Exemple #1
0
static INT32 crushermInit()
{
	INT32 nLen;

	BurnSetRefreshRate(CAVE_REFRESHRATE);

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((Mem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (crushermLoadRoms()) {
		return 1;
	}

	EEPROMInit(&eeprom_interface_93C46_8bit);

	{

		SekInit(0, 0x68000);												// Allocate 68000
		SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,		0x000000, 0x07FFFF, MAP_ROM);	// CPU 0 ROM
		SekMapMemory(CaveTileRAM[0],	0x100000, 0x107FFF, MAP_RAM);
		SekMapMemory(CaveSpriteRAM,	0x180000, 0x187FFF, MAP_RAM);
		SekMapMemory(CavePalSrc,	0x200000, 0x207FFF, MAP_RAM);
		SekMapMemory(Ram01,		0x340000, 0x34FFFF, MAP_RAM);

		SekSetReadWordHandler(0, 	korokoroReadWord);
		SekSetReadByteHandler(0, 	korokoroReadByte);
		SekSetWriteWordHandler(0, 	korokoroWriteWord);
		SekSetWriteByteHandler(0, 	korokoroWriteByte);

		SekClose();
	}

	nCaveRowModeOffset = 1;

	CavePalInit(0x8000);
	CaveTileInit();
	CaveSpriteInit(1, 0x400000);
	CaveTileInitLayer(0, 0x200000, 4, 0x4400);

	YMZ280BInit(16934400, &TriggerSoundIRQ, 0x200000);
	YMZ280BSetRoute(BURN_SND_YMZ280B_YMZ280B_ROUTE_1, 1.00, BURN_SND_ROUTE_LEFT);
	YMZ280BSetRoute(BURN_SND_YMZ280B_YMZ280B_ROUTE_2, 1.00, BURN_SND_ROUTE_RIGHT);

	bDrawScreen = true;

	DrvDoReset(); // Reset machine

	return 0;
}
Exemple #2
0
void install_protection_asic27a_svg()
{
	nPGMArm7Type = 3;

	pPgmScanCallback = svg_asic27aScan;

	svg_ram_sel = 0;
	svg_ram[0] = PGMARMShareRAM;
	svg_ram[1] = PGMARMShareRAM2;

	SekOpen(0);
	SekMapHandler(5,		0x500000, 0x5fffff, MAP_RAM);
	SekSetReadWordHandler(5, 	svg_read_word);
	SekSetWriteWordHandler(5, 	svg_write_word);
	SekSetWriteByteHandler(5, 	svg_write_byte);
	SekClose();

	Arm7Init(0);
	Arm7Open(0);
	Arm7MapMemory(PGMARMROM,	0x00000000, 0x00003fff, MAP_ROM);
	Arm7MapMemory(PGMUSER0,		0x08000000, 0x08000000 | (nPGMExternalARMLen-1), MAP_ROM);
	Arm7MapMemory(PGMARMRAM0,	0x10000000, 0x100003ff, MAP_RAM);
	Arm7MapMemory(PGMARMRAM1,	0x18000000, 0x1803ffff, MAP_RAM);
	Arm7MapMemory(svg_ram[1],	0x38000000, 0x3800ffff, MAP_RAM);
	Arm7MapMemory(PGMARMRAM2,	0x50000000, 0x500003ff, MAP_RAM);
	Arm7SetWriteByteHandler(svg_arm7_write_byte);
	Arm7SetReadByteHandler(svg_arm7_read_byte);
	Arm7Close();
}
Exemple #3
0
static int DrvInit()
{
	int nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = false;
#endif

	nGP9001ROMSize[0] = 0x800000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	if ((Mem = (unsigned char *)malloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);									// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,		0x000000, 0x07FFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,		0x100000, 0x103FFF, SM_RAM);
		SekMapMemory(RamPal,	0x400000, 0x400FFF, SM_RAM);	// Palette RAM

		SekSetReadWordHandler(0, kbashReadWord);
		SekSetReadByteHandler(0, kbashReadByte);
		SekSetWriteWordHandler(0, kbashWriteWord);
		SekSetWriteByteHandler(0, kbashWriteByte);

		SekClose();
	}

	nSpriteYOffset = 0x0011;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001();

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	bDrawScreen = true;

	DrvDoReset();			// Reset machine
	return 0;
}
Exemple #4
0
static INT32 DrvInit()
{
	GenericTilesInit();

	AllMem = NULL;
	MemIndex();
	INT32 nLen = MemEnd - (UINT8 *)0;
	if ((AllMem = (UINT8 *)BurnMalloc(nLen)) == NULL) return 1;
	memset(AllMem, 0, nLen);
	MemIndex();

	{
		if (BurnLoadRom(Drv68KROM  + 0x000000,  0, 1)) return 1;
		if (BurnLoadRom(Drv68KROM  + 0x080000,  1, 1)) return 1;

		if (BurnLoadRom(DrvGfxROM  + 0x000000,  2, 2)) return 1;
		if (BurnLoadRom(DrvGfxROM  + 0x000001,  3, 2)) return 1;
		if (BurnLoadRom(DrvGfxROM  + 0x100000,  4, 2)) return 1;
		if (BurnLoadRom(DrvGfxROM  + 0x100001,  5, 2)) return 1;

		if (BurnLoadRom(YMZ280BROM + 0x000000,  6, 1)) return 1;
		if (BurnLoadRom(YMZ280BROM + 0x080000,  7, 1)) return 1;
		if (BurnLoadRom(YMZ280BROM + 0x100000,  8, 1)) return 1;
		if (BurnLoadRom(YMZ280BROM + 0x180000,  9, 1)) return 1;

		DrvGfxDecode();
	}

	SekInit(0, 0x68000);
	SekOpen(0);
	SekMapMemory(Drv68KROM,		0x000000, 0x0fffff, MAP_ROM);
	SekMapMemory(Drv68KRAM,		0x400000, 0x407fff, MAP_RAM);
	SekMapMemory(DrvPalRAM,		0xb00000, 0xb03fff, MAP_RAM);
	SekMapMemory(DrvPalRAM,		0xb04000, 0xb047ff, MAP_ROM);
	SekSetWriteWordHandler(0,	bishi_write_word);
	SekSetWriteByteHandler(0,	bishi_write_byte);
	SekSetReadWordHandler(0,	bishi_read_word);
	SekSetReadByteHandler(0,	bishi_read_byte);
	SekClose();

	K055555Init();
	K054338Init();

	K056832Init(DrvGfxROM, DrvGfxROMExp, 0x200000, bishi_tile_callback);
	K056832SetGlobalOffsets(29, 16);
	K056832SetLayerOffsets(0, -2, 0);
	K056832SetLayerOffsets(1,  2, 0);
	K056832SetLayerOffsets(2,  4, 0);
	K056832SetLayerOffsets(3,  6, 0);
	K056832SetLayerAssociation(0);

	YMZ280BInit(16934400, bishi_sound_irq);
	YMZ280BSetRoute(BURN_SND_YMZ280B_YMZ280B_ROUTE_1, 1.00, BURN_SND_ROUTE_LEFT);
	YMZ280BSetRoute(BURN_SND_YMZ280B_YMZ280B_ROUTE_2, 1.00, BURN_SND_ROUTE_RIGHT);

	DrvDoReset();

	return 0;
}
static int DrvInit()
{
	int nLen;

	BurnSetRefreshRate(CAVE_REFRESHRATE);

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	if ((Mem = (unsigned char *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	EEPROMInit(&eeprom_interface_93C46_8bit);
	
	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{

		SekInit(0, 0x68000);												// Allocate 68000
		SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,		0x000000, 0x07FFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(CaveTileRAM[0],	0x100000, 0x107FFF, SM_RAM);
		SekMapMemory(CaveSpriteRAM,	0x180000, 0x187FFF, SM_RAM);
		SekMapMemory(CavePalSrc,	0x200000, 0x207FFF, SM_RAM);
		SekMapMemory(Ram01,		0x300000, 0x30FFFF, SM_RAM);

		SekSetReadWordHandler(0, 	korokoroReadWord);
		SekSetReadByteHandler(0, 	korokoroReadByte);
		SekSetWriteWordHandler(0, 	korokoroWriteWord);
		SekSetWriteByteHandler(0, 	korokoroWriteByte);

		SekClose();
	}

	nCaveRowModeOffset = 1;

	CavePalInit(0x8000);
	CaveTileInit();
	CaveSpriteInit(1, 0x300000);
	CaveTileInitLayer(0, 0x200000, 4, 0x4400);

	YMZ280BInit(16934400, &TriggerSoundIRQ, 3);

	bDrawScreen = true;

	DrvDoReset(); // Reset machine

	return 0;
}
Exemple #6
0
static int DrvInit()
{
	int nLen;

//	bToaRotateScreen = true;

	BurnSetRefreshRate(REFRESHRATE);

	nBCU2ROMSize = 0x080000;
	nFCU2ROMSize = 0x080000;

	// Find out how much memory is needed
	AllMem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	if ((AllMem = (unsigned char *)malloc(nLen)) == NULL) {
		return 1;
	}
	memset(AllMem, 0, nLen);
	MemIndex();

	if (BurnLoadRom(Drv68KROM + 0x000001, 0, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x000000, 1, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x040001, 2, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x040000, 3, 2)) return 1;

	ToaLoadTiles(BCU2ROM, 4, nBCU2ROMSize);
	ToaLoadTiles(FCU2ROM, 8, nFCU2ROMSize);

	{
		SekInit(0, 0x68000);
		SekOpen(0);
		SekMapMemory(Drv68KROM,			0x000000, 0x07FFFF, SM_ROM);
		SekMapMemory(Drv68KRAM,			0x0c0000, 0x0c3FFF, SM_RAM);
		SekMapMemory(DrvPalRAM,			0x104000, 0x1047FF, SM_RAM);
		SekMapMemory(DrvPalRAM2,		0x106000, 0x1067FF, SM_RAM);
		SekSetReadWordHandler(0, 		samesameReadWord);
		SekSetReadByteHandler(0, 		samesameReadByte);
		SekSetWriteWordHandler(0, 		samesameWriteWord);
		SekSetWriteByteHandler(0, 		samesameWriteByte);
		SekClose();
	}

	ToaInitBCU2();

	nToaPalLen = nColCount;
	ToaPalSrc = DrvPalRAM;
	ToaPalSrc2 = DrvPalRAM2;
	ToaPalInit();

//	BurnYM3812Init(28000000 / 8, &toaplan1FMIRQHandler, &toaplan1SynchroniseStream, 0);

	bDrawScreen = true;

	DrvDoReset();
	return 0;
}
Exemple #7
0
static INT32 DrvInit()
{
	INT32 nLen;

//	bToaRotateScreen = true;

	BurnSetRefreshRate(REFRESHRATE);

	nBCU2ROMSize = 0x080000;
	nFCU2ROMSize = 0x100000;

	// Find out how much memory is needed
	AllMem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((AllMem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(AllMem, 0, nLen);
	MemIndex();

	ToaLoadCode(Drv68KROM, 0, 2);
	ToaLoadTiles(BCU2ROM, 2, nBCU2ROMSize);
	ToaLoadGP9001Tiles(FCU2ROM, 6, 3, nFCU2ROMSize);

	{
		SekInit(0, 0x68000);
		SekOpen(0);
		SekMapMemory(Drv68KROM,		0x000000, 0x03FFFF, SM_ROM);
		SekMapMemory(DrvPalRAM,		0x404000, 0x4047FF, SM_RAM);
		SekMapMemory(DrvPalRAM2,	0x406000, 0x4067FF, SM_RAM);
		SekMapMemory(Drv68KRAM,		0x480000, 0x487FFF, SM_RAM);
		SekSetReadWordHandler(0, 	vimanaReadWord);
		SekSetReadByteHandler(0, 	vimanaReadByte);
		SekSetWriteWordHandler(0, 	vimanaWriteWord);
		SekSetWriteByteHandler(0, 	vimanaWriteByte);
		SekClose();
	}

	ToaInitBCU2();

	nToaPalLen = nColCount;
	ToaPalSrc = DrvPalRAM;
	ToaPalSrc2 = DrvPalRAM2;
	ToaPalInit();

//	BurnYM3812Init(28000000 / 8, &toaplan1FMIRQHandler, &toaplan1SynchroniseStream, 0);

	bDrawScreen = true;

	DrvDoReset();
	return 0;
}
Exemple #8
0
int MiaInit()
{
	int nRet=0;
	int nLen=0;

  // Find out how much memory is needed
	Mem=NULL;
	MiaIndex();
	nLen=MemEnd-(unsigned char *)0;
	Mem=(unsigned char *)malloc(nLen);
	if (Mem==NULL)
		return 1;
	memset(Mem,0,nLen); // blank all memory
	MiaIndex(); // Index the allocated memory

	nRet=MiaLoadRoms();
	if (nRet!=0)
		return 1; // Load the roms into memory

  	SekInit(0,0x68000);	// Allocate 68000

	SekOpen(0);

	// Map in memory:
	// ----------------- Cpu 1 ------------------------
	SekMapMemory(    Tmnt68KROM01  ,0x000000,0x03FFFF,SM_ROM); // 68000 Rom
	SekMapMemory(    TmntRam06,0x040000,0x063FFF,SM_RAM);
	SekMapMemory(TmntRam08,0x080000,0x080FFF,SM_ROM); // Write goes through handler
	SekMapMemory(   PriRam,0x0c0000,0x0c00FF,SM_RAM);
	SekMapMemory(TmntRam10,0x100000,0x107FFF,SM_RAM);
	SekMapMemory(    K051960Ram,0x140000,0x1407FF,SM_RAM);
	SekSetReadWordHandler(0,TmntReadWord);
	SekSetWriteWordHandler(0,TmntWriteWord);
	SekSetReadByteHandler(0,TmntReadByte);
	SekSetWriteByteHandler(0,TmntWriteByte);

	// ------------------------------------------------
	SekReset(); 
	bInt5=0;
	SekClose();
	MiaReset();
	GenericTilesInit();
	TmntPalInit();
	return 0;
}
Exemple #9
0
static int DrvInit()
{
	int nRet;
	
	Mem = NULL;
	MemIndex();
	int nLen = MemEnd - (unsigned char *)0;
	if ((Mem = (unsigned char *)malloc(nLen)) == NULL) return 1;
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();	
	
	nRet = BurnLoadRom(Rom68K + 0x000000, 0, 2); if (nRet != 0) return 1;
	nRet = BurnLoadRom(Rom68K + 0x000001, 1, 2); if (nRet != 0) return 1;
	
	BurnLoadRom(RomSpr + 0, 2, 2);
	BurnLoadRom(RomSpr + 1, 3, 2);
	
	// decode sprites 
	unsigned char * tmp = RomSpr;
	for (int i=0; i<(0x400000/4); i++) {
		unsigned char c = tmp[2];
		tmp[2] = tmp[1];
		tmp[1] = c;
		tmp += 4;
	}
	
	BurnLoadRom(RomBg, 4, 1);
	
	BurnLoadRom(MSM6295ROM + 0x00000, 5, 1);
	BurnLoadRom(MSM6295ROM + 0x80000, 6, 1);
	
	{
		SekInit(0, 0x68000);										// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom68K,		0x000000, 0x0FFFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(Ram68K,		0x100000, 0x10FFFF, SM_RAM);	// CPU 0 RAM
		SekMapMemory((unsigned char *)RamPal,
									0x200000, 0x200FFF, SM_ROM);	// palette
		SekMapMemory((unsigned char *)RamSpr0,
									0x240000, 0x240FFF, SM_RAM);	// sprites 0
		SekMapMemory((unsigned char *)RamSpr1,
									0x280000, 0x280FFF, SM_RAM);	// sprites 1
		SekMapMemory((unsigned char *)RamBg,
									0x2C0000, 0x2C0FFF, SM_RAM);	// back ground
		SekMapMemory(Ram68K+0x10000,0x8C0000, 0x8CFFFF, SM_RAM);	// not used?
		
		SekMapHandler(1,			0x200000, 0x200FFF, SM_WRITE);
		
		SekSetReadWordHandler(0, k1945iiiReadWord);
//		SekSetReadByteHandler(0, k1945iiiReadByte);
		SekSetWriteWordHandler(0, k1945iiiWriteWord);
		SekSetWriteByteHandler(0, k1945iiiWriteByte);
		
//		SekSetWriteByteHandler(1, k1945iiiWriteBytePalette);
		SekSetWriteWordHandler(1, k1945iiiWriteWordPalette);

		SekClose();
	}
	
	MSM6295Init(0, 7500, 80, 1);
	MSM6295Init(1, 7500, 80, 1);
	
	DrvDoReset();
	return 0;
}
Exemple #10
0
static INT32 DrvInit()
{
    INT32 nLen;

#ifdef DRIVER_ROTATION
    bToaRotateScreen = false;
#endif

    BurnSetRefreshRate(REFRESHRATE);

    nGP9001ROMSize[0] = 0x200000;

    // Find out how much memory is needed
    Mem = NULL;
    MemIndex();
    nLen = MemEnd - (UINT8 *)0;
    if ((Mem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
        return 1;
    }
    memset(Mem, 0, nLen);										// blank all memory
    MemIndex();													// Index the allocated memory

    // Load the roms into memory
    if (LoadRoms()) {
        return 1;
    }

    {
        SekInit(0, 0x68000);										// Allocate 68000
        SekOpen(0);
        SekMapMemory(Rom01,		0x000000, 0x03FFFF, SM_ROM);	// CPU 0 ROM
        SekMapMemory(Ram01,		0x080000, 0x082FFF, SM_RAM);
        SekMapMemory(RamPal,		0x0c0000, 0x0c0FFF, SM_RAM);	// Palette RAM
        SekSetReadWordHandler(0, 	pipibibsReadWord);
        SekSetReadByteHandler(0, 	pipibibsReadByte);
        SekSetWriteWordHandler(0, 	pipibibsWriteWord);
        SekSetWriteByteHandler(0, 	pipibibsWriteByte);

        SekMapHandler(1,		0x190000, 0x190FFF, SM_RAM);
        SekSetReadByteHandler(1, 	toaplan1ReadByteZ80RAM);
        SekSetReadWordHandler(1, 	toaplan1ReadWordZ80RAM);
        SekSetWriteByteHandler(1, 	toaplan1WriteByteZ80RAM);
        SekSetWriteWordHandler(1, 	toaplan1WriteWordZ80RAM);
        SekClose();

        ZetInit(0);
        ZetOpen(0);
        ZetMapArea(0x0000, 0x7fff, 0, RomZ80);
        ZetMapArea(0x0000, 0x7fff, 2, RomZ80);
        ZetMapArea(0x8000, 0x87ff, 0, RamZ80);
        ZetMapArea(0x8000, 0x87ff, 1, RamZ80);
        ZetMapArea(0x8000, 0x87ff, 2, RamZ80);
        ZetSetWriteHandler(pipibibs_sound_write);
        ZetSetReadHandler(pipibibs_sound_read);
        ZetMemEnd();
        ZetClose();
    }

    nToa1Cycles68KSync = 0;
    BurnYM3812Init(3375000, &toaplan1FMIRQHandler, pipibibsSynchroniseStream, 0);
    BurnTimerAttachZetYM3812(3375000);
    BurnYM3812SetRoute(BURN_SND_YM3812_ROUTE, 1.00, BURN_SND_ROUTE_BOTH);

    nSpriteYOffset =  0x0001;

    nLayer0XOffset = -0x01D6;
    nLayer1XOffset = -0x01D8;
    nLayer2XOffset = -0x01DA;

    ToaInitGP9001();

    nToaPalLen = nColCount;
    ToaPalSrc = RamPal;
    ToaPalInit();

    bDrawScreen = true;

    DrvDoReset();			// Reset machine
    return 0;
}
Exemple #11
0
static INT32 DrvInit()
{
	if (bBurnUseASMCPUEmulation) {
		bUseAsm68KCoreOldValue = bBurnUseASMCPUEmulation;
		bBurnUseASMCPUEmulation = false;
	}

	INT32 nLen;

//	bToaRotateScreen = true;

	BurnSetRefreshRate(REFRESHRATE);

	nBCU2ROMSize = 0x080000;
	nFCU2ROMSize = 0x080000;

	// Find out how much memory is needed
	AllMem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((AllMem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(AllMem, 0, nLen);
	MemIndex();

	if (BurnLoadRom(Drv68KROM + 0x000001, 0, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x000000, 1, 2)) return 1;

	if (BurnLoadRom(DrvZ80ROM, 2, 1)) return 1;

	ToaLoadTiles(BCU2ROM, 5, nBCU2ROMSize);
	ToaLoadTiles(FCU2ROM, 9, nFCU2ROMSize);

	{
		SekInit(0, 0x68000);
		SekOpen(0);
		SekMapMemory(Drv68KROM,			0x000000, 0x03FFFF, SM_ROM);
		SekMapMemory(DrvPalRAM,			0x404000, 0x4047FF, SM_RAM);
		SekMapMemory(DrvPalRAM2,		0x406000, 0x4067FF, SM_RAM);
		SekMapMemory(Drv68KRAM,			0xc00000, 0xc03FFF, SM_RAM);
		SekSetReadWordHandler(0, 		demonwldReadWord);
		SekSetReadByteHandler(0, 		demonwldReadByte);
		SekSetWriteWordHandler(0, 		demonwldWriteWord);
		SekSetWriteByteHandler(0, 		demonwldWriteByte);

		SekMapHandler(1,			0x600000, 0x600FFF, SM_RAM);
		SekSetReadByteHandler(1, 		toaplan1ReadByteZ80RAM);
		SekSetReadWordHandler(1, 		toaplan1ReadWordZ80RAM);
		SekSetWriteByteHandler(1, 		toaplan1WriteByteZ80RAM);
		SekSetWriteWordHandler(1, 		toaplan1WriteWordZ80RAM);
		SekClose();

		ZetInit(0);
		ZetOpen(0);
		ZetMapArea(0x0000, 0x7fff, 0, DrvZ80ROM);
		ZetMapArea(0x0000, 0x7fff, 2, DrvZ80ROM);
		ZetMapArea(0x8000, 0xffff, 0, DrvShareRAM);
		ZetMapArea(0x8000, 0xffff, 1, DrvShareRAM);
		ZetMapArea(0x8000, 0xffff, 2, DrvShareRAM);
		ZetSetOutHandler(demonwld_sound_write_port);
		ZetSetInHandler(demonwld_sound_read_port);
		ZetMemEnd();
		ZetClose();
	}

	ToaInitBCU2();

	nToaPalLen = nColCount;
	ToaPalSrc = DrvPalRAM;
	ToaPalSrc2 = DrvPalRAM2;
	ToaPalInit();

	ToaOpaquePriority = 2;

	BurnYM3812Init(28000000 / 8, &toaplan1FMIRQHandler, &toaplan1SynchroniseStream, 0);
	BurnTimerAttachZetYM3812(28000000 / 8);
	BurnYM3812SetRoute(BURN_SND_YM3812_ROUTE, 1.00, BURN_SND_ROUTE_BOTH);

	bDrawScreen = true;

	DrvDoReset();
	return 0;
}
Exemple #12
0
static int DrvInit()
{
	int nLen;

	BurnSetRefreshRate(CAVE_REFRESHRATE);

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	if ((Mem = (unsigned char *)malloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	EEPROMInit(1024, 16);										// EEPROM has 1024 bits, uses 16-bit words

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);													// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,						0x000000, 0x07FFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,						0x100000, 0x10FFFF, SM_RAM);
		SekMapMemory(CaveTileRAM[1],			0x200000, 0x207FFF, SM_RAM);
		SekMapMemory(CaveTileRAM[0],			0x300000, 0x307FFF, SM_RAM);
		SekMapMemory(CaveTileRAM[2] + 0x4000,	0x400000, 0x403FFF, SM_RAM);
		SekMapMemory(CaveTileRAM[2] + 0x4000,	0x404000, 0x407FFF, SM_RAM);
		SekMapMemory(CaveSpriteRAM,				0x500000, 0x50FFFF, SM_RAM);
		SekMapMemory(CavePalSrc,				0xA08000, 0xA08FFF, SM_RAM);	// Palette RAM

		SekSetReadWordHandler(0, donpachiReadWord);
		SekSetReadByteHandler(0, donpachiReadByte);
		SekSetWriteWordHandler(0, donpachiWriteWord);
		SekSetWriteByteHandler(0, donpachiWriteByte);

		SekClose();
	}

	CavePalInit();
	CaveTileInit();
	CaveSpriteInit(0, 0x0800000);
	CaveTileInitLayer(0, 0x200000, 8, 0x4000);
	CaveTileInitLayer(1, 0x200000, 8, 0x4000);
	CaveTileInitLayer(2, 0x080000, 8, 0x4000);

	MSM6295Init(0, 8000, 50.0, 0);
	MSM6295Init(1, 16000, 50.0, 0);

	MSM6295SampleData[0][0] = MSM6295ROM + 0x100000;
	MSM6295SampleInfo[0][0] = MSM6295ROM + 0x100000 + 0x0000;
	MSM6295SampleData[0][1] = MSM6295ROM + 0x100000;
	MSM6295SampleInfo[0][1] = MSM6295ROM + 0x100000 + 0x0100;
	MSM6295SampleData[0][2] = MSM6295ROM + 0x100000;
	MSM6295SampleInfo[0][2] = MSM6295ROM + 0x100000 + 0x0200;
	MSM6295SampleData[0][3] = MSM6295ROM + 0x100000;
	MSM6295SampleInfo[0][3] = MSM6295ROM + 0x100000 + 0x0300;

	bDrawScreen = true;

#if defined FBA_DEBUG && defined USE_SPEEDHACKS
	bprintf(PRINT_IMPORTANT, _T("  * Using speed-hacks (detecting idle loops).\n"));
#endif

	DrvDoReset(); // Reset machine

	return 0;
}
Exemple #13
0
INT32 CpsMemInit()
{
    if (AllocateMemory()) {
        return 1;
    }

    SekOpen(0);

    SekSetResetCallback(CPSResetCallback);

    // Map in memory:
    // 68000 Rom (as seen as is, through read)
    SekMapMemory(CpsRom, 0, nCpsRomLen - 1, SM_READ);

    // 68000 Rom (as seen decrypted, through fetch)
    if (nCpsCodeLen > 0) {
        // Decoded part (up to nCpsCodeLen)
        SekMapMemory(CpsCode, 0, nCpsCodeLen - 1, SM_FETCH);
    }
    if (nCpsRomLen > nCpsCodeLen) {
        // The rest (up to nCpsRomLen)
        SekMapMemory(CpsRom + nCpsCodeLen, nCpsCodeLen, nCpsRomLen - 1, SM_FETCH);
    }

    nCpsObjectBank = -1;
    CpsMapObjectBanks(0);

#if 0
    SekMapHandler(3, 0x660000, 0x663FFF, SM_RAM);
    SekSetReadByteHandler(3, CPSExtraNVRAMReadByte);
    SekSetWriteByteHandler(3, CPSExtraNVRAMWriteByte);
#else
    SekMapMemory(CpsRam660, 0x660000, 0x663FFF, SM_RAM);
#endif

    //		SekMapHandler(4, 0x708000, 0x709FFF, SM_WRITE);
    //		SekMapHandler(4, 0x70A000, 0x70BFFF, SM_WRITE);
    //		SekMapHandler(4, 0x70C000, 0x70DFFF, SM_WRITE);
    //		SekMapHandler(4, 0x70E000, 0x70FFFF, SM_WRITE);

    //		SekSetWriteByteHandler(4, CpsWriteSpriteByte);
    //		SekSetWriteWordHandler(4, CpsWriteSpriteWord);

    SekMapMemory(CpsRam90,		0x900000, 0x92FFFF, SM_RAM);	// Gfx Ram
    SekMapMemory(CpsRamFF,		0xFF0000, 0xFFFFFF, SM_RAM);	// Work Ram

    SekSetReadByteHandler(0, CpsReadByte);
    SekSetWriteByteHandler(0, CpsWriteByte);
    SekSetReadWordHandler(0, CpsReadWord);
    SekSetWriteWordHandler(0, CpsWriteWord);

    // QSound
    if (!Cps2DisableQSnd)
    {
        SekMapHandler(1,	0x618000, 0x619FFF, SM_RAM);

        SekSetReadByteHandler(1, CPSQSoundC0ReadByte);
        SekSetWriteByteHandler(1, CPSQSoundC0WriteByte);
    }

    SekClose();

    return 0;
}
Exemple #14
0
static int drvInit()
{
	int nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = true;
#endif

	nGP9001ROMSize[0] = 0x01000000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char*)0;
	if ((Mem = (unsigned char*)malloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// Zero memory
	MemIndex();													// Index the allocated memory

	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);									// Allocate 68000
		SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01, 0x000000, 0x1FFFFF, SM_ROM);		// CPU 0 ROM
		SekMapMemory(Ram02, 0x208000, 0x20FFFF, SM_RAM);

		Map68KTextROM(true);

		SekSetReadWordHandler(0, batriderReadWord);
		SekSetReadByteHandler(0, batriderReadByte);
		SekSetWriteWordHandler(0, batriderWriteWord);
		SekSetWriteByteHandler(0, batriderWriteByte);

		SekMapHandler(1,	0x400000, 0x400400, SM_RAM);		// GP9001 addresses

		SekSetReadWordHandler(1, batriderReadWordGP9001);
		SekSetWriteWordHandler(1, batriderWriteWordGP9001);

		SekMapHandler(2,	0x300000, 0x37FFFF, SM_ROM);		// Z80 ROM

		SekSetReadByteHandler(2, batriderReadByteZ80ROM);
		SekSetReadWordHandler(2, batriderReadWordZ80ROM);

		SekClose();
	}

	nSpriteYOffset = 0x0001;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001();

	nExtraTXOffset = 0x2C;
	ToaExtraTextInit();

	drvZInit();				// Initialize Z80

	BurnYM2151Init(32000000 / 8, 50.0);
	MSM6295Init(0, 32000000 / 10 / 132, 50.0, 1);
	MSM6295Init(1, 32000000 / 10 / 165, 50.0, 1);

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	nTextROMStatus = -1;
	bDrawScreen = true;

#if defined FBA_DEBUG && defined USE_SPEEDHACKS
	bprintf(PRINT_IMPORTANT, _T("  * Using speed-hacks (detecting idle loops).\n"));
#endif

	drvDoReset(); // Reset machine
	return 0;
}
Exemple #15
0
static int battlegInit()
{
	int nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = true;
#endif

	nGP9001ROMSize[0] = 0x800000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	if ((Mem = (unsigned char *)malloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);										// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,			0x000000, 0x0FFFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,			0x100000, 0x10FFFF, SM_RAM);
		SekMapMemory(RamPal,		0x400000, 0x400FFF, SM_RAM);	// Palette RAM
		SekMapMemory(Ram02,			0x401000, 0x4017FF, SM_RAM);	// Unused
		SekMapMemory(ExtraTRAM,		0x500000, 0x501FFF, SM_RAM);
		SekMapMemory(ExtraTSelect,	0x502000, 0x502FFF, SM_RAM);	// 0x502000 - Scroll; 0x502200 - RAM
		SekMapMemory(ExtraTScroll,	0x503000, 0x503FFF, SM_RAM);	// 0x203000 - Offset; 0x503200 - RAM

		SekSetReadWordHandler(0, battlegReadWord);
		SekSetReadByteHandler(0, battlegReadByte);
		SekSetWriteWordHandler(0, battlegWriteWord);
		SekSetWriteByteHandler(0, battlegWriteByte);

		SekClose();
	}

	nSpriteXOffset = 0x0024;
	nSpriteYOffset = 0x0001;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001();

	nExtraTXOffset = 0x2C;
	ToaExtraTextInit();

	DrvZ80Init();												// Initialize Z80

	BurnYM2151Init(32000000 / 8, 50.0);
	MSM6295Init(0, 32000000 / 16 / 132, 50.0, 1);

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	bDrawScreen = true;

	// mar 2 1996 & apr 2 1996 ver:	0x0009AC - 0x0009B8 & 0x001F5E - 0x001F64 & 0x003A1C - 0x003A22
	// feb 2 1996 ver:				0x0009AC - 0x0009B8 & 0x001F2E - 0x001F34 & 0x0039EC - 0x0039F2

	nSpeedHackOffset = 0;
	if (strcmp(BurnDrvGetTextA(DRV_NAME), "bgaregga") == 0) {
		nSpeedHackOffset = 0x30;
	}

#if defined FBA_DEBUG && defined USE_SPEEDHACKS
	bprintf(PRINT_IMPORTANT, _T("  * Using speed-hacks (detecting idle loops).\n"));
#endif

	DrvDoReset();												// Reset machine
	return 0;
}
Exemple #16
0
static INT32 DrvInit()
{
	INT32 nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = true;
#endif

	BurnSetRefreshRate(REFRESHRATE);

	nBCU2ROMSize = 0x080000;
	nFCU2ROMSize = 0x080000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((Mem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);											// blank all memory
	MemIndex();														// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);										// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,			0x000000, 0x03FFFF, SM_ROM);	// 68K ROM
		SekMapMemory(Ram01,			0x080000, 0x083FFF, SM_RAM);	// 68K RAM
		SekMapMemory(RamPal,		0x144000, 0x1447FF, SM_RAM);	// BCU-2 palette RAM
		SekMapMemory(RamPal2,		0x146000, 0x1467FF, SM_RAM);	// FCU-2 palette RAM

		SekSetReadWordHandler(0, truxtonReadWord);
		SekSetReadByteHandler(0, truxtonReadByte);
		SekSetWriteWordHandler(0, truxtonWriteWord);
		SekSetWriteByteHandler(0, truxtonWriteByte);

		SekMapHandler(1,			0x180000, 0x180FFF, SM_RAM);	// Z80 RAM

		SekSetReadByteHandler(1, toaplan1ReadByteZ80RAM);
		SekSetReadWordHandler(1, toaplan1ReadWordZ80RAM);
		SekSetWriteByteHandler(1, toaplan1WriteByteZ80RAM);
		SekSetWriteWordHandler(1, toaplan1WriteWordZ80RAM);

		SekClose();
	}
	
	ToaInitBCU2();
	
	DrvZ80Init();													// Initialize Z80

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalSrc2 = RamPal2;
	ToaPalInit();

	BurnYM3812Init(28000000 / 8, &toaplan1FMIRQHandler, &toaplan1SynchroniseStream, 0);
	BurnTimerAttachZetYM3812(28000000 / 8);
	BurnYM3812SetRoute(BURN_SND_YM3812_ROUTE, 1.00, BURN_SND_ROUTE_BOTH);

	bDrawScreen = true;

	DrvDoReset();												// Reset machine
	return 0;
}
Exemple #17
0
int SupermanInit()
{
	int nRet= 0; int nLen = 0;

	//--------------Allocate Memory-----------------
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	Mem = (unsigned char *)malloc(nLen);
	if (Mem == NULL)
		return 1;
	memset(Mem, 0, nLen); // blank all memory
	MemIndex(); // Index the allocated memory

	//--------------- Load Roms -------------------
	nRet = LoadRoms();
	if (nRet != 0)
		return 1; // Load the roms into memory

	// Map in memory:
	// ----------------- Cpu 1 68k ------------------------
	SekInit(0, 0x68000); // Allocate 1 68000
	SekOpen(0);
	SekMapMemory(Rom             , 0x000000, 0x07ffff ,SM_ROM);
	SekMapMemory(Superman_src_pal, 0xb00000, 0xb00fff, SM_RAM);
	SekMapMemory(sysbvidattr     , 0xd00000, 0xd00fff, SM_RAM);
	SekMapMemory(sysbvidram      , 0xe00000, 0xe03fff, SM_RAM);
	SekMapMemory(Superman_ram    , 0xf00000, 0xf03fff ,SM_RAM);

	SekSetWriteWordHandler(0, SupermanWriteWord);
	SekSetReadWordHandler(0, SupermanReadWord);
	SekSetReadByteHandler(0, SupermanReadByte);
	SekSetWriteByteHandler(0, SupermanWriteByte);
	SekClose();

	// ----------------- Cpu 2 Z80 ------------------------
	ZetInit(1);
	ZetSetReadHandler(SupermanZ80Read);
	ZetSetWriteHandler(SupermanZ80Write);
	ZetMapArea(0x0000, 0x3fff, 0, z80_rom);
	ZetMapArea(0x0000, 0x3fff, 2, z80_rom);
	ZetMapArea(0xc000, 0xdfff, 0, z80_ram);
	ZetMapArea(0xc000, 0xdfff, 2, z80_ram);
	ZetMapArea(0xc000, 0xdfff, 1, z80_ram);
	ZetMemCallback(0xe000, 0xffff, 0);
	ZetMemCallback(0xe000, 0xffff, 1);
	ZetMemEnd();
	ZetClose();
	//-------------------------------------------------

	//-------- sound stuff ----------------------------
	nCurrentBank = -1;

	int SupermanYM2610RomSize = 0x80000;
	BurnYM2610Init(8000000, SupermanYM2610Rom, &SupermanYM2610RomSize, SupermanYM2610Rom, &SupermanYM2610RomSize, &SupermanFMIRQHandler, SupermanSynchroniseStream, SupermanGetTime);
	BurnTimerAttachZet(4000000);

	// ------- GFX Init -------------------
	taito_pal=Superman_pal;
	SysXInit(1);

	SupermanDoReset();
	return 0;
}
Exemple #18
0
int rastanInit()
{
	int nRet=0; int nLen=0;
	//--------------Allocate Memory-----------------
	Mem=NULL;
	MemIndex();
	nLen=MemEnd-(unsigned char *)0;
	Mem=(unsigned char *)malloc(nLen);
	if (Mem==NULL)
		return 1;
	memset(Mem,0,nLen); // blank all memory
	MemIndex(); // Index the allocated memory

	//--------------- Load Roms -------------------
	nRet=LoadRoms();
	if (nRet!=0)
		return 1; // Load the roms into memory
	taito_pal=rastan_pal;
	init_taito_gfx();

	// Map in memory:
	// ----------------- Cpu 1 ------------------------
	SekInit(0, 0x68000); // Allocate 1 68000
	SekOpen(0);
	SekMapMemory(    Rom  ,0x000000,0x05ffff,SM_ROM); // 68000 Rom
	SekMapMemory(rastan_ram,0x10c000,0x10ffff,SM_RAM); //0x4000
	SekMapMemory(rastan_src_pal,0x200000,0x200fff,SM_RAM);
	SekMapMemory(rastan_ram+0x4000,0x350008,0x350010,SM_RAM);
	SekMapMemory(PC090OJ_spritectrl,0x380000,0x380003,SM_RAM);
	SekMapMemory(rastan_ram+0x4012,0x3c0000,0x3c0003,SM_WRITE);
	SekMapMemory(PC080SN_word_0,0xc00000,0xc0ffff,SM_RAM);
	SekMapMemory(PC080SN_ctrl_word_0,0xc50000,0xc50003,SM_WRITE);
	SekMapMemory(PC090OJ_word_0,0xd00000,0xd03fff,SM_RAM);
	SekSetReadWordHandler(0, rastanReadWord);
	SekSetWriteWordHandler(0, rastanWriteWord);
	SekSetReadByteHandler(0, rastanReadByte);
	SekSetWriteByteHandler(0, rastanWriteByte);
	// ------------------------------------------------
	SekClose();

	ZetInit(1);
	ZetOpen(0);
	ZetSetReadHandler(RastanZ80Read);
	ZetSetWriteHandler(RastanZ80Write);
	ZetMapArea (0x0000,0x3FFF,0,z80_rom);
	ZetMapArea (0x0000,0x3FFF,2,z80_rom);
	ZetMapArea (0x4000,0x7FFF,0,z80_rom+0x4000);
	ZetMapArea (0x4000,0x7FFF,2,z80_rom+0x4000);
	ZetMapArea (0x8000,0x8FFF,0,z80_ram);
	ZetMapArea (0x8000,0x8FFF,1,z80_ram);
	ZetMemEnd();
	ZetMemCallback(0x9000, 0xa001, 0);			// Read
	ZetMemCallback(0x9000, 0xa001, 1);			// Write
	ZetReset();
	ZetClose();
	//-------------------------------------------------


	BurnYM2151Init(4000000, 50.0);
	BurnYM2151SetIrqHandler(&RastanYM2151IRQHandler);
	BurnYM2151SetPortHandler(&rastanBankSwitch);
	nCurrentBank=0; // bank number 0 or 1

	MSM5205Init(0,8000, 60,1);
	drvDoReset();
	return 0;
	}
Exemple #19
0
int twinhawkInit()
{
	int nRet=0; int nLen=0;

	//--------------Allocate Memory-----------------
	Mem=NULL;
	MemIndex();
	nLen=MemEnd-(unsigned char *)0;
	Mem=(unsigned char *)malloc(nLen);
	if (Mem==NULL)
		return 1;
	memset(Mem,0,nLen); // blank all memory
	MemIndex(); // Index the allocated memory

	//--------------- Load Roms -------------------
	nRet=LoadRoms();
	if (nRet!=0)
		return 1; // Load the roms into memory

	// Map in memory:
	// ----------------- Cpu 1 68k ------------------------
	SekInit(0, 0x68000); // Allocate 1 68000
	SekOpen(0);
	SekMapMemory(    Rom  ,0x000000,0x3ffff,SM_ROM); // 68000 Rom
	SekMapMemory(twinhawk_src_pal,0xb00000,0xb00FFF,SM_RAM);
	SekMapMemory(sysbvidattr,0xd00000,0xd00fff,SM_RAM);
	SekMapMemory(sysbvidram,0xe00000,0xe03fff,SM_RAM);
	SekMapMemory(twinhawk_ram,0xf00000,0xf03fff,SM_RAM);

	SekSetReadWordHandler(0, twinhawkReadWord);
	SekSetWriteWordHandler(0, twinhawkWriteWord);
	SekSetReadByteHandler(0, twinhawkReadByte);
	SekSetWriteByteHandler(0, twinhawkWriteByte);
	SekClose();
	// ------------------------------------------------
	// ----------------- Cpu 2 Z80 ------------------------
	ZetInit(1);
	ZetOpen(0);
	ZetSetReadHandler(twinhawkZ80Read);
	ZetSetWriteHandler(twinhawkZ80Write);
	ZetMapArea (0x0000,0x3FFF,0,z80_rom);
	ZetMapArea (0x0000,0x3FFF,2,z80_rom);
//	ZetMapArea (0x4000,0x7FFF,0,z80_rom+0x4000);
//	ZetMapArea (0x4000,0x7FFF,2,z80_rom+0x4000);
	ZetMapArea (0xc000,0xdfff,0,z80_ram);
	ZetMapArea (0xc000,0xdfff,2,z80_ram);
	ZetMapArea (0xc000,0xdfff,1,z80_ram);
	ZetMemEnd();
	ZetMemCallback(0xe000, 0xFFFF, 0);			// Read
	ZetMemCallback(0xe000, 0xFFFF, 1);			// Write
	ZetReset();
	ZetClose();
	//-------------------------------------------------

	//-------- sound stuff ----------------------------
	//---------- YM2151 Setup ----------------------
	BurnYM2151Init(4000000, 50.0);
	BurnYM2151SetIrqHandler(&twinhawkYM2151IRQHandler);
	nCurrentBank=-1;

	//--------------------------------------------------
	// ------- GFX Init -------------------
	taito_pal=twinhawk_pal;
	SysXInit(0);
	drvDoReset();
	return 0;
	}
Exemple #20
0
static int DrvInit()
{
	int nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = true;
#endif

	nGP9001ROMSize[0] = 0x200000;
	nGP9001ROMSize[1] = 0x400000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	if ((Mem = (unsigned char *)malloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);									// Allocate 68000
		SekOpen(0);
		SekMapMemory(Rom01,		0x000000, 0x07FFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,		0x100000, 0x103FFF, SM_RAM);
		SekMapMemory(RamPal,		0x400000, 0x400FFF, SM_RAM);	// Palette RAM
		SekSetReadWordHandler(0, dogyuunReadWord);
		SekSetReadByteHandler(0, dogyuunReadByte);
		SekSetWriteWordHandler(0, dogyuunWriteWord);
		SekSetWriteByteHandler(0, dogyuunWriteByte);
		SekClose();

		VezInit(0, V25_TYPE, 12500000 /*before divider*/);
		VezOpen(0);
		for (int i = 0x80000; i < 0x100000; i += 0x8000) {
			VezMapArea(i, i + 0x7fff, 0, ShareRAM);
			VezMapArea(i, i + 0x7fff, 1, ShareRAM);
			VezMapArea(i, i + 0x7fff, 2, ShareRAM);
		}
		VezSetReadHandler(dogyuun_v25_read);
		VezSetWriteHandler(dogyuun_v25_write);
		VezSetReadPort(dogyuun_v25_read_port);
		VezSetDecode(nitro_decryption_table);
		VezClose();
	}

	BurnYM2151Init(3375000, 50.0);
	MSM6295Init(0, 1041667 / 132, 50.0, 1);

	nSpriteXOffset = 0x0024;
	nSpriteYOffset = 0x0001;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001(2);

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	bDrawScreen = true;

	DrvDoReset(); 			// Reset machine
	return 0;
}
Exemple #21
0
static INT32 DrvInit()
{
	INT32 nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = false;
#endif

	nGP9001ROMSize[0] = 0x800000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((Mem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);									// Allocate 68000
		SekOpen(0);
		SekMapMemory(Rom01,		0x000000, 0x07FFFF, MAP_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,		0x100000, 0x103FFF, MAP_RAM);
		SekMapMemory(RamPal,		0x400000, 0x400FFF, MAP_RAM);	// Palette RAM
		SekSetReadWordHandler(0, kbashReadWord);
		SekSetReadByteHandler(0, kbashReadByte);
		SekSetWriteWordHandler(0, kbashWriteWord);
		SekSetWriteByteHandler(0, kbashWriteByte);
		SekClose();

		VezInit(0, V25_TYPE, 16000000 /*before divider*/);
		VezOpen(0);
		VezMapArea(0x00000, 0x007ff, 0, ShareRAM);
		VezMapArea(0x00000, 0x007ff, 1, ShareRAM);
		VezMapArea(0x00000, 0x007ff, 2, ShareRAM);
		for (INT32 i = 0x80000; i < 0x100000; i += 0x8000) {
			VezMapArea(i, i + 0x7fff, 0, Rom02);
			VezMapArea(i, i + 0x7fff, 1, Rom02);
			VezMapArea(i, i + 0x7fff, 2, Rom02);
		}
		VezSetReadHandler(kbash_v25_read);
		VezSetWriteHandler(kbash_v25_write);
		VezSetReadPort(kbash_v25_read_port);
		VezSetDecode(nitro_decryption_table);
		VezClose();
	}

	BurnYM2151Init(3375000);
	BurnYM2151SetAllRoutes(0.50, BURN_SND_ROUTE_BOTH);
	MSM6295Init(0, 1000000 / 132, 1);
	MSM6295SetRoute(0, 0.50, BURN_SND_ROUTE_BOTH);

	nSpriteYOffset = 0x0011;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001();

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	bDrawScreen = true;

	DrvDoReset();			// Reset machine
	return 0;
}
Exemple #22
0
INT32 CpsMemInit()
{
	if (AllocateMemory()) {
		return 1;
	}

	SekOpen(0);

	SekSetResetCallback(CPSResetCallback);

	// Map in memory:
	// 68000 Rom (as seen as is, through read)
	SekMapMemory(CpsRom, 0, nCpsRomLen - 1, SM_READ);

	// 68000 Rom (as seen decrypted, through fetch)
	if (nCpsCodeLen > 0) {
		// Decoded part (up to nCpsCodeLen)
		SekMapMemory(CpsCode, 0, nCpsCodeLen - 1, SM_FETCH);
	}
	if (nCpsRomLen > nCpsCodeLen) {
		// The rest (up to nCpsRomLen)
		SekMapMemory(CpsRom + nCpsCodeLen, nCpsCodeLen, nCpsRomLen - 1, SM_FETCH);
	}

	if (Cps == 2) {
		nCpsObjectBank = -1;
		CpsMapObjectBanks(0);

#if 0
		SekMapHandler(3, 0x660000, 0x663FFF, SM_RAM);
		SekSetReadByteHandler(3, CPSExtraNVRAMReadByte);
		SekSetWriteByteHandler(3, CPSExtraNVRAMWriteByte);
#else
		SekMapMemory(CpsRam660, 0x660000, 0x663FFF, SM_RAM);
#endif

//		SekMapHandler(4, 0x708000, 0x709FFF, SM_WRITE);
//		SekMapHandler(4, 0x70A000, 0x70BFFF, SM_WRITE);
//		SekMapHandler(4, 0x70C000, 0x70DFFF, SM_WRITE);
//		SekMapHandler(4, 0x70E000, 0x70FFFF, SM_WRITE);

//		SekSetWriteByteHandler(4, CpsWriteSpriteByte);
//		SekSetWriteWordHandler(4, CpsWriteSpriteWord);
	}

	SekMapMemory(CpsRam90,		0x900000, 0x92FFFF, SM_RAM);	// Gfx Ram
	SekMapMemory(CpsRamFF,		0xFF0000, 0xFFFFFF, SM_RAM);	// Work Ram

	SekSetReadByteHandler(0, CpsReadByte);
	SekSetWriteByteHandler(0, CpsWriteByte);
	SekSetReadWordHandler(0, CpsReadWord);
	SekSetWriteWordHandler(0, CpsWriteWord);

	// QSound
	if ((Cps == 2) && !Cps2DisableQSnd) {
		SekMapHandler(1,	0x618000, 0x619FFF, SM_RAM);

		SekSetReadByteHandler(1, CPSQSoundC0ReadByte);
		SekSetWriteByteHandler(1, CPSQSoundC0WriteByte);
	}

	if (Cps1Qs == 1) {
		// Map the 1st 32KB of the QSound ROM into the 68K address space
		for (INT32 i = 0x7FFF; i >= 0; i--) {
			CpsEncZRom[(i << 1) + 0] = CpsEncZRom[i];
			CpsEncZRom[(i << 1) + 1] = 0xFF;
		}
		SekMapMemory(CpsEncZRom, 0xF00000, 0xF0FFFF, SM_ROM);

		// QSound shared RAM
		SekMapHandler(1,	0xF18000, 0xF19FFF, SM_RAM);
		SekMapHandler(2,	0xF1E000, 0xF1FFFF, SM_RAM);

		SekSetReadByteHandler(1, CPSQSoundC0ReadByte);
		SekSetWriteByteHandler(1, CPSQSoundC0WriteByte);
		SekSetReadByteHandler(2, CPSQSoundF0ReadByte);
		SekSetWriteByteHandler(2, CPSQSoundF0WriteByte);
	}

	SekClose();

	return 0;
}
Exemple #23
0
static INT32 DrvInit()
{
	INT32 nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = false;
#endif

	nGP9001ROMSize[0] = 0x800000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((Mem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);										// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,		0x000000, 0x03FFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,		0x080000, 0x082FFF, SM_RAM);
		SekMapMemory(RamPal,	0x0c0000, 0x0c0FFF, SM_RAM);	// Palette RAM

		SekSetReadWordHandler(0, tekipakiReadWord);
		SekSetReadByteHandler(0, tekipakiReadByte);
		SekSetWriteWordHandler(0, tekipakiWriteWord);
		SekSetWriteByteHandler(0, tekipakiWriteByte);

		SekClose();
	}

	nSpriteYOffset = 0x0011;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001();

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();
	
	BurnSampleInit(0);
	BurnSampleSetAllRoutesAllSamples(1.00, BURN_SND_ROUTE_BOTH);

	bDrawScreen = true;

	DrvDoReset();			// Reset machine
	return 0;
}
Exemple #24
0
static INT32 battlegInit()
{
	INT32 nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = true;
#endif

	nGP9001ROMSize[0] = 0x800000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((Mem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (Bgareggabla) {
		if (LoadRomsBla()) {
			return 1;
		}
	} else {
		if (Bgareggabl) {
			if (LoadRomsBl()) {
				return 1;
			}
		} else {
			if (LoadRoms()) {
				return 1;
			}
		}
	}

	{
		SekInit(0, 0x68000);										// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,			0x000000, 0x0FFFFF, MAP_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,			0x100000, 0x10FFFF, MAP_RAM);
		SekMapMemory(RamPal,		0x400000, 0x400FFF, MAP_RAM);	// Palette RAM
		SekMapMemory(Ram02,			0x401000, 0x4017FF, MAP_RAM);	// Unused
		SekMapMemory(ExtraTRAM,		0x500000, 0x501FFF, MAP_RAM);
		SekMapMemory(ExtraTSelect,	0x502000, 0x502FFF, MAP_RAM);	// 0x502000 - Scroll; 0x502200 - RAM
		SekMapMemory(ExtraTScroll,	0x503000, 0x503FFF, MAP_RAM);	// 0x203000 - Offset; 0x503200 - RAM

		SekSetReadWordHandler(0, battlegReadWord);
		SekSetReadByteHandler(0, battlegReadByte);
		SekSetWriteWordHandler(0, battlegWriteWord);
		SekSetWriteByteHandler(0, battlegWriteByte);

		SekClose();
	}

	nSpriteXOffset = 0x0024;
	nSpriteYOffset = 0x0001;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001();

	nExtraTXOffset = 0x2C;
	ToaExtraTextInit();
	
	if (Bgareggabl) nExtraTXOffset = 0;

	DrvZ80Init();												// Initialize Z80

	BurnYM2151Init(32000000 / 8);
	BurnYM2151SetAllRoutes(1.00, BURN_SND_ROUTE_BOTH);
	MSM6295Init(0, 32000000 / 16 / 132, 1);
	MSM6295SetRoute(0, 1.00, BURN_SND_ROUTE_BOTH);

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	bDrawScreen = true;

	// mar 2 1996 & apr 2 1996 ver:	0x0009AC - 0x0009B8 & 0x001F5E - 0x001F64 & 0x003A1C - 0x003A22
	// feb 2 1996 ver:				0x0009AC - 0x0009B8 & 0x001F2E - 0x001F34 & 0x0039EC - 0x0039F2

	DrvDoReset();												// Reset machine
	return 0;
}
Exemple #25
0
int TmntInit()
{
	int nRet=0; int nLen=0;

	// Find out how much memory is needed
	Mem=NULL;
	MemIndex();
	nLen=MemEnd-(unsigned char *)0;
	Mem=(unsigned char *)malloc(nLen);
	if (Mem==NULL)
		return 1;
	memset(Mem,0,nLen); // blank all memory
	MemIndex(); // Index the allocated memory

	TmntZ80Rom=(unsigned char *)malloc(0x08000);
	if (TmntZ80Rom==NULL) return 1;
	memset(TmntZ80Rom,0x11,0x08000);

	TmntZ80Ram=(unsigned char *)malloc(0x0800);
	if (TmntZ80Ram==NULL) return 1;
	memset(TmntZ80Ram,0x00,0x0800);

	nRet=LoadRoms();
	if (nRet!=0)
		return 1; // Load the roms into memory

  	SekInit(0,0x68000);	// Allocate 68000
	SekOpen(0);

	// Map in memory:
	// ----------------- Cpu 1 ------------------------
	SekMapMemory(Tmnt68KROM01, 0x000000,0x05FFFF, SM_ROM); // 68000 Rom
	SekMapMemory(TmntRam06,    0x060000,0x063FFF, SM_RAM);
	SekMapMemory(TmntRam08,    0x080000,0x080FFF, SM_ROM); // Write goes through handler
	SekMapMemory(PriRam,       0x0c0000,0x0c00FF, SM_RAM);
	SekMapMemory(TmntRam10,    0x100000,0x107FFF, SM_RAM);
	SekMapMemory(K051960Ram,   0x140400,0x1407FF, SM_RAM);

	SekSetReadWordHandler(0,TmntReadWord);
	SekSetWriteWordHandler(0,TmntWriteWord);
	SekSetReadByteHandler(0,TmntReadByte);
	SekSetWriteByteHandler(0,TmntWriteByte);
	// ------------------------------------------------
//	SekReset();
	SekClose();
	
	// Setup the Z80 emulation
	ZetInit(1);
	ZetOpen(0);
	ZetMapArea(0x0000, 0x7fff, 0, TmntZ80Rom);
	ZetMapArea(0x0000, 0x7fff, 2, TmntZ80Rom);
	ZetMapArea(0x8000, 0x87FF, 0, TmntZ80Ram);
	ZetMapArea(0x8000, 0x87FF,1, TmntZ80Ram);
	ZetMapArea(0x8000, 0x87FF, 2, TmntZ80Ram);
	ZetMemEnd();
	ZetSetInHandler(tmntZ80In);
	ZetSetOutHandler(tmntZ80Out);
	ZetSetReadHandler(tmntZ80Read);
	ZetSetWriteHandler(tmntZ80Write);
//	ZetReset();
	ZetClose();

	// sound stuff
	// ym2151
    	BurnYM2151Init(3579545, 50.0);
	BurnYM2151SetIrqHandler(&tmntYM2151IRQHandler);
//	BurnYM2151Reset();
	
	UPD7759Init(UPD7759_STANDARD_CLOCK, TmntSampleROM02);

	bInt5=0;
	GenericTilesInit();
	TmntPalInit();
	
	TmntReset();
	return 0;
}
Exemple #26
0
static INT32 DrvInit()
{
	INT32 nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = false;
#endif

	nGP9001ROMSize[0] = 0x800000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((Mem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);								// Allocate 68000
		SekOpen(0);
		SekMapMemory(Rom01,		0x000000, 0x07FFFF, MAP_ROM);
		SekMapMemory(Ram01,		0x100000, 0x103FFF, MAP_RAM);
		SekMapMemory(RamSnd,	0x104000, 0x1040FF, MAP_RAM);
		SekMapMemory(RamPal,		0x400000, 0x400FFF, MAP_RAM);
		SekSetReadWordHandler(0, 	kbash2ReadWord);
		SekSetReadByteHandler(0, 	kbash2ReadByte);
		SekSetWriteWordHandler(0, 	kbash2WriteWord);
		SekSetWriteByteHandler(0, 	kbash2WriteByte);

		SekClose();
	}

	MSM6295Init(0, 1000000 / 132, 1);
	MSM6295Init(1, 1000000 / 132, 1);
	MSM6295SetRoute(0, 1.00, BURN_SND_ROUTE_BOTH);
	MSM6295SetRoute(1, 1.00, BURN_SND_ROUTE_BOTH);

	nSpriteYOffset = 0x0011;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001();

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	bDrawScreen = true;

	DrvDoReset();			// Reset machine
	return 0;
}
Exemple #27
0
static INT32 DrvInit()
{
	INT32 nLen;

	Rallybik = 1;

//	bToaRotateScreen = true;

	BurnSetRefreshRate(REFRESHRATE);

	nBCU2ROMSize = 0x080000;
	nFCU2ROMSize = 0x080000;

	// Find out how much memory is needed
	AllMem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((AllMem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(AllMem, 0, nLen);
	MemIndex();

	if (BurnLoadRom(Drv68KROM + 0x000001,  0, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x000000,  1, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x040001,  2, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x040000,  3, 2)) return 1;

	if (BurnLoadRom(DrvZ80ROM,             4, 1)) return 1;

	ToaLoadTiles(BCU2ROM, 5, nBCU2ROMSize);
//	ToaLoadTiles(FCU2ROM, 9, nFCU2ROMSize);

	if (BurnLoadRom(FCU2ROM + 0x000000,    9, 1)) return 1;
	if (BurnLoadRom(FCU2ROM + 0x010000,   10, 1)) return 1;
	if (BurnLoadRom(FCU2ROM + 0x020000,   11, 1)) return 1;
	if (BurnLoadRom(FCU2ROM + 0x030000,   12, 1)) return 1;

	DrvSpriteDecode();

	{
		SekInit(0, 0x68000);
		SekOpen(0);
		SekMapMemory(Drv68KROM,			0x000000, 0x00FFFF, SM_ROM);
		SekMapMemory(Drv68KROM + 0x40000,	0x040000, 0x07FFFF, SM_ROM);
		SekMapMemory(Drv68KRAM,			0x080000, 0x083FFF, SM_RAM);
		SekMapMemory(DrvSprRAM,			0x0c0000, 0x0C0FFF, SM_RAM);
		SekMapMemory(DrvPalRAM,			0x144000, 0x1447FF, SM_RAM);
		SekMapMemory(DrvPalRAM2,		0x146000, 0x1467FF, SM_RAM);
		SekSetReadWordHandler(0, 		rallybikReadWord);
		SekSetReadByteHandler(0, 		rallybikReadByte);
		SekSetWriteWordHandler(0, 		rallybikWriteWord);
		SekSetWriteByteHandler(0, 		rallybikWriteByte);

		SekMapHandler(1,			0x180000, 0x180FFF, SM_RAM);
		SekSetReadByteHandler(1, 		toaplan1ReadByteZ80RAM);
		SekSetReadWordHandler(1, 		toaplan1ReadWordZ80RAM);
		SekSetWriteByteHandler(1, 		toaplan1WriteByteZ80RAM);
		SekSetWriteWordHandler(1, 		toaplan1WriteWordZ80RAM);
		SekClose();

		ZetInit(0);
		ZetOpen(0);
		ZetMapArea(0x0000, 0x7fff, 0, DrvZ80ROM);
		ZetMapArea(0x0000, 0x7fff, 2, DrvZ80ROM);
		ZetMapArea(0x8000, 0xffff, 0, DrvShareRAM);
		ZetMapArea(0x8000, 0xffff, 1, DrvShareRAM);
		ZetMapArea(0x8000, 0xffff, 2, DrvShareRAM);
		ZetSetOutHandler(rallybik_sound_write_port);
		ZetSetInHandler(rallybik_sound_read_port);
		ZetMemEnd();
		ZetClose();
	}

	nLayer0XOffset = 0x0d + 6;
	nLayer1XOffset = 0x0d + 4;
	nLayer2XOffset = 0x0d + 2;
	nLayer3XOffset = 0x0d + 0;
	nLayer0YOffset = nLayer1YOffset = nLayer2YOffset = nLayer3YOffset  = 0x111;

	ToaInitBCU2();

	ToaOpaquePriority = 0;

	nToaPalLen = nColCount;
	ToaPalSrc = DrvPalRAM;
	ToaPalSrc2 = DrvPalRAM2;
	ToaPalInit();

	BurnYM3812Init(28000000 / 8, &toaplan1FMIRQHandler, &toaplan1SynchroniseStream, 0);
	BurnTimerAttachZetYM3812(28000000 / 8);

	bDrawScreen = true;

	DrvDoReset();

	return 0;
}
Exemple #28
0
static INT32 DrvInit()
{
	INT32 nLen;

//	bToaRotateScreen = true;

	BurnSetRefreshRate(REFRESHRATE);

	nBCU2ROMSize = 0x080000;
	nFCU2ROMSize = 0x080000;

	// Find out how much memory is needed
	AllMem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8 *)0;
	if ((AllMem = (UINT8 *)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(AllMem, 0, nLen);
	MemIndex();

	if (BurnLoadRom(Drv68KROM + 0x000001, 0, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x000000, 1, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x040001, 2, 2)) return 1;
	if (BurnLoadRom(Drv68KROM + 0x040000, 3, 2)) return 1;

	ToaLoadTiles(BCU2ROM, 4, nBCU2ROMSize);
	ToaLoadTiles(FCU2ROM, 8, nFCU2ROMSize);

	{
		SekInit(0, 0x68000);
		SekOpen(0);
		SekMapMemory(Drv68KROM,			0x000000, 0x07FFFF, MAP_ROM);
		SekMapMemory(Drv68KRAM,			0x0c0000, 0x0c3FFF, MAP_RAM);
		SekMapMemory(DrvPalRAM,			0x104000, 0x1047FF, MAP_RAM);
		SekMapMemory(DrvPalRAM2,		0x106000, 0x1067FF, MAP_RAM);
		SekSetReadWordHandler(0, 		samesameReadWord);
		SekSetReadByteHandler(0, 		samesameReadByte);
		SekSetWriteWordHandler(0, 		samesameWriteWord);
		SekSetWriteByteHandler(0, 		samesameWriteByte);
		SekClose();
	}

	ToaInitBCU2();

	nToaPalLen = nColCount;
	ToaPalSrc = DrvPalRAM;
	ToaPalSrc2 = DrvPalRAM2;
	ToaPalInit();

//	BurnYM3812Init(28000000 / 8, &toaplan1FMIRQHandler, &toaplan1SynchroniseStream, 0);
//	BurnYM3812SetRoute(BURN_SND_YM3812_ROUTE, 1.00, BURN_SND_ROUTE_BOTH);

#ifdef TOAPLAN_SOUND_SAMPLES_HACK
        BurnUpdateProgress(0.0, _T("Loading samples..."), 0);

	BurnSampleInit(0);
	BurnSampleSetAllRoutesAllSamples(0.60, BURN_SND_ROUTE_BOTH);
#endif

	bDrawScreen = true;

	DrvDoReset();
	return 0;
}
Exemple #29
0
static INT32 drvInit()
{
	INT32 nLen;
    
#ifdef DRIVER_ROTATION
	bToaRotateScreen = true;
#endif
    
	nGP9001ROMSize[0] = 0x01000000;
    
	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (UINT8*)0;
	if ((Mem = (UINT8*)BurnMalloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// Zero memory
	MemIndex();													// Index the allocated memory
    
	if (LoadRoms()) {
		return 1;
	}
    
	{
		SekInit(0, 0x68000);									// Allocate 68000
	    SekOpen(0);
        
		// Map 68000 memory:
		SekMapMemory(Rom01, 0x000000, 0x1FFFFF, SM_ROM);		// CPU 0 ROM
		SekMapMemory(Ram02, 0x208000, 0x20FFFF, SM_RAM);
        
		Map68KTextROM(true);
        
		SekSetReadWordHandler(0, batriderReadWord);
		SekSetReadByteHandler(0, batriderReadByte);
		SekSetWriteWordHandler(0, batriderWriteWord);
		SekSetWriteByteHandler(0, batriderWriteByte);
        
		SekMapHandler(1,	0x400000, 0x400400, SM_RAM);		// GP9001 addresses
        
		SekSetReadWordHandler(1, batriderReadWordGP9001);
		SekSetWriteWordHandler(1, batriderWriteWordGP9001);
        
		SekMapHandler(2,	0x300000, 0x37FFFF, SM_ROM);		// Z80 ROM
        
		SekSetReadByteHandler(2, batriderReadByteZ80ROM);
		SekSetReadWordHandler(2, batriderReadWordZ80ROM);
        
		SekClose();
	}
    
	nSpriteYOffset = 0x0001;
    
	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;
    
	ToaInitGP9001();
    
	nExtraTXOffset = 0x2C;
	ToaExtraTextInit();
    
	drvZInit();				// Initialize Z80
    
	BurnYM2151Init(32000000 / 8);
	BurnYM2151SetAllRoutes(1.00, BURN_SND_ROUTE_BOTH);
	
	MSM6295Init(0, 32000000 / 10 / 132, 1);
	MSM6295Init(1, 32000000 / 10 / 165, 1);
	MSM6295SetRoute(0, 1.00, BURN_SND_ROUTE_BOTH);
	MSM6295SetRoute(1, 1.00, BURN_SND_ROUTE_BOTH);
    
	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();
    
	nTextROMStatus = -1;
	bDrawScreen = true;
    
	drvDoReset(); // Reset machine
	return 0;
}
Exemple #30
0
static int DrvInit()
{
	int nLen;

#ifdef DRIVER_ROTATION
	bToaRotateScreen = true;
#endif

	nGP9001ROMSize[0] = 0x400000;
	nGP9001ROMSize[1] = 0x200000;

	// Find out how much memory is needed
	Mem = NULL;
	MemIndex();
	nLen = MemEnd - (unsigned char *)0;
	if ((Mem = (unsigned char *)malloc(nLen)) == NULL) {
		return 1;
	}
	memset(Mem, 0, nLen);										// blank all memory
	MemIndex();													// Index the allocated memory

	// Load the roms into memory
	if (LoadRoms()) {
		return 1;
	}

	{
		SekInit(0, 0x68000);									// Allocate 68000
	    SekOpen(0);

		// Map 68000 memory:
		SekMapMemory(Rom01,		0x000000, 0x07FFFF, SM_ROM);	// CPU 0 ROM
		SekMapMemory(Ram01,		0x100000, 0x10FFFF, SM_RAM);
		SekMapMemory(Ram02,		0x210000, 0x21EFFF, SM_RAM);	//
		SekMapMemory(Ram03,		0x21FC00, 0x21FFFF, SM_RAM);	//
		SekMapMemory(RamPal,	0x400000, 0x400FFF, SM_RAM);	// Palette RAM

		SekSetReadWordHandler(0, batsugunReadWord);
		SekSetReadByteHandler(0, batsugunReadByte);
		SekSetWriteWordHandler(0, batsugunWriteWord);
		SekSetWriteByteHandler(0, batsugunWriteByte);

		SekClose();
	}

	nSpriteYOffset = 0x0001;

	nLayer0XOffset = -0x01D6;
	nLayer1XOffset = -0x01D8;
	nLayer2XOffset = -0x01DA;

	ToaInitGP9001(3);

	nToaPalLen = nColCount;
	ToaPalSrc = RamPal;
	ToaPalInit();

	bDrawScreen = true;

#if defined FBA_DEBUG && defined USE_SPEEDHACKS
	bprintf(PRINT_IMPORTANT, _T("  * Using speed-hacks (detecting idle loops).\n"));
#endif

	DrvDoReset(); // Reset machine

	return 0;
}