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;
}
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;
}
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;
}
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;
}
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;
}
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;
}
static int DrvInit()
{
int nLen;
Hellfire = 1;
#ifdef DRIVER_ROTATION
bToaRotateScreen = true;
#endif
BurnSetRefreshRate(REFRESHRATE);
nBCU2ROMSize = 0x080000;
nFCU2ROMSize = 0x080000;
// 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, 0x03FFFF, SM_ROM); // 68K ROM
SekMapMemory(Ram01, 0x040000, 0x047FFF, SM_RAM); // 68K RAM
SekMapMemory(RamPal, 0x084000, 0x0847FF, SM_RAM); // BCU-2 palette RAM
SekMapMemory(RamPal2, 0x086000, 0x0867FF, SM_RAM); // FCU-2 palette RAM
SekSetReadWordHandler(0, hellfireReadWord);
SekSetReadByteHandler(0, hellfireReadByte);
SekSetWriteWordHandler(0, hellfireWriteWord);
SekSetWriteByteHandler(0, hellfireWriteByte);
SekMapHandler(1, 0x0c0000, 0x0c0FFF, 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);
BurnTimerAttachZet(28000000 / 8);
bDrawScreen = true;
DrvDoReset(); // Reset machine
return 0;
}
