File: sa1.cpp

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snes9x 1.26-1
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/*
 * Snes9x - Portable Super Nintendo Entertainment System (TM) emulator.
 *
 * (c) Copyright 1996, 1997, 1998, 1999 Gary Henderson (gary@daniver.demon.co.uk) and
 *                                      Jerremy Koot (jkoot@snes9x.com)
 *
 * Super FX C emulator code 
 * (c) Copyright 1997, 1998, 1999 Ivar (Ivar@snes9x.com) and
 *                                Gary Henderson.
 * Super FX assembler emulator code (c) Copyright 1998 zsKnight and _Demo_.
 *
 * DSP1 emulator code (c) Copyright 1998 Ivar, _Demo_ and Gary Henderson.
 * DOS port code contains the works of other authors. See headers in
 * individual files.
 *
 * Snes9x homepage: www.snes9x.com
 *
 * Permission to use, copy, modify and distribute Snes9x in both binary and
 * source form, for non-commercial purposes, is hereby granted without fee,
 * providing that this license information and copyright notice appear with
 * all copies and any derived work.
 *
 * This software is provided 'as-is', without any express or implied
 * warranty. In no event shall the authors be held liable for any damages
 * arising from the use of this software.
 *
 * Snes9x is freeware for PERSONAL USE only. Commercial users should
 * seek permission of the copyright holders first. Commercial use includes
 * charging money for Snes9x or software derived from Snes9x.
 *
 * The copyright holders request that bug fixes and improvements to the code
 * should be forwarded to them so everyone can benefit from the modifications
 * in future versions.
 *
 * Super NES and Super Nintendo Entertainment System are trademarks of
 * Nintendo Co., Limited and its subsidiary companies.
 */

#include "snes9x.h"
#include "ppu.h"
#include "cpuexec.h"

#include "sa1.h"

void S9xSA1Init ()
{
    SA1.NMIActive = FALSE;
    SA1.IRQActive = FALSE;
    SA1.WaitingForInterrupt = FALSE;
    SA1.Waiting = FALSE;
    SA1.Flags = 0;
    SA1.Executing = FALSE;
    memset (&Memory.FillRAM [0x2200], 0, 0x200);
    Memory.FillRAM [0x2200] = 0x20;
    Memory.FillRAM [0x2220] = 0x00;
    Memory.FillRAM [0x2221] = 0x01;
    Memory.FillRAM [0x2222] = 0x02;
    Memory.FillRAM [0x2223] = 0x03;
    Memory.FillRAM [0x2228] = 0xff;
    SA1.op1 = 0;
    SA1.op2 = 0;
    SA1.arithmetic_op = 0;
    SA1.sum = 0;
    SA1.overflow = FALSE;
}

void S9xSA1Reset ()
{
    SA1Registers.PB = 0;
    SA1Registers.PC = Memory.FillRAM [0x2203] |
		      (Memory.FillRAM [0x2204] << 8);
    SA1Registers.D.W = 0;
    SA1Registers.DB = 0;
    SA1Registers.SH = 1;
    SA1Registers.SL = 0xFF;
    SA1Registers.XH = 0;
    SA1Registers.YH = 0;
    SA1Registers.P.W = 0;

    SA1.ShiftedPB = 0;
    SA1.ShiftedDB = 0;
    SA1SetFlags (MemoryFlag | IndexFlag | IRQ | Emulation);
    SA1ClearFlags (Decimal);

    SA1.WaitingForInterrupt = FALSE;
    SA1.PC = NULL;
    SA1.PCBase = NULL;
    S9xSA1SetPCBase (SA1Registers.PC);
    SA1.S9xOpcodes = S9xSA1OpcodesM1X1;

    S9xSA1UnpackStatus();
    SA1.Executing = TRUE;
    SA1.BWRAM = Memory.SRAM;
    Memory.FillRAM [0x2225] = 0;
}

void S9xSA1SetBWRAMMemMap (uint8 val)
{
    int c;

    if (val & 0x80)
    {
	for (c = 0; c < 0x400; c += 16)
	{
	    SA1.Map [c + 6] = SA1.Map [c + 0x806] = (uint8 *) CMemory::MAP_BWRAM_BITMAP2;
	    SA1.Map [c + 7] = SA1.Map [c + 0x807] = (uint8 *) CMemory::MAP_BWRAM_BITMAP2;
	    SA1.WriteMap [c + 6] = SA1.WriteMap [c + 0x806] = (uint8 *) CMemory::MAP_BWRAM_BITMAP2;
	    SA1.WriteMap [c + 7] = SA1.WriteMap [c + 0x807] = (uint8 *) CMemory::MAP_BWRAM_BITMAP2;
	}
	SA1.BWRAM = Memory.SRAM + (val & 0x7f) * 0x2000 / 4;
    }
    else
    {
	for (c = 0; c < 0x400; c += 16)
	{
	    SA1.Map [c + 6] = SA1.Map [c + 0x806] = (uint8 *) CMemory::MAP_BWRAM;
	    SA1.Map [c + 7] = SA1.Map [c + 0x807] = (uint8 *) CMemory::MAP_BWRAM;
	    SA1.WriteMap [c + 6] = SA1.WriteMap [c + 0x806] = (uint8 *) CMemory::MAP_BWRAM;
	    SA1.WriteMap [c + 7] = SA1.WriteMap [c + 0x807] = (uint8 *) CMemory::MAP_BWRAM;
	}
	SA1.BWRAM = Memory.SRAM + (val & 7) * 0x2000;
    }
}

void S9xFixSA1AfterSnapshotLoad ()
{
    SA1.ShiftedPB = (uint32) SA1Registers.PB << 16;
    SA1.ShiftedDB = (uint32) SA1Registers.DB << 16;

    S9xSA1SetPCBase (SA1.ShiftedPB + SA1Registers.PC);
    S9xSA1UnpackStatus ();
    S9xSA1FixCycles ();
    SA1.VirtualBitmapFormat = (Memory.FillRAM [0x223f] & 0x80) ? 2 : 4;
    Memory.BWRAM = Memory.SRAM + (Memory.FillRAM [0x2224] & 7) * 0x2000;
    S9xSA1SetBWRAMMemMap (Memory.FillRAM [0x2225]);

    SA1.Waiting = (Memory.FillRAM [0x2200] & 0x60) != 0;
    SA1.Executing = !SA1.Waiting;
}

uint8 S9xSA1GetByte (uint32 address)
{
#ifdef CPU_SHUTDOWN
    int block;
    uint8 *Getaddress = SA1.Map [block = ((address >> MEMMAP_SHIFT) & MEMMAP_MASK)];
    if (Getaddress >= (uint8 *) CMemory::MAP_LAST)
    {
        if (SA1.BlockIsRAM [block])
	    SA1.WaitAddress = SA1.PCAtOpcodeStart;

        return (*(Getaddress + (address & 0xffff)));
    }
#else
    uint8 *Getaddress = SA1.Map [(address >> MEMMAP_SHIFT) & MEMMAP_MASK];
    if (Getaddress >= (uint8 *) CMemory::MAP_LAST)
	return (*(Getaddress + (address & 0xffff)));
#endif

    switch ((int) Getaddress)
    {
    case CMemory::MAP_PPU:
	return (S9xGetSA1 (address & 0xffff));
    case CMemory::MAP_LOROM_SRAM:
    case CMemory::MAP_SA1RAM:
#ifdef CPU_SHUTDOWN
	SA1.WaitAddress = SA1.PCAtOpcodeStart;
#endif
	return (*(Memory.SRAM + (address & 0xffff)));
    case CMemory::MAP_BWRAM:
#ifdef CPU_SHUTDOWN
	SA1.WaitAddress = SA1.PCAtOpcodeStart;
#endif
	return (*(SA1.BWRAM + ((address & 0x7fff) - 0x6000)));
    case CMemory::MAP_BWRAM_BITMAP:
	address -= 0x600000;
	if (SA1.VirtualBitmapFormat == 2)
	    return ((Memory.SRAM [(address >> 2) & 0xffff] >> ((address & 3) << 1)) & 3);
	else
	    return ((Memory.SRAM [(address >> 1) & 0xffff] >> ((address & 1) << 2)) & 15);
    case CMemory::MAP_BWRAM_BITMAP2:
	address = (address & 0xffff) - 0x6000;
	if (SA1.VirtualBitmapFormat == 2)
	    return ((SA1.BWRAM [(address >> 2) & 0xffff] >> ((address & 3) << 1)) & 3);
	else
	    return ((SA1.BWRAM [(address >> 1) & 0xffff] >> ((address & 1) << 2)) & 15);

    case CMemory::MAP_DEBUG:
    default:
#ifdef DEBUGGER
	printf ("R(B) %06x\n", address);
#endif

	return (0);
    }
}

uint16 S9xSA1GetWord (uint32 address)
{
    return (S9xSA1GetByte (address) | (S9xSA1GetByte (address + 1) << 8));
}

void S9xSA1SetByte (uint8 byte, uint32 address)
{
    uint8 *Setaddress = SA1.WriteMap [(address >> MEMMAP_SHIFT) & MEMMAP_MASK];

    if (Setaddress >= (uint8 *) CMemory::MAP_LAST)
    {
#ifdef CPU_SHUTDOWN
	SA1.WaitAddress = NULL;
#endif
	*(Setaddress + (address & 0xffff)) = byte;
	return;
    }

    switch ((int) Setaddress)
    {
    case CMemory::MAP_PPU:
	S9xSetSA1 (byte, address & 0xffff);
	return;
    case CMemory::MAP_SA1RAM:
    case CMemory::MAP_LOROM_SRAM:
	*(Memory.SRAM + (address & 0xffff)) = byte;
	return;
    case CMemory::MAP_BWRAM:
	*(SA1.BWRAM + ((address & 0x7fff) - 0x6000)) = byte;
	return;
    case CMemory::MAP_BWRAM_BITMAP:
	address -= 0x600000;
	if (SA1.VirtualBitmapFormat == 2)
	{
	    uint8 *ptr = &Memory.SRAM [(address >> 2) & 0xffff];
	    *ptr &= ~(3 << ((address & 3) << 1));
	    *ptr |= (byte & 3) << ((address & 3) << 1);
	}
	else
	{
	    uint8 *ptr = &Memory.SRAM [(address >> 1) & 0xffff];
	    *ptr &= ~(15 << ((address & 1) << 2));
	    *ptr |= (byte & 15) << ((address & 1) << 2);
	}
	break;
    case CMemory::MAP_BWRAM_BITMAP2:
	address = (address & 0xffff) - 0x6000;
	if (SA1.VirtualBitmapFormat == 2)
	{
	    uint8 *ptr = &SA1.BWRAM [(address >> 2) & 0xffff];
	    *ptr &= ~(3 << ((address & 3) << 1));
	    *ptr |= (byte & 3) << ((address & 3) << 1);
	}
	else
	{
	    uint8 *ptr = &SA1.BWRAM [(address >> 1) & 0xffff];
	    *ptr &= ~(15 << ((address & 1) << 2));
	    *ptr |= (byte & 15) << ((address & 1) << 2);
	}
    default:
	return;
    }
}

void S9xSA1SetWord (uint16 Word, uint32 address)
{
    S9xSA1SetByte ((uint8) Word, address);
    S9xSA1SetByte ((uint8) (Word >> 8), address + 1);
}

void S9xSA1SetPCBase (uint32 address)
{
    uint8 *Getaddress = SA1.Map [(address >> MEMMAP_SHIFT) & MEMMAP_MASK];
    if (Getaddress >= (uint8 *) CMemory::MAP_LAST)
    {
	SA1.PCBase = Getaddress;
	SA1.PC = Getaddress + (address & 0xffff);
	return;
    }

    switch ((int) Getaddress)
    {
    case CMemory::MAP_PPU:
	SA1.PCBase = Memory.FillRAM - 0x2000;
	SA1.PC = SA1.PCBase + (address & 0xffff);
	return;
	
    case CMemory::MAP_CPU:
	SA1.PCBase = Memory.FillRAM - 0x4000;
	SA1.PC = SA1.PCBase + (address & 0xffff);
	return;
	
    case CMemory::MAP_DSP:
	SA1.PCBase = Memory.FillRAM - 0x6000;
	SA1.PC = SA1.PCBase + (address & 0xffff);
	return;
	
    case CMemory::MAP_SA1RAM:
    case CMemory::MAP_LOROM_SRAM:
	SA1.PCBase = Memory.SRAM;
	SA1.PC = SA1.PCBase + (address & 0xffff);
	return;

    case CMemory::MAP_BWRAM:
	SA1.PCBase = SA1.BWRAM - 0x6000;
	SA1.PC = SA1.PCBase + (address & 0xffff);
	return;
    case CMemory::MAP_HIROM_SRAM:
	SA1.PCBase = Memory.SRAM - 0x6000;
	SA1.PC = SA1.PCBase + (address & 0xffff);
	return;

    case CMemory::MAP_DEBUG:
#ifdef DEBUGGER
	printf ("SBP %06x\n", address);
#endif
	
    default:
    case CMemory::MAP_NONE:
	SA1.PCBase = Memory.RAM;
	SA1.PC = Memory.RAM + (address & 0xffff);
	return;
    }
}

void S9xSA1ExecuteDuringSleep ()
{
#if 0
    if (SA1.Executing)
    {
	while (CPU.Cycles < CPU.NextEvent)
	{
	    S9xSA1MainLoop ();
	    CPU.Cycles += TWO_CYCLES * 2;
	}
    }
#endif
}

void S9xSetSA1MemMap (uint32 which1, uint8 map)
{
    int c;
    int start = which1 * 0x100 + 0xc00;
    int start2 = which1 * 0x200;

    if (which1 >= 2)
	start2 += 0x400;

    for (c = 0; c < 0x100; c += 16)
    {
	uint8 *block = &Memory.ROM [(map & 7) * 0x100000 + (c << 12)];
	int i;

	for (i = c; i < c + 16; i++)
	    Memory.Map [start + i] = SA1.Map [start + i] = block;
    }
    
    for (c = 0; c < 0x200; c += 16)
    {
	uint8 *block = &Memory.ROM [(map & 7) * 0x100000 + (c << 11) - 0x8000];
	int i;

	for (i = c + 8; i < c + 16; i++)
	    Memory.Map [start2 + i] = SA1.Map [start2 + i] = block;
    }
}

uint8 S9xGetSA1 (uint32 address)
{
    switch (address)
    {
    case 0x2300:
#ifdef CPU_SHUTDOWN
//	CPU.WaitAddress = CPU.PCAtOpcodeStart;
	SA1.Executing = !SA1.Waiting;
#endif
	return ((Memory.FillRAM [0x2209] & 0x5f) | 
		 (CPU.IRQActive & (SA1_IRQ_SOURCE | SA1_DMA_IRQ_SOURCE)));
    case 0x2301:
#ifdef CPU_SHUTDOWN
	SA1.WaitAddress = SA1.PCAtOpcodeStart;
#endif
	return ((Memory.FillRAM [0x2200] & 0xf) |
		(SA1.IRQActive & (SNES_IRQ_SOURCE | TIMER_IRQ_SOURCE |
				  DMA_IRQ_SOURCE)));
    case 0x2306:
	return ((uint8)  SA1.sum);
    case 0x2307:
	return ((uint8) (SA1.sum >>  8));
    case 0x2308:
	return ((uint8) (SA1.sum >> 16));
    case 0x2309:
	return ((uint8) (SA1.sum >> 24));
    case 0x230a:
	return ((uint8) (SA1.sum >> 32));

    default:	
//	printf ("R: %04x\n", address);
	break;
    }
    return (Memory.FillRAM [address]);
}

void S9xSetSA1 (uint8 byte, uint32 address)
{
    static char *DMAsource [4] = { "ROM", "BW-RAM", "I-RAM", "???" };

//printf ("W: %02x -> %04x\n", byte, address);
    switch (address)
    {
    case 0x2200:
	SA1.Waiting = (byte & 0x60) != 0;
	SA1.Executing = !SA1.Waiting;

	if (!(byte & 0x20) && (Memory.FillRAM [0x2200] & 0x20))
	    S9xSA1Reset ();
	if (byte & 0x80)
	{
	    Memory.FillRAM [0x2301] |= 0x80;
	    if (Memory.FillRAM [0x220a] & 0x80)
	    {
		SA1.Flags |= IRQ_PENDING_FLAG;
		SA1.IRQActive |= SNES_IRQ_SOURCE;
		SA1.Executing = !SA1.Waiting;
	    }
	}
	if (byte & 0x10)
	{
	    Memory.FillRAM [0x2301] |= 0x10;
	    if (Memory.FillRAM [0x220a] & 0x10)
	    {
#ifdef DEBUGGER
		printf ("###SA1 NMI\n");
#endif
	    }
	}
	break;

    case 0x2201:
	if (((byte ^ Memory.FillRAM [0x2201]) & 0x80) &&
	    (Memory.FillRAM [0x2300] & byte & 0x80))
	{
	    S9xSetIRQ (SA1_IRQ_SOURCE);
	}
	if (((byte ^ Memory.FillRAM [0x2201]) & 0x20) &&
	    (Memory.FillRAM [0x2300] & byte & 0x20))
	{
	    S9xSetIRQ (SA1_DMA_IRQ_SOURCE);
	}
	break;
    case 0x2202:
	if (byte & 0x80)
	{
	    Memory.FillRAM [0x2300] &= ~0x80;
	    S9xClearIRQ (SA1_IRQ_SOURCE);
	}
	if (byte & 0x20)
	{
	    Memory.FillRAM [0x2300] &= ~0x20;
	    S9xClearIRQ (SA1_DMA_IRQ_SOURCE);
	}
	break;
    case 0x2203:
//	printf ("SA1 reset vector: %04x\n", byte | (Memory.FillRAM [0x2204] << 8));
	break;
    case 0x2204:
//	printf ("SA1 reset vector: %04x\n", (byte << 8) | Memory.FillRAM [0x2203]);
	break;

    case 0x2205:
//	printf ("SA1 NMI vector: %04x\n", byte | (Memory.FillRAM [0x2206] << 8));
	break;
    case 0x2206:
//	printf ("SA1 NMI vector: %04x\n", (byte << 8) | Memory.FillRAM [0x2205]);
	break;

    case 0x2207:
//	printf ("SA1 IRQ vector: %04x\n", byte | (Memory.FillRAM [0x2208] << 8));
	break;
    case 0x2208:
//	printf ("SA1 IRQ vector: %04x\n", (byte << 8) | Memory.FillRAM [0x2207]);
	break;

    case 0x2209:
	Memory.FillRAM [0x2209] = byte;
	if (byte & 0x80)
	    Memory.FillRAM [0x2300] |= 0x80;

	if (byte & Memory.FillRAM [0x2201] & 0x80)
	{
	    S9xSetIRQ (SA1_IRQ_SOURCE);
	}
	break;
    case 0x220a:
	if (((byte ^ Memory.FillRAM [0x220a]) & 0x80) &&
	    (Memory.FillRAM [0x2301] & byte & 0x80))
	{
	    SA1.Flags |= IRQ_PENDING_FLAG;
	    SA1.IRQActive |= SNES_IRQ_SOURCE;
	    SA1.Executing = !SA1.Waiting;
	}
	if (((byte ^ Memory.FillRAM [0x220a]) & 0x40) &&
	    (Memory.FillRAM [0x2301] & byte & 0x40))
	{
	    SA1.Flags |= IRQ_PENDING_FLAG;
	    SA1.IRQActive |= TIMER_IRQ_SOURCE;
	    SA1.Executing = !SA1.Waiting;
	}
	if (((byte ^ Memory.FillRAM [0x220a]) & 0x20) &&
	    (Memory.FillRAM [0x2301] & byte & 0x20))
	{
	    SA1.Flags |= IRQ_PENDING_FLAG;
	    SA1.IRQActive |= DMA_IRQ_SOURCE;
	    SA1.Executing = !SA1.Waiting;
	}
	if (((byte ^ Memory.FillRAM [0x220a]) & 0x10) &&
	    (Memory.FillRAM [0x2301] & byte & 0x10))
	{
#ifdef DEBUGGER
		printf ("###SA1 NMI\n");
#endif
	}
	break;
    case 0x220b:
	if (byte & 0x80)
	{
	    SA1.IRQActive &= ~SNES_IRQ_SOURCE;
	    Memory.FillRAM [0x2301] &= ~0x80;
	}
	if (byte & 0x40)
	{
	    SA1.IRQActive &= ~TIMER_IRQ_SOURCE;
	    Memory.FillRAM [0x2301] &= ~0x40;
	}
	if (byte & 0x20)
	{
	    SA1.IRQActive &= ~DMA_IRQ_SOURCE;
	    Memory.FillRAM [0x2301] &= ~0x20;
	}
	if (byte & 0x10)
	{
	    // Clear NMI
	    Memory.FillRAM [0x2301] &= ~0x10;
	}
	if (!SA1.IRQActive)
	    SA1.Flags &= ~IRQ_PENDING_FLAG;
	break;
    case 0x220c:
//	printf ("SNES NMI vector: %04x\n", byte | (Memory.FillRAM [0x220d] << 8));
	break;
    case 0x220d:
//	printf ("SNES NMI vector: %04x\n", (byte << 8) | Memory.FillRAM [0x220c]);
	break;

    case 0x220e:
//	printf ("SNES IRQ vector: %04x\n", byte | (Memory.FillRAM [0x220f] << 8));
	break;
    case 0x220f:
//	printf ("SNES IRQ vector: %04x\n", (byte << 8) | Memory.FillRAM [0x220e]);
	break;

    case 0x2210:
#if 0
	printf ("Timer %s\n", (byte & 0x80) ? "linear" : "HV");
	printf ("Timer H-IRQ %s\n", (byte & 1) ? "enabled" : "disabled");
	printf ("Timer V-IRQ %s\n", (byte & 2) ? "enabled" : "disabled");
#endif
	break;
    case 0x2211:
//	printf ("Timer reset\n");
	break;
    case 0x2212:
//	printf ("H-Timer %04x\n", byte | (Memory.FillRAM [0x2213] << 8));
	break;
    case 0x2213:
//	printf ("H-Timer %04x\n", (byte << 8) | Memory.FillRAM [0x2212]);
	break;
    case 0x2214:
//	printf ("V-Timer %04x\n", byte | (Memory.FillRAM [0x2215] << 8));
	break;
    case 0x2215:
//	printf ("V-Timer %04x\n", (byte << 8) | Memory.FillRAM [0x2214]);
	break;
    case 0x2220:
    case 0x2221:
    case 0x2222:
    case 0x2223:
	S9xSetSA1MemMap (address - 0x2220, byte);
//	printf ("MMC: %02x\n", byte);
	break;
    case 0x2224:
//	printf ("BWRAM image SNES %02x -> 0x6000\n", byte);
	Memory.BWRAM = Memory.SRAM + (byte & 7) * 0x2000;
	break;
    case 0x2225:
//	printf ("BWRAM image SA1 %02x -> 0x6000 (%02x)\n", byte, Memory.FillRAM [address]);
	if (byte != Memory.FillRAM [address])
	    S9xSA1SetBWRAMMemMap (byte);
	break;
    case 0x2226:
//	printf ("BW-RAM SNES write %s\n", (byte & 0x80) ? "enabled" : "disabled");
	break;
    case 0x2227:
//	printf ("BW-RAM SA1 write %s\n", (byte & 0x80) ? "enabled" : "disabled");
	break;

    case 0x2228:
//	printf ("BW-RAM write protect area %02x\n", byte);
	break;
    case 0x2229:
//	printf ("I-RAM SNES write protect area %02x\n", byte);
	break;
    case 0x222a:
//	printf ("I-RAM SA1 write protect area %02x\n", byte);
	break;
    case 0x2230:
#if 0
	printf ("SA1 DMA %s\n", (byte & 0x80) ? "enabled" : "disabled");
	printf ("DMA priority %s\n", (byte & 0x40) ? "DMA" : "SA1");
	printf ("DMA %s\n", (byte & 0x20) ? "char conv" : "normal");
	printf ("DMA type %s\n", (byte & 0x10) ? "BW-RAM -> I-RAM" : "SA1 -> I-RAM");
	printf ("DMA distination %s\n", (byte & 4) ? "BW-RAM" : "I-RAM");
	printf ("DMA source %s\n", DMAsource [byte & 3]);
#endif
	break;
    case 0x2231:
	if (byte & 0x80)
	    SA1.in_char_dma = FALSE;
#if 0
	printf ("CHDEND %s\n", (byte & 0x80) ? "complete" : "incomplete");
	printf ("DMA colour mode %d\n", byte & 3);
	printf ("virtual VRAM width %d\n", (byte >> 2) & 7);
#endif
	break;
    case 0x2232:
    case 0x2233:
    case 0x2234:
	Memory.FillRAM [address] = byte;
#if 0
	printf ("DMA source start %06x\n", 
		Memory.FillRAM [0x2232] | (Memory.FillRAM [0x2233] << 8) |
		(Memory.FillRAM [0x2234] << 16));
#endif
	break;
    case 0x2235:
    case 0x2236:
    case 0x2237:
	Memory.FillRAM [address] = byte;
#if 0
	printf ("DMA dest address %06x\n", 
		Memory.FillRAM [0x2235] | (Memory.FillRAM [0x2236] << 8) |
		(Memory.FillRAM [0x2237] << 16));
#endif
	// XXX:
	if (address == 0x2236)
	{
	    if ((Memory.FillRAM [0x2230] & 0xb0) == 0xb0)
	    {
		Memory.FillRAM [0x2300] |= 0x20;
		if (Memory.FillRAM [0x2201] & 0x20)
		    S9xSetIRQ (SA1_DMA_IRQ_SOURCE);
		SA1.in_char_dma = TRUE;
	    }
	    else
	    {
		Memory.FillRAM [0x2301] |= 0x20;
		
		if (Memory.FillRAM [0x220a] & 0x20)
		{
		    SA1.Flags |= IRQ_PENDING_FLAG;
		    SA1.IRQActive |= DMA_IRQ_SOURCE;
		    SA1.Executing = !SA1.Waiting;
		}
	    }

	}
	break;
    case 0x2238:
    case 0x2239:
	Memory.FillRAM [address] = byte;
#if 0
	printf ("DMA length %04x\n", 
		Memory.FillRAM [0x2238] | (Memory.FillRAM [0x2239] << 8));
#endif
	break;
    case 0x223f:
	SA1.VirtualBitmapFormat = (byte & 0x80) ? 2 : 4;
	//printf ("virtual VRAM depth %d\n", (byte & 0x80) ? 2 : 4);
	break;

    case 0x2250:
	if (byte & 2)
	    SA1.sum = 0;
	SA1.arithmetic_op = byte & 3;
	break;
    
    case 0x2251:
	SA1.op1 = (SA1.op1 & 0xff00) | byte;
	break;
    case 0x2252:
	SA1.op1 = (SA1.op1 & 0xff) | (byte << 8);
	break;
    case 0x2253:
	SA1.op2 = (SA1.op2 & 0xff00) | byte;
	break;
    case 0x2254:
	SA1.op2 = (SA1.op2 & 0xff) | (byte << 8);
	switch (SA1.arithmetic_op)
	{
        case 0:	// multiply
	    SA1.sum = SA1.op1 * SA1.op2;
	    break;
	case 1: // divide
	    if (SA1.op2 == 0)
		SA1.sum = SA1.op1 << 16;
	    else
	    {
		SA1.sum = (SA1.op1 / (int) ((uint16) SA1.op2)) |
			  ((SA1.op1 % (int) ((uint16) SA1.op2)) << 16);
	    }
	    break;
	case 2:
	default: // cumulative sum
	    SA1.sum += SA1.op1 * SA1.op2;
	    if (SA1.sum & ((int64) 0xffffff << 32))
		SA1.overflow = TRUE;
	    break;
	}
	break;
    default:
//	printf ("W: %02x->%04x\n", byte, address);
	break;
    }
    if (address >= 0x2200 && address <= 0x22ff)
	Memory.FillRAM [address] = byte;
}