Exemplo n.º 1
0
int SndInit()
{
	if (config_options.option_sound_enable)
	{
		if ((BurnDrvGetHardwareCode() == HARDWARE_CAPCOM_CPS1) || (BurnDrvGetHardwareCode() == HARDWARE_CAPCOM_CPS1_GENERIC))
		//if (1==0)
		{
			/*nBurnSoundRate = 11025;
			nAudioChannels = 1;
			BUFFSIZE=512;
            NUM_BUFS=4;
            expectedperframe=734;*/
			nAudioChannels = 2;
			nBurnSoundRate = 11025;
            BUFFSIZE=2048/2;
            NUM_BUFS=6;
            expectedperframe=1468/2;
        //    printf("using low snd for cps1\n");
		}
		else
		{
			switch(config_options.option_samplerate)
			{
				case 1:
					nBurnSoundRate = 22050;
                    BUFFSIZE=2048;
                    NUM_BUFS=6;
                    expectedperframe=1468;
				break;
				case 2:
					nBurnSoundRate = 44100;
					BUFFSIZE=4096;
                    NUM_BUFS=10;
                    expectedperframe=2936;
				break;
				default:
					nBurnSoundRate = 11025;
					BUFFSIZE=1024;
                    NUM_BUFS=5;
                    expectedperframe=734;
				break;
			}
		}
		nBurnSoundLen = ((nBurnSoundRate * 100 /*+ 3000*/) / nBurnFPS );
	}
	pBurnSoundOut	= NULL;

	AudioCurBlock	= 0;

	dspfd = -1;

	return 0;

}
Exemplo n.º 2
0
static INT32 pgmMemIndex()
{
	UINT8 *Next; Next = Mem;
	PGM68KBIOS	= Next; Next += 0x0080000;
	PGM68KROM	= Next; Next += nPGM68KROMLen;

	PGMUSER0	= Next; Next += nPGMExternalARMLen;

	PGMProtROM	= PGMUSER0 + 0x10000; // Olds, Killbld, drgw3

	if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
		PGMARMROM	= Next; Next += 0x0004000;
	}

	RamStart	= Next;

	PGM68KRAM	= Next; Next += 0x0020000;
	RamZ80		= Next; Next += 0x0010000;

	if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
		PGMARMShareRAM	= Next; Next += 0x0010000;
		PGMARMShareRAM2	= Next; Next += 0x0010000;
		PGMARMRAM0	= Next; Next += 0x0001000; // minimum map is 0x1000 - should be 0x400
		PGMARMRAM1	= Next; Next += 0x0040000;
		PGMARMRAM2	= Next; Next += 0x0001000; // minimum map is 0x1000 - should be 0x400
	}

	PGMBgRAM	= (UINT32 *) Next; Next += 0x0001000;
	PGMTxtRAM	= (UINT32 *) Next; Next += 0x0002000;

	PGMRowRAM	= (UINT16 *) Next; Next += 0x0001000;	// Row Scroll
	PGMPalRAM	= (UINT16 *) Next; Next += 0x0001400;	// Palette R5G5B5
	PGMVidReg	= (UINT16 *) Next; Next += 0x0010000;	// Video Regs inc. Zoom Table
	PGMSprBuf	= (UINT16 *) Next; Next += 0x0000a00;

	RamEnd		= Next;

	RamCurPal	= (UINT32 *) Next; Next += (0x0001204 / 2) * sizeof(UINT32);

	MemEnd		= Next;

	return 0;
}
Exemplo n.º 3
0
static int pgmMemIndex()
{
	unsigned char *Next; Next = Mem;
	PGM68KBIOS	= Next; Next += 0x0080000;
	PGM68KROM	= Next; Next += nPGM68KROMLen;

	PGMUSER0	= Next; Next += nPGMExternalARMLen;

	if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
		PGMARMROM	= Next; Next += 0x0004000;
	}

	RamStart	= Next;

	PGM68KRAM	= Next; Next += 0x0020000;
	RamZ80		= Next; Next += 0x0010000;

	if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
		PGMARMShareRAM	= Next; Next += 0x0020000;
		PGMARMShareRAM2	= Next; Next += 0x0020000;
		PGMARMRAM0	= Next; Next += 0x0001000; // minimum map is 0x1000 - should be 0x400
		PGMARMRAM1	= Next; Next += 0x0040000;
		PGMARMRAM2	= Next; Next += 0x0001000; // minimum map is 0x1000 - should be 0x400
	}

	PGMBgRAM	= (unsigned int *) Next; Next += 0x0001000;
	PGMTxtRAM	= (unsigned int *) Next; Next += 0x0002000;

	PGMRowRAM	= (unsigned short *) Next; Next += 0x0001000;	// Row Scroll
	PGMPalRAM	= (unsigned short *) Next; Next += 0x0001400;	// Palette R5G5B5
	PGMVidReg	= (unsigned short *) Next; Next += 0x0010000;	// Video Regs inc. Zoom Table
	PGMSprBuf	= (unsigned short *) Next; Next += 0x0000a00;

	RamEnd		= Next;

	RamCurPal	= (unsigned int *) Next; Next += (0x0001202 / 2) * sizeof(unsigned int);

	MemEnd		= Next;

	return 0;
}
Exemplo n.º 4
0
// init autofire buttons
void __cdecl initAutofire()
{
    if (!nAutofireEnabled)
        return;

    // check delay value
    if (autofireDelay < 1 || autofireDelay > 99)
        autofireDelay = autofireDefaultDelay;

    delayCounter = autofireDelay;

    // choose autofire method
    method2 = false;
    int flag = (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK);
    if (flag == HARDWARE_IGS_PGM)
        method2 = true;

    // reset values
    resetAutofire();

    // get button info
    int nButtons = 0; // buttons per player
    int nPlayer = 0;
    int nPlayerTemp = 0;
    BurnInputInfo bii;

    for (unsigned int i = 0; i < nGameInpCount; i++) {
        memset(&bii, 0, sizeof(bii));
        BurnDrvGetInputInfo(&bii, i);

        if (!bii.szName || !bii.pVal)
            continue;

        if ((bii.szName[0] == 'P' || bii.szName[0] == 'p')
                && bii.szName[1] >= '1' && bii.szName[1] <= '4') {
            nPlayer = bii.szName[1] - '1';

            if (nPlayer != nPlayerTemp) {
                // if it is next player
//				autofireSize = nButtons;
                nButtons = 0;
            }
            if (!strncmp(" fire", bii.szInfo + 2, 5) && nButtons < MAX_AUTOFIRE_BUTTONS) {
                autofires[nPlayer][nButtons].value = bii.pVal;
                autofires[nPlayer][nButtons].inpIndex = i;
                nButtons++;
            }

            nPlayerTemp = nPlayer;
        }
    }
}
Exemplo n.º 5
0
int PcmInit()
{
  memset(Reg,0,sizeof(Reg));
  memset(&ChanPos,0,sizeof(ChanPos));
  memset(&ChanBank,0,sizeof(ChanBank));
  
  if (BurnDrvGetHardwareCode() & HARDWARE_SEGA_YM2203) {
  	PcmSpeed *= 2;
  }

  if (PcmRate>0)
  {
    // Make the ChanPos increment value
    IncVal=(PcmSpeed<<FRAC_SHIFT)/PcmRate;
  }
  return 0;
}
Exemplo n.º 6
0
static int DoLibInit()					// Do Init of Burn library driver
{
	int nRet = 0;

	if ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_SNK_MVS) {
		ProgressCreate();
	}
	
	if (DrvBzipOpen()) {
		return 1;
	}

	nRet = BurnDrvInit();

	BzipClose();

	ProgressDestroy();

	if (nRet) {
		return 3;
	} else {
		return 0;
	}
}
Exemplo n.º 7
0
static void GameInpInitMacros()
{
	struct GameInp* pgi;
	struct BurnInputInfo bii;

	INT32 nPunchx3[4] = {0, 0, 0, 0};
	INT32 nPunchInputs[4][3];
	INT32 nKickx3[4] = {0, 0, 0, 0};
	INT32 nKickInputs[4][3];

	INT32 nNeogeoButtons[4][4];
	INT32 nPgmButtons[10][4];

	bStreetFighterLayout = false;
	nMacroCount = 0;

	nFireButtons = 0;

	memset(&nNeogeoButtons, 0, sizeof(nNeogeoButtons));
	memset(&nPgmButtons, 0, sizeof(nPgmButtons));

	for (UINT32 i = 0; i < nGameInpCount; i++) {
		bii.szName = NULL;
		BurnDrvGetInputInfo(&bii, i);
		if (bii.szName == NULL) {
			bii.szName = "";
		}

		bool bPlayerInInfo = (toupper(bii.szInfo[0]) == 'P' && bii.szInfo[1] >= '1' && bii.szInfo[1] <= '4'); // Because some of the older drivers don't use the standard input naming.
		bool bPlayerInName = (bii.szName[0] == 'P' && bii.szName[1] >= '1' && bii.szName[1] <= '4');

		if (bPlayerInInfo || bPlayerInName) {
			INT32 nPlayer = 0;

			if (bPlayerInName)
				nPlayer = bii.szName[1] - '1';
			if (bPlayerInInfo && nPlayer == 0)
				nPlayer = bii.szInfo[1] - '1';

			if (nPlayer == 0) {
				if (strncmp(" fire", bii.szInfo + 2, 5) == 0) {
					nFireButtons++;
				}
			}

			if (_stricmp(" Weak Punch", bii.szName + 2) == 0) {
				nPunchx3[nPlayer] |= 1;
				nPunchInputs[nPlayer][0] = i;
			}
			if (_stricmp(" Medium Punch", bii.szName + 2) == 0) {
				nPunchx3[nPlayer] |= 2;
				nPunchInputs[nPlayer][1] = i;
			}
			if (_stricmp(" Strong Punch", bii.szName + 2) == 0) {
				nPunchx3[nPlayer] |= 4;
				nPunchInputs[nPlayer][2] = i;
			}
			if (_stricmp(" Weak Kick", bii.szName + 2) == 0) {
				nKickx3[nPlayer] |= 1;
				nKickInputs[nPlayer][0] = i;
			}
			if (_stricmp(" Medium Kick", bii.szName + 2) == 0) {
				nKickx3[nPlayer] |= 2;
				nKickInputs[nPlayer][1] = i;
			}
			if (_stricmp(" Strong Kick", bii.szName + 2) == 0) {
				nKickx3[nPlayer] |= 4;
				nKickInputs[nPlayer][2] = i;
			}
			
			if ((BurnDrvGetHardwareCode() & (HARDWARE_PUBLIC_MASK - HARDWARE_PREFIX_CARTRIDGE)) == HARDWARE_SNK_NEOGEO) {
				if (_stricmp(" Button A", bii.szName + 2) == 0) {
					nNeogeoButtons[nPlayer][0] = i;
				}
				if (_stricmp(" Button B", bii.szName + 2) == 0) {
					nNeogeoButtons[nPlayer][1] = i;
				}
				if (_stricmp(" Button C", bii.szName + 2) == 0) {
					nNeogeoButtons[nPlayer][2] = i;
				}
				if (_stricmp(" Button D", bii.szName + 2) == 0) {
					nNeogeoButtons[nPlayer][3] = i;
				}
			}

			//if ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_IGS_PGM) {
			{ // Use nPgmButtons for Autofire too -dink
				if ((_stricmp(" Button 1", bii.szName + 2) == 0) || (_stricmp(" fire 1", bii.szInfo + 2) == 0)) {
					nPgmButtons[nPlayer][0] = i;
				}
				if ((_stricmp(" Button 2", bii.szName + 2) == 0) || (_stricmp(" fire 2", bii.szInfo + 2) == 0)) {
					nPgmButtons[nPlayer][1] = i;
				}
				if ((_stricmp(" Button 3", bii.szName + 2) == 0) || (_stricmp(" fire 3", bii.szInfo + 2) == 0)) {
					nPgmButtons[nPlayer][2] = i;
				}
				if ((_stricmp(" Button 4", bii.szName + 2) == 0) || (_stricmp(" fire 4", bii.szInfo + 2) == 0)) {
					nPgmButtons[nPlayer][3] = i;
				}
				if ((_stricmp(" Button 5", bii.szName + 2) == 0) || (_stricmp(" fire 5", bii.szInfo + 2) == 0)) {
					nPgmButtons[nPlayer][4] = i;
				}
				if ((_stricmp(" Button 6", bii.szName + 2) == 0) || (_stricmp(" fire 6", bii.szInfo + 2) == 0)) {
					nPgmButtons[nPlayer][5] = i;
				}
			}
		}
	}

	pgi = GameInp + nGameInpCount;

	{ // Mappable system macros -dink
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			pgi->Macro.nSysMacro = 1;
			sprintf(pgi->Macro.szName, "System Pause");
			pgi->Macro.pVal[0] = &macroSystemPause;
			pgi->Macro.nVal[0] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			pgi->Macro.nSysMacro = 1;
			sprintf(pgi->Macro.szName, "System FFWD");
			pgi->Macro.pVal[0] = &macroSystemFFWD;
			pgi->Macro.nVal[0] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			pgi->Macro.nSysMacro = 1;
			sprintf(pgi->Macro.szName, "System Load State");
			pgi->Macro.pVal[0] = &macroSystemLoadState;
			pgi->Macro.nVal[0] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			pgi->Macro.nSysMacro = 1;
			sprintf(pgi->Macro.szName, "System Save State");
			pgi->Macro.pVal[0] = &macroSystemSaveState;
			pgi->Macro.nVal[0] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			pgi->Macro.nSysMacro = 1;
			sprintf(pgi->Macro.szName, "System UNDO State");
			pgi->Macro.pVal[0] = &macroSystemUNDOState;
			pgi->Macro.nVal[0] = 1;
			nMacroCount++;
			pgi++;
	}
	{ // Autofire!!!
			for (INT32 nPlayer = 0; nPlayer < nMaxPlayers; nPlayer++) {
				for (INT32 i = 0; i < nFireButtons; i++) {
					pgi->nInput = GIT_MACRO_AUTO;
					pgi->nType = BIT_DIGITAL;
					pgi->Macro.nMode = 0;
					pgi->Macro.nSysMacro = 15; // 15 = Auto-Fire mode
					if ((BurnDrvGetHardwareCode() & (HARDWARE_PUBLIC_MASK - HARDWARE_PREFIX_CARTRIDGE)) == HARDWARE_SEGA_MEGADRIVE) {
						if (i < 3) {
							sprintf(pgi->Macro.szName, "P%d Auto-Fire Button %c", nPlayer+1, i+'A'); // A,B,C
						} else {
							sprintf(pgi->Macro.szName, "P%d Auto-Fire Button %c", nPlayer+1, i+'X'-3); // X,Y,Z
						}
					} else {
						sprintf(pgi->Macro.szName, "P%d Auto-Fire Button %d", nPlayer+1, i+1);
					}
					if ((BurnDrvGetHardwareCode() & (HARDWARE_PUBLIC_MASK - HARDWARE_PREFIX_CARTRIDGE)) == HARDWARE_SNK_NEOGEO) {
						BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][i]);
					} else {
						BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][i]);
					}
					pgi->Macro.pVal[0] = bii.pVal;
					pgi->Macro.nVal[0] = 1;
					nMacroCount++;
					pgi++;
				}
			}
	}

	for (INT32 nPlayer = 0; nPlayer < nMaxPlayers; nPlayer++) {
		if (nPunchx3[nPlayer] == 7) {		// Create a 3x punch macro
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;

			sprintf(pgi->Macro.szName, "P%i 3× Punch", nPlayer + 1);
			for (INT32 j = 0; j < 3; j++) {
				BurnDrvGetInputInfo(&bii, nPunchInputs[nPlayer][j]);
				pgi->Macro.pVal[j] = bii.pVal;
				pgi->Macro.nVal[j] = 1;
			}

			nMacroCount++;
			pgi++;
		}

		if (nKickx3[nPlayer] == 7) {		// Create a 3x kick macro
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;

			sprintf(pgi->Macro.szName, "P%i 3× Kick", nPlayer + 1);
			for (INT32 j = 0; j < 3; j++) {
				BurnDrvGetInputInfo(&bii, nKickInputs[nPlayer][j]);
				pgi->Macro.pVal[j] = bii.pVal;
				pgi->Macro.nVal[j] = 1;
			}

			nMacroCount++;
			pgi++;
		}

		if (nFireButtons == 4 && (BurnDrvGetHardwareCode() & (HARDWARE_PUBLIC_MASK - HARDWARE_PREFIX_CARTRIDGE)) == HARDWARE_SNK_NEOGEO) {
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons AB", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons AC", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons AD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons BC", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons BD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons CD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons ABC", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons ABD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons ACD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons BCD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons ABCD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[3] = bii.pVal;
			pgi->Macro.nVal[3] = 1;
			nMacroCount++;
			pgi++;
		}
		
		if (nFireButtons == 4 && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_IGS_PGM) {
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 12", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 13", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 14", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][3]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 23", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][1]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 24", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][1]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][3]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 34", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][2]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][3]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 123", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][2]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 124", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][3]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;
			
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 134", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][3]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 234", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][1]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][3]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			nMacroCount++;
			pgi++;

			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;
			sprintf(pgi->Macro.szName, "P%i Buttons 1234", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][2]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			BurnDrvGetInputInfo(&bii, nPgmButtons[nPlayer][3]);
			pgi->Macro.pVal[3] = bii.pVal;
			pgi->Macro.nVal[3] = 1;
			nMacroCount++;
			pgi++;
		}
	}

	if ((nPunchx3[0] == 7) && (nKickx3[0] == 7)) {
		bStreetFighterLayout = true;
	}
	if (nFireButtons >= 5 && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_CAPCOM_CPS2) {
		bStreetFighterLayout = true;
	}
}
Exemplo n.º 8
0
static void onCommand(HWND hDlg, int id, HWND /*hwndCtl*/, UINT codeNotify)
{
    if (bLoading) {
        return;
    }

    switch (id) {
    case MENU_LOAD:
        HK_openGame(0);
        break;

    case MENU_LOAD_QUICK:
        HK_quickOpenGame(0);
        break;

    case MENU_QUIT:
        HK_exitGame(0);
        break;

    case MENU_EXIT:
        StopReplay();
        AviStop();
        FBA_KailleraEnd();
        PostQuitMessage(0);

        menuSync(MENUT_ALL);
        return;

    case MENU_PAUSE:
        HK_pause(0);
        break;

    case MENU_CARTR_MOUNT:
        mountCartridge(true);
        menuSync(MENUT_FILE);
        break;

    case MENU_CARTR_UNMOUNT:
        mountCartridge(false);
        menuSync(MENUT_FILE);
        break;

    case MENU_STARTNET:
        if (!kNetGame) {
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
            audio.blank();
            SplashDestroy(1);
            StopReplay();
            AviStop();
            BurnerDrvExit();
            // load kaillera.dll
            if (FBA_KailleraInit()) {
                DoNetGame();
            }
            menuSync(MENUT_ALL);
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
        }
        break;

    case MENU_STARTREPLAY:
        HK_playRec(0);
        break;
    case MENU_STARTRECORD:
        HK_startRec(0);
        break;
    case MENU_STOPREPLAY:
        HK_stopRec(0);
        break;

    case MENU_AVISTART:
        HK_startAvi(0);
        break;
    case MENU_AVISTOP:
        HK_stopAvi(0);
        break;
    case MENU_AVIINTAUD:
        nAviIntAudio = !nAviIntAudio;
        menuSync(MENUT_FILE);
        break;

    case MENU_MEMCARD_CREATE:
        if (useDialogs() && bDrvOkay && !kNetGame
                && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_NEOGEO) {
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
            audio.blank();
            MemCardEject();
            MemCardCreate();
            MemCardInsert();
            menuSync(MENUT_FILE);
            GameInpCheckMouse();
        }
        break;
    case MENU_MEMCARD_SELECT:
        if (useDialogs() && bDrvOkay && !kNetGame
                && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_NEOGEO) {
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
            audio.blank();
            MemCardEject();
            MemCardSelect();
            MemCardInsert();
            menuSync(MENUT_FILE);
            GameInpCheckMouse();
        }
        break;
    case MENU_MEMCARD_INSERT:
        if (bDrvOkay && !kNetGame
                && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_NEOGEO) {
            MemCardInsert();
        }
        break;
    case MENU_MEMCARD_EJECT:
        if (bDrvOkay && !kNetGame
                && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_NEOGEO) {
            MemCardEject();
        }
        break;

    case MENU_MEMCARD_TOGGLE:
        if (bDrvOkay && !kNetGame
                && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_NEOGEO) {
            MemCardToggle();
        }
        break;

    case MENU_STATE_LOAD_DIALOG:
        HK_loadStateDialog(0);
        break;
    case MENU_STATE_SAVE_DIALOG:
        HK_saveStateDialog(0);
        return;
    case MENU_STATE_PREVSLOT:
        HK_prevState(0);
        break;
    case MENU_STATE_NEXTSLOT:
        HK_nextState(0);
        break;
    case MENU_STATE_LOAD_SLOT:
        HK_loadCurState(0);
        break;
    case MENU_STATE_SAVE_SLOT:
        HK_saveCurState(0);
        break;

    case MENU_STATE_ALLRAM:
        bDrvSaveAll = !bDrvSaveAll;
        menuSync(MENUT_FILE);
        break;

    case MENU_WLOGSTART:
        audio.blank();
        waveLogStart();
        break;
    case MENU_WLOGEND:
        audio.blank();
        waveLogStop();
        break;

    case MENU_NOSTRETCH:
        bVidCorrectAspect = 0;
        bVidFullStretch = 0;
        simpleReinitScrn(false);
        menuSync(MENUT_SETTING);
        break;
    case MENU_STRETCH:
        bVidFullStretch = 1;
        bVidCorrectAspect = 0;
        simpleReinitScrn(false);
        menuSync(MENUT_SETTING);
        break;
    case MENU_ASPECT:
        bVidCorrectAspect = 1;
        bVidFullStretch = 0;
        simpleReinitScrn(false);
        menuSync(MENUT_SETTING);
        break;

    case MENU_FULL:
        HK_fullscreen(0);
        return;

    case MENU_AUTOSIZE:
        if (nWindowSize != 0) {
            nWindowSize = 0;
            simpleReinitScrn(false);
            menuSync(MENUT_SETTING);
        }
        break;
    case MENU_WINDOWSIZE1X:
        HK_windowSize(1);
        break;
    case MENU_WINDOWSIZE2X:
        HK_windowSize(2);
        break;
    case MENU_WINDOWSIZE3X:
        HK_windowSize(3);
        break;
    case MENU_WINDOWSIZE4X:
        HK_windowSize(4);
        break;
    case MENU_WINDOWSIZEMAX:
        HK_windowSizeMax(0);
        break;

    case MENU_HOTKEYS:
        MHkeysCreate(hDlg);
        break;

    case MENU_INPUT:
        HK_configPad(0);
        break;

    case MENU_DIPSW:
        HK_setDips(0);
        break;

    case MENU_SETCPUCLOCK:
        audio.blank();
        CPUClockDialog(hDlg);
        menuSync(MENUT_GAME);
        GameInpCheckMouse();
        break;
    case MENU_RESETCPUCLOCK:
        nBurnCPUSpeedAdjust = 0x0100;
        menuSync(MENUT_GAME);
        break;

    // ==> rom save
    case MENU_SAVEC:
        bsavedecryptedcs = !bsavedecryptedcs;
        menuSync(MENUT_GAME);
        break;
    case MENU_SAVEP:
        bsavedecryptedps = !bsavedecryptedps;
        menuSync(MENUT_GAME);
        break;
    case MENU_SAVES:
        bsavedecrypteds1 = !bsavedecrypteds1;
        menuSync(MENUT_GAME);
        break;
    case MENU_SAVEV:
        bsavedecryptedvs = !bsavedecryptedvs;
        menuSync(MENUT_GAME);
        break;
    case MENU_SAVEM:
        bsavedecryptedm1 = !bsavedecryptedm1;
        menuSync(MENUT_GAME);
        break;
    case MENU_SAVEXOR:
        bsavedecryptedxor = !bsavedecryptedxor;
        menuSync(MENUT_GAME);
        break;
    case MENU_SAVEDPROM:
        bsavedecryptedprom = !bsavedecryptedprom;
        menuSync(MENUT_GAME);
        break;
    // <== rom save

    case MENU_LANGUAGE_SELECT:
        if (useDialogs()) {
            if (!FBALocaliseLoad()) {
                menuReinit();
            }
        }
        break;
    case MENU_LANGUAGE_UNLOAD:
        _tcsncpy(szLanguage, _T(""), sizearray(szLanguage));
        FBALocaliseExit();
        menuReinit();
        break;

    case MENU_GAMELIST_SELECT:
        if (useDialogs()) {
            loadGamelist();
        }
        break;
    case MENU_GAMELIST_EXPORT:
        if (useDialogs()) {
            createGamelist();
        }
        break;

    case MENU_MISCDIR_EDIT:
        if (useDialogs()) {
            pathSheetCreate(hDlg);
        }
        break;
    case MENU_ROMDIR_EDIT:
        if (useDialogs()) {
            RomsDirCreate(hDlg);
        }
        break;

    case MENU_ENABLECHEAT:
        HK_cheatEditor(0);
        break;

#ifndef NO_CHEATSEARCH
    case MENU_CHEATSEARCH:
        HK_cheatSearch(0);
        break;
#endif

    // ==> simple jukebox, added by regret
    case MENU_JUKEBOX:
        if (useDialogs()) {
            jukeCreate();
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
        }
        break;
    // <== simple jukebox

    case MENU_DEBUG:
        if (useDialogs()) {
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
            DebugCreate();
        }
        break;

    case MENU_SAVESNAP: {
        HK_screenShot(0);
        break;
    }
    case MENU_SNAPFACT:
        HK_shotFactory(0);
        break;

    case MENU_SKIN_SELECT:
        if (useDialogs()) {
            if (selectSkin() == 0) {
                simpleReinitScrn(true);
            }
        }
        break;
    case MENU_SKIN_UNLOAD:
        _tcsncpy(szPlaceHolder, _T(""), sizearray(szPlaceHolder));
        simpleReinitScrn(true);
        break;

    case MENU_CLRMAMEPRO_XML:
        if (useDialogs()) {
            createDatfileWindows(1);
        }
        break;
    case MENU_CLRMAME_PRO:
        if (useDialogs()) {
            createDatfileWindows(0);
        }
        break;

    case MENU_SAVESET:
        configAppSaveXml();
        break;
    case MENU_LOADSET:
        configAppLoadXml();
        POST_INITIALISE_MESSAGE;
        break;

    case MENU_ABOUT:
        if (useDialogs()) {
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
            audio.blank();
            AboutCreate(hDlg);
            GameInpCheckMouse();
        }
        break;
    case MENU_SYSINFO:
        if (useDialogs()) {
            InputSetCooperativeLevel(false, !bAlwaysProcessKey);
            audio.blank();
            SystemInfoCreate(hDlg);
            GameInpCheckMouse();
        }
        break;

    case MENU_CONTENTS: {
        if (useDialogs()) {
            FILE* fp = _tfopen(_T("readme.txt"), _T("r"));
            if (fp) {
                fclose(fp);
                ShellExecute(NULL, _T("open"), _T("readme.txt"), NULL, NULL, SW_SHOWNORMAL);
            }
        }
        break;
    }

    case MENU_WWW_HOME:
        ShellExecute(NULL, _T("open"), _T("http://www.barryharris.me.uk/"), NULL, NULL, SW_SHOWNORMAL);
        break;
    case MENU_WWW_FORUM:
        ShellExecute(NULL, _T("open"), _T("http://neosource.1emulation.com/forums/"), NULL, NULL, SW_SHOWNORMAL);
        break;
    case MENU_WWW_FORUM1:
        ShellExecute(NULL, _T("open"), _T("http://www.egcg.com.cn/bbs/"), NULL, NULL, SW_SHOWNORMAL);
        break;

    // filters
    case MENU_SOFT_NONE:
        vidUseFilter = 0;
        nVidFilter = 0;
        VidReinit();
        menuSync(MENUT_SETTING);
        break;

    case MENU_SOFT_EPXB:
    case MENU_SOFT_EPXC:
    case MENU_SOFT_SCALE2X:
    case MENU_SOFT_SCALE3X:
    case MENU_SOFT_2XSAI:
    case MENU_SOFT_SUPER2XSAI:
    case MENU_SOFT_SUPEREAGLE:
    case MENU_SOFT_2XPMHQ:
    case MENU_SOFT_HQ2X:
    case MENU_SOFT_HQ2XS:
    case MENU_SOFT_HQ2XBOLD:
    case MENU_SOFT_HQ3X:
    case MENU_SOFT_HQ3XS:
    case MENU_SOFT_HQ3XBOLD:
    case MENU_SOFT_SCANLINE:
    case MENU_SOFT_SCANLINE50:
    case MENU_SOFT_SCANLINE25:
    case MENU_SOFT_INTERSCANLINE:
    case MENU_SOFT_INTERSCANLINE50:
    case MENU_SOFT_INTERSCANLINE25:
        vidUseFilter = 1;
        nVidFilter = id - MENU_SOFT_NONE;
        scrnSize();
        VidSwitchFilter(nVidFilter);
        menuSync(MENUT_SETTING);
        break;

    case MENU_FILTER_AUTOSIZE:
        vidForceFilterSize = !vidForceFilterSize;
        simpleReinitScrn(true);
        menuSync(MENUT_SETTING);
        break;

    // Options for blitters
    case MENU_FILTER_POINT:
        if (vidFilterLinear) {
            vidFilterLinear = 0;
            VidReinit();
            menuSync(MENUT_SETTING);
        }
        break;
    case MENU_FILTER_LINEAR:
        if (!vidFilterLinear) {
            vidFilterLinear = 1;
            VidReinit();
            menuSync(MENUT_SETTING);
        }
        break;

    case MENU_CONFIGALL:
        if (useDialogs()) {
            preferenceCreate(hDlg);
            setWindowAspect();
            menuReinit();
            simpleReinitScrn(true);
            mediaReInitAudio();
        }
        break;
    case MENU_VIDEOCONFIG:
        if (useDialogs()) {
            prefVideoCreate(hDlg);
            setWindowAspect();
            simpleReinitScrn(true);
        }
        break;
    case MENU_AUDIOCONFIG:
        if (useDialogs()) {
            prefAudioCreate(hDlg);
            mediaReInitAudio();
        }
        break;
    case MENU_MISCCONFIG:
        if (useDialogs()) {
            prefMiscCreate(hDlg);
            menuReinit();
            VidReinit();
        }
        break;

//		default:
//			printf("  * Command %i sent.\n");
    }

    if (ChatActivated()) {
        switch (codeNotify) {
        case EN_CHANGE: {
            bEditTextChanged = true;
            SendMessage(GetChatWindow(), WM_GETTEXT, (WPARAM)MAX_CHAT_SIZE + 1, (LPARAM)EditText);
            break;
        }
        case EN_KILLFOCUS: {
            ActivateChat();
            break;
        }
        case EN_MAXTEXT: {
            VidSNewShortMsg(FBALoadStringEx(IDS_NETPLAY_TOOMUCH), 0xFF3F3F);
            break;
        }
        }
    }
}
Exemplo n.º 9
0
static int pgmGetRoms(bool bLoad)
{
	int kov2 = (strncmp(BurnDrvGetTextA(DRV_NAME), "kov2", 4) == 0) ? 1 : 0;

	char* pRomName;
	struct BurnRomInfo ri;
	struct BurnRomInfo pi;

	unsigned char *PGMUSER0Load = PGMUSER0;
	unsigned char *PGM68KROMLoad = PGM68KROM;
	unsigned char *PGMTileROMLoad = PGMTileROM + 0x180000;
	unsigned char *PGMSPRMaskROMLoad = PGMSPRMaskROM;
	unsigned char *PGMSNDROMLoad = ICSSNDROM + 0x400000;

	if (kov2 && bLoad) {
		PGMSNDROMLoad += 0x400000;
	}

	for (int i = 0; !BurnDrvGetRomName(&pRomName, i, 0); i++) {

		BurnDrvGetRomInfo(&ri, i);

		if ((ri.nType & BRF_PRG) && (ri.nType & 0x0f) == 1)
		{
			if (bLoad) {
				BurnDrvGetRomInfo(&pi, i+1);

				if (ri.nLen == 0x80000 && pi.nLen == 0x80000)
				{
					BurnLoadRom(PGM68KROMLoad + 0, i + 0, 2);
					BurnLoadRom(PGM68KROMLoad + 1, i + 1, 2);
					PGM68KROMLoad += pi.nLen;
					i += 1;
				}
				else
				{
					BurnLoadRom(PGM68KROMLoad, i, 1);
				}
				PGM68KROMLoad += ri.nLen;				
			} else {
				nPGM68KROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_GRA) && (ri.nType & 0x0f) == 2)
		{
			if (bLoad) {
				BurnLoadRom(PGMTileROMLoad, i, 1);
				PGMTileROMLoad += ri.nLen;
			} else {
				nPGMTileROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_GRA) && (ri.nType & 0x0f) == 3)
		{
			if (bLoad) {
			} else {
				nPGMSPRColROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_GRA) && (ri.nType & 0x0f) == 4)
		{
			if (bLoad) {
				BurnLoadRom(PGMSPRMaskROMLoad, i, 1);
				PGMSPRMaskROMLoad += ri.nLen;
			} else {
				nPGMSPRMaskROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_SND) && (ri.nType & 0x0f) == 5)
		{
			if (bLoad) {
				BurnLoadRom(PGMSNDROMLoad, i, 1);
				PGMSNDROMLoad += ri.nLen;
			} else {
				nPGMSNDROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_PRG) && (ri.nType & 0x0f) == 7)
		{
			if (bLoad) {
				if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
					BurnLoadRom(PGMARMROM, i, 1);
				}
			}
			continue;
		}

		if ((ri.nType & BRF_PRG) && (ri.nType & 0x0f) == 8)
		{
			if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
				if (bLoad) {
					BurnLoadRom(PGMUSER0, i, 1);
					PGMUSER0Load += ri.nLen;
				} else {
					nPGMExternalARMLen += ri.nLen;
				}
			}
			continue;
		}
	}

	if (!bLoad) {
		nPGMTileROMLen += 0x180000;
		if (nPGMTileROMLen < 0x400000) nPGMTileROMLen = 0x400000;

		nPGMSNDROMLen  += 0x400000;

		if (kov2) nPGMSNDROMLen += 0x400000;

		nPGMSNDROMLen = ((nPGMSNDROMLen-1) | 0xfffff) + 1;
		nICSSNDROMLen = (nPGMSNDROMLen-1) & 0xf00000;

		if (nPGMExternalARMLen == 0) nPGMExternalARMLen = 0x200000;
		bprintf (0, _T("%5.5x, %d\n"), nPGMExternalARMLen, nBurnFPS);
	}

	return 0;
}
Exemplo n.º 10
0
int write_datfile(int nDatType, int bIncMegadrive, FILE* fDat)
{
	int nRet=0;
	unsigned int nOldSelect=0;
	unsigned int nGameSelect=0;
	unsigned int nParentSelect,nBoardROMSelect;

	nOldSelect=nBurnDrvSelect;										// preserve the currently selected driver

	// Go over each of the games
	for (nGameSelect=0;nGameSelect<nBurnDrvCount;nGameSelect++)
	{
		char sgName[16];
		char spName[16];
		char sbName[16];
		unsigned int i=0;
		int nPass=0;

		nBurnDrvSelect=nGameSelect;									// Switch to driver nGameSelect

		if (BurnDrvGetFlags() & BDF_BOARDROM) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SEGA_MEGADRIVE) && (bIncMegadrive == 0)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_SEGA_MEGADRIVE) && (bIncMegadrive == 2)) {
			continue;
		}

		strcpy(sgName, BurnDrvGetTextA(DRV_NAME));
		strcpy(spName, "");											// make sure this string is empty before we start
		strcpy(sbName, "");											// make sure this string is empty before we start

		// Check to see if the game has a parent
		if (BurnDrvGetTextA(DRV_PARENT))
		{
			nParentSelect=-1U;
			while (BurnDrvGetTextA(DRV_PARENT))
			{
				strcpy(spName, BurnDrvGetTextA(DRV_PARENT));
				for (i=0;i<nBurnDrvCount;i++)
				{
					nBurnDrvSelect=i;
					if (!strcmp(spName, BurnDrvGetTextA(DRV_NAME)))
					{
						nParentSelect=i;
						break;
					}
				}
			}

			nBurnDrvSelect=nGameSelect;								// restore driver select
		}
		else
			nParentSelect=nGameSelect;

		// Check to see if the game has a BoardROM
		if (BurnDrvGetTextA(DRV_BOARDROM))
		{
			nBoardROMSelect=-1U;
			strcpy(sbName, BurnDrvGetTextA(DRV_BOARDROM));
			for (i=0;i<nBurnDrvCount;i++)
			{
				nBurnDrvSelect=i;
				if (!strcmp(sbName, BurnDrvGetTextA(DRV_NAME)))
				{
					nBoardROMSelect=i;
					break;
				}
			}

			nBurnDrvSelect=nGameSelect;								// restore driver select
		}
		else
			nBoardROMSelect=nGameSelect;

		if (nDatType == 0)
		{
			// Report problems
			if (nParentSelect==-1U)
				fprintf(fDat, "# Missing parent %s. It needs to be added to " APP_TITLE "!\n\n", spName);
			if (nBoardROMSelect==-1U)
				fprintf(fDat, "# Missing boardROM %s. It needs to be added to " APP_TITLE "!\n\n", sbName);

			// Write the header
			fprintf(fDat, "game (\n");
			fprintf(fDat, "\tname %s\n", sgName);

			if (nParentSelect!=nGameSelect && nParentSelect!=-1U)
			{
				fprintf(fDat, "\tcloneof %s\n", spName);
				fprintf(fDat, "\tromof %s\n", spName);
			}
			else
			{
				// Add "romof" (but not 'cloneof') line for games that have boardROMs
				if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U)
				{
					fprintf(fDat, "\tromof %s\n", sbName);
				}
			}

			fprintf(fDat, "\tdescription \"%s\"\n", DecorateGameName(nBurnDrvSelect));
			fprintf(fDat, "\tyear %s\n", BurnDrvGetTextA(DRV_DATE));
			fprintf(fDat, "\tmanufacturer \"%s\"\n", BurnDrvGetTextA(DRV_MANUFACTURER));
		}
		
		if (nDatType == 2)
		{
			// Report problems
			if (nParentSelect==-1U)
				fprintf(fDat, "# Missing parent %s. It needs to be added to " APP_TITLE "!\n\n", spName);
			if (nBoardROMSelect==-1U)
				fprintf(fDat, "# Missing boardROM %s. It needs to be added to " APP_TITLE "!\n\n", sbName);

			// Write the header
			if (nParentSelect!=nGameSelect && nParentSelect!=-1U)
			{
				fprintf(fDat, "\t<game name=\"%s\" cloneof=\"%s\" romof=\"%s\">\n", sgName, spName, sbName);
			}
			else
			{
				// Add "romof" (but not 'cloneof') line for games that have boardROMs
				if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U)
				{
					fprintf(fDat, "\t<game name=\"%s\" romof=\"%s\">\n", sgName, sbName);
				} else {
					fprintf(fDat, "\t<game name=\"%s\">\n", sgName);
				}
			}
			
			char szGameName[255];
			char szGameNameBuffer[255];
			char szManufacturer[255];
			char szManufacturerBuffer[255];
			
			memset(szGameName, 0, 255);
			memset(szGameNameBuffer, 0, 255);
			memset(szManufacturer, 0, 255);
			memset(szManufacturerBuffer, 0, 255);
			
			strcpy(szGameName, DecorateGameName(nBurnDrvSelect));
			ReplaceAmpersand(szGameNameBuffer, szGameName);
			strcpy(szManufacturer, BurnDrvGetTextA(DRV_MANUFACTURER));
			ReplaceAmpersand(szManufacturerBuffer, szManufacturer);
			
//			fprintf(fDat, "\t\t<description>%s</description>\n", DecorateGameName(nBurnDrvSelect));
			fprintf(fDat, "\t\t<description>%s</description>\n", szGameNameBuffer);
			fprintf(fDat, "\t\t<year>%s</year>\n", BurnDrvGetTextA(DRV_DATE));
//			fprintf(fDat, "\t\t<manufacturer>%s</manufacturer>\n", BurnDrvGetTextA(DRV_MANUFACTURER));
			fprintf(fDat, "\t\t<manufacturer>%s</manufacturer>\n", szManufacturerBuffer);
		}

		// Write the individual ROM info
		for (nPass=0; nPass<2; nPass++)
		{
			nBurnDrvSelect=nGameSelect;

			// Skip pass 0 if possible
			if (nPass==0 && (nBoardROMSelect==nGameSelect || nBoardROMSelect==-1U || nDatType == 1 || nDatType == 2))
				continue;

			// Go over each of the files needed for this game (upto 0x0100)
			for (i=0, nRet=0; nRet==0 && i<0x100; i++)
			{
				int nRetTmp=0;
				struct BurnRomInfo ri;
				int nLen; unsigned int nCrc;
				char *szPossibleName=NULL;
				int j, nMerged=0;

				memset(&ri,0,sizeof(ri));

				// Get info on this file
				nBurnDrvSelect=nGameSelect;
				nRet=BurnDrvGetRomInfo(&ri,i);
				nRet+=BurnDrvGetRomName(&szPossibleName,i,0);

				if (ri.nLen==0) continue;

				if (nRet==0)
				{
					struct BurnRomInfo riTmp;
					char *szPossibleNameTmp;
					nLen=ri.nLen; nCrc=ri.nCrc;

					// Check for files from boardROMs
					if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U) {
						nBurnDrvSelect=nBoardROMSelect;
						nRetTmp=0;

						// Go over each of the files needed for this game (upto 0x0100)
						for (j=0; nRetTmp==0 && j<0x100; j++)
						{
							memset(&riTmp,0,sizeof(riTmp));

							nRetTmp+=BurnDrvGetRomInfo(&riTmp,j);
							nRetTmp+=BurnDrvGetRomName(&szPossibleNameTmp,j,0);

							if (nRetTmp==0)
							{
								if (riTmp.nLen && riTmp.nCrc==nCrc && !strcmp(szPossibleName, szPossibleNameTmp))
								{
									// This file is from a boardROM
									nMerged|=2;
									nRetTmp++;
								}
							}
						}
					}

					if (!nMerged && nParentSelect!=nGameSelect && nParentSelect!=-1U) {
						nBurnDrvSelect=nParentSelect;
						nRetTmp=0;

						// Go over each of the files needed for this game (upto 0x0100)
						for (j=0; nRetTmp==0 && j<0x100; j++)
						{
							memset(&riTmp,0,sizeof(riTmp));

							nRetTmp+=BurnDrvGetRomInfo(&riTmp,j);
							nRetTmp+=BurnDrvGetRomName(&szPossibleNameTmp,j,0);

							if (nRetTmp==0)
							{
								if (riTmp.nLen && riTmp.nCrc==nCrc && !strcmp(szPossibleName, szPossibleNameTmp))
								{
									// This file is from a parent set
									nMerged|=1;
									nRetTmp++;
								}
							}
						}
					}

					nBurnDrvSelect=nGameSelect;						// Switch back to game
				}

				if (nDatType == 0)
				{
					// Selectable BIOS meta info
					if (nPass==0 && nMerged&2 && ri.nType&BRF_SELECT)
						fprintf(fDat, "\tbiosset ( name %d description \"%s\" %s)\n", i - 128, szPossibleName, ri.nType & BRF_OPT ? "" : "default yes ");
					// File info
					if (nPass==1 && !nMerged) {
						if (ri.nType & BRF_NODUMP) {
							fprintf(fDat, "\trom ( name %s size %d flags nodump )\n", szPossibleName, ri.nLen);
						} else {
							fprintf(fDat, "\trom ( name %s size %d crc %08x )\n", szPossibleName, ri.nLen, ri.nCrc);
						}
					}
					if (nPass==1 && nMerged)
					{
						// Selectable BIOS file info
						if (nMerged&2 && ri.nType&BRF_SELECT)
							fprintf(fDat, "\trom ( name %s merge %s bios %d size %d crc %08x )\n", szPossibleName, szPossibleName, i - 128, ri.nLen, ri.nCrc);
						// Files from parent/boardROMs
						else {
							if (ri.nType & BRF_NODUMP) {
								fprintf(fDat, "\trom ( name %s merge %s size %d flags nodump )\n", szPossibleName, szPossibleName, ri.nLen);
							} else {
								fprintf(fDat, "\trom ( name %s merge %s size %d crc %08x )\n", szPossibleName, szPossibleName, ri.nLen, ri.nCrc);
							}
						}
					}
				}
				
				if (nDatType == 1)
				{
					if (nPass == 0) continue;						// No meta info needed

					if (nParentSelect!=nGameSelect && nParentSelect!=-1U)
					{
						nBurnDrvSelect=nParentSelect;				// Switch to parent
						fprintf(fDat, "¬%s¬%s", spName, DecorateGameName(nBurnDrvSelect));
						nBurnDrvSelect=nGameSelect;					// Switch back to game
					}
					else
						fprintf(fDat, "¬%s¬%s", BurnDrvGetTextA(DRV_NAME), DecorateGameName(nBurnDrvSelect));

					fprintf(fDat, "¬%s¬%s", BurnDrvGetTextA(DRV_NAME), DecorateGameName(nBurnDrvSelect));

		   			fprintf(fDat, "¬%s¬%08x¬%d", szPossibleName, ri.nCrc, ri.nLen);

					if (nParentSelect!=nGameSelect && nParentSelect!=-1U)
					{
						// Files from parent
						fprintf(fDat, "¬%s", spName);
					}
					else
					{
						// Files from boardROM
						if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U)
							fprintf(fDat, "¬%s", sbName);
					}

					if (!nMerged)
						fprintf(fDat, "¬¬¬\n");
					else
						fprintf(fDat, "¬%s¬\n", szPossibleName);
				}
				
				if (nDatType == 2)
				{
					char szPossibleNameBuffer[255];
			
					memset(szPossibleNameBuffer, 0, 255);
			
					ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
					
					// File info
					if (nPass==1 && !nMerged) {
						if (ri.nType & BRF_NODUMP) {
							fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" status=\"nodump\"/>\n", szPossibleNameBuffer, ri.nLen);
						} else {
							fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, ri.nLen, ri.nCrc);
						}
					}
					if (nPass==1 && nMerged)
					{
						// Files from parent/boardROMs
						if (ri.nType & BRF_NODUMP) {
							fprintf(fDat, "\t\t<rom name=\"%s\" merge=\"%s\" size=\"%d\" status=\"nodump\"/>\n", szPossibleNameBuffer, szPossibleNameBuffer, ri.nLen);
						} else {
							fprintf(fDat, "\t\t<rom name=\"%s\" merge=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, szPossibleNameBuffer, ri.nLen, ri.nCrc);
						}
					}
				}
			}
		}

		if (nDatType == 0) fprintf(fDat, ")\n\n");
		if (nDatType == 2) fprintf(fDat, "\t</game>\n");
	}

	if (nDatType == 1 && (bIncMegadrive != 2)) fprintf(fDat, "[RESOURCES]\n");

	// Do another pass over each of the games to find boardROMs
	for (nBurnDrvSelect=0; nBurnDrvSelect<nBurnDrvCount; nBurnDrvSelect++)
	{
		int i, nPass;

		if (!(BurnDrvGetFlags() & BDF_BOARDROM)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_SEGA_MEGADRIVE) && (bIncMegadrive == 2)) {
			continue;
		}

		if (nDatType == 0)
		{
			fprintf(fDat, "resource (\n");
			fprintf(fDat, "\tname %s\n", BurnDrvGetTextA(DRV_NAME));
			fprintf(fDat, "\tdescription \"%s\"\n", DecorateGameName(nBurnDrvSelect));
			fprintf(fDat, "\tyear %s\n", BurnDrvGetTextA(DRV_DATE));
			fprintf(fDat, "\tmanufacturer \"%s\"\n", BurnDrvGetTextA(DRV_COMMENT));

		}
		
		if (nDatType == 2)
		{
			fprintf(fDat, "\t<game isbios=\"yes\" name=\"%s\">\n", BurnDrvGetTextA(DRV_NAME));
			fprintf(fDat, "\t\t<description>%s</description>\n", DecorateGameName(nBurnDrvSelect));
			fprintf(fDat, "\t\t<year>%s</year>\n", BurnDrvGetTextA(DRV_DATE));
			fprintf(fDat, "\t\t<manufacturer>%s</manufacturer>\n", BurnDrvGetTextA(DRV_MANUFACTURER));		
		}

		for (nPass=0; nPass<2; nPass++)
		{
			// No meta information needed
			if (nPass==0 && (nDatType == 1 || nDatType == 2)) continue;

			// Go over each of the individual files (upto 0x0100)
			for (i=0; i<0x100; i++)
			{
				struct BurnRomInfo ri;
				char *szPossibleName=NULL;

				memset(&ri,0,sizeof(ri));

				nRet=BurnDrvGetRomInfo(&ri,i);
				nRet+=BurnDrvGetRomName(&szPossibleName,i,0);

				if (ri.nLen==0) continue;

				if (nRet==0) {
					if (nDatType == 0)
					{
						if (nPass==0)
						{
							if (ri.nType&BRF_SELECT)
								fprintf(fDat, "\tbiosset ( name %d description \"%s\" %s)\n", i, szPossibleName, ri.nType & 0x80 ? "" : "default yes ");
						}
						else
						{
							if (ri.nType&BRF_SELECT)
								fprintf(fDat, "\trom ( name %s bios %d size %d crc %08x )\n", szPossibleName, i, ri.nLen, ri.nCrc);
							else
								fprintf(fDat, "\trom ( name %s size %d crc %08x )\n", szPossibleName, ri.nLen, ri.nCrc);
						}
					}
					
					if (nDatType == 1)
					{
						fprintf(fDat, "¬%s¬%s", BurnDrvGetTextA(DRV_NAME), DecorateGameName(nBurnDrvSelect));
						fprintf(fDat, "¬%s¬%s", BurnDrvGetTextA(DRV_NAME), DecorateGameName(nBurnDrvSelect));
			   			fprintf(fDat, "¬%s¬%08x¬%d", szPossibleName, ri.nCrc, ri.nLen);
						fprintf(fDat, "¬¬¬\n");
					}
					
					if (nDatType == 2)
					{
						char szPossibleNameBuffer[255];
			
						memset(szPossibleNameBuffer, 0, 255);
			
						ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
					
						fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, ri.nLen, ri.nCrc);
					}
				}
			}
		}

		if (nDatType == 0) fprintf(fDat, ")\n");
		if (nDatType == 2) fprintf(fDat, "\t</game>\n");
	}

	// Restore current driver
	nBurnDrvSelect=nOldSelect;
	
	if (nDatType == 2) fprintf(fDat, "</datafile>");

	return 0;
}
Exemplo n.º 11
0
int DrvInit(int nDrvNum, bool bRestore)
{
	int nStatus;
	
	DrvExit();						// Make sure exitted
	MediaExit();

	nBurnDrvActive = nDrvNum;		// Set the driver number
	
	if ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_MVS) {

		BurnExtCartridgeSetupCallback = DrvCartridgeAccess;

		if (SelMVSDialog()) {
			POST_INITIALISE_MESSAGE;
			return 0;
		}
	}

	if ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_NEOCD) {
		if (CDEmuInit()) {
			FBAPopupAddText(PUF_TEXT_DEFAULT, MAKEINTRESOURCE(IDS_ERR_CDEMU_INI_FAIL));
			FBAPopupDisplay(PUF_TYPE_ERROR);

			POST_INITIALISE_MESSAGE;
			return 0;
		}
	}

	MediaInit();

	// Define nMaxPlayers early; GameInpInit() needs it (normally defined in DoLibInit()).
	nMaxPlayers = BurnDrvGetMaxPlayers();
	GameInpInit();					// Init game input

	if(ConfigGameLoad(true)) {
		ConfigGameLoadHardwareDefaults();
	}	
	InputMake(true);
	GameInpDefault();

	if (kNetGame) {
		nBurnCPUSpeedAdjust = 0x0100;
	}

	nStatus = DoLibInit();			// Init the Burn library's driver
	if (nStatus) {
		if (nStatus & 2) {
			BurnDrvExit();			// Exit the driver

			ScrnTitle();

			FBAPopupAddText(PUF_TEXT_DEFAULT, MAKEINTRESOURCE(IDS_ERR_BURN_INIT), BurnDrvGetText(DRV_FULLNAME));
			FBAPopupDisplay(PUF_TYPE_WARNING);
		}

		POST_INITIALISE_MESSAGE;
		return 1;
	}

	BurnExtLoadRom = DrvLoadRom;

	bDrvOkay = 1;						// Okay to use all BurnDrv functions

	if (BurnDrvGetFlags() & BDF_ORIENTATION_VERTICAL) {
		nScreenSize = nScreenSizeVer;
		bVidArcaderes = bVidArcaderesVer;
		nVidWidth	= nVidVerWidth;
		nVidHeight	= nVidVerHeight;
	} else {
		nScreenSize = nScreenSizeHor;
		bVidArcaderes = bVidArcaderesHor;
		nVidWidth	= nVidHorWidth;
		nVidHeight	= nVidHorHeight;
	}

	bSaveRAM = false;
	if (kNetGame) {
		KailleraInitInput();
		KailleraGetInput();
	} else {
		if (bRestore) {
			StatedAuto(0);
			bSaveRAM = true;

			ConfigCheatLoad();
		}
	}

	nBurnLayer = 0xFF;				// show all layers
	
	// Reset the speed throttling code, so we don't 'jump' after the load
	RunReset();

	VidExit();
	POST_INITIALISE_MESSAGE;

	return 0;
}
Exemplo n.º 12
0
static INT32 pgmGetRoms(bool bLoad)
{
	INT32 kov2 = (strncmp(BurnDrvGetTextA(DRV_NAME), "kov2", 4) == 0) ? 1 : 0;

	char* pRomName;
	struct BurnRomInfo ri;
	struct BurnRomInfo pi;

	UINT8 *PGMUSER0Load = PGMUSER0;
	UINT8 *PGM68KROMLoad = PGM68KROM;
	UINT8 *PGMTileROMLoad = PGMTileROM + 0x180000;
	UINT8 *PGMSPRMaskROMLoad = PGMSPRMaskROM;
	UINT8 *PGMSNDROMLoad = ICSSNDROM + 0x400000;
	UINT8 *PGMARMROMLoad = PGMARMROM;

	if (kov2 && bLoad) {
		PGMSNDROMLoad += 0x400000;
	}

	for (INT32 i = 0; !BurnDrvGetRomName(&pRomName, i, 0); i++) {

		BurnDrvGetRomInfo(&ri, i);

		if ((ri.nType & BRF_PRG) && (ri.nType & 0x0f) == 1)
		{
			if (bLoad) {
				BurnDrvGetRomInfo(&pi, i+1);

				if (ri.nLen == 0x80000 && pi.nLen == 0x80000)
				{
					BurnLoadRom(PGM68KROMLoad + 0, i + 0, 2);
					BurnLoadRom(PGM68KROMLoad + 1, i + 1, 2);
					PGM68KROMLoad += pi.nLen;
					i += 1;
				}
				else
				{
					BurnLoadRom(PGM68KROMLoad, i, 1);
				}
				PGM68KROMLoad += ri.nLen;				
			} else {
				nPGM68KROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_GRA) && (ri.nType & 0x0f) == 2)
		{
			if (bLoad) {
				BurnLoadRom(PGMTileROMLoad, i, 1);
				PGMTileROMLoad += ri.nLen;
			} else {
				nPGMTileROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_GRA) && (ri.nType & 0x0f) == 3)
		{
			if (bLoad) {
			} else {
				nPGMSPRColROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_GRA) && (ri.nType & 0x0f) == 4)
		{
			if (bLoad) {
				if (strcmp(BurnDrvGetTextA(DRV_NAME), "pgm3in1") == 0) {
					if ((PGMSPRMaskROMLoad - PGMSPRMaskROM) == 0x1000000) PGMSPRMaskROMLoad -= 0x100000;
				}

				BurnLoadRom(PGMSPRMaskROMLoad, i, 1);
				PGMSPRMaskROMLoad += ri.nLen;
			} else {
				nPGMSPRMaskROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_SND) && (ri.nType & 0x0f) == 5)
		{
			if (bLoad) {
				BurnLoadRom(PGMSNDROMLoad, i, 1);
				PGMSNDROMLoad += ri.nLen;
			} else {
				nPGMSNDROMLen += ri.nLen;
			}
			continue;
		}

		if ((ri.nType & BRF_PRG) && (ri.nType & 0x0f) == 7)
		{
			if (bLoad) {
				if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
					if (ri.nLen == 0x3e78) PGMARMROMLoad += 0x188;
					BurnLoadRom(PGMARMROMLoad, i, 1);
				}
			}
			continue;
		}

		if ((ri.nType & BRF_PRG) && (ri.nType & 0x0f) == 8)
		{
			if (BurnDrvGetHardwareCode() & HARDWARE_IGS_USE_ARM_CPU) {
				if (bLoad) {
					BurnLoadRom(PGMUSER0Load, i, 1);
					PGMUSER0Load += ri.nLen;
				} else {
					nPGMExternalARMLen += ri.nLen;
				}
			}
			continue;
		}
	}

	if (!bLoad) {
		nPGMTileROMLen += 0x180000;
		if (nPGMTileROMLen < 0x400000) nPGMTileROMLen = 0x400000;

		nPGMSNDROMLen  += 0x400000;

		if (kov2) nPGMSNDROMLen += 0x400000;

		nPGMSNDROMLen = ((nPGMSNDROMLen-1) | 0xfffff) + 1;
		nICSSNDROMLen = nPGMSNDROMLen;

		if (nPGMExternalARMLen == 0) nPGMExternalARMLen = 0x200000;
	}

	return 0;
}
Exemplo n.º 13
0
static INT32 CpsGetROMs(bool bLoad)
{
	struct BurnRomInfo ri;

	UINT8* CpsCodeLoad = CpsCode;
	UINT8* CpsRomLoad = CpsRom;
	UINT8* CpsGfxLoad = CpsGfx;
	UINT8* CpsZRomLoad = CpsZRom;
	UINT8* CpsQSamLoad = (UINT8*)CpsQSam;

	INT32 nGfxNum = 0;

	if (bLoad) {
		if (!CpsCodeLoad || !CpsRomLoad || !CpsGfxLoad || !CpsZRomLoad || !CpsQSamLoad) {
			return 1;
		}
	} else {
		nCpsCodeLen = nCpsRomLen = nCpsGfxLen = nCpsZRomLen = nCpsQSamLen = 0;

		nGfxMaxSize = 0;
		if (BurnDrvGetHardwareCode() & HARDWARE_CAPCOM_CPS2_SIMM) {
			nGfxMaxSize = ~0U;
		}
	}

	INT32 i = 0;
	do {
		ri.nLen = 0;
		ri.nType = 0;
		BurnDrvGetRomInfo(&ri, i);
		
		if ((ri.nType & 0x0f) == CPS2_PRG_68K) {
			if (bLoad) {
				BurnLoadRom(CpsRomLoad, i, 1);
				CpsRomLoad += ri.nLen;
			} else {
				nCpsRomLen += ri.nLen;
			}
			i++;
		}
		
		if ((ri.nType & 0x0f) == CPS2_PRG_68K_SIMM) {
			if (bLoad) {
				BurnLoadRom(CpsRomLoad + 0x000001, i + 0, 2);
				BurnLoadRom(CpsRomLoad + 0x000000, i + 1, 2);
				CpsRomLoad += ri.nLen * 2;
				i += 2;
			} else {
				nCpsRomLen += ri.nLen;
				i++;
			}
		}
		
		if ((ri.nType & 0x0f) == CPS2_PRG_68K_XOR_TABLE) {
			if (bLoad) {
				BurnLoadRom(CpsCodeLoad, i, 1);
				CpsCodeLoad += ri.nLen;
			} else {
				nCpsCodeLen += ri.nLen;
			}
			i++;
		}
		
		if ((ri.nType & 0x0f) == CPS2_GFX) {
			if (bLoad) {
				Cps2LoadTiles(CpsGfxLoad, i);
				CpsGfxLoad += (nGfxMaxSize == ~0U ? ri.nLen : nGfxMaxSize) * 4;
				i += 4;
			} else {
				if (ri.nLen > nGfxMaxSize) {
					nGfxMaxSize = ri.nLen;
				}
				if (ri.nLen < nGfxMaxSize) {
					nGfxMaxSize = ~0U;
				}
				nCpsGfxLen += ri.nLen;
				nGfxNum++;
				i++;
			}
		}
		
		if ((ri.nType & 0x0f) == CPS2_GFX_SIMM) {
			if (bLoad) {
				Cps2LoadTilesSIM(CpsGfxLoad, i);
				CpsGfxLoad += ri.nLen * 8;
				i += 8;
			} else {
				nCpsGfxLen += ri.nLen;
				i++;
			}
		}
		
		if ((ri.nType & 0x0f) == CPS2_GFX_SPLIT4) {
			if (bLoad) {
				Cps2LoadTilesSplit4(CpsGfxLoad, i);
				CpsGfxLoad += (nGfxMaxSize == ~0U ? ri.nLen : nGfxMaxSize) * 16;
				i += 16;
			} else {
				if (ri.nLen > nGfxMaxSize) {
					nGfxMaxSize = ri.nLen;
				}
				if (ri.nLen < nGfxMaxSize) {
					nGfxMaxSize = ~0U;
				}
				nCpsGfxLen += ri.nLen;
				nGfxNum++;
				i++;
			}
		}
		
		if ((ri.nType & 0x0f) == CPS2_GFX_SPLIT8) {
			if (bLoad) {
				Cps2LoadTilesSplit8(CpsGfxLoad, i);
				CpsGfxLoad += (nGfxMaxSize == ~0U ? ri.nLen : nGfxMaxSize) * 32;
				i += 32;
			} else {
				if (ri.nLen > nGfxMaxSize) {
					nGfxMaxSize = ri.nLen;
				}
				if (ri.nLen < nGfxMaxSize) {
					nGfxMaxSize = ~0U;
				}
				nCpsGfxLen += ri.nLen;
				nGfxNum++;
				i++;
			}
		}
				
		if ((ri.nType & 0x0f) == CPS2_PRG_Z80) {
			if (bLoad) {
				BurnLoadRom(CpsZRomLoad, i, 1);
				CpsZRomLoad += ri.nLen;
			} else {
				nCpsZRomLen += ri.nLen;
			}
			i++;
		}
		
		if ((ri.nType & 0x0f) == CPS2_QSND) {
			if (bLoad) {
				BurnLoadRom(CpsQSamLoad, i, 1);
				BurnByteswap(CpsQSamLoad, ri.nLen);
				CpsQSamLoad += ri.nLen;
			} else {
				nCpsQSamLen += ri.nLen;
			}
			i++;
		}
		
		if ((ri.nType & 0x0f) == CPS2_QSND_SIMM) {
			if (bLoad) {
				BurnLoadRom(CpsQSamLoad, i, 1);
				BurnByteswap(CpsQSamLoad, ri.nLen);
				CpsQSamLoad += ri.nLen;
			} else {
				nCpsQSamLen += ri.nLen;
			}
			i++;
		}
		
		if ((ri.nType & 0x0f) == CPS2_QSND_SIMM_BYTESWAP) {
			if (bLoad) {
				BurnLoadRom(CpsQSamLoad + 1, i + 0, 2);
				BurnLoadRom(CpsQSamLoad + 0, i + 1, 2);
				i += 2;
			} else {
				nCpsQSamLen += ri.nLen;
				i++;
			}
		}
	} while (ri.nLen);

	if (bLoad) {
#if 0
		for (UINT32 i = 0; i < nCpsCodeLen / 4; i++) {
			((UINT32*)CpsCode)[i] ^= ((UINT32*)CpsRom)[i];
		}
#endif
		cps2_decrypt_game_data();
		
//		if (!nCpsCodeLen) return 1;
	} else {

		if (nGfxMaxSize != ~0U) {
			nCpsGfxLen = nGfxNum * nGfxMaxSize;
		}

#if 1 && defined FBA_DEBUG
		if (!nCpsCodeLen) {
			bprintf(PRINT_IMPORTANT, _T("  - 68K ROM size:\t0x%08X (Decrypted with key)\n"), nCpsRomLen);
		} else {
			bprintf(PRINT_IMPORTANT, _T("  - 68K ROM size:\t0x%08X (XOR table size: 0x%08X)\n"), nCpsRomLen, nCpsCodeLen);
		}
		bprintf(PRINT_IMPORTANT, _T("  - Z80 ROM size:\t0x%08X\n"), nCpsZRomLen);
		bprintf(PRINT_IMPORTANT, _T("  - Graphics data:\t0x%08X\n"), nCpsGfxLen);
		bprintf(PRINT_IMPORTANT, _T("  - QSound data:\t0x%08X\n"), nCpsQSamLen);
#endif

		if (/*!nCpsCodeLen ||*/ !nCpsRomLen || !nCpsGfxLen || !nCpsZRomLen || ! nCpsQSamLen) {
			return 1;
		}
	}

	return 0;
}
Exemplo n.º 14
0
int ProcessCmdLine()
{
	unsigned int i;
	int nOptX = 0, nOptY = 0, nOptD = 0;
	int nOpt1Size;
	TCHAR szOpt2[3] = _T("");
	TCHAR szName[MAX_PATH];

	if (szCmdLine[0] == _T('\"')) {
		int nLen = _tcslen(szCmdLine);
		nOpt1Size = 1;
		while (szCmdLine[nOpt1Size] != _T('\"') && nOpt1Size < nLen) {
			nOpt1Size++;
		}
		if (nOpt1Size == nLen) {
			szName[0] = 0;
		} else {
			nOpt1Size++;
			_tcsncpy(szName, szCmdLine + 1, nOpt1Size - 2);
			szName[nOpt1Size - 2] = 0;
		}
	} else {
		int nLen = _tcslen(szCmdLine);
		nOpt1Size = 0;
		while (szCmdLine[nOpt1Size] != _T(' ') && nOpt1Size < nLen) {
			nOpt1Size++;
		}
		_tcsncpy(szName, szCmdLine, nOpt1Size);
		szName[nOpt1Size] = 0;
	}

	if (_tcslen(szName)) {
		if (_tcscmp(szName, _T("-listinfo")) == 0) {
			write_datfile(0, 0, stdout);
			return 1;
		}
		
		if (_tcscmp(szName, _T("-listinfowithmd")) == 0) {
			write_datfile(0, 1, stdout);
			return 1;
		}
		
		if (_tcscmp(szName, _T("-listinfomdonly")) == 0) {
			write_datfile(0, 2, stdout);
			return 1;
		}
		
		if (_tcscmp(szName, _T("-listextrainfo")) == 0) {
			int nWidth;
			int nHeight;
			int nAspectX;
			int nAspectY;
			for (i = 0; i < nBurnDrvCount; i++) {
				nBurnDrvSelect = i;
				BurnDrvGetVisibleSize(&nWidth, &nHeight);
				BurnDrvGetAspect(&nAspectX, &nAspectY);
				printf("%s\t%ix%i\t%i:%i\t0x%08X\t\"%s\"\t%i\t%i\t%x\t%x\t\"%s\"\n", BurnDrvGetTextA(DRV_NAME), nWidth, nHeight, nAspectX, nAspectY, BurnDrvGetHardwareCode(), BurnDrvGetTextA(DRV_SYSTEM), BurnDrvIsWorking(), BurnDrvGetMaxPlayers(), BurnDrvGetGenreFlags(), BurnDrvGetFamilyFlags(), BurnDrvGetTextA(DRV_COMMENT));
			}			
			return 1;
		}
	}

	_stscanf(&szCmdLine[nOpt1Size], _T("%2s %i x %i x %i"), szOpt2, &nOptX, &nOptY, &nOptD);

	if (_tcslen(szName)) {
		bool bFullscreen = 1;
		bCmdOptUsed = 1;

		if (_tcscmp(szOpt2, _T("-r")) == 0) {
			if (nOptX && nOptY) {
				nVidWidth = nOptX;
				nVidHeight = nOptY;
			}
			if (nOptD) {
				nVidDepth = nOptD;
			}
		} else {
			if (_tcscmp(szOpt2, _T("-a")) == 0) {
				bVidArcaderes = 1;
			} else {
				if (_tcscmp(szOpt2, _T("-w")) == 0) {
					bCmdOptUsed = 0;
					bFullscreen = 0;
				}
			}
		}

		if (bFullscreen) {
			nVidFullscreen = 1;
		}

		if (_tcscmp(&szName[_tcslen(szName) - 3], _T(".fs")) == 0) {
			if (BurnStateLoad(szName, 1, &DrvInitCallback)) {
				return 1;
			} else {
//				bRunPause = 1;
			}
		} else {
			if (_tcscmp(&szName[_tcslen(szName) - 3], _T(".fr")) == 0) {
				if (StartReplay(szName)) {
					return 1;
				}
			} else {
				for (i = 0; i < nBurnDrvCount; i++) {
					nBurnDrvSelect = i;
					if (_tcscmp(BurnDrvGetText(DRV_NAME), szName) == 0) {
						MediaInit();
						DrvInit(i, true);
						break;
					}
				}
				if (i == nBurnDrvCount) {
					FBAPopupAddText(PUF_TEXT_DEFAULT, MAKEINTRESOURCE(IDS_ERR_UI_NOSUPPORT), szName, _T(APP_TITLE));
					FBAPopupDisplay(PUF_TYPE_ERROR);
					return 1;
				}
			}
		}
	}

	POST_INITIALISE_MESSAGE;

	if (!nVidFullscreen) {
		MenuEnableItems();
	}

	return 0;
}
Exemplo n.º 15
0
static int CpsGetROMs(bool bLoad)
{
	char* pRomName;
	struct BurnRomInfo ri;

	unsigned char* CpsCodeLoad = CpsCode;
	unsigned char* CpsRomLoad = CpsRom;
	unsigned char* CpsGfxLoad = CpsGfx;
	unsigned char* CpsZRomLoad = CpsZRom;
	unsigned char* CpsQSamLoad = (unsigned char*)CpsQSam;

	int nGfxNum = 0;

	if (bLoad) {
		if (!CpsCodeLoad || !CpsRomLoad || !CpsGfxLoad || !CpsZRomLoad || !CpsQSamLoad) {
			return 1;
		}
	} else {
		nCpsCodeLen = nCpsRomLen = nCpsGfxLen = nCpsZRomLen = nCpsQSamLen = 0;

		nGfxMaxSize = 0;
		if (BurnDrvGetHardwareCode() & HARDWARE_CAPCOM_CPS2_SIMM) {
			nGfxMaxSize = ~0U;
		}
	}

	for (int i = 0; !BurnDrvGetRomName(&pRomName, i, 0); i++) {

		BurnDrvGetRomInfo(&ri, i);

		// SIMM Graphics ROMs
		if (BurnDrvGetHardwareCode() & HARDWARE_CAPCOM_CPS2_SIMM) {
			if ((ri.nType & BRF_GRA) && (ri.nType & 8)) {
				if (bLoad) {
					Cps2LoadTilesSIM(CpsGfxLoad, i);
					CpsGfxLoad += ri.nLen * 8;
					i += 7;
				} else {
					nCpsGfxLen += ri.nLen;
				}
				continue;
			}
			// SIMM QSound sample ROMs
			if ((ri.nType & BRF_SND) && ((ri.nType & 15) == 13)) {
				if (bLoad) {
					BurnLoadRom(CpsQSamLoad, i, 1);
					BurnByteswap(CpsQSamLoad, ri.nLen);
					CpsQSamLoad += ri.nLen;
				} else {
					nCpsQSamLen += ri.nLen;
				}
				continue;
			}
			
			// Different interleave SIMM QSound sample ROMs
			if ((ri.nType & BRF_SND) && ((ri.nType & 15) == 15)) {
				if (bLoad) {
					BurnLoadRom(CpsQSamLoad + 1, i + 0, 2);
					BurnLoadRom(CpsQSamLoad + 0, i + 1, 2);
					i += 2;
				} else {
					nCpsQSamLen += ri.nLen;
				}
				continue;
			}
		}

		// 68K program ROMs
		if ((ri.nType & 7) == 1) {
			if (bLoad) {
				BurnLoadRom(CpsRomLoad, i, 1);
				CpsRomLoad += ri.nLen;
			} else {
				nCpsRomLen += ri.nLen;
			}
			continue;
		}
		// XOR tables
		if ((ri.nType & 7) == 2) {
			if (bLoad) {
				BurnLoadRom(CpsCodeLoad, i, 1);
				CpsCodeLoad += ri.nLen;
			} else {
				nCpsCodeLen += ri.nLen;
			}
			continue;
		}

		// Z80 program ROMs
		if ((ri.nType & 7) == 4) {
			if (bLoad) {
				BurnLoadRom(CpsZRomLoad, i, 1);
				CpsZRomLoad += ri.nLen;
			} else {
				nCpsZRomLen += ri.nLen;
			}
			continue;
		}

		// Normal Graphics ROMs
		if (ri.nType & BRF_GRA) {
			if (bLoad) {
				if ((ri.nType & 15) == 6) {
					Cps2LoadTilesSplit(CpsGfxLoad, i);
					CpsGfxLoad += (nGfxMaxSize == ~0U ? ri.nLen : nGfxMaxSize) * 4;
					i += 15;
				} else {
					Cps2LoadTiles(CpsGfxLoad, i);
					CpsGfxLoad += (nGfxMaxSize == ~0U ? ri.nLen : nGfxMaxSize) * 4;
					i += 3;
				}
			} else {
				if (ri.nLen > nGfxMaxSize) {
					nGfxMaxSize = ri.nLen;
				}
				if (ri.nLen < nGfxMaxSize) {
					nGfxMaxSize = ~0U;
				}
				nCpsGfxLen += ri.nLen;
				nGfxNum++;
			}
			continue;			
		}

		// QSound sample ROMs
		if (ri.nType & BRF_SND) {
			if (bLoad) {
				BurnLoadRom(CpsQSamLoad, i, 1);
				BurnByteswap(CpsQSamLoad, ri.nLen);
				CpsQSamLoad += ri.nLen;
			} else {
				nCpsQSamLen += ri.nLen;
			}
			continue;
		}
	}

	if (bLoad) {
#if 0
		for (unsigned int i = 0; i < nCpsCodeLen / 4; i++) {
			((unsigned int*)CpsCode)[i] ^= ((unsigned int*)CpsRom)[i];
		}
#endif
		cps2_decrypt_game_data();
		
//		if (!nCpsCodeLen) return 1;
	} else {

		if (nGfxMaxSize != ~0U) {
			nCpsGfxLen = nGfxNum * nGfxMaxSize;
		}

#if 1 && defined FBA_DEBUG
		if (!nCpsCodeLen) {
			bprintf(PRINT_IMPORTANT, _T("  - 68K ROM size:\t0x%08X (Decrypted with key)\n"), nCpsRomLen);
		} else {
			bprintf(PRINT_IMPORTANT, _T("  - 68K ROM size:\t0x%08X (XOR table size: 0x%08X)\n"), nCpsRomLen, nCpsCodeLen);
		}
		bprintf(PRINT_IMPORTANT, _T("  - Z80 ROM size:\t0x%08X\n"), nCpsZRomLen);
		bprintf(PRINT_IMPORTANT, _T("  - Graphics data:\t0x%08X\n"), nCpsGfxLen);
		bprintf(PRINT_IMPORTANT, _T("  - QSound data:\t0x%08X\n"), nCpsQSamLen);
#endif

		if (/*!nCpsCodeLen ||*/ !nCpsRomLen || !nCpsGfxLen || !nCpsZRomLen || ! nCpsQSamLen) {
			return 1;
		}
	}

	return 0;
}
Exemplo n.º 16
0
INT32 write_datfile(INT32 bType, FILE* fDat)
{
	INT32 nRet=0;
	UINT32 nOldSelect=0;
	UINT32 nGameSelect=0;
	UINT32 nParentSelect,nBoardROMSelect;
	
	fprintf(fDat, "<?xml version=\"1.0\"?>\n");
	fprintf(fDat, "<!DOCTYPE datafile PUBLIC \"-//FB Alpha//DTD ROM Management Datafile//EN\" \"http://www.logiqx.com/Dats/datafile.dtd\">\n\n");
	fprintf(fDat, "<datafile>\n");
	fprintf(fDat, "\t<header>\n");
	fprintf(fDat, "\t\t<name>" APP_TITLE "</name>\n");
	if (bType == DAT_ARCADE_ONLY) _ftprintf(fDat, _T("\t\t<description>") _T(APP_TITLE) _T(" v%s") _T(" Arcade Games</description>\n"), szAppBurnVer);
	if (bType == DAT_MEGADRIVE_ONLY) _ftprintf(fDat, _T("\t\t<description>") _T(APP_TITLE) _T(" v%s") _T(" Megadrive Games</description>\n"), szAppBurnVer);
	if (bType == DAT_PCENGINE_ONLY) _ftprintf(fDat, _T("\t\t<description>") _T(APP_TITLE) _T(" v%s") _T(" PC-Engine Games</description>\n"), szAppBurnVer);
	if (bType == DAT_TG16_ONLY) _ftprintf(fDat, _T("\t\t<description>") _T(APP_TITLE) _T(" v%s") _T(" TurboGrafx 16 Games</description>\n"), szAppBurnVer);
	if (bType == DAT_SGX_ONLY) _ftprintf(fDat, _T("\t\t<description>") _T(APP_TITLE) _T(" v%s") _T(" SuprGrafx Games</description>\n"), szAppBurnVer);
	fprintf(fDat, "\t\t<category>Standard DatFile</category>\n");
	_ftprintf(fDat, _T("\t\t<version>%s</version>\n"), szAppBurnVer);
	fprintf(fDat, "\t\t<author>" APP_TITLE "</author>\n");
	fprintf(fDat, "\t\t<homepage>http://www.barryharris.me.uk/</homepage>\n");
	fprintf(fDat, "\t\t<url>http://www.barryharris.me.uk/</url>\n");
	fprintf(fDat, "\t\t<clrmamepro forcenodump=\"ignore\"/>\n");		
	fprintf(fDat, "\t</header>\n");

	nOldSelect=nBurnDrvActive;										// preserve the currently selected driver

	// Go over each of the games
	for (nGameSelect=0;nGameSelect<nBurnDrvCount;nGameSelect++)
	{
		char sgName[32];
		char spName[32];
		char sbName[32];
		char ssName[32];
		UINT32 i=0;
		INT32 nPass=0;

		nBurnDrvActive=nGameSelect;									// Switch to driver nGameSelect

		if ((BurnDrvGetFlags() & BDF_BOARDROM) || !strcmp(BurnDrvGetTextA(DRV_NAME), "neogeo")) {
			continue;
		}
		
		if ((((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SEGA_MEGADRIVE)
			|| ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_PCENGINE_PCENGINE)
			|| ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_PCENGINE_TG16)
			|| ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_PCENGINE_SGX)
			) && (bType == DAT_ARCADE_ONLY)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_SEGA_MEGADRIVE) && (bType == DAT_MEGADRIVE_ONLY)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_PCENGINE_PCENGINE) && (bType == DAT_PCENGINE_ONLY)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_PCENGINE_TG16) && (bType == DAT_TG16_ONLY)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_PCENGINE_SGX) && (bType == DAT_SGX_ONLY)) {
			continue;
		}
		
		strcpy(sgName, BurnDrvGetTextA(DRV_NAME));
		strcpy(spName, "");											// make sure this string is empty before we start
		strcpy(sbName, "");											// make sure this string is empty before we start
		strcpy(ssName, "");											// make sure this string is empty before we start

		// Check to see if the game has a parent
		if (BurnDrvGetTextA(DRV_PARENT))
		{
			nParentSelect=-1U;
			while (BurnDrvGetTextA(DRV_PARENT))
			{
				strcpy(spName, BurnDrvGetTextA(DRV_PARENT));
				for (i=0;i<nBurnDrvCount;i++)
				{
					nBurnDrvActive=i;
					if (!strcmp(spName, BurnDrvGetTextA(DRV_NAME)))
					{
						nParentSelect=i;
						break;
					}
				}
			}

			nBurnDrvActive=nGameSelect;								// restore driver select
		}
		else
			nParentSelect=nGameSelect;

		// Check to see if the game has a BoardROM
		if (BurnDrvGetTextA(DRV_BOARDROM))
		{
			nBoardROMSelect=-1U;
			strcpy(sbName, BurnDrvGetTextA(DRV_BOARDROM));
			for (i=0;i<nBurnDrvCount;i++)
			{
				nBurnDrvActive=i;
				if (!strcmp(sbName, BurnDrvGetTextA(DRV_NAME)))
				{
					nBoardROMSelect=i;
					break;
				}
			}

			nBurnDrvActive=nGameSelect;								// restore driver select
		}
		else
			nBoardROMSelect=nGameSelect;
			
		if (BurnDrvGetTextA(DRV_SAMPLENAME)) {
			strcpy(ssName, BurnDrvGetTextA(DRV_SAMPLENAME));
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SEGA_MEGADRIVE)
			|| ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_PCENGINE_TG16)
			) {
			// remove the md_ or tg_
			char Temp[35];
			INT32 Length;
			if (sgName[0]) {
				Length = strlen(sgName);
				memset(Temp, 0, 35);
				strcpy(Temp, sgName);
				memset(sgName, 0, 32);
				for (INT32 pos = 0; pos < Length; pos++) {
					sgName[pos] = Temp[pos + 3];
				}
			}
			if (spName[0]) {
				Length = strlen(spName);
				memset(Temp, 0, 35);
				strcpy(Temp, spName);
				memset(spName, 0, 32);
				for (INT32 pos = 0; pos < Length; pos++) {
					spName[pos] = Temp[pos + 3];
				}
			}
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_PCENGINE_PCENGINE)
			|| ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_PCENGINE_SGX)
			) {
			// remove the pce__ or sgx__
			char Temp[36];
			INT32 Length;
			if (sgName[0]) {
				Length = strlen(sgName);
				memset(Temp, 0, 36);
				strcpy(Temp, sgName);
				memset(sgName, 0, 32);
				for (INT32 pos = 0; pos < Length; pos++) {
					sgName[pos] = Temp[pos + 4];
				}
			}
			if (spName[0]) {
				Length = strlen(spName);
				memset(Temp, 0, 36);
				strcpy(Temp, spName);
				memset(spName, 0, 32);
				for (INT32 pos = 0; pos < Length; pos++) {
					spName[pos] = Temp[pos + 4];
				}
			}
		}

		// Report problems
		if (nParentSelect==-1U)
			fprintf(fDat, "# Missing parent %s. It needs to be added to " APP_TITLE "!\n\n", spName);
		if (nBoardROMSelect==-1U)
			fprintf(fDat, "# Missing boardROM %s. It needs to be added to " APP_TITLE "!\n\n", sbName);

		// Write the header
		if (nParentSelect!=nGameSelect && nParentSelect!=-1U)
		{
			if (!strcmp(ssName, "") || !strcmp(ssName, sgName)) {
				fprintf(fDat, "\t<game name=\"%s\" cloneof=\"%s\" romof=\"%s\">\n", sgName, spName, spName);
			} else {
				fprintf(fDat, "\t<game name=\"%s\" cloneof=\"%s\" romof=\"%s\" sampleof=\"%s\">\n", sgName, spName, spName, ssName);
			}
		}
		else
		{
			// Add "romof" (but not 'cloneof') line for games that have boardROMs
			if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U)
			{
				fprintf(fDat, "\t<game name=\"%s\" romof=\"%s\">\n", sgName, sbName);
			} else {
				if (!strcmp(ssName, "") || !strcmp(ssName, sgName)) {
					fprintf(fDat, "\t<game name=\"%s\">\n", sgName);
				} else {
					fprintf(fDat, "\t<game name=\"%s\" sampleof=\"%s\">\n", sgName, ssName);
				}
			}
		}
		
		char szGameName[255];
		char szGameNameBuffer[255];
		char szManufacturer[255];
		char szManufacturerBuffer[255];
			
		memset(szGameName, 0, 255);
		memset(szGameNameBuffer, 0, 255);
		memset(szManufacturer, 0, 255);
		memset(szManufacturerBuffer, 0, 255);
		
		strcpy(szGameName, DecorateGameName(nBurnDrvActive));
		ReplaceAmpersand(szGameNameBuffer, szGameName);
		memset(szGameName, 0, 255);
		strcpy(szGameName, szGameNameBuffer);
		memset(szGameNameBuffer, 0, 255);
		ReplaceLessThan(szGameNameBuffer, szGameName);
		memset(szGameName, 0, 255);
		strcpy(szGameName, szGameNameBuffer);
		memset(szGameNameBuffer, 0, 255);
		ReplaceGreaterThan(szGameNameBuffer, szGameName);		
		
		strcpy(szManufacturer, BurnDrvGetTextA(DRV_MANUFACTURER));
		ReplaceAmpersand(szManufacturerBuffer, szManufacturer);
		memset(szManufacturer, 0, 255);
		strcpy(szManufacturer, szManufacturerBuffer);
		memset(szManufacturerBuffer, 0, 255);
		ReplaceLessThan(szManufacturerBuffer, szManufacturer);
		memset(szManufacturer, 0, 255);
		strcpy(szManufacturer, szManufacturerBuffer);
		memset(szManufacturerBuffer, 0, 255);
		ReplaceGreaterThan(szManufacturerBuffer, szManufacturer);
			
		fprintf(fDat, "\t\t<description>%s</description>\n", szGameNameBuffer);
		fprintf(fDat, "\t\t<year>%s</year>\n", BurnDrvGetTextA(DRV_DATE));
		fprintf(fDat, "\t\t<manufacturer>%s</manufacturer>\n", szManufacturerBuffer);
		
		// Write the individual ROM info
		for (nPass=0; nPass<2; nPass++)
		{
			nBurnDrvActive=nGameSelect;

			// Skip pass 0 if possible (pass 0 only needed for old-style clrMAME format)
			if (nPass==0 /*&& (nBoardROMSelect==nGameSelect || nBoardROMSelect==-1U)*/)
				continue;

			// Go over each of the files needed for this game (upto 0x0100)
			for (i=0, nRet=0; nRet==0 && i<0x100; i++)
			{
				INT32 nRetTmp=0;
				struct BurnRomInfo ri;
				INT32 nLen; UINT32 nCrc;
				char *szPossibleName=NULL;
				INT32 j, nMerged=0;

				memset(&ri,0,sizeof(ri));

				// Get info on this file
				nBurnDrvActive=nGameSelect;
				nRet=BurnDrvGetRomInfo(&ri,i);
				nRet+=BurnDrvGetRomName(&szPossibleName,i,0);

				if (ri.nLen==0) continue;

				if (nRet==0)
				{
					struct BurnRomInfo riTmp;
					char *szPossibleNameTmp;
					nLen=ri.nLen; nCrc=ri.nCrc;

					// Check for files from boardROMs
					if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U) {
						nBurnDrvActive=nBoardROMSelect;
						nRetTmp=0;

						// Go over each of the files needed for this game (upto 0x0100)
						for (j=0; nRetTmp==0 && j<0x100; j++)
						{
							memset(&riTmp,0,sizeof(riTmp));

							nRetTmp+=BurnDrvGetRomInfo(&riTmp,j);
							nRetTmp+=BurnDrvGetRomName(&szPossibleNameTmp,j,0);

							if (nRetTmp==0)
							{
								if (riTmp.nLen && riTmp.nCrc==nCrc && !strcmp(szPossibleName, szPossibleNameTmp))
								{
									// This file is from a boardROM
									nMerged|=2;
									nRetTmp++;
								}
							}
						}
					}

					if (!nMerged && nParentSelect!=nGameSelect && nParentSelect!=-1U) {
						nBurnDrvActive=nParentSelect;
						nRetTmp=0;

						// Go over each of the files needed for this game (upto 0x0100)
						for (j=0; nRetTmp==0 && j<0x100; j++)
						{
							memset(&riTmp,0,sizeof(riTmp));

							nRetTmp+=BurnDrvGetRomInfo(&riTmp,j);
							nRetTmp+=BurnDrvGetRomName(&szPossibleNameTmp,j,0);

							if (nRetTmp==0)
							{
								if (riTmp.nLen && riTmp.nCrc==nCrc && !strcmp(szPossibleName, szPossibleNameTmp))
								{
									// This file is from a parent set
									nMerged|=1;
									nRetTmp++;
								}
							}
						}
					}

					nBurnDrvActive=nGameSelect;						// Switch back to game
				}

				char szPossibleNameBuffer[255];
				char szPossibleNameBuffer2[255];
			
				memset(szPossibleNameBuffer, 0, 255);
				memset(szPossibleNameBuffer2, 0, 255);
			
				ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
				strcpy(szPossibleNameBuffer2, szPossibleNameBuffer);
				memset(szPossibleNameBuffer, 0, 255);
				ReplaceLessThan(szPossibleNameBuffer, szPossibleNameBuffer2);
				memset(szPossibleNameBuffer2, 0, 255);
				strcpy(szPossibleNameBuffer2, szPossibleNameBuffer);
				memset(szPossibleNameBuffer, 0, 255);
				ReplaceGreaterThan(szPossibleNameBuffer, szPossibleNameBuffer2);
					
				// File info
				if (nPass==1 && !nMerged) {
					if (ri.nType & BRF_NODUMP) {
						fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" status=\"nodump\"/>\n", szPossibleNameBuffer, ri.nLen);
					} else {
						fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, ri.nLen, ri.nCrc);
					}
				}
				if (nPass==1 && nMerged)
				{
					// Files from parent/boardROMs
					if (ri.nType & BRF_NODUMP) {
						fprintf(fDat, "\t\t<rom name=\"%s\" merge=\"%s\" size=\"%d\" status=\"nodump\"/>\n", szPossibleNameBuffer, szPossibleNameBuffer, ri.nLen);
					} else {
						fprintf(fDat, "\t\t<rom name=\"%s\" merge=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, szPossibleNameBuffer, ri.nLen, ri.nCrc);
					}
				}
			}
			
			// samples
			if (strcmp(ssName, "")) {
				for (i=0, nRet=0; nRet==0 && i<0x100; i++)
				{
					struct BurnSampleInfo si;
					char *szPossibleName=NULL;

					memset(&si,0,sizeof(si));

					// Get info on this file
					nBurnDrvActive=nGameSelect;
					nRet=BurnDrvGetSampleInfo(&si,i);
					nRet+=BurnDrvGetSampleName(&szPossibleName,i,0);

					if (si.nFlags==0) continue;

					if (nPass == 1) {
						char szPossibleNameBuffer[255];
						char szPossibleNameBuffer2[255];
			
						memset(szPossibleNameBuffer, 0, 255);
						memset(szPossibleNameBuffer2, 0, 255);
			
						ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
						strcpy(szPossibleNameBuffer2, szPossibleNameBuffer);
						memset(szPossibleNameBuffer, 0, 255);
						ReplaceLessThan(szPossibleNameBuffer, szPossibleNameBuffer2);
						memset(szPossibleNameBuffer2, 0, 255);
						strcpy(szPossibleNameBuffer2, szPossibleNameBuffer);
						memset(szPossibleNameBuffer, 0, 255);
						ReplaceGreaterThan(szPossibleNameBuffer, szPossibleNameBuffer2);
					
						fprintf(fDat, "\t\t<sample name=\"%s\" />\n", szPossibleNameBuffer);
					}
				}
			}
		}

		fprintf(fDat, "\t</game>\n");
	}

	// Do another pass over each of the games to find boardROMs
	for (nBurnDrvActive=0; nBurnDrvActive<nBurnDrvCount; nBurnDrvActive++)
	{
		INT32 i, nPass;

		if (!(BurnDrvGetFlags() & BDF_BOARDROM)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_SEGA_MEGADRIVE) && (bType == DAT_MEGADRIVE_ONLY)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_PCENGINE_PCENGINE) && (bType == DAT_PCENGINE_ONLY)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_PCENGINE_TG16) && (bType == DAT_TG16_ONLY)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_PCENGINE_SGX) && (bType == DAT_SGX_ONLY)) {
			continue;
		}

		fprintf(fDat, "\t<game isbios=\"yes\" name=\"%s\">\n", BurnDrvGetTextA(DRV_NAME));
		fprintf(fDat, "\t\t<description>%s</description>\n", DecorateGameName(nBurnDrvActive));
		fprintf(fDat, "\t\t<year>%s</year>\n", BurnDrvGetTextA(DRV_DATE));
		fprintf(fDat, "\t\t<manufacturer>%s</manufacturer>\n", BurnDrvGetTextA(DRV_MANUFACTURER));		

		for (nPass=0; nPass<2; nPass++)
		{
			// No meta information needed (pass 0 only needed for old-style clrMAME format)
			if (nPass==0) continue;

			// Go over each of the individual files (upto 0x0100)
			for (i=0; i<0x100; i++)
			{
				struct BurnRomInfo ri;
				char *szPossibleName=NULL;

				memset(&ri,0,sizeof(ri));

				nRet=BurnDrvGetRomInfo(&ri,i);
				nRet+=BurnDrvGetRomName(&szPossibleName,i,0);

				if (ri.nLen==0) continue;

				if (nRet==0) {
					char szPossibleNameBuffer[255];
					char szPossibleNameBuffer2[255];
			
					memset(szPossibleNameBuffer, 0, 255);
					memset(szPossibleNameBuffer2, 0, 255);
			
					ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
					strcpy(szPossibleNameBuffer2, szPossibleNameBuffer);
					memset(szPossibleNameBuffer, 0, 255);
					ReplaceLessThan(szPossibleNameBuffer, szPossibleNameBuffer2);
					memset(szPossibleNameBuffer2, 0, 255);
					strcpy(szPossibleNameBuffer2, szPossibleNameBuffer);
					memset(szPossibleNameBuffer, 0, 255);
					ReplaceGreaterThan(szPossibleNameBuffer, szPossibleNameBuffer2);
				
					fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, ri.nLen, ri.nCrc);
				}
			}
		}

		fprintf(fDat, "\t</game>\n");
	}

	// Restore current driver
	nBurnDrvActive=nOldSelect;
	
	fprintf(fDat, "</datafile>");

	return 0;
}
Exemplo n.º 17
0
static void GameInpInitMacros()
{
	struct GameInp* pgi;
	struct BurnInputInfo bii;

	int nPunchx3[4] = {0, 0, 0, 0};
	int nPunchInputs[4][3];
	int nKickx3[4] = {0, 0, 0, 0};
	int nKickInputs[4][3];

	int nNeogeoButtons[4][4];

	bStreetFighterLayout = false;
	nMacroCount = 0;

	nFireButtons = 0;

	for (unsigned int i = 0; i < nGameInpCount; i++) {
		bii.szName = NULL;
		BurnDrvGetInputInfo(&bii, i);
		if (bii.szName == NULL) {
			bii.szName = "";
		}
		if (bii.szName[0] == 'P' && bii.szName[1] >= '1' && bii.szName[1] <= '4') {
			int nPlayer = bii.szName[1] - '1';

			if (nPlayer == 0) {
				if (strncmp(" fire", bii.szInfo + 2, 5) == 0) {
					nFireButtons++;
				}
			}

			if (_stricmp(" Weak Punch", bii.szName + 2) == 0) {
				nPunchx3[nPlayer] |= 1;
				nPunchInputs[nPlayer][0] = i;
			}
			if (_stricmp(" Medium Punch", bii.szName + 2) == 0) {
				nPunchx3[nPlayer] |= 2;
				nPunchInputs[nPlayer][1] = i;
			}
			if (_stricmp(" Strong Punch", bii.szName + 2) == 0) {
				nPunchx3[nPlayer] |= 4;
				nPunchInputs[nPlayer][2] = i;
			}
			if (_stricmp(" Weak Kick", bii.szName + 2) == 0) {
				nKickx3[nPlayer] |= 1;
				nKickInputs[nPlayer][0] = i;
			}
			if (_stricmp(" Medium Kick", bii.szName + 2) == 0) {
				nKickx3[nPlayer] |= 2;
				nKickInputs[nPlayer][1] = i;
			}
			if (_stricmp(" Strong Kick", bii.szName + 2) == 0) {
				nKickx3[nPlayer] |= 4;
				nKickInputs[nPlayer][2] = i;
			}

			if (_stricmp(" Button A", bii.szName + 2) == 0) {
				nNeogeoButtons[nPlayer][0] = i;
			}
			if (_stricmp(" Button B", bii.szName + 2) == 0) {
				nNeogeoButtons[nPlayer][1] = i;
			}
			if (_stricmp(" Button C", bii.szName + 2) == 0) {
				nNeogeoButtons[nPlayer][2] = i;
			}
			if (_stricmp(" Button D", bii.szName + 2) == 0) {
				nNeogeoButtons[nPlayer][3] = i;
			}
		}
	}

	pgi = GameInputs + nGameInpCount;

	for (int nPlayer = 0; nPlayer < nMaxPlayers; nPlayer++) {
		if (nPunchx3[nPlayer] == 7) {		// Create a 3x punch macro
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;

			sprintf(pgi->Macro.szName, "P%i 3× Punch", nPlayer + 1);
			for (int j = 0; j < 3; j++) {
				BurnDrvGetInputInfo(&bii, nPunchInputs[nPlayer][j]);
				pgi->Macro.pVal[j] = bii.pVal;
				pgi->Macro.nVal[j] = 1;
			}

			nMacroCount++;
			pgi++;
		}

		if (nKickx3[nPlayer] == 7) {		// Create a 3x kick macro
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;

			sprintf(pgi->Macro.szName, "P%i 3× Kick", nPlayer + 1);
			for (int j = 0; j < 3; j++) {
				BurnDrvGetInputInfo(&bii, nKickInputs[nPlayer][j]);
				pgi->Macro.pVal[j] = bii.pVal;
				pgi->Macro.nVal[j] = 1;
			}

			nMacroCount++;
			pgi++;
		}

		if (nFireButtons == 4 && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SNK_NEOGEO) {

			// A + B + C macro
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;

			sprintf(pgi->Macro.szName, "P%i Button ABC", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;

			nMacroCount++;
			pgi++;

			// B + C + D macro
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;

			sprintf(pgi->Macro.szName, "P%i Button BCD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;

			nMacroCount++;
			pgi++;

			// A + B + C + D macro
			pgi->nInput = GIT_MACRO_AUTO;
			pgi->nType = BIT_DIGITAL;
			pgi->Macro.nMode = 0;

			sprintf(pgi->Macro.szName, "P%i Button ABCD", nPlayer + 1);
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][0]);
			pgi->Macro.pVal[0] = bii.pVal;
			pgi->Macro.nVal[0] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][1]);
			pgi->Macro.pVal[1] = bii.pVal;
			pgi->Macro.nVal[1] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][2]);
			pgi->Macro.pVal[2] = bii.pVal;
			pgi->Macro.nVal[2] = 1;
			BurnDrvGetInputInfo(&bii, nNeogeoButtons[nPlayer][3]);
			pgi->Macro.pVal[3] = bii.pVal;
			pgi->Macro.nVal[3] = 1;

			nMacroCount++;
			pgi++;
		}
	}

	if ((nPunchx3[0] == 7) && (nKickx3[0] == 7)) {
		bStreetFighterLayout = true;
	}
	if (nFireButtons >= 5 && (BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_CAPCOM_CPS2) {
		bStreetFighterLayout = true;
	}
}
Exemplo n.º 18
0
int write_datfile(int bIncMegadrive, FILE* fDat)
{
	int nRet=0;
	unsigned int nOldSelect=0;
	unsigned int nGameSelect=0;
	unsigned int nParentSelect,nBoardROMSelect;

	nOldSelect=nBurnDrvSelect;										// preserve the currently selected driver

	// Go over each of the games
	for (nGameSelect=0;nGameSelect<nBurnDrvCount;nGameSelect++)
	{
		char sgName[32];
		char spName[32];
		char sbName[32];
		char ssName[32];
		unsigned int i=0;
		int nPass=0;

		nBurnDrvSelect=nGameSelect;									// Switch to driver nGameSelect

		if (BurnDrvGetFlags() & BDF_BOARDROM) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SEGA_MEGADRIVE) && (bIncMegadrive == 0)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_SEGA_MEGADRIVE) && (bIncMegadrive == 2)) {
			continue;
		}
		
#if defined (ROM_VERIFY)
		if ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_CAPCOM_CPS3) {
			continue;
		}
#endif

		strcpy(sgName, BurnDrvGetTextA(DRV_NAME));
		strcpy(spName, "");											// make sure this string is empty before we start
		strcpy(sbName, "");											// make sure this string is empty before we start
		strcpy(ssName, "");											// make sure this string is empty before we start

		// Check to see if the game has a parent
		if (BurnDrvGetTextA(DRV_PARENT))
		{
			nParentSelect=-1U;
			while (BurnDrvGetTextA(DRV_PARENT))
			{
				strcpy(spName, BurnDrvGetTextA(DRV_PARENT));
				for (i=0;i<nBurnDrvCount;i++)
				{
					nBurnDrvSelect=i;
					if (!strcmp(spName, BurnDrvGetTextA(DRV_NAME)))
					{
						nParentSelect=i;
						break;
					}
				}
			}

			nBurnDrvSelect=nGameSelect;								// restore driver select
		}
		else
			nParentSelect=nGameSelect;

		// Check to see if the game has a BoardROM
		if (BurnDrvGetTextA(DRV_BOARDROM))
		{
			nBoardROMSelect=-1U;
			strcpy(sbName, BurnDrvGetTextA(DRV_BOARDROM));
			for (i=0;i<nBurnDrvCount;i++)
			{
				nBurnDrvSelect=i;
				if (!strcmp(sbName, BurnDrvGetTextA(DRV_NAME)))
				{
					nBoardROMSelect=i;
					break;
				}
			}

			nBurnDrvSelect=nGameSelect;								// restore driver select
		}
		else
			nBoardROMSelect=nGameSelect;
			
		if (BurnDrvGetTextA(DRV_SAMPLENAME)) {
			strcpy(ssName, BurnDrvGetTextA(DRV_SAMPLENAME));
		}
		
		if ((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) == HARDWARE_SEGA_MEGADRIVE) {
			// remove the md_
			char Temp[35];
			int Length;
			if (sgName[0]) {
				Length = strlen(sgName);
				memset(Temp, 0, 35);
				strcpy(Temp, sgName);
				memset(sgName, 0, 32);
				for (int pos = 0; pos < Length; pos++) {
					sgName[pos] = Temp[pos + 3];
				}
			}
			if (spName[0]) {
				Length = strlen(spName);
				memset(Temp, 0, 35);
				strcpy(Temp, spName);
				memset(spName, 0, 32);
				for (int pos = 0; pos < Length; pos++) {
					spName[pos] = Temp[pos + 3];
				}
			}
		}

		// Report problems
		if (nParentSelect==-1U)
			fprintf(fDat, "# Missing parent %s. It needs to be added to " APP_TITLE "!\n\n", spName);
		if (nBoardROMSelect==-1U)
			fprintf(fDat, "# Missing boardROM %s. It needs to be added to " APP_TITLE "!\n\n", sbName);

		// Write the header
		if (nParentSelect!=nGameSelect && nParentSelect!=-1U)
		{
			if (!strcmp(ssName, "") || !strcmp(ssName, sgName)) {
				fprintf(fDat, "\t<game name=\"%s\" cloneof=\"%s\" romof=\"%s\">\n", sgName, spName, spName);
			} else {
				fprintf(fDat, "\t<game name=\"%s\" cloneof=\"%s\" romof=\"%s\" sampleof=\"%s\">\n", sgName, spName, spName, ssName);
			}
		}
		else
		{
			// Add "romof" (but not 'cloneof') line for games that have boardROMs
			if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U)
			{
				fprintf(fDat, "\t<game name=\"%s\" romof=\"%s\">\n", sgName, sbName);
			} else {
				if (!strcmp(ssName, "") || !strcmp(ssName, sgName)) {
					fprintf(fDat, "\t<game name=\"%s\">\n", sgName);
				} else {
					fprintf(fDat, "\t<game name=\"%s\" sampleof=\"%s\">\n", sgName, ssName);
				}
			}
		}
		
		char szGameName[255];
		char szGameNameBuffer[255];
		char szManufacturer[255];
		char szManufacturerBuffer[255];
			
		memset(szGameName, 0, 255);
		memset(szGameNameBuffer, 0, 255);
		memset(szManufacturer, 0, 255);
		memset(szManufacturerBuffer, 0, 255);
		
		strcpy(szGameName, DecorateGameName(nBurnDrvSelect));
		ReplaceAmpersand(szGameNameBuffer, szGameName);
		strcpy(szManufacturer, BurnDrvGetTextA(DRV_MANUFACTURER));
		ReplaceAmpersand(szManufacturerBuffer, szManufacturer);
			
		fprintf(fDat, "\t\t<description>%s</description>\n", szGameNameBuffer);
		fprintf(fDat, "\t\t<year>%s</year>\n", BurnDrvGetTextA(DRV_DATE));
		fprintf(fDat, "\t\t<manufacturer>%s</manufacturer>\n", szManufacturerBuffer);

		// Write the individual ROM info
		for (nPass=0; nPass<2; nPass++)
		{
			nBurnDrvSelect=nGameSelect;

			// Skip pass 0 if possible (pass 0 only needed for old-style clrMAME format)
			if (nPass==0 /*&& (nBoardROMSelect==nGameSelect || nBoardROMSelect==-1U)*/)
				continue;

			// Go over each of the files needed for this game (upto 0x0100)
			for (i=0, nRet=0; nRet==0 && i<0x100; i++)
			{
				int nRetTmp=0;
				struct BurnRomInfo ri;
				int nLen; unsigned int nCrc;
				char *szPossibleName=NULL;
				int j, nMerged=0;

				memset(&ri,0,sizeof(ri));

				// Get info on this file
				nBurnDrvSelect=nGameSelect;
				nRet=BurnDrvGetRomInfo(&ri,i);
				nRet+=BurnDrvGetRomName(&szPossibleName,i,0);

				if (ri.nLen==0) continue;

				if (nRet==0)
				{
					struct BurnRomInfo riTmp;
					char *szPossibleNameTmp;
					nLen=ri.nLen; nCrc=ri.nCrc;

					// Check for files from boardROMs
					if (nBoardROMSelect!=nGameSelect && nBoardROMSelect!=-1U) {
						nBurnDrvSelect=nBoardROMSelect;
						nRetTmp=0;

						// Go over each of the files needed for this game (upto 0x0100)
						for (j=0; nRetTmp==0 && j<0x100; j++)
						{
							memset(&riTmp,0,sizeof(riTmp));

							nRetTmp+=BurnDrvGetRomInfo(&riTmp,j);
							nRetTmp+=BurnDrvGetRomName(&szPossibleNameTmp,j,0);

							if (nRetTmp==0)
							{
								if (riTmp.nLen && riTmp.nCrc==nCrc && !strcmp(szPossibleName, szPossibleNameTmp))
								{
									// This file is from a boardROM
									nMerged|=2;
									nRetTmp++;
								}
							}
						}
					}

					if (!nMerged && nParentSelect!=nGameSelect && nParentSelect!=-1U) {
						nBurnDrvSelect=nParentSelect;
						nRetTmp=0;

						// Go over each of the files needed for this game (upto 0x0100)
						for (j=0; nRetTmp==0 && j<0x100; j++)
						{
							memset(&riTmp,0,sizeof(riTmp));

							nRetTmp+=BurnDrvGetRomInfo(&riTmp,j);
							nRetTmp+=BurnDrvGetRomName(&szPossibleNameTmp,j,0);

							if (nRetTmp==0)
							{
								if (riTmp.nLen && riTmp.nCrc==nCrc && !strcmp(szPossibleName, szPossibleNameTmp))
								{
									// This file is from a parent set
									nMerged|=1;
									nRetTmp++;
								}
							}
						}
					}

					nBurnDrvSelect=nGameSelect;						// Switch back to game
				}

				char szPossibleNameBuffer[255];
			
				memset(szPossibleNameBuffer, 0, 255);
			
				ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
					
				// File info
				if (nPass==1 && !nMerged) {
					if (ri.nType & BRF_NODUMP) {
						fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" status=\"nodump\"/>\n", szPossibleNameBuffer, ri.nLen);
					} else {
						fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, ri.nLen, ri.nCrc);
					}
				}
				if (nPass==1 && nMerged)
				{
					// Files from parent/boardROMs
					if (ri.nType & BRF_NODUMP) {
						fprintf(fDat, "\t\t<rom name=\"%s\" merge=\"%s\" size=\"%d\" status=\"nodump\"/>\n", szPossibleNameBuffer, szPossibleNameBuffer, ri.nLen);
					} else {
						fprintf(fDat, "\t\t<rom name=\"%s\" merge=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, szPossibleNameBuffer, ri.nLen, ri.nCrc);
					}
				}
			}
			
			// samples
			if (strcmp(ssName, "")) {
				for (i=0, nRet=0; nRet==0 && i<0x100; i++)
				{
					struct BurnSampleInfo si;
					char *szPossibleName=NULL;

					memset(&si,0,sizeof(si));

					// Get info on this file
					nBurnDrvSelect=nGameSelect;
					nRet=BurnDrvGetSampleInfo(&si,i);
					nRet+=BurnDrvGetSampleName(&szPossibleName,i,0);

					if (si.nFlags==0) continue;

					if (nPass == 1) {
						char szPossibleNameBuffer[255];
			
						memset(szPossibleNameBuffer, 0, 255);
						ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
					
						fprintf(fDat, "\t\t<sample name=\"%s\" />\n", szPossibleNameBuffer);
					}
				}
			}
		}

		fprintf(fDat, "\t</game>\n");
	}

	// Do another pass over each of the games to find boardROMs
	for (nBurnDrvSelect=0; nBurnDrvSelect<nBurnDrvCount; nBurnDrvSelect++)
	{
		int i, nPass;

		if (!(BurnDrvGetFlags() & BDF_BOARDROM)) {
			continue;
		}
		
		if (((BurnDrvGetHardwareCode() & HARDWARE_PUBLIC_MASK) != HARDWARE_SEGA_MEGADRIVE) && (bIncMegadrive == 2)) {
			continue;
		}

		fprintf(fDat, "\t<game isbios=\"yes\" name=\"%s\">\n", BurnDrvGetTextA(DRV_NAME));
		fprintf(fDat, "\t\t<description>%s</description>\n", DecorateGameName(nBurnDrvSelect));
		fprintf(fDat, "\t\t<year>%s</year>\n", BurnDrvGetTextA(DRV_DATE));
		fprintf(fDat, "\t\t<manufacturer>%s</manufacturer>\n", BurnDrvGetTextA(DRV_MANUFACTURER));		

		for (nPass=0; nPass<2; nPass++)
		{
			// No meta information needed (pass 0 only needed for old-style clrMAME format)
			if (nPass==0) continue;

			// Go over each of the individual files (upto 0x0100)
			for (i=0; i<0x100; i++)
			{
				struct BurnRomInfo ri;
				char *szPossibleName=NULL;

				memset(&ri,0,sizeof(ri));

				nRet=BurnDrvGetRomInfo(&ri,i);
				nRet+=BurnDrvGetRomName(&szPossibleName,i,0);

				if (ri.nLen==0) continue;

				if (nRet==0) {
					char szPossibleNameBuffer[255];
			
					memset(szPossibleNameBuffer, 0, 255);
			
					ReplaceAmpersand(szPossibleNameBuffer, szPossibleName);
				
					fprintf(fDat, "\t\t<rom name=\"%s\" size=\"%d\" crc=\"%08x\"/>\n", szPossibleNameBuffer, ri.nLen, ri.nCrc);
				}
			}
		}

		fprintf(fDat, "\t</game>\n");
	}

	// Restore current driver
	nBurnDrvSelect=nOldSelect;
	
	fprintf(fDat, "</datafile>");

	return 0;
}