snes9xgx/source/snes9x/getset.h

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/***********************************************************************************
Snes9x - Portable Super Nintendo Entertainment System (TM) emulator.
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(c) Copyright 1996 - 2002 Gary Henderson (gary.henderson@ntlworld.com),
Jerremy Koot (jkoot@snes9x.com)
(c) Copyright 2002 - 2004 Matthew Kendora
(c) Copyright 2002 - 2005 Peter Bortas (peter@bortas.org)
(c) Copyright 2004 - 2005 Joel Yliluoma (http://iki.fi/bisqwit/)
(c) Copyright 2001 - 2006 John Weidman (jweidman@slip.net)
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(c) Copyright 2002 - 2006 funkyass (funkyass@spam.shaw.ca),
Kris Bleakley (codeviolation@hotmail.com)
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(c) Copyright 2002 - 2010 Brad Jorsch (anomie@users.sourceforge.net),
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Nach (n-a-c-h@users.sourceforge.net),
(c) Copyright 2002 - 2011 zones (kasumitokoduck@yahoo.com)
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(c) Copyright 2006 - 2007 nitsuja
(c) Copyright 2009 - 2018 BearOso,
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OV2
(c) Copyright 2017 qwertymodo
(c) Copyright 2011 - 2017 Hans-Kristian Arntzen,
Daniel De Matteis
(Under no circumstances will commercial rights be given)
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BS-X C emulator code
(c) Copyright 2005 - 2006 Dreamer Nom,
zones
C4 x86 assembler and some C emulation code
(c) Copyright 2000 - 2003 _Demo_ (_demo_@zsnes.com),
Nach,
zsKnight (zsknight@zsnes.com)
C4 C++ code
(c) Copyright 2003 - 2006 Brad Jorsch,
Nach
DSP-1 emulator code
(c) Copyright 1998 - 2006 _Demo_,
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Andreas Naive (andreasnaive@gmail.com),
Gary Henderson,
Ivar (ivar@snes9x.com),
John Weidman,
Kris Bleakley,
Matthew Kendora,
Nach,
neviksti (neviksti@hotmail.com)
DSP-2 emulator code
(c) Copyright 2003 John Weidman,
Kris Bleakley,
Lord Nightmare (lord_nightmare@users.sourceforge.net),
Matthew Kendora,
neviksti
DSP-3 emulator code
(c) Copyright 2003 - 2006 John Weidman,
Kris Bleakley,
Lancer,
z80 gaiden
DSP-4 emulator code
(c) Copyright 2004 - 2006 Dreamer Nom,
John Weidman,
Kris Bleakley,
Nach,
z80 gaiden
OBC1 emulator code
(c) Copyright 2001 - 2004 zsKnight,
pagefault (pagefault@zsnes.com),
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Kris Bleakley
Ported from x86 assembler to C by sanmaiwashi
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SPC7110 and RTC C++ emulator code used in 1.39-1.51
(c) Copyright 2002 Matthew Kendora with research by
zsKnight,
John Weidman,
Dark Force
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SPC7110 and RTC C++ emulator code used in 1.52+
(c) Copyright 2009 byuu,
neviksti
S-DD1 C emulator code
(c) Copyright 2003 Brad Jorsch with research by
Andreas Naive,
John Weidman
S-RTC C emulator code
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(c) Copyright 2001 - 2006 byuu,
John Weidman
ST010 C++ emulator code
(c) Copyright 2003 Feather,
John Weidman,
Kris Bleakley,
Matthew Kendora
Super FX x86 assembler emulator code
(c) Copyright 1998 - 2003 _Demo_,
pagefault,
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zsKnight
Super FX C emulator code
(c) Copyright 1997 - 1999 Ivar,
Gary Henderson,
John Weidman
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Sound emulator code used in 1.5-1.51
(c) Copyright 1998 - 2003 Brad Martin
(c) Copyright 1998 - 2006 Charles Bilyue'
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Sound emulator code used in 1.52+
(c) Copyright 2004 - 2007 Shay Green (gblargg@gmail.com)
S-SMP emulator code used in 1.54+
(c) Copyright 2016 byuu
SH assembler code partly based on x86 assembler code
(c) Copyright 2002 - 2004 Marcus Comstedt (marcus@mc.pp.se)
2xSaI filter
(c) Copyright 1999 - 2001 Derek Liauw Kie Fa
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HQ2x, HQ3x, HQ4x filters
(c) Copyright 2003 Maxim Stepin (maxim@hiend3d.com)
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NTSC filter
(c) Copyright 2006 - 2007 Shay Green
GTK+ GUI code
(c) Copyright 2004 - 2018 BearOso
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2008-09-10 07:57:37 +02:00
Win32 GUI code
(c) Copyright 2003 - 2006 blip,
funkyass,
Matthew Kendora,
Nach,
nitsuja
(c) Copyright 2009 - 2018 OV2
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Mac OS GUI code
(c) Copyright 1998 - 2001 John Stiles
(c) Copyright 2001 - 2011 zones
Libretro port
(c) Copyright 2011 - 2017 Hans-Kristian Arntzen,
Daniel De Matteis
(Under no circumstances will commercial rights be given)
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Specific ports contains the works of other authors. See headers in
individual files.
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Snes9x homepage: http://www.snes9x.com/
Permission to use, copy, modify and/or distribute Snes9x in both binary
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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 or it's derivatives.
Snes9x is freeware for PERSONAL USE only. Commercial users should
seek permission of the copyright holders first. Commercial use includes,
but is not limited to, charging money for Snes9x or software derived from
Snes9x, including Snes9x or derivatives in commercial game bundles, and/or
using Snes9x as a promotion for your commercial product.
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.
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***********************************************************************************/
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#ifndef _GETSET_H_
#define _GETSET_H_
#include "cpuexec.h"
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#include "dsp.h"
#include "sa1.h"
#include "spc7110.h"
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#include "c4.h"
#include "obc1.h"
#include "seta.h"
#include "bsx.h"
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#include "msu1.h"
#define addCyclesInMemoryAccess \
if (!CPU.InDMAorHDMA) \
{ \
CPU.Cycles += speed; \
while (CPU.Cycles >= CPU.NextEvent) \
S9xDoHEventProcessing(); \
}
#define addCyclesInMemoryAccess_x2 \
if (!CPU.InDMAorHDMA) \
{ \
CPU.Cycles += speed << 1; \
while (CPU.Cycles >= CPU.NextEvent) \
S9xDoHEventProcessing(); \
}
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extern uint8 OpenBus;
static inline int32 memory_speed (uint32 address)
{
if (address & 0x408000)
{
if (address & 0x800000)
return (CPU.FastROMSpeed);
return (SLOW_ONE_CYCLE);
}
if ((address + 0x6000) & 0x4000)
return (SLOW_ONE_CYCLE);
if ((address - 0x4000) & 0x7e00)
return (ONE_CYCLE);
return (TWO_CYCLES);
}
inline uint8 S9xGetByte (uint32 Address)
{
int block = (Address & 0xffffff) >> MEMMAP_SHIFT;
uint8 *GetAddress = Memory.Map[block];
int32 speed = memory_speed(Address);
uint8 byte;
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if (GetAddress >= (uint8 *) CMemory::MAP_LAST)
{
byte = *(GetAddress + (Address & 0xffff));
addCyclesInMemoryAccess;
return (byte);
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}
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switch ((pint) GetAddress)
{
case CMemory::MAP_CPU:
byte = S9xGetCPU(Address & 0xffff);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_PPU:
if (CPU.InDMAorHDMA && (Address & 0xff00) == 0x2100)
return (OpenBus);
byte = S9xGetPPU(Address & 0xffff);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_LOROM_SRAM:
case CMemory::MAP_SA1RAM:
// Address & 0x7fff : offset into bank
// Address & 0xff0000 : bank
// bank >> 1 | offset : SRAM address, unbound
// unbound & SRAMMask : SRAM offset
byte = *(Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask));
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_LOROM_SRAM_B:
byte = *(Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB));
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_HIROM_SRAM:
case CMemory::MAP_RONLY_SRAM:
byte = *(Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask));
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_BWRAM:
byte = *(Memory.BWRAM + ((Address & 0x7fff) - 0x6000));
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_DSP:
byte = S9xGetDSP(Address & 0xffff);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_SPC7110_ROM:
byte = S9xGetSPC7110Byte(Address);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_SPC7110_DRAM:
byte = S9xGetSPC7110(0x4800);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_C4:
byte = S9xGetC4(Address & 0xffff);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_OBC_RAM:
byte = S9xGetOBC1(Address & 0xffff);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_SETA_DSP:
byte = S9xGetSetaDSP(Address);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_SETA_RISC:
byte = S9xGetST018(Address);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_BSX:
byte = S9xGetBSX(Address);
addCyclesInMemoryAccess;
return (byte);
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case CMemory::MAP_NONE:
default:
byte = OpenBus;
addCyclesInMemoryAccess;
return (byte);
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}
}
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inline uint16 S9xGetWord (uint32 Address, enum s9xwrap_t w = WRAP_NONE)
{
uint16 word;
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uint32 mask = MEMMAP_MASK & (w == WRAP_PAGE ? 0xff : (w == WRAP_BANK ? 0xffff : 0xffffff));
if ((Address & mask) == mask)
{
PC_t a;
word = OpenBus = S9xGetByte(Address);
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switch (w)
{
case WRAP_PAGE:
a.xPBPC = Address;
a.B.xPCl++;
return (word | (S9xGetByte(a.xPBPC) << 8));
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case WRAP_BANK:
a.xPBPC = Address;
a.W.xPC++;
return (word | (S9xGetByte(a.xPBPC) << 8));
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case WRAP_NONE:
default:
return (word | (S9xGetByte(Address + 1) << 8));
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}
}
int block = (Address & 0xffffff) >> MEMMAP_SHIFT;
uint8 *GetAddress = Memory.Map[block];
int32 speed = memory_speed(Address);
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if (GetAddress >= (uint8 *) CMemory::MAP_LAST)
{
word = READ_WORD(GetAddress + (Address & 0xffff));
addCyclesInMemoryAccess_x2;
return (word);
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}
switch ((pint) GetAddress)
{
case CMemory::MAP_CPU:
word = S9xGetCPU(Address & 0xffff);
addCyclesInMemoryAccess;
word |= S9xGetCPU((Address + 1) & 0xffff) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_PPU:
if (CPU.InDMAorHDMA)
{
word = OpenBus = S9xGetByte(Address);
return (word | (S9xGetByte(Address + 1) << 8));
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}
word = S9xGetPPU(Address & 0xffff);
addCyclesInMemoryAccess;
word |= S9xGetPPU((Address + 1) & 0xffff) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_LOROM_SRAM:
case CMemory::MAP_SA1RAM:
if (Memory.SRAMMask >= MEMMAP_MASK)
word = READ_WORD(Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask));
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else
word = (*(Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask))) |
((*(Memory.SRAM + (((((Address + 1) & 0xff0000) >> 1) | ((Address + 1) & 0x7fff)) & Memory.SRAMMask))) << 8);
addCyclesInMemoryAccess_x2;
return (word);
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case CMemory::MAP_LOROM_SRAM_B:
if (Multi.sramMaskB >= MEMMAP_MASK)
word = READ_WORD(Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB));
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else
word = (*(Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB))) |
((*(Multi.sramB + (((((Address + 1) & 0xff0000) >> 1) | ((Address + 1) & 0x7fff)) & Multi.sramMaskB))) << 8);
addCyclesInMemoryAccess_x2;
return (word);
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case CMemory::MAP_HIROM_SRAM:
case CMemory::MAP_RONLY_SRAM:
if (Memory.SRAMMask >= MEMMAP_MASK)
word = READ_WORD(Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask));
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else
word = (*(Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask)) |
(*(Memory.SRAM + ((((Address + 1) & 0x7fff) - 0x6000 + (((Address + 1) & 0xf0000) >> 3)) & Memory.SRAMMask)) << 8));
addCyclesInMemoryAccess_x2;
return (word);
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case CMemory::MAP_BWRAM:
word = READ_WORD(Memory.BWRAM + ((Address & 0x7fff) - 0x6000));
addCyclesInMemoryAccess_x2;
return (word);
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case CMemory::MAP_DSP:
word = S9xGetDSP(Address & 0xffff);
addCyclesInMemoryAccess;
word |= S9xGetDSP((Address + 1) & 0xffff) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_SPC7110_ROM:
word = S9xGetSPC7110Byte(Address);
addCyclesInMemoryAccess;
word |= S9xGetSPC7110Byte(Address + 1) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_SPC7110_DRAM:
word = S9xGetSPC7110(0x4800);
addCyclesInMemoryAccess;
word |= S9xGetSPC7110(0x4800) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_C4:
word = S9xGetC4(Address & 0xffff);
addCyclesInMemoryAccess;
word |= S9xGetC4((Address + 1) & 0xffff) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_OBC_RAM:
word = S9xGetOBC1(Address & 0xffff);
addCyclesInMemoryAccess;
word |= S9xGetOBC1((Address + 1) & 0xffff) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_SETA_DSP:
word = S9xGetSetaDSP(Address);
addCyclesInMemoryAccess;
word |= S9xGetSetaDSP(Address + 1) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_SETA_RISC:
word = S9xGetST018(Address);
addCyclesInMemoryAccess;
word |= S9xGetST018(Address + 1) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_BSX:
word = S9xGetBSX(Address);
addCyclesInMemoryAccess;
word |= S9xGetBSX(Address + 1) << 8;
addCyclesInMemoryAccess;
return (word);
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case CMemory::MAP_NONE:
default:
word = OpenBus | (OpenBus << 8);
addCyclesInMemoryAccess_x2;
return (word);
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}
}
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inline void S9xSetByte (uint8 Byte, uint32 Address)
{
int block = (Address & 0xffffff) >> MEMMAP_SHIFT;
uint8 *SetAddress = Memory.WriteMap[block];
int32 speed = memory_speed(Address);
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if (SetAddress >= (uint8 *) CMemory::MAP_LAST)
{
*(SetAddress + (Address & 0xffff)) = Byte;
addCyclesInMemoryAccess;
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return;
}
switch ((pint) SetAddress)
{
case CMemory::MAP_CPU:
S9xSetCPU(Byte, Address & 0xffff);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_PPU:
if (CPU.InDMAorHDMA && (Address & 0xff00) == 0x2100)
return;
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S9xSetPPU(Byte, Address & 0xffff);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_LOROM_SRAM:
if (Memory.SRAMMask)
{
*(Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask)) = Byte;
CPU.SRAMModified = TRUE;
}
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_LOROM_SRAM_B:
if (Multi.sramMaskB)
{
*(Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB)) = Byte;
CPU.SRAMModified = TRUE;
}
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_HIROM_SRAM:
if (Memory.SRAMMask)
{
*(Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask)) = Byte;
CPU.SRAMModified = TRUE;
}
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_BWRAM:
*(Memory.BWRAM + ((Address & 0x7fff) - 0x6000)) = Byte;
CPU.SRAMModified = TRUE;
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_SA1RAM:
*(Memory.SRAM + (Address & 0xffff)) = Byte;
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_DSP:
S9xSetDSP(Byte, Address & 0xffff);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_C4:
S9xSetC4(Byte, Address & 0xffff);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_OBC_RAM:
S9xSetOBC1(Byte, Address & 0xffff);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_SETA_DSP:
S9xSetSetaDSP(Byte, Address);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_SETA_RISC:
S9xSetST018(Byte, Address);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_BSX:
S9xSetBSX(Byte, Address);
addCyclesInMemoryAccess;
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return;
case CMemory::MAP_NONE:
default:
addCyclesInMemoryAccess;
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return;
}
}
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inline void S9xSetWord (uint16 Word, uint32 Address, enum s9xwrap_t w = WRAP_NONE, enum s9xwriteorder_t o = WRITE_01)
{
uint32 mask = MEMMAP_MASK & (w == WRAP_PAGE ? 0xff : (w == WRAP_BANK ? 0xffff : 0xffffff));
if ((Address & mask) == mask)
{
PC_t a;
if (!o)
S9xSetByte((uint8) Word, Address);
switch (w)
{
case WRAP_PAGE:
a.xPBPC = Address;
a.B.xPCl++;
S9xSetByte(Word >> 8, a.xPBPC);
break;
case WRAP_BANK:
a.xPBPC = Address;
a.W.xPC++;
S9xSetByte(Word >> 8, a.xPBPC);
break;
case WRAP_NONE:
default:
S9xSetByte(Word >> 8, Address + 1);
break;
}
if (o)
S9xSetByte((uint8) Word, Address);
return;
}
int block = (Address & 0xffffff) >> MEMMAP_SHIFT;
uint8 *SetAddress = Memory.WriteMap[block];
int32 speed = memory_speed(Address);
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if (SetAddress >= (uint8 *) CMemory::MAP_LAST)
{
WRITE_WORD(SetAddress + (Address & 0xffff), Word);
addCyclesInMemoryAccess_x2;
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return;
}
switch ((pint) SetAddress)
{
case CMemory::MAP_CPU:
if (o)
{
S9xSetCPU(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
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S9xSetCPU((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetCPU((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
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S9xSetCPU(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_PPU:
if (CPU.InDMAorHDMA)
{
if ((Address & 0xff00) != 0x2100)
S9xSetPPU((uint8) Word, Address & 0xffff);
if (((Address + 1) & 0xff00) != 0x2100)
S9xSetPPU(Word >> 8, (Address + 1) & 0xffff);
return;
}
if (o)
{
S9xSetPPU(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
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S9xSetPPU((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetPPU((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
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S9xSetPPU(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_LOROM_SRAM:
if (Memory.SRAMMask)
{
if (Memory.SRAMMask >= MEMMAP_MASK)
WRITE_WORD(Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask), Word);
else
{
*(Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask)) = (uint8) Word;
*(Memory.SRAM + (((((Address + 1) & 0xff0000) >> 1) | ((Address + 1) & 0x7fff)) & Memory.SRAMMask)) = Word >> 8;
}
CPU.SRAMModified = TRUE;
}
addCyclesInMemoryAccess_x2;
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return;
case CMemory::MAP_LOROM_SRAM_B:
if (Multi.sramMaskB)
{
if (Multi.sramMaskB >= MEMMAP_MASK)
WRITE_WORD(Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB), Word);
else
{
*(Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB)) = (uint8) Word;
*(Multi.sramB + (((((Address + 1) & 0xff0000) >> 1) | ((Address + 1) & 0x7fff)) & Multi.sramMaskB)) = Word >> 8;
}
CPU.SRAMModified = TRUE;
}
addCyclesInMemoryAccess_x2;
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return;
case CMemory::MAP_HIROM_SRAM:
if (Memory.SRAMMask)
{
if (Memory.SRAMMask >= MEMMAP_MASK)
WRITE_WORD(Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask), Word);
else
{
*(Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask)) = (uint8) Word;
*(Memory.SRAM + ((((Address + 1) & 0x7fff) - 0x6000 + (((Address + 1) & 0xf0000) >> 3)) & Memory.SRAMMask)) = Word >> 8;
}
CPU.SRAMModified = TRUE;
}
addCyclesInMemoryAccess_x2;
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return;
case CMemory::MAP_BWRAM:
WRITE_WORD(Memory.BWRAM + ((Address & 0x7fff) - 0x6000), Word);
CPU.SRAMModified = TRUE;
addCyclesInMemoryAccess_x2;
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return;
case CMemory::MAP_SA1RAM:
WRITE_WORD(Memory.SRAM + (Address & 0xffff), Word);
addCyclesInMemoryAccess_x2;
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return;
case CMemory::MAP_DSP:
if (o)
{
S9xSetDSP(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
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S9xSetDSP((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetDSP((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
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S9xSetDSP(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_C4:
if (o)
{
S9xSetC4(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
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S9xSetC4((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetC4((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
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S9xSetC4(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_OBC_RAM:
if (o)
{
S9xSetOBC1(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
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S9xSetOBC1((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetOBC1((uint8) Word, Address & 0xffff);
addCyclesInMemoryAccess;
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S9xSetOBC1(Word >> 8, (Address + 1) & 0xffff);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_SETA_DSP:
if (o)
{
S9xSetSetaDSP(Word >> 8, Address + 1);
addCyclesInMemoryAccess;
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S9xSetSetaDSP((uint8) Word, Address);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetSetaDSP((uint8) Word, Address);
addCyclesInMemoryAccess;
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S9xSetSetaDSP(Word >> 8, Address + 1);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_SETA_RISC:
if (o)
{
S9xSetST018(Word >> 8, Address + 1);
addCyclesInMemoryAccess;
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S9xSetST018((uint8) Word, Address);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetST018((uint8) Word, Address);
addCyclesInMemoryAccess;
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S9xSetST018(Word >> 8, Address + 1);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_BSX:
if (o)
{
S9xSetBSX(Word >> 8, Address + 1);
addCyclesInMemoryAccess;
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S9xSetBSX((uint8) Word, Address);
addCyclesInMemoryAccess;
return;
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}
else
{
S9xSetBSX((uint8) Word, Address);
addCyclesInMemoryAccess;
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S9xSetBSX(Word >> 8, Address + 1);
addCyclesInMemoryAccess;
return;
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}
case CMemory::MAP_NONE:
default:
addCyclesInMemoryAccess_x2;
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return;
}
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}
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inline void S9xSetPCBase (uint32 Address)
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{
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Registers.PBPC = Address & 0xffffff;
ICPU.ShiftedPB = Address & 0xff0000;
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int block;
uint8 *GetAddress = Memory.Map[block = ((Address & 0xffffff) >> MEMMAP_SHIFT)];
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CPU.MemSpeed = memory_speed(Address);
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CPU.MemSpeedx2 = CPU.MemSpeed << 1;
if (GetAddress >= (uint8 *) CMemory::MAP_LAST)
{
CPU.PCBase = GetAddress;
return;
}
switch ((pint) GetAddress)
{
case CMemory::MAP_LOROM_SRAM:
if ((Memory.SRAMMask & MEMMAP_MASK) != MEMMAP_MASK)
CPU.PCBase = NULL;
else
CPU.PCBase = Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask) - (Address & 0xffff);
return;
case CMemory::MAP_LOROM_SRAM_B:
if ((Multi.sramMaskB & MEMMAP_MASK) != MEMMAP_MASK)
CPU.PCBase = NULL;
else
CPU.PCBase = Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB) - (Address & 0xffff);
return;
case CMemory::MAP_HIROM_SRAM:
if ((Memory.SRAMMask & MEMMAP_MASK) != MEMMAP_MASK)
CPU.PCBase = NULL;
else
CPU.PCBase = Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask) - (Address & 0xffff);
return;
case CMemory::MAP_BWRAM:
CPU.PCBase = Memory.BWRAM - 0x6000 - (Address & 0x8000);
return;
case CMemory::MAP_SA1RAM:
CPU.PCBase = Memory.SRAM;
return;
case CMemory::MAP_SPC7110_ROM:
CPU.PCBase = S9xGetBasePointerSPC7110(Address);
return;
case CMemory::MAP_C4:
CPU.PCBase = S9xGetBasePointerC4(Address & 0xffff);
return;
case CMemory::MAP_OBC_RAM:
CPU.PCBase = S9xGetBasePointerOBC1(Address & 0xffff);
return;
case CMemory::MAP_BSX:
CPU.PCBase = S9xGetBasePointerBSX(Address);
return;
case CMemory::MAP_NONE:
default:
CPU.PCBase = NULL;
return;
}
}
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inline uint8 * S9xGetBasePointer (uint32 Address)
{
uint8 *GetAddress = Memory.Map[(Address & 0xffffff) >> MEMMAP_SHIFT];
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if (GetAddress >= (uint8 *) CMemory::MAP_LAST)
return (GetAddress);
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switch ((pint) GetAddress)
{
case CMemory::MAP_LOROM_SRAM:
if ((Memory.SRAMMask & MEMMAP_MASK) != MEMMAP_MASK)
return (NULL);
return (Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask) - (Address & 0xffff));
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case CMemory::MAP_LOROM_SRAM_B:
if ((Multi.sramMaskB & MEMMAP_MASK) != MEMMAP_MASK)
return (NULL);
return (Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB) - (Address & 0xffff));
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case CMemory::MAP_HIROM_SRAM:
if ((Memory.SRAMMask & MEMMAP_MASK) != MEMMAP_MASK)
return (NULL);
return (Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask) - (Address & 0xffff));
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case CMemory::MAP_BWRAM:
return (Memory.BWRAM - 0x6000 - (Address & 0x8000));
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case CMemory::MAP_SA1RAM:
return (Memory.SRAM);
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case CMemory::MAP_SPC7110_ROM:
return (S9xGetBasePointerSPC7110(Address));
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case CMemory::MAP_C4:
return (S9xGetBasePointerC4(Address & 0xffff));
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case CMemory::MAP_OBC_RAM:
return (S9xGetBasePointerOBC1(Address & 0xffff));
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case CMemory::MAP_NONE:
default:
return (NULL);
}
}
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inline uint8 * S9xGetMemPointer (uint32 Address)
{
uint8 *GetAddress = Memory.Map[(Address & 0xffffff) >> MEMMAP_SHIFT];
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if (GetAddress >= (uint8 *) CMemory::MAP_LAST)
return (GetAddress + (Address & 0xffff));
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switch ((pint) GetAddress)
{
case CMemory::MAP_LOROM_SRAM:
if ((Memory.SRAMMask & MEMMAP_MASK) != MEMMAP_MASK)
return (NULL);
return (Memory.SRAM + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Memory.SRAMMask));
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case CMemory::MAP_LOROM_SRAM_B:
if ((Multi.sramMaskB & MEMMAP_MASK) != MEMMAP_MASK)
return (NULL);
return (Multi.sramB + ((((Address & 0xff0000) >> 1) | (Address & 0x7fff)) & Multi.sramMaskB));
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case CMemory::MAP_HIROM_SRAM:
if ((Memory.SRAMMask & MEMMAP_MASK) != MEMMAP_MASK)
return (NULL);
return (Memory.SRAM + (((Address & 0x7fff) - 0x6000 + ((Address & 0xf0000) >> 3)) & Memory.SRAMMask));
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case CMemory::MAP_BWRAM:
return (Memory.BWRAM - 0x6000 + (Address & 0x7fff));
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case CMemory::MAP_SA1RAM:
return (Memory.SRAM + (Address & 0xffff));
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case CMemory::MAP_SPC7110_ROM:
return (S9xGetBasePointerSPC7110(Address) + (Address & 0xffff));
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case CMemory::MAP_C4:
return (S9xGetMemPointerC4(Address & 0xffff));
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case CMemory::MAP_OBC_RAM:
return (S9xGetMemPointerOBC1(Address & 0xffff));
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case CMemory::MAP_NONE:
default:
return (NULL);
}
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}
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#endif