordFps = val;
break;
case OPT_AVIRECORD_FILE:
i += 1;
/* false -> file is created if it doesn't exist */
ok = Opt_StrCpy(OPT_AVIRECORD_FILE, false, ConfigureParams.Video.AviRecordFile,
argv[i], sizeof(ConfigureParams.Video.AviRecordFile), NULL);
break;
/* VDI options */
case OPT_VDI:
ok = Opt_Bool(argv[++i], OPT_VDI, &ConfigureParams.Screen.bUseExtVdiResolutions);
if (ok)
{
bLoadAutoSave = false;
}
break;
case OPT_VDI_PLANES:
planes = atoi(argv[++i]);
switch(planes)
{
case 1:
ConfigureParams.Screen.nVdiColors = GEMCOLOR_2;
break;
case 2:
ConfigureParams.Screen.nVdiColors = GEMCOLOR_4;
break;
case 4:
ConfigureParams.Screen.nVdiColors = GEMCOLOR_16;
break;
default:
return Opt_ShowError(OPT_VDI_PLANES, argv[i], "Unsupported VDI bit-depth");
}
ConfigureParams.Screen.bUseExtVdiResolutions = true;
bLoadAutoSave = false;
break;
case OPT_VDI_WIDTH:
ConfigureParams.Screen.nVdiWidth = atoi(argv[++i]);
ConfigureParams.Screen.bUseExtVdiResolutions = true;
bLoadAutoSave = false;
break;
case OPT_VDI_HEIGHT:
ConfigureParams.Screen.nVdiHeight = atoi(argv[++i]);
ConfigureParams.Screen.bUseExtVdiResolutions = true;
bLoadAutoSave = false;
break;
/* devices options */
case OPT_JOYSTICK:
i++;
if (strlen(argv[i]) != 1 ||
!Joy_SetCursorEmulation(argv[i][0] - '0'))
{
return Opt_ShowError(OPT_JOYSTICK, argv[i], "Invalid joystick port");
}
break;
case OPT_JOYSTICK0:
case OPT_JOYSTICK1:
case OPT_JOYSTICK2:
case OPT_JOYSTICK3:
case OPT_JOYSTICK4:
case OPT_JOYSTICK5:
port = argv[i][strlen(argv[i])-1] - '0';
assert(port >= 0 && port < JOYSTICK_COUNT);
i += 1;
if (strcasecmp(argv[i], "none") == 0)
{
ConfigureParams.Joysticks.Joy[port].nJoystickMode = JOYSTICK_DISABLED;
}
else if (strcasecmp(argv[i], "keys") == 0)
{
ConfigureParams.Joysticks.Joy[port].nJoystickMode = JOYSTICK_KEYBOARD;
}
else if (strcasecmp(argv[i], "real") == 0)
{
ConfigureParams.Joysticks.Joy[port].nJoystickMode = JOYSTICK_REALSTICK;
}
else
{
return Opt_ShowError(OPT_JOYSTICK0+port, argv[i], "Invalid joystick type");
}
break;
case OPT_PRINTER:
i += 1;
/* "none" can be used to disable printer */
ok = Opt_StrCpy(OPT_PRINTER, false, ConfigureParams.Printer.szPrintToFileName,
argv[i], sizeof(ConfigureParams.Printer.szPrintToFileName),
&ConfigureParams.Printer.bEnablePrinting);
break;
case OPT_MIDI_IN:
i += 1;
ok = Opt_StrCpy(OPT_MIDI_IN, true, ConfigureParams.Midi.sMidiInFileName,
argv[i], sizeof(ConfigureParams.Midi.sMidiInFileName),
&ConfigureParams.Midi.bEnableMidi);
break;
case OPT_MIDI_OUT:
i += 1;
ok = Opt_StrCpy(OPT_MIDI_OUT, false, ConfigureParams.Midi.sMidiOutFileName,
argv[i], sizeof(ConfigureParams.Midi.sMidiOutFileName),
&ConfigureParams.Midi.bEnableMidi);
break;
case OPT_RS232_IN:
i += 1;
ok = Opt_StrCpy(OPT_RS232_IN, true, ConfigureParams.RS232.szInFileName,
argv[i], sizeof(ConfigureParams.RS232.szInFileName),
&ConfigureParams.RS232.bEnableRS232);
break;
case OPT_RS232_OUT:
i += 1;
ok = Opt_StrCpy(OPT_RS232_OUT, false, ConfigureParams.RS232.szOutFileName,
argv[i], sizeof(ConfigureParams.RS232.szOutFileName),
&ConfigureParams.RS232.bEnableRS232);
break;
/* disk options */
case OPT_DRIVEA:
ok = Opt_Bool(argv[++i], OPT_DRIVEA, &ConfigureParams.DiskImage.EnableDriveA);
break;
case OPT_DRIVEB:
ok = Opt_Bool(argv[++i], OPT_DRIVEB, &ConfigureParams.DiskImage.EnableDriveB);
break;
case OPT_DISKA:
i += 1;
if (Floppy_SetDiskFileName(0, argv[i], NULL))
{
ConfigureParams.HardDisk.bBootFromHardDisk = false;
bLoadAutoSave = false;
}
else
return Opt_ShowError(OPT_ERROR, argv[i], "Not a disk image");
break;
case OPT_DISKB:
i += 1;
if (Floppy_SetDiskFileName(1, argv[i], NULL))
bLoadAutoSave = false;
else
return Opt_ShowError(OPT_ERROR, argv[i], "Not a disk image");
break;
case OPT_SLOWFLOPPY:
i++;
fprintf(stderr, "\nWarning: --slowfdc is not supported anymore, use --fastfdc\n\n");
break;
case OPT_FASTFLOPPY:
ok = Opt_Bool(argv[++i], OPT_FASTFLOPPY, &ConfigureParams.DiskImage.FastFloppy);
break;
case OPT_WRITEPROT_FLOPPY:
i += 1;
if (strcasecmp(argv[i], "off") == 0)
ConfigureParams.DiskImage.nWriteProtection = WRITEPROT_OFF;
else if (strcasecmp(argv[i], "on") == 0)
ConfigureParams.DiskImage.nWriteProtection = WRITEPROT_ON;
else if (strcasecmp(argv[i], "auto") == 0)
ConfigureParams.DiskImage.nWriteProtection = WRITEPROT_AUTO;
else
return Opt_ShowError(OPT_WRITEPROT_FLOPPY, argv[i], "Unknown option value");
break;
case OPT_WRITEPROT_HD:
i += 1;
if (strcasecmp(argv[i], "off") == 0)
ConfigureParams.HardDisk.nWriteProtection = WRITEPROT_OFF;
else if (strcasecmp(argv[i], "on") == 0)
ConfigureParams.HardDisk.nWriteProtection = WRITEPROT_ON;
else if (strcasecmp(argv[i], "auto") == 0)
ConfigureParams.HardDisk.nWriteProtection = WRITEPROT_AUTO;
else
return Opt_ShowError(OPT_WRITEPROT_HD, argv[i], "Unknown option value");
break;
case OPT_GEMDOS_CASE:
i += 1;
if (strcasecmp(argv[i], "off") == 0)
ConfigureParams.HardDisk.nGemdosCase = GEMDOS_NOP;
else if (strcasecmp(argv[i], "upper") == 0)
ConfigureParams.HardDisk.nGemdosCase = GEMDOS_UPPER;
else if (strcasecmp(argv[i], "lower") == 0)
ConfigureParams.HardDisk.nGemdosCase = GEMDOS_LOWER;
else
return Opt_ShowError(OPT_GEMDOS_CASE, argv[i], "Unknown option value");
break;
case OPT_HARDDRIVE:
i += 1;
ok = Opt_StrCpy(OPT_HARDDRIVE, false, ConfigureParams.HardDisk.szHardDiskDirectories[0],
argv[i], sizeof(ConfigureParams.HardDisk.szHardDiskDirectories[0]),
&ConfigureParams.HardDisk.bUseHardDiskDirectories);
if (ok && ConfigureParams.HardDisk.bUseHardDiskDirectories &&
ConfigureParams.HardDisk.szHardDiskDirectories[0][0])
{
ConfigureParams.HardDisk.bBootFromHardDisk = true;
}
else
{
ConfigureParams.HardDisk.bUseHardDiskDirectories = false;
ConfigureParams.HardDisk.bBootFromHardDisk = false;
}
bLoadAutoSave = false;
break;
case OPT_ACSIHDIMAGE:
i += 1;
ok = Opt_StrCpy(OPT_ACSIHDIMAGE, true, ConfigureParams.Acsi[0].sDeviceFile,
argv[i], sizeof(ConfigureParams.Acsi[0].sDeviceFile),
&ConfigureParams.Acsi[0].bUseDevice);
if (ok)
{
bLoadAutoSave = false;
}
break;
case OPT_IDEMASTERHDIMAGE:
i += 1;
ok = Opt_StrCpy(OPT_IDEMASTERHDIMAGE, true, ConfigureParams.HardDisk.szIdeMasterHardDiskImage,
argv[i], sizeof(ConfigureParams.HardDisk.szIdeMasterHardDiskImage),
&ConfigureParams.HardDisk.bUseIdeMasterHardDiskImage);
if (ok)
{
bLoadAutoSave = false;
}
break;
case OPT_IDESLAVEHDIMAGE:
i += 1;
ok = Opt_StrCpy(OPT_IDESLAVEHDIMAGE, true, ConfigureParams.HardDisk.szIdeSlaveHardDiskImage,
argv[i], sizeof(ConfigureParams.HardDisk.szIdeSlaveHardDiskImage),
&ConfigureParams.HardDisk.bUseIdeSlaveHardDiskImage);
if (ok)
{
bLoadAutoSave = false;
}
break;
/* Memory options */
case OPT_MEMSIZE:
memsize = atoi(argv[++i]);
if (memsize < 0 || memsize > 14)
{
return Opt_ShowError(OPT_MEMSIZE, argv[i], "Invalid memory size");
}
ConfigureParams.Memory.nMemorySize = memsize;
bLoadAutoSave = false;
break;
case OPT_TOS:
i += 1;
ok = Opt_StrCpy(OPT_TOS, true, ConfigureParams.Rom.szTosImageFileName,
argv[i], sizeof(ConfigureParams.Rom.szTosImageFileName),
NULL);
if (ok)
{
bLoadAutoSave = false;
}
break;
case OPT_PATCHTOS:
ok = Opt_Bool(argv[++i], OPT_PATCHTOS, &ConfigureParams.Rom.bPatchTos);
break;
case OPT_CARTRIDGE:
i += 1;
ok = Opt_StrCpy(OPT_CARTRIDGE, true, ConfigureParams.Rom.szCartridgeImageFileName,
argv[i], sizeof(ConfigureParams.Rom.szCartridgeImageFileName),
NULL);
if (ok)
{
bLoadAutoSave = false;
}
break;
case OPT_MEMSTATE:
i += 1;
ok = Opt_StrCpy(OPT_MEMSTATE, true, ConfigureParams.Memory.szMemoryCaptureFileName,
argv[i], sizeof(ConfigureParams.Memory.szMemoryCaptureFileName),
NULL);
if (ok)
{
bLoadMemorySave = true;
bLoadAutoSave = false;
}
break;
/* CPU options */
case OPT_CPULEVEL:
/* UAE core uses cpu_level variable */
ncpu = atoi(argv[++i]);
if(ncpu < 0 || ncpu > 4)
{
return Opt_ShowError(OPT_CPULEVEL, argv[i], "Invalid CPU level");
}
ConfigureParams.System.nCpuLevel = ncpu;
bLoadAutoSave = false;
break;
case OPT_CPUCLOCK:
cpuclock = atoi(argv[++i]);
if(cpuclock != 8 && cpuclock != 16 && cpuclock != 32)
{
return Opt_ShowError(OPT_CPUCLOCK, argv[i], "Invalid CPU clock");
}
ConfigureParams.System.nCpuFreq = cpuclock;
bLoadAutoSave = false;
break;
case OPT_COMPATIBLE:
ok = Opt_Bool(argv[++i], OPT_COMPATIBLE, &ConfigureParams.System.bCompatibleCpu);
if (ok)
{
bLoadAutoSave = false;
}
break;
#if ENABLE_WINUAE_CPU
case OPT_CPU_ADDR24:
ok = Opt_Bool(argv[++i], OPT_CPU_ADDR24, &ConfigureParams.System.bAddressSpace24);
bLoadAutoSave = false;
break;
case OPT_CPU_CYCLE_EXACT:
ok = Opt_Bool(argv[++i], OPT_CPU_CYCLE_EXACT, &ConfigureParams.System.bCycleExactCpu);
bLoadAutoSave = false;
break;
case OPT_FPU_TYPE:
i += 1;
if (strcasecmp(argv[i], "none") == 0)
{
ConfigureParams.System.n_FPUType = FPU_NONE;
}
else if (strcasecmp(argv[i], "68881") == 0)
{
ConfigureParams.System.n_FPUType = FPU_68881;
}
else if (strcasecmp(argv[i], "68882") == 0)
{
ConfigureParams.System.n_FPUType = FPU_68882;
}
else if (strcasecmp(argv[i], "internal") == 0)
{
ConfigureParams.System.n_FPUType = FPU_CPU;
}
else
{
return Opt_ShowError(OPT_FPU_TYPE, argv[i], "Unknown FPU type");
}
bLoadAutoSave = false;
break;
case OPT_FPU_COMPATIBLE:
ok = Opt_Bool(argv[++i], OPT_FPU_COMPATIBLE, &ConfigureParams.System.bCompatibleFPU);
break;
case OPT_MMU:
ok = Opt_Bool(argv[++i], OPT_MMU, &ConfigureParams.System.bMMU);
bLoadAutoSave = false;
break;
#endif
/* system options */
case OPT_MACHINE:
i += 1;
if (strcasecmp(argv[i], "st") == 0)
{
ConfigureParams.System.nMachineType = MACHINE_ST;
ConfigureParams.System.nCpuLevel = 0;
ConfigureParams.System.nCpuFreq = 8;
}
else if (strcasecmp(argv[i], "ste") == 0)
{
ConfigureParams.System.nMachineType = MACHINE_STE;
ConfigureParams.System.nCpuLevel = 0;
ConfigureParams.System.nCpuFreq = 8;
}
else if (strcasecmp(argv[i], "tt") == 0)
{
ConfigureParams.System.nMachineType = MACHINE_TT;
ConfigureParams.System.nCpuLevel = 3;
ConfigureParams.System.nCpuFreq = 32;
}
else if (strcasecmp(argv[i], "falcon") == 0)
{
#if ENABLE_DSP_EMU
ConfigureParams.System.nDSPType = DSP_TYPE_EMU;
#endif
ConfigureParams.System.nMachineType = MACHINE_FALCON;
ConfigureParams.System.nCpuLevel = 3;
ConfigureParams.System.nCpuFreq = 16;
}
else
{
return Opt_ShowError(OPT_MACHINE, argv[i], "Unknown machine type");
}
#if ENABLE_WINUAE_CPU
if (ConfigureParams.System.nMachineType == MACHINE_ST ||
ConfigureParams.System.nMachineType == MACHINE_STE)
{
ConfigureParams.System.bMMU = false;
ConfigureParams.System.bAddressSpace24 = true;
}
if (ConfigureParams.System.nMachineType == MACHINE_TT)
{
ConfigureParams.System.bCompatibleFPU = true;
ConfigureParams.System.n_FPUType = FPU_68882;
} else {
ConfigureParams.System.n_FPUType = FPU_NONE; /* TODO: or leave it as-is? */
}
#endif
bLoadAutoSave = false;
break;
case OPT_BLITTER:
ok = Opt_Bool(argv[++i], OPT_BLITTER, &ConfigureParams.System.bBlitter);
if (ok)
{
bLoadAutoSave = false;
}
break;
case OPT_TIMERD:
ok = Opt_Bool(argv[++i], OPT_TIMERD, &ConfigureParams.System.bPatchTimerD);
break;
case OPT_FASTBOOT:
ok = Opt_Bool(argv[++i], OPT_FASTBOOT, &ConfigureParams.System.bFastBoot);
break;
case OPT_RTC:
ok = Opt_Bool(argv[++i], OPT_RTC, &ConfigureParams.System.bRealTimeClock);
break;
case OPT_DSP:
i += 1;
if (strcasecmp(argv[i], "none") == 0)
{
ConfigureParams.System.nDSPType = DSP_TYPE_NONE;
}
else if (strcasecmp(argv[i], "dummy") == 0)
{
ConfigureParams.System.nDSPType = DSP_TYPE_DUMMY;
}
else if (strcasecmp(argv[i], "emu") == 0)
{
#if ENABLE_DSP_EMU
ConfigureParams.System.nDSPType = DSP_TYPE_EMU;
#else
return Opt_ShowError(OPT_DSP, argv[i], "DSP type 'emu' support not compiled in");
#endif
}
else
{
return Opt_ShowError(OPT_DSP, argv[i], "Unknown DSP type");
}
bLoadAutoSave = false;
break;
/* sound options */
case OPT_YM_MIXING:
i += 1;
if (strcasecmp(argv[i], "linear") == 0)
{
ConfigureParams.Sound.YmVolumeMixing = YM_LINEAR_MIXING;
}
else if (strcasecmp(argv[i], "table") == 0)
{
ConfigureParams.Sound.YmVolumeMixing = YM_TABLE_MIXING;
}
else if (strcasecmp(argv[i], "model") == 0)
{
ConfigureParams.Sound.YmVolumeMixing = YM_MODEL_MIXING;
}
else
{
return Opt_ShowError(OPT_YM_MIXING, argv[i], "Unknown YM mixing method");
}
break;
case OPT_SOUND:
i += 1;
if (strcasecmp(argv[i], "off") == 0)
{
ConfigureParams.Sound.bEnableSound = false;
}
else
{
freq = atoi(argv[i]);
if (freq < 6000 || freq > 50066)
{
return Opt_ShowError(OPT_SOUND, argv[i], "Unsupported sound frequency");
}
ConfigureParams.Sound.nPlaybackFreq = freq;
ConfigureParams.Sound.bEnableSound = true;
}
fprintf(stderr, "Sound %s, frequency = %d.\n", ConfigureParams.Sound.bEnableSound ? "ON" : "OFF", ConfigureParams.Sound.nPlaybackFreq);
break;
case OPT_SOUNDBUFFERSIZE:
i += 1;
temp = atoi(argv[i]);
if ( temp == 0 ) /* use default setting for SDL */
;
else if (temp < 10 || temp > 100)
{
return Opt_ShowError(OPT_SOUNDBUFFERSIZE, argv[i], "Unsupported sound buffer size");
}
fprintf(stderr, "SDL sound buffer size = %d ms.\n", temp);
ConfigureParams.Sound.SdlAudioBufferSize = temp;
break;
case OPT_SOUNDSYNC:
ok = Opt_Bool(argv[++i], OPT_SOUNDSYNC, &ConfigureParams.Sound.bEnableSoundSync);
break;
case OPT_MICROPHONE:
ok = Opt_Bool(argv[++i], OPT_MICROPHONE, &ConfigureParams.Sound.bEnableMicrophone);
break;
case OPT_KEYMAPFILE:
i += 1;
ok = Opt_StrCpy(OPT_KEYMAPFILE, true, ConfigureParams.Keyboard.szMappingFileName,
argv[i], sizeof(ConfigureParams.Keyboard.szMappingFileName),
NULL);
if (ok)
{
ConfigureParams.Keyboard.nKeymapType = KEYMAP_LOADED;
}
break;
/* debug options */
#ifdef WIN32
case OPT_WINCON:
ConfigureParams.Log.bConsoleWindow = true;
break;
#endif
case OPT_DEBUG:
if (ExceptionDebugMask)
{
fprintf(stderr, "Exception debugging disabled.\n");
ExceptionDebugMask = EXCEPT_NONE;
}
else
{
ExceptionDebugMask = ConfigureParams.Log.nExceptionDebugMask;
fprintf(stderr, "Exception debugging enabled (0x%x).\n", ExceptionDebugMask);
}
break;
case OPT_EXCEPTIONS:
i += 1;
/* sets ConfigureParams.Log.nExceptionDebugMask */
errstr = Log_SetExceptionDebugMask(argv[i]);
if (errstr)
{
if (!errstr[0]) {
/* silent parsing termination */
return false;
}
return Opt_ShowError(OPT_EXCEPTIONS, argv[i], errstr);
}
if (ExceptionDebugMask)
{
/* already enabled, change run-time config */
int oldmask = ExceptionDebugMask;
ExceptionDebugMask = ConfigureParams.Log.nExceptionDebugMask;
fprintf(stderr, "Exception debugging changed (0x%x -> 0x%x).\n",
oldmask, ExceptionDebugMask);
}
break;
case OPT_BIOSINTERCEPT:
if (bBiosIntercept)
{
fprintf(stderr, "X/Bios interception disabled.\n");
bBiosIntercept = false;
}
else
{
fprintf(stderr, "X/Bios interception enabled.\n");
bBiosIntercept = true;
}
break;
case OPT_CONOUT:
i += 1;
ConOutDevice = atoi(argv[i]);
if (ConOutDevice < 0 || ConOutDevice > 7)
{
return Opt_ShowError(OPT_CONOUT, argv[i], "Invalid console device vector number");
}
fprintf(stderr, "Xcounout device %d vector redirection enabled.\n", ConOutDevice);
break;
case OPT_NATFEATS:
ok = Opt_Bool(argv[++i], OPT_NATFEATS, &ConfigureParams.Log.bNatFeats);
fprintf(stderr, "Native Features %s.\n", ConfigureParams.Log.bNatFeats ? "enabled" : "disabled");
break;
case OPT_PARACHUTE:
bNoSDLParachute = true;
break;
case OPT_DISASM:
i += 1;
errstr = Disasm_ParseOption(argv[i]);
if (errstr)
{
if (!errstr[0]) {
/* silent parsing termination */
return false;
}
return Opt_ShowError(OPT_DISASM, argv[i], errstr);
}
break;
case OPT_TRACE:
i += 1;
errstr = Log_SetTraceOptions(argv[i]);
if (errstr)
{
if (!errstr[0]) {
/* silent parsing termination */
return false;
}
return Opt_ShowError(OPT_TRACE, argv[i], errstr);
}
break;
case OPT_TRACEFILE:
i += 1;
ok = Opt_StrCpy(OPT_TRACEFILE, false, ConfigureParams.Log.sTraceFileName,
argv[i], sizeof(ConfigureParams.Log.sTraceFileName),
NULL);
break;
case OPT_CONTROLSOCKET:
i += 1;
errstr = Control_SetSocket(argv[i]);
if (errstr)
{
return Opt_ShowError(OPT_CONTROLSOCKET, argv[i], errstr);
}
break;
case OPT_LOGFILE:
i += 1;
ok = Opt_StrCpy(OPT_LOGFILE, false, ConfigureParams.Log.sLogFileName,
argv[i], sizeof(ConfigureParams.Log.sLogFileName),
NULL);
break;
case OPT_PARSE:
i += 1;
ok = DebugUI_SetParseFile(argv[i]);
break;
case OPT_SAVECONFIG:
/* Hatari-UI needs Hatari config to start */
Configuration_Save();
exit(0);
break;
case OPT_LOGLEVEL:
i += 1;
ConfigureParams.Log.nTextLogLevel = Log_ParseOptions(argv[i]);
if (ConfigureParams.Log.nTextLogLevel == LOG_NONE)
{
return Opt_ShowError(OPT_LOGLEVEL, argv[i], "Unknown log level!");
}
break;
case OPT_ALERTLEVEL:
i += 1;
ConfigureParams.Log.nAlertDlgLogLevel = Log_ParseOptions(argv[i]);
if (ConfigureParams.Log.nAlertDlgLogLevel == LOG_NONE)
{
return Opt_ShowError(OPT_ALERTLEVEL, argv[i], "Unknown alert level!");
}
break;
case OPT_RUNVBLS:
Main_SetRunVBLs(atol(argv[++i]));
break;
case OPT_ERROR:
/* unknown option or missing option parameter */
return false;
default:
return Opt_ShowError(OPT_ERROR, argv[i], "Internal Hatari error, unhandled option");
}
if (!ok)
{
/* Opt_Bool() or Opt_StrCpy() failed */
return false;
}
}
return true;
}
/**
* Handle last (non-option) argument. It can be a path or filename.
* Filename can be a disk image or Atari program.
* Return false if it's none of these.
*/
static bool Opt_HandleArgument(const char *path)
{
char *dir = NULL;
Uint8 test[2];
FILE *fp;
/* Atari program? */
if (File_Exists(path) && (fp = fopen(path, "rb"))) {
/* file starts with GEMDOS magic? */
if (fread(test, 1, 2, fp) == 2 &&
test[0] == 0x60 && test[1] == 0x1A) {
const char *prgname = strrchr(path, PATHSEP);
if (prgname) {
dir = strdup(path);
dir[prgname-path] = '\0';
prgname++;
} else {
dir = strdup(Paths_GetWorkingDir());
prgname = path;
}
/* after above, dir should point to valid dir,
* then make sure that given program from that
* dir will be started.
*/
TOS_AutoStart(prgname);
}
fclose(fp);
}
if (dir) {
path = dir;
}
/* GEMDOS HDD directory (as argument, or for the Atari program)? */
if (File_DirExists(path)) {
if (Opt_StrCpy(OPT_HARDDRIVE, false, ConfigureParams.HardDisk.szHardDiskDirectories[0],
path, sizeof(ConfigureParams.HardDisk.szHardDiskDirectories[0]),
&ConfigureParams.HardDisk.bUseHardDiskDirectories)
&& ConfigureParams.HardDisk.bUseHardDiskDirectories)
{
ConfigureParams.HardDisk.bBootFromHardDisk = true;
}
bLoadAutoSave = false;
if (dir) {
free(dir);
}
return true;
} else {
if (dir) {
/* if dir is set, it should be valid... */
Log_Printf(LOG_ERROR, "Given atari program path '%s' doesn't exist (anymore?)!\n", dir);
free(dir);
exit(1);
}
}
/* disk image? */
if (Floppy_SetDiskFileName(0, path, NULL))
{
ConfigureParams.HardDisk.bBootFromHardDisk = false;
bLoadAutoSave = false;
return true;
}
return Opt_ShowError(OPT_ERROR, path, "Not a disk image, Atari program or directory");
}
/**
* parse all Hatari command line options and set Hatari state accordingly.
* Returns TRUE if everything was OK, FALSE otherwise.
*/
bool Opt_ParseParameters(int argc, const char *argv[])
{
int ncpu, skips, zoom, planes, cpuclock, threshold, memsize, port;
const char *errstr;
int i, ok = TRUE;
/* Defaults for loading initial memory snap-shots */
bLoadMemorySave = FALSE;
bLoadAutoSave = ConfigureParams.Memory.bAutoSave;
for(i = 1; i < argc; i++)
{
if (argv[i][0] != '-')
{
if (Floppy_SetDiskFileName(0, argv[i], NULL))
{
ConfigureParams.HardDisk.bBootFromHardDisk = FALSE;
bLoadAutoSave = FALSE;
}
else
return Opt_ShowError(OPT_ERROR, argv[i], "Not an option nor disk image");
continue;
}
/* WhichOption() checks also that there is an argument,
* so we don't need to check that below
*/
switch(Opt_WhichOption(argc, argv, i))
{
/* general options */
case OPT_HELP:
Opt_ShowHelp();
return FALSE;
case OPT_VERSION:
Opt_ShowVersion();
return FALSE;
case OPT_CONFIRMQUIT:
ok = Opt_Bool(argv[++i], OPT_CONFIRMQUIT, &ConfigureParams.Log.bConfirmQuit);
break;
case OPT_FASTFORWARD:
ok = Opt_Bool(argv[++i], OPT_FASTFORWARD, &ConfigureParams.System.bFastForward);
break;
case OPT_CONFIGFILE:
i += 1;
ok = Opt_StrCpy(OPT_CONFIGFILE, TRUE, sConfigFileName,
argv[i], sizeof(sConfigFileName), NULL);
if (ok)
{
Configuration_Load(NULL);
bLoadAutoSave = ConfigureParams.Memory.bAutoSave;
}
break;
/* display options */
case OPT_MONO:
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_MONO;
bLoadAutoSave = FALSE;
break;
case OPT_MONITOR:
i += 1;
if (strcasecmp(argv[i], "mono") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_MONO;
}
else if (strcasecmp(argv[i], "rgb") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_RGB;
}
else if (strcasecmp(argv[i], "vga") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_VGA;
}
else if (strcasecmp(argv[i], "tv") == 0)
{
ConfigureParams.Screen.nMonitorType = MONITOR_TYPE_TV;
}
else
{
return Opt_ShowError(OPT_MONITOR, argv[i], "Unknown monitor type");
}
bLoadAutoSave = FALSE;
break;
case OPT_FULLSCREEN:
ConfigureParams.Screen.bFullScreen = TRUE;
break;
case OPT_WINDOW:
ConfigureParams.Screen.bFullScreen = FALSE;
break;
case OPT_ZOOM:
zoom = atoi(argv[++i]);
if (zoom < 1)
{
return Opt_ShowError(OPT_ZOOM, argv[i], "Invalid zoom value");
}
if (zoom > 1)
{
/* TODO: only doubling supported for now */
ConfigureParams.Screen.bZoomLowRes = TRUE;
}
else
{
ConfigureParams.Screen.bZoomLowRes = FALSE;
}
break;
case OPT_FRAMESKIPS:
skips = atoi(argv[++i]);
if (skips < 0)
{
return Opt_ShowError(OPT_FRAMESKIPS, argv[i],
"Invalid frame skip value");
}
else if (skips > 8)
{
Log_Printf(LOG_WARN, "Extravagant frame skip value %d!\n", skips);
}
ConfigureParams.Screen.nFrameSkips = skips;
break;
case OPT_BORDERS:
ok = Opt_Bool(argv[++i], OPT_BORDERS, &ConfigureParams.Screen.bAllowOverscan);
break;
case OPT_STATUSBAR:
ok = Opt_Bool(argv[++i], OPT_STATUSBAR, &ConfigureParams.Screen.bShowStatusbar);
break;
case OPT_DRIVE_LED:
ok = Opt_Bool(argv[++i], OPT_DRIVE_LED, &ConfigureParams.Screen.bShowDriveLed);
break;
case OPT_SPEC512:
threshold = atoi(argv[++i]);
if (threshold < 0 || threshold > 512)
{
return Opt_ShowError(OPT_SPEC512, argv[i],
"Invalid palette writes per line threshold for Spec512");
}
ConfigureParams.Screen.nSpec512Threshold = threshold;
break;
case OPT_FORCEBPP:
planes = atoi(argv[++i]);
switch(planes)
{
case 32:
case 16:
case 15:
case 8:
break; /* supported */
case 24:
planes = 32; /* We do not support 24 bpp (yet) */
break;
default:
return Opt_ShowError(OPT_FORCEBPP, argv[i], "Invalid bit depth");
}
ConfigureParams.Screen.nForceBpp = planes;
break;
/* VDI options */
case OPT_VDI:
ok = Opt_Bool(argv[++i], OPT_VDI, &ConfigureParams.Screen.bUseExtVdiResolutions);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
case OPT_VDI_PLANES:
planes = atoi(argv[++i]);
switch(planes)
{
case 1:
ConfigureParams.Screen.nVdiColors = GEMCOLOR_2;
break;
case 2:
ConfigureParams.Screen.nVdiColors = GEMCOLOR_4;
break;
case 4:
ConfigureParams.Screen.nVdiColors = GEMCOLOR_16;
break;
default:
return Opt_ShowError(OPT_VDI_PLANES, argv[i], "Unsupported VDI bit-depth");
}
ConfigureParams.Screen.bUseExtVdiResolutions = TRUE;
bLoadAutoSave = FALSE;
break;
case OPT_VDI_WIDTH:
ConfigureParams.Screen.nVdiWidth = atoi(argv[++i]);
ConfigureParams.Screen.bUseExtVdiResolutions = TRUE;
bLoadAutoSave = FALSE;
break;
case OPT_VDI_HEIGHT:
ConfigureParams.Screen.nVdiHeight = atoi(argv[++i]);
ConfigureParams.Screen.bUseExtVdiResolutions = TRUE;
bLoadAutoSave = FALSE;
break;
/* devices options */
case OPT_JOYSTICK:
i++;
if (strlen(argv[i]) != 1 ||
!Joy_SetCursorEmulation(argv[i][0] - '0'))
{
return Opt_ShowError(OPT_JOYSTICK, argv[i], "Invalid joystick port");
}
break;
case OPT_JOYSTICK0:
case OPT_JOYSTICK1:
case OPT_JOYSTICK2:
case OPT_JOYSTICK3:
case OPT_JOYSTICK4:
case OPT_JOYSTICK5:
port = argv[i][strlen(argv[i])-1] - '0';
assert(port >= 0 && port < JOYSTICK_COUNT);
i += 1;
if (strcasecmp(argv[i], "none") == 0)
{
ConfigureParams.Joysticks.Joy[port].nJoystickMode = JOYSTICK_DISABLED;
}
else if (strcasecmp(argv[i], "keys") == 0)
{
ConfigureParams.Joysticks.Joy[port].nJoystickMode = JOYSTICK_KEYBOARD;
}
else if (strcasecmp(argv[i], "real") == 0)
{
ConfigureParams.Joysticks.Joy[port].nJoystickMode = JOYSTICK_REALSTICK;
}
else
{
return Opt_ShowError(OPT_JOYSTICK0+port, argv[i], "Invalid joystick type");
}
break;
case OPT_PRINTER:
i += 1;
ok = Opt_StrCpy(OPT_PRINTER, FALSE, ConfigureParams.Printer.szPrintToFileName,
argv[i], sizeof(ConfigureParams.Printer.szPrintToFileName),
&ConfigureParams.Printer.bEnablePrinting);
break;
case OPT_MIDI_IN:
i += 1;
/* FALSE: "" can be used to disable midi input */
ok = Opt_StrCpy(OPT_MIDI_IN, FALSE, ConfigureParams.Midi.sMidiInFileName,
argv[i], sizeof(ConfigureParams.Midi.sMidiInFileName),
&ConfigureParams.Midi.bEnableMidi);
break;
case OPT_MIDI_OUT:
i += 1;
ok = Opt_StrCpy(OPT_MIDI_OUT, TRUE, ConfigureParams.Midi.sMidiOutFileName,
argv[i], sizeof(ConfigureParams.Midi.sMidiOutFileName),
&ConfigureParams.Midi.bEnableMidi);
break;
case OPT_RS232_IN:
i += 1;
ok = Opt_StrCpy(OPT_RS232_IN, TRUE, ConfigureParams.RS232.szInFileName,
argv[i], sizeof(ConfigureParams.RS232.szInFileName),
&ConfigureParams.RS232.bEnableRS232);
break;
case OPT_RS232_OUT:
i += 1;
ok = Opt_StrCpy(OPT_RS232_OUT, TRUE, ConfigureParams.RS232.szOutFileName,
argv[i], sizeof(ConfigureParams.RS232.szOutFileName),
&ConfigureParams.RS232.bEnableRS232);
break;
/* disk options */
case OPT_DISKA:
i += 1;
if (Floppy_SetDiskFileName(0, argv[i], NULL))
{
ConfigureParams.HardDisk.bBootFromHardDisk = FALSE;
bLoadAutoSave = FALSE;
}
else
return Opt_ShowError(OPT_ERROR, argv[i], "Not a disk image");
break;
case OPT_DISKB:
i += 1;
if (Floppy_SetDiskFileName(1, argv[i], NULL))
bLoadAutoSave = FALSE;
else
return Opt_ShowError(OPT_ERROR, argv[i], "Not a disk image");
break;
case OPT_HARDDRIVE:
i += 1;
ok = Opt_StrCpy(OPT_HARDDRIVE, FALSE, ConfigureParams.HardDisk.szHardDiskDirectories[0],
argv[i], sizeof(ConfigureParams.HardDisk.szHardDiskDirectories[0]),
&ConfigureParams.HardDisk.bUseHardDiskDirectories);
if (ok && ConfigureParams.HardDisk.bUseHardDiskDirectories)
{
ConfigureParams.HardDisk.bBootFromHardDisk = TRUE;
}
bLoadAutoSave = FALSE;
break;
case OPT_ACSIHDIMAGE:
i += 1;
ok = Opt_StrCpy(OPT_ACSIHDIMAGE, TRUE, ConfigureParams.HardDisk.szHardDiskImage,
argv[i], sizeof(ConfigureParams.HardDisk.szHardDiskImage),
&ConfigureParams.HardDisk.bUseHardDiskImage);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
case OPT_IDEHDIMAGE:
i += 1;
ok = Opt_StrCpy(OPT_IDEHDIMAGE, TRUE, ConfigureParams.HardDisk.szIdeHardDiskImage,
argv[i], sizeof(ConfigureParams.HardDisk.szIdeHardDiskImage),
&ConfigureParams.HardDisk.bUseIdeHardDiskImage);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
case OPT_SLOWFLOPPY:
ok = Opt_Bool(argv[++i], OPT_SLOWFLOPPY, &ConfigureParams.DiskImage.bSlowFloppy);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
/* Memory options */
case OPT_MEMSIZE:
memsize = atoi(argv[++i]);
if (memsize < 0 || memsize > 14)
{
return Opt_ShowError(OPT_MEMSIZE, argv[i], "Invalid memory size");
}
ConfigureParams.Memory.nMemorySize = memsize;
bLoadAutoSave = FALSE;
break;
case OPT_TOS:
i += 1;
ok = Opt_StrCpy(OPT_TOS, TRUE, ConfigureParams.Rom.szTosImageFileName,
argv[i], sizeof(ConfigureParams.Rom.szTosImageFileName),
NULL);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
case OPT_CARTRIDGE:
i += 1;
ok = Opt_StrCpy(OPT_CARTRIDGE, TRUE, ConfigureParams.Rom.szCartridgeImageFileName,
argv[i], sizeof(ConfigureParams.Rom.szCartridgeImageFileName),
NULL);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
case OPT_MEMSTATE:
i += 1;
ok = Opt_StrCpy(OPT_MEMSTATE, TRUE, ConfigureParams.Memory.szMemoryCaptureFileName,
argv[i], sizeof(ConfigureParams.Memory.szMemoryCaptureFileName),
NULL);
if (ok)
{
bLoadMemorySave = TRUE;
bLoadAutoSave = FALSE;
}
break;
/* CPU options */
case OPT_CPULEVEL:
/* UAE core uses cpu_level variable */
ncpu = atoi(argv[++i]);
if(ncpu < 0 || ncpu > 4)
{
return Opt_ShowError(OPT_CPULEVEL, argv[i], "Invalid CPU level");
}
ConfigureParams.System.nCpuLevel = ncpu;
bLoadAutoSave = FALSE;
break;
case OPT_CPUCLOCK:
cpuclock = atoi(argv[++i]);
if(cpuclock != 8 && cpuclock != 16 && cpuclock != 32)
{
return Opt_ShowError(OPT_CPUCLOCK, argv[i], "Invalid CPU clock");
}
ConfigureParams.System.nCpuFreq = cpuclock;
bLoadAutoSave = FALSE;
break;
case OPT_COMPATIBLE:
ok = Opt_Bool(argv[++i], OPT_COMPATIBLE, &ConfigureParams.System.bCompatibleCpu);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
/* system options */
case OPT_MACHINE:
i += 1;
if (strcasecmp(argv[i], "st") == 0)
{
ConfigureParams.System.nMachineType = MACHINE_ST;
ConfigureParams.System.nCpuLevel = 0;
ConfigureParams.System.nCpuFreq = 8;
}
else if (strcasecmp(argv[i], "ste") == 0)
{
ConfigureParams.System.nMachineType = MACHINE_STE;
ConfigureParams.System.nCpuLevel = 0;
ConfigureParams.System.nCpuFreq = 8;
}
else if (strcasecmp(argv[i], "tt") == 0)
{
ConfigureParams.System.nMachineType = MACHINE_TT;
ConfigureParams.System.nCpuLevel = 3;
ConfigureParams.System.nCpuFreq = 32;
}
else if (strcasecmp(argv[i], "falcon") == 0)
{
ConfigureParams.System.nMachineType = MACHINE_FALCON;
ConfigureParams.System.nCpuLevel = 3;
ConfigureParams.System.nCpuFreq = 16;
}
else
{
return Opt_ShowError(OPT_MACHINE, argv[i], "Unknown machine type");
}
bLoadAutoSave = FALSE;
break;
case OPT_BLITTER:
ok = Opt_Bool(argv[++i], OPT_BLITTER, &ConfigureParams.System.bBlitter);
if (ok)
{
bLoadAutoSave = FALSE;
}
break;
case OPT_DSP:
i += 1;
if (strcasecmp(argv[i], "none") == 0)
{
ConfigureParams.System.nDSPType = DSP_TYPE_NONE;
}
else if (strcasecmp(argv[i], "dummy") == 0)
{
ConfigureParams.System.nDSPType = DSP_TYPE_DUMMY;
}
else if (strcasecmp(argv[i], "emu") == 0)
{
#if ENABLE_DSP_EMU
ConfigureParams.System.nDSPType = DSP_TYPE_EMU;
#else
return Opt_ShowError(OPT_DSP, argv[i], "DSP type 'emu' support not compiled in");
#endif
}
else
{
return Opt_ShowError(OPT_DSP, argv[i], "Unknown DSP type");
}
bLoadAutoSave = FALSE;
break;
case OPT_SOUND:
i += 1;
if (strcasecmp(argv[i], "off") == 0)
{
ConfigureParams.Sound.bEnableSound = FALSE;
}
else if (strcasecmp(argv[i], "low") == 0)
{
ConfigureParams.Sound.nPlaybackFreq = 11025;
ConfigureParams.Sound.bEnableSound = TRUE;
}
else if (strcasecmp(argv[i], "med") == 0)
{
ConfigureParams.Sound.nPlaybackFreq = 22050;
ConfigureParams.Sound.bEnableSound = TRUE;
}
else if (strcasecmp(argv[i], "hi") == 0)
{
ConfigureParams.Sound.nPlaybackFreq = 44100;
ConfigureParams.Sound.bEnableSound = TRUE;
}
else
{
return Opt_ShowError(OPT_SOUND, argv[i], "Unsupported sound quality");
}
break;
case OPT_KEYMAPFILE:
i += 1;
ok = Opt_StrCpy(OPT_KEYMAPFILE, TRUE, ConfigureParams.Keyboard.szMappingFileName,
argv[i], sizeof(ConfigureParams.Keyboard.szMappingFileName),
NULL);
if (ok)
{
ConfigureParams.Keyboard.nKeymapType = KEYMAP_LOADED;
}
break;
/* debug options */
case OPT_DEBUG:
if (bEnableDebug)
{
/* called at run time (e.g. from debugger) */
fprintf(stderr, "Debug mode disabled.\n");
bEnableDebug = FALSE;
}
else
{
bEnableDebug = TRUE;
}
break;
case OPT_BIOSINTERCEPT:
bBiosIntercept = TRUE;
break;
case OPT_TRACE:
i += 1;
if (Log_SetTraceOptions(argv[i]) == 0)
{
return Opt_ShowError(OPT_TRACE, argv[i], "Error parsing trace options (use --trace help for available list)!");
}
break;
case OPT_TRACEFILE:
i += 1;
ok = Opt_StrCpy(OPT_TRACEFILE, FALSE, ConfigureParams.Log.sTraceFileName,
argv[i], sizeof(ConfigureParams.Log.sTraceFileName),
NULL);
break;
case OPT_CONTROLSOCKET:
i += 1;
errstr = Control_SetSocket(argv[i]);
if (errstr)
{
return Opt_ShowError(OPT_CONTROLSOCKET, argv[i], errstr);
}
break;
case OPT_LOGFILE:
i += 1;
ok = Opt_StrCpy(OPT_LOGFILE, FALSE, ConfigureParams.Log.sLogFileName,
argv[i], sizeof(ConfigureParams.Log.sLogFileName),
NULL);
break;
case OPT_LOGLEVEL:
i += 1;
ConfigureParams.Log.nTextLogLevel = Log_ParseOptions(argv[i]);
if (ConfigureParams.Log.nTextLogLevel == LOG_NONE)
{
return Opt_ShowError(OPT_LOGLEVEL, argv[i], "Unknown log level!");
}
break;
case OPT_ALERTLEVEL:
i += 1;
ConfigureParams.Log.nAlertDlgLogLevel = Log_ParseOptions(argv[i]);
if (ConfigureParams.Log.nAlertDlgLogLevel == LOG_NONE)
{
return Opt_ShowError(OPT_ALERTLEVEL, argv[i], "Unknown alert level!");
}
break;
case OPT_RUNVBLS:
nRunVBLs = atol(argv[++i]);
break;
case OPT_ERROR:
/* unknown option or missing option parameter */
return FALSE;
default:
return Opt_ShowError(OPT_ERROR, argv[i], "Internal Hatari error, unhandled option");
}
if (!ok)
{
/* Opt_Bool() or Opt_StrCpy() failed */
return FALSE;
}
}
return TRUE;
}