using System; namespace BizHawk.Emulation.Cores.Sega.Genesis { partial class Genesis { private int BankRegion; public byte ReadMemoryZ80(ushort address) { if (address < 0x4000) { //Console.WriteLine("read z80 memory {0:X4}: {1:X2}",address, Z80Ram[address & 0x1FFF]); return Z80Ram[address & 0x1FFF]; } if (address >= 0x4000 && address < 0x6000) { //Console.WriteLine(" === Z80 READS FM STATUS ==="); return YM2612.ReadStatus(SoundCPU.TotalExecutedCycles); // TODO: more than 1 read port probably? } if (address >= 0x8000) { // 68000 Bank region return (byte)ReadByte(BankRegion | (address & 0x7FFF)); } if (address <= 0x6100) // read from bank address register - returns FF return 0xFF; Console.WriteLine("UNHANDLED Z80 READ {0:X4}", address); return 0xCD; } public void WriteMemoryZ80(ushort address, byte value) { if (address < 0x4000) { //Console.WriteLine("write z80 memory {0:X4}: {1:X2}",address, value); Z80Ram[address & 0x1FFF] = value; return; } if (address >= 0x4000 && address < 0x6000) { //Console.WriteLine(" === Z80 WRITES YM2612 {0:X4}:{1:X2} ===",address, value); YM2612.Write(address & 3, value, SoundCPU.TotalExecutedCycles); return; } if (address < 0x6100) { BankRegion >>= 1; BankRegion |= (value & 1) << 23; BankRegion &= 0x00FF8000; //Console.WriteLine("Bank pointing at {0:X8}",BankRegion); return; } if (address >= 0x7F00 && address < 0x7F20) { switch (address & 0x1F) { case 0x00: case 0x02: VDP.WriteVdpData((ushort)((value << 8) | value)); return; case 0x04: case 0x06: VDP.WriteVdpControl((ushort)((value << 8) | value)); return; case 0x11: case 0x13: case 0x15: case 0x17: PSG.WritePsgData(value, SoundCPU.TotalExecutedCycles); return; } } if (address >= 0x8000) { WriteByte(BankRegion | (address & 0x7FFF), (sbyte)value); return; } Console.WriteLine("UNHANDLED Z80 WRITE {0:X4}:{1:X2}", address, value); } } }