public override void Reset()
{
base.Reset();
SwapInBIOS();
HSC.Reset();
Cart.Reset();
Maria.Reset();
PIA.Reset();
CPU.Reset();
}
public Machine7800(Cart cart, Bios7800 bios, HSC7800 hsc, ILogger logger, int scanlines, int startl, int fHZ, int sRate, ReadOnlyMemory <uint> p)
: base(logger, scanlines, startl, fHZ, sRate, p, 320)
{
Mem = new AddressSpace(this, 16, 6); // 7800: 16bit, 64byte pages
CPU = new M6502(this, 4);
Maria = new Maria(this, scanlines);
Mem.Map(0x0000, 0x0040, Maria);
Mem.Map(0x0100, 0x0040, Maria);
Mem.Map(0x0200, 0x0040, Maria);
Mem.Map(0x0300, 0x0040, Maria);
PIA = new PIA(this);
Mem.Map(0x0280, 0x0080, PIA);
Mem.Map(0x0480, 0x0080, PIA);
Mem.Map(0x0580, 0x0080, PIA);
RAM1 = new RAM6116();
RAM2 = new RAM6116();
Mem.Map(0x1800, 0x0800, RAM1);
Mem.Map(0x2000, 0x0800, RAM2);
Mem.Map(0x0040, 0x00c0, RAM2); // page 0 shadow
Mem.Map(0x0140, 0x00c0, RAM2); // page 1 shadow
Mem.Map(0x2800, 0x0800, RAM2); // shadow1
Mem.Map(0x3000, 0x0800, RAM2); // shadow2
Mem.Map(0x3800, 0x0800, RAM2); // shadow3
BIOS = bios;
HSC = hsc;
if (HSC != HSC7800.Default)
{
Mem.Map(0x1000, 0x800, HSC.SRAM);
Mem.Map(0x3000, 0x1000, HSC);
Logger.WriteLine("7800 Highscore Cartridge Installed");
}
Cart = cart;
Mem.Map(0x4000, 0xc000, Cart);
}
public Maria ReadMaria(Machine7800 m, int scanlines)
{
var maria = new Maria(this, m, scanlines);
return maria;
}
public Maria ReadMaria(Machine7800 m, int scanlines)
{
var maria = new Maria(this, m, scanlines);
return(maria);
}
public void Write(Maria maria)
{
maria.GetObjectData(this);
}
public void Write(Maria maria)
{
maria.GetObjectData(this);
}
public override void ComputeNextFrame(FrameBuffer frameBuffer)
{
base.ComputeNextFrame(frameBuffer);
AssertDebug(CPU.Jammed || CPU.RunClocks <= 0 && (CPU.RunClocks % CPU.RunClocksMultiple) == 0);
AssertDebug(CPU.Jammed || ((CPU.Clock + (ulong)(CPU.RunClocks / CPU.RunClocksMultiple)) % (114 * (ulong)FrameBuffer.Scanlines)) == 0);
ulong startOfScanlineCpuClock = 0;
Maria.StartFrame();
Cart.StartFrame();
for (var i = 0; i < FrameBuffer.Scanlines && !CPU.Jammed; i++)
{
AssertDebug(CPU.RunClocks <= 0 && (CPU.RunClocks % CPU.RunClocksMultiple) == 0);
var newStartOfScanlineCpuClock = CPU.Clock + (ulong)(CPU.RunClocks / CPU.RunClocksMultiple);
AssertDebug(startOfScanlineCpuClock == 0 || newStartOfScanlineCpuClock == startOfScanlineCpuClock + 114);
startOfScanlineCpuClock = newStartOfScanlineCpuClock;
CPU.RunClocks += (7 * CPU.RunClocksMultiple);
var remainingRunClocks = (114 - 7) * CPU.RunClocksMultiple;
CPU.Execute();
if (CPU.Jammed)
{
break;
}
if (CPU.EmulatorPreemptRequest)
{
Maria.DoDMAProcessing();
var remainingCpuClocks = 114 - (CPU.Clock - startOfScanlineCpuClock);
CPU.Clock += remainingCpuClocks;
CPU.RunClocks = 0;
continue;
}
var dmaClocks = Maria.DoDMAProcessing();
// CHEAT: Ace of Aces: Title screen has a single scanline flicker without this. Maria DMA clock counting probably not 100% accurate.
if (i == 203 && FrameBuffer.Scanlines == 262 /*NTSC*/ || i == 228 && FrameBuffer.Scanlines == 312 /*PAL*/)
{
if (dmaClocks == 152 && remainingRunClocks == 428 && (CPU.RunClocks == -4 || CPU.RunClocks == -8))
{
dmaClocks -= 4;
}
}
// Unsure exactly what to do if Maria DMA processing extends past the current scanline.
// For now, throw away half remaining until we are within the current scanline.
// KLAX initialization starts DMA without initializing the DLL data structure.
// Maria processing then runs away causing an invalid CPU opcode to be executed that jams the machine.
// So Maria must give up at some point, but not clear exactly how.
// Anyway, this makes KLAX work without causing breakage elsewhere.
while ((CPU.RunClocks + remainingRunClocks) < dmaClocks)
{
dmaClocks >>= 1;
}
// Assume the CPU waits until the next div4 boundary to proceed after DMA processing.
if ((dmaClocks & 3) != 0)
{
dmaClocks += 4;
dmaClocks -= (dmaClocks & 3);
}
CPU.Clock += (ulong)(dmaClocks / CPU.RunClocksMultiple);
CPU.RunClocks -= dmaClocks;
CPU.RunClocks += remainingRunClocks;
CPU.Execute();
if (CPU.Jammed)
{
break;
}
if (CPU.EmulatorPreemptRequest)
{
var remainingCpuClocks = 114 - (CPU.Clock - startOfScanlineCpuClock);
CPU.Clock += remainingCpuClocks;
CPU.RunClocks = 0;
}
}
Cart.EndFrame();
Maria.EndFrame();
}
