/******************************************************************************* Snes9x - Portable Super Nintendo Entertainment System (TM) emulator. (c) Copyright 1996 - 2002 Gary Henderson (gary.henderson@ntlworld.com) and Jerremy Koot (jkoot@snes9x.com) (c) Copyright 2001 - 2004 John Weidman (jweidman@slip.net) (c) Copyright 2002 - 2004 Brad Jorsch (anomie@users.sourceforge.net), funkyass (funkyass@spam.shaw.ca), Joel Yliluoma (http://iki.fi/bisqwit/) Kris Bleakley (codeviolation@hotmail.com), Matthew Kendora, Nach (n-a-c-h@users.sourceforge.net), Peter Bortas (peter@bortas.org) and zones (kasumitokoduck@yahoo.com) C4 x86 assembler and some C emulation code (c) Copyright 2000 - 2003 zsKnight (zsknight@zsnes.com), _Demo_ (_demo_@zsnes.com), and Nach C4 C++ code (c) Copyright 2003 Brad Jorsch DSP-1 emulator code (c) Copyright 1998 - 2004 Ivar (ivar@snes9x.com), _Demo_, Gary Henderson, John Weidman, neviksti (neviksti@hotmail.com), Kris Bleakley, Andreas Naive DSP-2 emulator code (c) Copyright 2003 Kris Bleakley, John Weidman, neviksti, Matthew Kendora, and Lord Nightmare (lord_nightmare@users.sourceforge.net OBC1 emulator code (c) Copyright 2001 - 2004 zsKnight, pagefault (pagefault@zsnes.com) and Kris Bleakley Ported from x86 assembler to C by sanmaiwashi SPC7110 and RTC C++ emulator code (c) Copyright 2002 Matthew Kendora with research by zsKnight, John Weidman, and Dark Force S-DD1 C emulator code (c) Copyright 2003 Brad Jorsch with research by Andreas Naive and John Weidman S-RTC C emulator code (c) Copyright 2001 John Weidman ST010 C++ emulator code (c) Copyright 2003 Feather, Kris Bleakley, John Weidman and Matthew Kendora Super FX x86 assembler emulator code (c) Copyright 1998 - 2003 zsKnight, _Demo_, and pagefault Super FX C emulator code (c) Copyright 1997 - 1999 Ivar, Gary Henderson and John Weidman SH assembler code partly based on x86 assembler code (c) Copyright 2002 - 2004 Marcus Comstedt (marcus@mc.pp.se) Specific ports contains the works of other authors. See headers in individual files. Snes9x homepage: http://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. *******************************************************************************/ /*****************************************************************************/ /* CPU-S9xOpcodes.CPP */ /* This file contains all the opcodes */ /*****************************************************************************/ #include "snes9x.h" #include "memmap.h" #include "debug.h" #include "missing.h" #include "apu.h" #include "sa1.h" #include "spc7110.h" START_EXTERN_C extern uint8 A1, A2, A3, A4, W1, W2, W3, W4; extern uint8 Ans8; extern uint16 Ans16; extern uint32 Ans32; extern uint8 Work8; extern uint16 Work16; extern uint32 Work32; extern signed char Int8; extern short Int16; extern long Int32; END_EXTERN_C #include "cpuexec.h" #include "cpuaddr.h" #include "cpuops.h" #include "cpumacro.h" #include "apu.h" // For use with the opcodes whose functions here examine the OpAddress. static void OpAddressPassthrough (long Addr) { OpAddress = Addr; } /* ADC *************************************************************************************** */ static void Op69M1 (void) { Immediate8 (READ, ADC8); } static void Op69M0 (void) { Immediate16 (READ, ADC16); } static void Op65M1 (void) { Direct (READ, ADC8); } static void Op65M0 (void) { Direct (READ, ADC16); } static void Op75M1 (void) { DirectIndexedX (READ, ADC8); } static void Op75M0 (void) { DirectIndexedX (READ, ADC16); } static void Op72M1 (void) { DirectIndirect (READ, ADC8); } static void Op72M0 (void) { DirectIndirect (READ, ADC16); } static void Op61M1 (void) { DirectIndexedIndirect (READ, ADC8); } static void Op61M0 (void) { DirectIndexedIndirect (READ, ADC16); } static void Op71M1 (void) { DirectIndirectIndexed (READ, ADC8); } static void Op71M0 (void) { DirectIndirectIndexed (READ, ADC16); } static void Op67M1 (void) { DirectIndirectLong (READ, ADC8); } static void Op67M0 (void) { DirectIndirectLong (READ, ADC16); } static void Op77M1 (void) { DirectIndirectIndexedLong (READ, ADC8); } static void Op77M0 (void) { DirectIndirectIndexedLong (READ, ADC16); } static void Op6DM1 (void) { Absolute (READ, ADC8); } static void Op6DM0 (void) { Absolute (READ, ADC16); } static void Op7DM1 (void) { AbsoluteIndexedX (READ, ADC8); } static void Op7DM0 (void) { AbsoluteIndexedX (READ, ADC16); } static void Op79M1 (void) { AbsoluteIndexedY (READ, ADC8); } static void Op79M0 (void) { AbsoluteIndexedY (READ, ADC16); } static void Op6FM1 (void) { AbsoluteLong (READ, ADC8); } static void Op6FM0 (void) { AbsoluteLong (READ, ADC16); } static void Op7FM1 (void) { AbsoluteLongIndexedX (READ, ADC8); } static void Op7FM0 (void) { AbsoluteLongIndexedX (READ, ADC16); } static void Op63M1 (void) { StackRelative (READ, ADC8); } static void Op63M0 (void) { StackRelative (READ, ADC16); } static void Op73M1 (void) { StackRelativeIndirectIndexed (READ, ADC8); } static void Op73M0 (void) { StackRelativeIndirectIndexed (READ, ADC16); } /**********************************************************************************************/ /* AND *************************************************************************************** */ static void Op29M1 (void) { Registers.AL &= *CPU.PC++; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif SetZN8 (Registers.AL); } static void Op29M0 (void) { #ifdef FAST_LSB_WORD_ACCESS Registers.A.W &= *(uint16 *) CPU.PC; #else Registers.A.W &= *CPU.PC + (*(CPU.PC + 1) << 8); #endif CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif SetZN16 (Registers.A.W); } static void Op25M1 (void) { Direct (READ, AND8); } static void Op25M0 (void) { Direct (READ, AND16); } static void Op35M1 (void) { DirectIndexedX (READ, AND8); } static void Op35M0 (void) { DirectIndexedX (READ, AND16); } static void Op32M1 (void) { DirectIndirect (READ, AND8); } static void Op32M0 (void) { DirectIndirect (READ, AND16); } static void Op21M1 (void) { DirectIndexedIndirect (READ, AND8); } static void Op21M0 (void) { DirectIndexedIndirect (READ, AND16); } static void Op31M1 (void) { DirectIndirectIndexed (READ, AND8); } static void Op31M0 (void) { DirectIndirectIndexed (READ, AND16); } static void Op27M1 (void) { DirectIndirectLong (READ, AND8); } static void Op27M0 (void) { DirectIndirectLong (READ, AND16); } static void Op37M1 (void) { DirectIndirectIndexedLong (READ, AND8); } static void Op37M0 (void) { DirectIndirectIndexedLong (READ, AND16); } static void Op2DM1 (void) { Absolute (READ, AND8); } static void Op2DM0 (void) { Absolute (READ, AND16); } static void Op3DM1 (void) { AbsoluteIndexedX (READ, AND8); } static void Op3DM0 (void) { AbsoluteIndexedX (READ, AND16); } static void Op39M1 (void) { AbsoluteIndexedY (READ, AND8); } static void Op39M0 (void) { AbsoluteIndexedY (READ, AND16); } static void Op2FM1 (void) { AbsoluteLong (READ, AND8); } static void Op2FM0 (void) { AbsoluteLong (READ, AND16); } static void Op3FM1 (void) { AbsoluteLongIndexedX (READ, AND8); } static void Op3FM0 (void) { AbsoluteLongIndexedX (READ, AND16); } static void Op23M1 (void) { StackRelative (READ, AND8); } static void Op23M0 (void) { StackRelative (READ, AND16); } static void Op33M1 (void) { StackRelativeIndirectIndexed (READ, AND8); } static void Op33M0 (void) { StackRelativeIndirectIndexed (READ, AND16); } /**********************************************************************************************/ /* ASL *************************************************************************************** */ static void Op0AM1 (void) { A_ASL8 (); } static void Op0AM0 (void) { A_ASL16 (); } static void Op06M1 (void) { Direct (MODIFY, ASL8); } static void Op06M0 (void) { Direct (MODIFY, ASL16); } static void Op16M1 (void) { DirectIndexedX (MODIFY, ASL8); } static void Op16M0 (void) { DirectIndexedX (MODIFY, ASL16); } static void Op0EM1 (void) { Absolute (MODIFY, ASL8); } static void Op0EM0 (void) { Absolute (MODIFY, ASL16); } static void Op1EM1 (void) { AbsoluteIndexedX (MODIFY, ASL8); } static void Op1EM0 (void) { AbsoluteIndexedX (MODIFY, ASL16); } /**********************************************************************************************/ /* BIT *************************************************************************************** */ static void Op89M1 (void) { ICPU._Zero = Registers.AL & *CPU.PC++; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif } static void Op89M0 (void) { #ifdef FAST_LSB_WORD_ACCESS ICPU._Zero = (Registers.A.W & *(uint16 *) CPU.PC) != 0; #else ICPU._Zero = (Registers.A.W & (*CPU.PC + (*(CPU.PC + 1) << 8))) != 0; #endif #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif CPU.PC += 2; } static void Op24M1 (void) { Direct (READ, BIT8); } static void Op24M0 (void) { Direct (READ, BIT16); } static void Op34M1 (void) { DirectIndexedX (READ, BIT8); } static void Op34M0 (void) { DirectIndexedX (READ, BIT16); } static void Op2CM1 (void) { Absolute (READ, BIT8); } static void Op2CM0 (void) { Absolute (READ, BIT16); } static void Op3CM1 (void) { AbsoluteIndexedX (READ, BIT8); } static void Op3CM0 (void) { AbsoluteIndexedX (READ, BIT16); } /**********************************************************************************************/ /* CMP *************************************************************************************** */ static void OpC9M1 (void) { Int32 = (int) Registers.AL - (int) *CPU.PC++; ICPU._Carry = Int32 >= 0; SetZN8 ((uint8) Int32); #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif } static void OpC9M0 (void) { #ifdef FAST_LSB_WORD_ACCESS Int32 = (long) Registers.A.W - (long) *(uint16 *) CPU.PC; #else Int32 = (long) Registers.A.W - (long) (*CPU.PC + (*(CPU.PC + 1) << 8)); #endif ICPU._Carry = Int32 >= 0; SetZN16 ((uint16) Int32); CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif } static void OpC5M1 (void) { Direct (READ, CMP8); } static void OpC5M0 (void) { Direct (READ, CMP16); } static void OpD5M1 (void) { DirectIndexedX (READ, CMP8); } static void OpD5M0 (void) { DirectIndexedX (READ, CMP16); } static void OpD2M1 (void) { DirectIndirect (READ, CMP8); } static void OpD2M0 (void) { DirectIndirect (READ, CMP16); } static void OpC1M1 (void) { DirectIndexedIndirect (READ, CMP8); } static void OpC1M0 (void) { DirectIndexedIndirect (READ, CMP16); } static void OpD1M1 (void) { DirectIndirectIndexed (READ, CMP8); } static void OpD1M0 (void) { DirectIndirectIndexed (READ, CMP16); } static void OpC7M1 (void) { DirectIndirectLong (READ, CMP8); } static void OpC7M0 (void) { DirectIndirectLong (READ, CMP16); } static void OpD7M1 (void) { DirectIndirectIndexedLong (READ, CMP8); } static void OpD7M0 (void) { DirectIndirectIndexedLong (READ, CMP16); } static void OpCDM1 (void) { Absolute (READ, CMP8); } static void OpCDM0 (void) { Absolute (READ, CMP16); } static void OpDDM1 (void) { AbsoluteIndexedX (READ, CMP8); } static void OpDDM0 (void) { AbsoluteIndexedX (READ, CMP16); } static void OpD9M1 (void) { AbsoluteIndexedY (READ, CMP8); } static void OpD9M0 (void) { AbsoluteIndexedY (READ, CMP16); } static void OpCFM1 (void) { AbsoluteLong (READ, CMP8); } static void OpCFM0 (void) { AbsoluteLong (READ, CMP16); } static void OpDFM1 (void) { AbsoluteLongIndexedX (READ, CMP8); } static void OpDFM0 (void) { AbsoluteLongIndexedX (READ, CMP16); } static void OpC3M1 (void) { StackRelative (READ, CMP8); } static void OpC3M0 (void) { StackRelative (READ, CMP16); } static void OpD3M1 (void) { StackRelativeIndirectIndexed (READ, CMP8); } static void OpD3M0 (void) { StackRelativeIndirectIndexed (READ, CMP16); } /**********************************************************************************************/ /* CMX *************************************************************************************** */ static void OpE0X1 (void) { Int32 = (int) Registers.XL - (int) *CPU.PC++; ICPU._Carry = Int32 >= 0; SetZN8 ((uint8) Int32); #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif } static void OpE0X0 (void) { #ifdef FAST_LSB_WORD_ACCESS Int32 = (long) Registers.X.W - (long) *(uint16 *) CPU.PC; #else Int32 = (long) Registers.X.W - (long) (*CPU.PC + (*(CPU.PC + 1) << 8)); #endif ICPU._Carry = Int32 >= 0; SetZN16 ((uint16) Int32); CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif } static void OpE4X1 (void) { Direct (READ, CMX8); } static void OpE4X0 (void) { Direct (READ, CMX16); } static void OpECX1 (void) { Absolute (READ, CMX8); } static void OpECX0 (void) { Absolute (READ, CMX16); } /**********************************************************************************************/ /* CMY *************************************************************************************** */ static void OpC0X1 (void) { Int32 = (int) Registers.YL - (int) *CPU.PC++; ICPU._Carry = Int32 >= 0; SetZN8 ((uint8) Int32); #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif } static void OpC0X0 (void) { #ifdef FAST_LSB_WORD_ACCESS Int32 = (long) Registers.Y.W - (long) *(uint16 *) CPU.PC; #else Int32 = (long) Registers.Y.W - (long) (*CPU.PC + (*(CPU.PC + 1) << 8)); #endif ICPU._Carry = Int32 >= 0; SetZN16 ((uint16) Int32); CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif } static void OpC4X1 (void) { Direct (READ, CMY8); } static void OpC4X0 (void) { Direct (READ, CMY16); } static void OpCCX1 (void) { Absolute (READ, CMY8); } static void OpCCX0 (void) { Absolute (READ, CMY16); } /**********************************************************************************************/ /* DEC *************************************************************************************** */ static void Op3AM1 (void) { A_DEC8 (); } static void Op3AM0 (void) { A_DEC16 (); } static void OpC6M1 (void) { Direct (MODIFY, DEC8); } static void OpC6M0 (void) { Direct (MODIFY, DEC16); } static void OpD6M1 (void) { DirectIndexedX (MODIFY, DEC8); } static void OpD6M0 (void) { DirectIndexedX (MODIFY, DEC16); } static void OpCEM1 (void) { Absolute (MODIFY, DEC8); } static void OpCEM0 (void) { Absolute (MODIFY, DEC16); } static void OpDEM1 (void) { AbsoluteIndexedX (MODIFY, DEC8); } static void OpDEM0 (void) { AbsoluteIndexedX (MODIFY, DEC16); } /**********************************************************************************************/ /* EOR *************************************************************************************** */ static void Op49M1 (void) { Registers.AL ^= *CPU.PC++; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif SetZN8 (Registers.AL); } static void Op49M0 (void) { #ifdef FAST_LSB_WORD_ACCESS Registers.A.W ^= *(uint16 *) CPU.PC; #else Registers.A.W ^= *CPU.PC + (*(CPU.PC + 1) << 8); #endif CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif SetZN16 (Registers.A.W); } static void Op45M1 (void) { Direct (READ, EOR8); } static void Op45M0 (void) { Direct (READ, EOR16); } static void Op55M1 (void) { DirectIndexedX (READ, EOR8); } static void Op55M0 (void) { DirectIndexedX (READ, EOR16); } static void Op52M1 (void) { DirectIndirect (READ, EOR8); } static void Op52M0 (void) { DirectIndirect (READ, EOR16); } static void Op41M1 (void) { DirectIndexedIndirect (READ, EOR8); } static void Op41M0 (void) { DirectIndexedIndirect (READ, EOR16); } static void Op51M1 (void) { DirectIndirectIndexed (READ, EOR8); } static void Op51M0 (void) { DirectIndirectIndexed (READ, EOR16); } static void Op47M1 (void) { DirectIndirectLong (READ, EOR8); } static void Op47M0 (void) { DirectIndirectLong (READ, EOR16); } static void Op57M1 (void) { DirectIndirectIndexedLong (READ, EOR8); } static void Op57M0 (void) { DirectIndirectIndexedLong (READ, EOR16); } static void Op4DM1 (void) { Absolute (READ, EOR8); } static void Op4DM0 (void) { Absolute (READ, EOR16); } static void Op5DM1 (void) { AbsoluteIndexedX (READ, EOR8); } static void Op5DM0 (void) { AbsoluteIndexedX (READ, EOR16); } static void Op59M1 (void) { AbsoluteIndexedY (READ, EOR8); } static void Op59M0 (void) { AbsoluteIndexedY (READ, EOR16); } static void Op4FM1 (void) { AbsoluteLong (READ, EOR8); } static void Op4FM0 (void) { AbsoluteLong (READ, EOR16); } static void Op5FM1 (void) { AbsoluteLongIndexedX (READ, EOR8); } static void Op5FM0 (void) { AbsoluteLongIndexedX (READ, EOR16); } static void Op43M1 (void) { StackRelative (READ, EOR8); } static void Op43M0 (void) { StackRelative (READ, EOR16); } static void Op53M1 (void) { StackRelativeIndirectIndexed (READ, EOR8); } static void Op53M0 (void) { StackRelativeIndirectIndexed (READ, EOR16); } /**********************************************************************************************/ /* INC *************************************************************************************** */ static void Op1AM1 (void) { A_INC8 (); } static void Op1AM0 (void) { A_INC16 (); } static void OpE6M1 (void) { Direct (MODIFY, INC8); } static void OpE6M0 (void) { Direct (MODIFY, INC16); } static void OpF6M1 (void) { DirectIndexedX (MODIFY, INC8); } static void OpF6M0 (void) { DirectIndexedX (MODIFY, INC16); } static void OpEEM1 (void) { Absolute (MODIFY, INC8); } static void OpEEM0 (void) { Absolute (MODIFY, INC16); } static void OpFEM1 (void) { AbsoluteIndexedX (MODIFY, INC8); } static void OpFEM0 (void) { AbsoluteIndexedX (MODIFY, INC16); } /**********************************************************************************************/ /* LDA *************************************************************************************** */ static void OpA9M1 (void) { Registers.AL = *CPU.PC++; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif SetZN8 (Registers.AL); } static void OpA9M0 (void) { #ifdef FAST_LSB_WORD_ACCESS Registers.A.W = *(uint16 *) CPU.PC; #else Registers.A.W = *CPU.PC + (*(CPU.PC + 1) << 8); #endif CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif SetZN16 (Registers.A.W); } static void OpA5M1 (void) { Direct (READ, LDA8); } static void OpA5M0 (void) { Direct (READ, LDA16); } static void OpB5M1 (void) { DirectIndexedX (READ, LDA8); } static void OpB5M0 (void) { DirectIndexedX (READ, LDA16); } static void OpB2M1 (void) { DirectIndirect (READ, LDA8); } static void OpB2M0 (void) { DirectIndirect (READ, LDA16); } static void OpA1M1 (void) { DirectIndexedIndirect (READ, LDA8); } static void OpA1M0 (void) { DirectIndexedIndirect (READ, LDA16); } static void OpB1M1 (void) { DirectIndirectIndexed (READ, LDA8); } static void OpB1M0 (void) { DirectIndirectIndexed (READ, LDA16); } static void OpA7M1 (void) { DirectIndirectLong (READ, LDA8); } static void OpA7M0 (void) { DirectIndirectLong (READ, LDA16); } static void OpB7M1 (void) { DirectIndirectIndexedLong (READ, LDA8); } static void OpB7M0 (void) { DirectIndirectIndexedLong (READ, LDA16); } static void OpADM1 (void) { Absolute (READ, LDA8); } static void OpADM0 (void) { Absolute (READ, LDA16); } static void OpBDM1 (void) { AbsoluteIndexedX (READ, LDA8); } static void OpBDM0 (void) { AbsoluteIndexedX (READ, LDA16); } static void OpB9M1 (void) { AbsoluteIndexedY (READ, LDA8); } static void OpB9M0 (void) { AbsoluteIndexedY (READ, LDA16); } static void OpAFM1 (void) { AbsoluteLong (READ, LDA8); } static void OpAFM0 (void) { AbsoluteLong (READ, LDA16); } static void OpBFM1 (void) { AbsoluteLongIndexedX (READ, LDA8); } static void OpBFM0 (void) { AbsoluteLongIndexedX (READ, LDA16); } static void OpA3M1 (void) { StackRelative (READ, LDA8); } static void OpA3M0 (void) { StackRelative (READ, LDA16); } static void OpB3M1 (void) { StackRelativeIndirectIndexed (READ, LDA8); } static void OpB3M0 (void) { StackRelativeIndirectIndexed (READ, LDA16); } /**********************************************************************************************/ /* LDX *************************************************************************************** */ static void OpA2X1 (void) { Registers.XL = *CPU.PC++; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif SetZN8 (Registers.XL); } static void OpA2X0 (void) { #ifdef FAST_LSB_WORD_ACCESS Registers.X.W = *(uint16 *) CPU.PC; #else Registers.X.W = *CPU.PC + (*(CPU.PC + 1) << 8); #endif CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif SetZN16 (Registers.X.W); } static void OpA6X1 (void) { Direct (READ, LDX8); } static void OpA6X0 (void) { Direct (READ, LDX16); } static void OpB6X1 (void) { DirectIndexedY (READ, LDX8); } static void OpB6X0 (void) { DirectIndexedY (READ, LDX16); } static void OpAEX1 (void) { Absolute (READ, LDX8); } static void OpAEX0 (void) { Absolute (READ, LDX16); } static void OpBEX1 (void) { AbsoluteIndexedY (READ, LDX8); } static void OpBEX0 (void) { AbsoluteIndexedY (READ, LDX16); } /**********************************************************************************************/ /* LDY *************************************************************************************** */ static void OpA0X1 (void) { Registers.YL = *CPU.PC++; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif SetZN8 (Registers.YL); } static void OpA0X0 (void) { #ifdef FAST_LSB_WORD_ACCESS Registers.Y.W = *(uint16 *) CPU.PC; #else Registers.Y.W = *CPU.PC + (*(CPU.PC + 1) << 8); #endif CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif SetZN16 (Registers.Y.W); } static void OpA4X1 (void) { Direct (READ, LDY8); } static void OpA4X0 (void) { Direct (READ, LDY16); } static void OpB4X1 (void) { DirectIndexedX (READ, LDY8); } static void OpB4X0 (void) { DirectIndexedX (READ, LDY16); } static void OpACX1 (void) { Absolute (READ, LDY8); } static void OpACX0 (void) { Absolute (READ, LDY16); } static void OpBCX1 (void) { AbsoluteIndexedX (READ, LDY8); } static void OpBCX0 (void) { AbsoluteIndexedX (READ, LDY16); } /**********************************************************************************************/ /* LSR *************************************************************************************** */ static void Op4AM1 (void) { A_LSR8 (); } static void Op4AM0 (void) { A_LSR16 (); } static void Op46M1 (void) { Direct (MODIFY, LSR8); } static void Op46M0 (void) { Direct (MODIFY, LSR16); } static void Op56M1 (void) { DirectIndexedX (MODIFY, LSR8); } static void Op56M0 (void) { DirectIndexedX (MODIFY, LSR16); } static void Op4EM1 (void) { Absolute (MODIFY, LSR8); } static void Op4EM0 (void) { Absolute (MODIFY, LSR16); } static void Op5EM1 (void) { AbsoluteIndexedX (MODIFY, LSR8); } static void Op5EM0 (void) { AbsoluteIndexedX (MODIFY, LSR16); } /**********************************************************************************************/ /* ORA *************************************************************************************** */ static void Op09M1 (void) { Registers.AL |= *CPU.PC++; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed; #endif SetZN8 (Registers.AL); } static void Op09M0 (void) { #ifdef FAST_LSB_WORD_ACCESS Registers.A.W |= *(uint16 *) CPU.PC; #else Registers.A.W |= *CPU.PC + (*(CPU.PC + 1) << 8); #endif CPU.PC += 2; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2; #endif SetZN16 (Registers.A.W); } static void Op05M1 (void) { Direct (READ, ORA8); } static void Op05M0 (void) { Direct (READ, ORA16); } static void Op15M1 (void) { DirectIndexedX (READ, ORA8); } static void Op15M0 (void) { DirectIndexedX (READ, ORA16); } static void Op12M1 (void) { DirectIndirect (READ, ORA8); } static void Op12M0 (void) { DirectIndirect (READ, ORA16); } static void Op01M1 (void) { DirectIndexedIndirect (READ, ORA8); } static void Op01M0 (void) { DirectIndexedIndirect (READ, ORA16); } static void Op11M1 (void) { DirectIndirectIndexed (READ, ORA8); } static void Op11M0 (void) { DirectIndirectIndexed (READ, ORA16); } static void Op07M1 (void) { DirectIndirectLong (READ, ORA8); } static void Op07M0 (void) { DirectIndirectLong (READ, ORA16); } static void Op17M1 (void) { DirectIndirectIndexedLong (READ, ORA8); } static void Op17M0 (void) { DirectIndirectIndexedLong (READ, ORA16); } static void Op0DM1 (void) { Absolute (READ, ORA8); } static void Op0DM0 (void) { Absolute (READ, ORA16); } static void Op1DM1 (void) { AbsoluteIndexedX (READ, ORA8); } static void Op1DM0 (void) { AbsoluteIndexedX (READ, ORA16); } static void Op19M1 (void) { AbsoluteIndexedY (READ, ORA8); } static void Op19M0 (void) { AbsoluteIndexedY (READ, ORA16); } static void Op0FM1 (void) { AbsoluteLong (READ, ORA8); } static void Op0FM0 (void) { AbsoluteLong (READ, ORA16); } static void Op1FM1 (void) { AbsoluteLongIndexedX (READ, ORA8); } static void Op1FM0 (void) { AbsoluteLongIndexedX (READ, ORA16); } static void Op03M1 (void) { StackRelative (READ, ORA8); } static void Op03M0 (void) { StackRelative (READ, ORA16); } static void Op13M1 (void) { StackRelativeIndirectIndexed (READ, ORA8); } static void Op13M0 (void) { StackRelativeIndirectIndexed (READ, ORA16); } /**********************************************************************************************/ /* ROL *************************************************************************************** */ static void Op2AM1 (void) { A_ROL8 (); } static void Op2AM0 (void) { A_ROL16 (); } static void Op26M1 (void) { Direct (MODIFY, ROL8); } static void Op26M0 (void) { Direct (MODIFY, ROL16); } static void Op36M1 (void) { DirectIndexedX (MODIFY, ROL8); } static void Op36M0 (void) { DirectIndexedX (MODIFY, ROL16); } static void Op2EM1 (void) { Absolute (MODIFY, ROL8); } static void Op2EM0 (void) { Absolute (MODIFY, ROL16); } static void Op3EM1 (void) { AbsoluteIndexedX (MODIFY, ROL8); } static void Op3EM0 (void) { AbsoluteIndexedX (MODIFY, ROL16); } /**********************************************************************************************/ /* ROR *************************************************************************************** */ static void Op6AM1 (void) { A_ROR8 (); } static void Op6AM0 (void) { A_ROR16 (); } static void Op66M1 (void) { Direct (MODIFY, ROR8); } static void Op66M0 (void) { Direct (MODIFY, ROR16); } static void Op76M1 (void) { DirectIndexedX (MODIFY, ROR8); } static void Op76M0 (void) { DirectIndexedX (MODIFY, ROR16); } static void Op6EM1 (void) { Absolute (MODIFY, ROR8); } static void Op6EM0 (void) { Absolute (MODIFY, ROR16); } static void Op7EM1 (void) { AbsoluteIndexedX (MODIFY, ROR8); } static void Op7EM0 (void) { AbsoluteIndexedX (MODIFY, ROR16); } /**********************************************************************************************/ /* SBC *************************************************************************************** */ static void OpE9M1 (void) { Immediate8 (READ, SBC8); } static void OpE9M0 (void) { Immediate16 (READ, SBC16); } static void OpE5M1 (void) { Direct (READ, SBC8); } static void OpE5M0 (void) { Direct (READ, SBC16); } static void OpF5M1 (void) { DirectIndexedX (READ, SBC8); } static void OpF5M0 (void) { DirectIndexedX (READ, SBC16); } static void OpF2M1 (void) { DirectIndirect (READ, SBC8); } static void OpF2M0 (void) { DirectIndirect (READ, SBC16); } static void OpE1M1 (void) { DirectIndexedIndirect (READ, SBC8); } static void OpE1M0 (void) { DirectIndexedIndirect (READ, SBC16); } static void OpF1M1 (void) { DirectIndirectIndexed (READ, SBC8); } static void OpF1M0 (void) { DirectIndirectIndexed (READ, SBC16); } static void OpE7M1 (void) { DirectIndirectLong (READ, SBC8); } static void OpE7M0 (void) { DirectIndirectLong (READ, SBC16); } static void OpF7M1 (void) { DirectIndirectIndexedLong (READ, SBC8); } static void OpF7M0 (void) { DirectIndirectIndexedLong (READ, SBC16); } static void OpEDM1 (void) { Absolute (READ, SBC8); } static void OpEDM0 (void) { Absolute (READ, SBC16); } static void OpFDM1 (void) { AbsoluteIndexedX (READ, SBC8); } static void OpFDM0 (void) { AbsoluteIndexedX (READ, SBC16); } static void OpF9M1 (void) { AbsoluteIndexedY (READ, SBC8); } static void OpF9M0 (void) { AbsoluteIndexedY (READ, SBC16); } static void OpEFM1 (void) { AbsoluteLong (READ, SBC8); } static void OpEFM0 (void) { AbsoluteLong (READ, SBC16); } static void OpFFM1 (void) { AbsoluteLongIndexedX (READ, SBC8); } static void OpFFM0 (void) { AbsoluteLongIndexedX (READ, SBC16); } static void OpE3M1 (void) { StackRelative (READ, SBC8); } static void OpE3M0 (void) { StackRelative (READ, SBC16); } static void OpF3M1 (void) { StackRelativeIndirectIndexed (READ, SBC8); } static void OpF3M0 (void) { StackRelativeIndirectIndexed (READ, SBC16); } /**********************************************************************************************/ /* STA *************************************************************************************** */ static void Op85M1 (void) { Direct (WRITE, STA8); } static void Op85M0 (void) { Direct (WRITE, STA16); } static void Op95M1 (void) { DirectIndexedX (WRITE, STA8); } static void Op95M0 (void) { DirectIndexedX (WRITE, STA16); } static void Op92M1 (void) { DirectIndirect (WRITE, STA8); } static void Op92M0 (void) { DirectIndirect (WRITE, STA16); } static void Op81M1 (void) { DirectIndexedIndirect (WRITE, STA8); #ifdef noVAR_CYCLES if (CheckIndex ()) CPU.Cycles += ONE_CYCLE; #endif } static void Op81M0 (void) { DirectIndexedIndirect (WRITE, STA16); #ifdef noVAR_CYCLES if (CheckIndex ()) CPU.Cycles += ONE_CYCLE; #endif } static void Op91M1 (void) { DirectIndirectIndexed (WRITE, STA8); } static void Op91M0 (void) { DirectIndirectIndexed (WRITE, STA16); } static void Op87M1 (void) { DirectIndirectLong (WRITE, STA8); } static void Op87M0 (void) { DirectIndirectLong (WRITE, STA16); } static void Op97M1 (void) { DirectIndirectIndexedLong (WRITE, STA8); } static void Op97M0 (void) { DirectIndirectIndexedLong (WRITE, STA16); } static void Op8DM1 (void) { Absolute (WRITE, STA8); } static void Op8DM0 (void) { Absolute (WRITE, STA16); } static void Op9DM1 (void) { AbsoluteIndexedX (WRITE, STA8); } static void Op9DM0 (void) { AbsoluteIndexedX (WRITE, STA16); } static void Op99M1 (void) { AbsoluteIndexedY (WRITE, STA8); } static void Op99M0 (void) { AbsoluteIndexedY (WRITE, STA16); } static void Op8FM1 (void) { AbsoluteLong (WRITE, STA8); } static void Op8FM0 (void) { AbsoluteLong (WRITE, STA16); } static void Op9FM1 (void) { AbsoluteLongIndexedX (WRITE, STA8); } static void Op9FM0 (void) { AbsoluteLongIndexedX (WRITE, STA16); } static void Op83M1 (void) { StackRelative (WRITE, STA8); } static void Op83M0 (void) { StackRelative (WRITE, STA16); } static void Op93M1 (void) { StackRelativeIndirectIndexed (WRITE, STA8); } static void Op93M0 (void) { StackRelativeIndirectIndexed (WRITE, STA16); } /**********************************************************************************************/ /* STX *************************************************************************************** */ static void Op86X1 (void) { Direct (WRITE, STX8); } static void Op86X0 (void) { Direct (WRITE, STX16); } static void Op96X1 (void) { DirectIndexedY (WRITE, STX8); } static void Op96X0 (void) { DirectIndexedY (WRITE, STX16); } static void Op8EX1 (void) { Absolute (WRITE, STX8); } static void Op8EX0 (void) { Absolute (WRITE, STX16); } /**********************************************************************************************/ /* STY *************************************************************************************** */ static void Op84X1 (void) { Direct (WRITE, STY8); } static void Op84X0 (void) { Direct (WRITE, STY16); } static void Op94X1 (void) { DirectIndexedX (WRITE, STY8); } static void Op94X0 (void) { DirectIndexedX (WRITE, STY16); } static void Op8CX1 (void) { Absolute (WRITE, STY8); } static void Op8CX0 (void) { Absolute (WRITE, STY16); } /**********************************************************************************************/ /* STZ *************************************************************************************** */ static void Op64M1 (void) { Direct (WRITE, STZ8); } static void Op64M0 (void) { Direct (WRITE, STZ16); } static void Op74M1 (void) { DirectIndexedX (WRITE, STZ8); } static void Op74M0 (void) { DirectIndexedX (WRITE, STZ16); } static void Op9CM1 (void) { Absolute (WRITE, STZ8); } static void Op9CM0 (void) { Absolute (WRITE, STZ16); } static void Op9EM1 (void) { AbsoluteIndexedX (WRITE, STZ8); } static void Op9EM0 (void) { AbsoluteIndexedX (WRITE, STZ16); } /**********************************************************************************************/ /* TRB *************************************************************************************** */ static void Op14M1 (void) { Direct (MODIFY, TRB8); } static void Op14M0 (void) { Direct (MODIFY, TRB16); } static void Op1CM1 (void) { Absolute (MODIFY, TRB8); } static void Op1CM0 (void) { Absolute (MODIFY, TRB16); } /**********************************************************************************************/ /* TSB *************************************************************************************** */ static void Op04M1 (void) { Direct (MODIFY, TSB8); } static void Op04M0 (void) { Direct (MODIFY, TSB16); } static void Op0CM1 (void) { Absolute (MODIFY, TSB8); } static void Op0CM0 (void) { Absolute (MODIFY, TSB16); } /**********************************************************************************************/ /* Branch Instructions *********************************************************************** */ #ifndef SA1_OPCODES #define BranchCheck0()\ if( CPU.BranchSkip)\ {\ CPU.BranchSkip = FALSE;\ if (!Settings.SoundSkipMethod)\ if( CPU.PC - CPU.PCBase > OpAddress)\ return;\ } #define BranchCheck1()\ if( CPU.BranchSkip)\ {\ CPU.BranchSkip = FALSE;\ if (!Settings.SoundSkipMethod) {\ if( CPU.PC - CPU.PCBase > OpAddress)\ return;\ } else \ if (Settings.SoundSkipMethod == 1)\ return;\ if (Settings.SoundSkipMethod == 3)\ if( CPU.PC - CPU.PCBase > OpAddress)\ return;\ else\ CPU.PC = CPU.PCBase + OpAddress;\ } #define BranchCheck2()\ if( CPU.BranchSkip)\ {\ CPU.BranchSkip = FALSE;\ if (!Settings.SoundSkipMethod) {\ if( CPU.PC - CPU.PCBase > OpAddress)\ return;\ } else \ if (Settings.SoundSkipMethod == 1)\ CPU.PC = CPU.PCBase + OpAddress;\ if (Settings.SoundSkipMethod == 3)\ if (CPU.PC - CPU.PCBase > OpAddress)\ return;\ else\ CPU.PC = CPU.PCBase + OpAddress;\ } #else #define BranchCheck0() #define BranchCheck1() #define BranchCheck2() #endif #ifdef CPU_SHUTDOWN #ifndef SA1_OPCODES inline void CPUShutdown() { if (Settings.Shutdown && CPU.PC == CPU.WaitAddress) { // Don't skip cycles with a pending NMI or IRQ - could cause delayed // interrupt. Interrupts are delayed for a few cycles already, but // the delay could allow the shutdown code to cycle skip again. // Was causing screen flashing on Top Gear 3000. if (CPU.WaitCounter == 0 && !(CPU.Flags & (IRQ_PENDING_FLAG | NMI_FLAG))) { CPU.WaitAddress = NULL; if (Settings.SA1) S9xSA1ExecuteDuringSleep (); CPU.Cycles = CPU.NextEvent; if (IAPU.APUExecuting) { ICPU.CPUExecuting = FALSE; do { APU_EXECUTE1(); } while (APU.Cycles < CPU.NextEvent); ICPU.CPUExecuting = TRUE; } } else if (CPU.WaitCounter >= 2) CPU.WaitCounter = 1; else CPU.WaitCounter--; } } #else inline void CPUShutdown() { if (Settings.Shutdown && CPU.PC == CPU.WaitAddress) { if (CPU.WaitCounter >= 1) { SA1.Executing = FALSE; SA1.CPUExecuting = FALSE; } else CPU.WaitCounter++; } } #endif #else #define CPUShutdown() #endif /* BCC */ static void Op90 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck0 (); if (!CheckCarry ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown(); } } /* BCS */ static void OpB0 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck0 (); if (CheckCarry ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } } /* BEQ */ static void OpF0 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck2 (); if (CheckZero ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } } /* BMI */ static void Op30 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck1 (); if (CheckNegative ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } } /* BNE */ static void OpD0 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck1 (); if (!CheckZero ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } } /* BPL */ static void Op10 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck1 (); if (!CheckNegative ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } } /* BRA */ static void Op80 (void) { Relative (JUMP, OpAddressPassthrough); CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } /* BVC */ static void Op50 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck0 (); if (!CheckOverflow ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } } /* BVS */ static void Op70 (void) { Relative (JUMP, OpAddressPassthrough); BranchCheck0 (); if (CheckOverflow ()) { CPU.PC = CPU.PCBase + OpAddress; #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif CPUShutdown (); } } /**********************************************************************************************/ /* ClearFlag Instructions ******************************************************************** */ /* CLC */ static void Op18 (void) { ClearCarry (); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /* CLD */ static void OpD8 (void) { ClearDecimal (); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /* CLI */ static void Op58 (void) { ClearIRQ (); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif /* CHECK_FOR_IRQ(); */ } /* CLV */ static void OpB8 (void) { ClearOverflow (); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /**********************************************************************************************/ /* DEX/DEY *********************************************************************************** */ static void OpCAX1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.XL--; SetZN8 (Registers.XL); } static void OpCAX0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.X.W--; SetZN16 (Registers.X.W); } static void Op88X1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.YL--; SetZN8 (Registers.YL); } static void Op88X0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.Y.W--; SetZN16 (Registers.Y.W); } /**********************************************************************************************/ /* INX/INY *********************************************************************************** */ static void OpE8X1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.XL++; SetZN8 (Registers.XL); } static void OpE8X0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.X.W++; SetZN16 (Registers.X.W); } static void OpC8X1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.YL++; SetZN8 (Registers.YL); } static void OpC8X0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif #ifdef CPU_SHUTDOWN CPU.WaitAddress = NULL; #endif Registers.Y.W++; SetZN16 (Registers.Y.W); } /**********************************************************************************************/ /* NOP *************************************************************************************** */ static void OpEA (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /**********************************************************************************************/ /* PUSH Instructions ************************************************************************* */ /* #define PushW(w) \ * S9xSetWord (w, Registers.S.W - 1);\ * Registers.S.W -= 2; */ #define PushB(b)\ S9xSetByte (b, Registers.S.W--); #define PushBE(b)\ S9xSetByte (b, Registers.S.W--);\ Registers.SH=0x01; #define PushW(w) \ S9xSetByte ((w)>>8, Registers.S.W);\ S9xSetByte ((w)&0xff, (Registers.S.W - 1)&0xFFFF);\ Registers.S.W -= 2; #define PushWE(w) \ S9xSetByte ((w)>>8, Registers.S.W--);\ Registers.SH=0x01;\ S9xSetByte ((w)&0xff, (Registers.S.W--)&0xFFFF);\ Registers.SH = 0x01; #define PushWENew(w) \ S9xSetByte ((w)>>8, Registers.S.W--);\ S9xSetByte ((w)&0xff, (Registers.S.W--)&0xFFFF);\ Registers.SH = 0x01; //PEA NL static void OpF4E1 (void) { Absolute (NONE, OpAddressPassthrough); PushWENew ((unsigned short)OpAddress); } static void OpF4 (void) { Absolute (NONE, OpAddressPassthrough); PushW ((unsigned short)OpAddress); } //PEI NL static void OpD4E1 (void) { DirectIndirect (NONE, OpAddressPassthrough); PushWENew ((unsigned short)OpAddress); } static void OpD4 (void) { DirectIndirect (NONE, OpAddressPassthrough); PushW ((unsigned short)OpAddress); } //PER NL static void Op62E1 (void) { RelativeLong (NONE, OpAddressPassthrough); PushWENew ((unsigned short)OpAddress); } static void Op62 (void) { RelativeLong (NONE, OpAddressPassthrough); PushW ((unsigned short)OpAddress); } //PHA static void Op48E1 (void) { PushBE (Registers.AL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op48M1 (void) { PushB (Registers.AL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op48M0 (void) { PushW (Registers.A.W); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } //PHB static void Op8BE1 (void) { PushBE (Registers.DB); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op8B (void) { PushB (Registers.DB); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } //PHD NL static void Op0BE1 (void) { PushWENew (Registers.D.W); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op0B (void) { PushW (Registers.D.W); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } //PHK static void Op4BE1 (void) { PushBE (Registers.PB); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op4B (void) { PushB (Registers.PB); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } //PHP static void Op08E1 (void) { S9xPackStatus (); PushBE (Registers.PL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op08 (void) { S9xPackStatus (); PushB (Registers.PL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } //PHX static void OpDAE1 (void) { PushBE (Registers.XL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void OpDAX1 (void) { PushB (Registers.XL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void OpDAX0 (void) { PushW (Registers.X.W); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } //PHY static void Op5AE1 (void) { PushBE (Registers.YL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op5AX1 (void) { PushB (Registers.YL); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op5AX0 (void) { PushW (Registers.Y.W); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /**********************************************************************************************/ /* PULL Instructions ************************************************************************* */ #define PullW(w) \ w = S9xGetByte (++Registers.S.W); \ w |= (S9xGetByte (++Registers.S.W)<<8); /* w = S9xGetWord (Registers.S.W + 1); \ Registers.S.W += 2; */ #define PullB(b)\ b = S9xGetByte (++Registers.S.W); #define PullBE(b)\ Registers.S.W++;\ Registers.SH=0x01;\ b = S9xGetByte (Registers.S.W); #define PullWE(w) \ Registers.S.W++;\ Registers.SH=0x01;\ w = S9xGetByte (Registers.S.W); \ Registers.S.W++; \ Registers.SH=0x01;\ w |= (S9xGetByte (Registers.S.W)<<8); #define PullWENew(w) \ PullW(w);\ Registers.SH=0x01; //PLA static void Op68E1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullBE (Registers.AL); SetZN8 (Registers.AL); } static void Op68M1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullB (Registers.AL); SetZN8 (Registers.AL); } static void Op68M0 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullW (Registers.A.W); SetZN16 (Registers.A.W); } //PLB static void OpABE1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullBE (Registers.DB); SetZN8 (Registers.DB); ICPU.ShiftedDB = Registers.DB << 16; } static void OpAB (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullB (Registers.DB); SetZN8 (Registers.DB); ICPU.ShiftedDB = Registers.DB << 16; } /* PHP */ //PLD NL static void Op2BE1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullWENew (Registers.D.W); SetZN16 (Registers.D.W); } static void Op2B (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullW (Registers.D.W); SetZN16 (Registers.D.W); } /* PLP */ static void Op28E1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullBE (Registers.PL); S9xUnpackStatus (); if (CheckIndex ()) { Registers.XH = 0; Registers.YH = 0; } S9xFixCycles(); /* CHECK_FOR_IRQ();*/ } static void Op28 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullB (Registers.PL); S9xUnpackStatus (); if (CheckIndex ()) { Registers.XH = 0; Registers.YH = 0; } S9xFixCycles(); /* CHECK_FOR_IRQ();*/ } //PLX static void OpFAE1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullBE (Registers.XL); SetZN8 (Registers.XL); } static void OpFAX1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullB (Registers.XL); SetZN8 (Registers.XL); } static void OpFAX0 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullW (Registers.X.W); SetZN16 (Registers.X.W); } //PLY static void Op7AE1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullBE (Registers.YL); SetZN8 (Registers.YL); } static void Op7AX1 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullB (Registers.YL); SetZN8 (Registers.YL); } static void Op7AX0 (void) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif PullW (Registers.Y.W); SetZN16 (Registers.Y.W); } /**********************************************************************************************/ /* SetFlag Instructions ********************************************************************** */ /* SEC */ static void Op38 (void) { SetCarry (); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /* SED */ static void OpF8 (void) { SetDecimal (); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif missing.decimal_mode = 1; } /* SEI */ static void Op78 (void) { SetIRQ (); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /**********************************************************************************************/ /* Transfer Instructions ********************************************************************* */ /* TAX8 */ static void OpAAX1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.XL = Registers.AL; SetZN8 (Registers.XL); } /* TAX16 */ static void OpAAX0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.X.W = Registers.A.W; SetZN16 (Registers.X.W); } /* TAY8 */ static void OpA8X1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.YL = Registers.AL; SetZN8 (Registers.YL); } /* TAY16 */ static void OpA8X0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.Y.W = Registers.A.W; SetZN16 (Registers.Y.W); } static void Op5B (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.D.W = Registers.A.W; SetZN16 (Registers.D.W); } static void Op1B (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.S.W = Registers.A.W; if (CheckEmulation()) Registers.SH = 1; } static void Op7B (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.A.W = Registers.D.W; SetZN16 (Registers.A.W); } static void Op3B (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.A.W = Registers.S.W; SetZN16 (Registers.A.W); } static void OpBAX1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.XL = Registers.SL; SetZN8 (Registers.XL); } static void OpBAX0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.X.W = Registers.S.W; SetZN16 (Registers.X.W); } static void Op8AM1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.AL = Registers.XL; SetZN8 (Registers.AL); } static void Op8AM0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.A.W = Registers.X.W; SetZN16 (Registers.A.W); } static void Op9A (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.S.W = Registers.X.W; if (CheckEmulation()) Registers.SH = 1; } static void Op9BX1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.YL = Registers.XL; SetZN8 (Registers.YL); } static void Op9BX0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.Y.W = Registers.X.W; SetZN16 (Registers.Y.W); } static void Op98M1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.AL = Registers.YL; SetZN8 (Registers.AL); } static void Op98M0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.A.W = Registers.Y.W; SetZN16 (Registers.A.W); } static void OpBBX1 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.XL = Registers.YL; SetZN8 (Registers.XL); } static void OpBBX0 (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif Registers.X.W = Registers.Y.W; SetZN16 (Registers.X.W); } /**********************************************************************************************/ /* XCE *************************************************************************************** */ static void OpFB (void) { #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif A1 = ICPU._Carry; A2 = Registers.PH; ICPU._Carry = A2 & 1; Registers.PH = A1; if (CheckEmulation()) { SetFlags (MemoryFlag | IndexFlag); Registers.SH = 1; missing.emulate6502 = 1; } if (CheckIndex ()) { Registers.XH = 0; Registers.YH = 0; } S9xFixCycles(); } /**********************************************************************************************/ /* BRK *************************************************************************************** */ static void Op00 (void) { #ifdef DEBUGGER if (CPU.Flags & TRACE_FLAG) S9xTraceMessage ("*** BRK"); #endif #ifndef SA1_OPCODES CPU.BRKTriggered = TRUE; #endif if (!CheckEmulation()) { PushB (Registers.PB); PushW (CPU.PC - CPU.PCBase + 1); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; S9xSetPCBase (S9xGetWord (0xFFE6)); #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } else { PushW (CPU.PC - CPU.PCBase); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; S9xSetPCBase (S9xGetWord (0xFFFE)); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } } /**********************************************************************************************/ /* BRL ************************************************************************************** */ static void Op82 (void) { RelativeLong (JUMP, OpAddressPassthrough); S9xSetPCBase (ICPU.ShiftedPB + OpAddress); } /**********************************************************************************************/ /* IRQ *************************************************************************************** */ void S9xOpcode_IRQ (void) { #ifdef DEBUGGER if (CPU.Flags & TRACE_FLAG) S9xTraceMessage ("*** IRQ"); #endif if (!CheckEmulation()) { PushB (Registers.PB); PushW (CPU.PC - CPU.PCBase); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; #ifdef SA1_OPCODES S9xSA1SetPCBase (Memory.FillRAM [0x2207] | (Memory.FillRAM [0x2208] << 8)); #else if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x40)) S9xSetPCBase (Memory.FillRAM [0x220e] | (Memory.FillRAM [0x220f] << 8)); else S9xSetPCBase (S9xGetWord (0xFFEE)); #endif #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } else { PushW (CPU.PC - CPU.PCBase); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; #ifdef SA1_OPCODES S9xSA1SetPCBase (Memory.FillRAM [0x2207] | (Memory.FillRAM [0x2208] << 8)); #else if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x40)) S9xSetPCBase (Memory.FillRAM [0x220e] | (Memory.FillRAM [0x220f] << 8)); else S9xSetPCBase (S9xGetWord (0xFFFE)); #endif #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } } /**********************************************************************************************/ /* NMI *************************************************************************************** */ void S9xOpcode_NMI (void) { #ifdef DEBUGGER if (CPU.Flags & TRACE_FLAG) S9xTraceMessage ("*** NMI"); #endif if (!CheckEmulation()) { PushB (Registers.PB); PushW (CPU.PC - CPU.PCBase); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; #ifdef SA1_OPCODES S9xSA1SetPCBase (Memory.FillRAM [0x2205] | (Memory.FillRAM [0x2206] << 8)); #else if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x20)) S9xSetPCBase (Memory.FillRAM [0x220c] | (Memory.FillRAM [0x220d] << 8)); else S9xSetPCBase (S9xGetWord (0xFFEA)); #endif #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } else { PushW (CPU.PC - CPU.PCBase); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; #ifdef SA1_OPCODES S9xSA1SetPCBase (Memory.FillRAM [0x2205] | (Memory.FillRAM [0x2206] << 8)); #else if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x20)) S9xSetPCBase (Memory.FillRAM [0x220c] | (Memory.FillRAM [0x220d] << 8)); else S9xSetPCBase (S9xGetWord (0xFFFA)); #endif #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } } /**********************************************************************************************/ /* COP *************************************************************************************** */ static void Op02 (void) { #ifdef DEBUGGER if (CPU.Flags & TRACE_FLAG) S9xTraceMessage ("*** COP"); #endif if (!CheckEmulation()) { PushB (Registers.PB); PushW (CPU.PC - CPU.PCBase + 1); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; S9xSetPCBase (S9xGetWord (0xFFE4)); #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } else { PushW (CPU.PC - CPU.PCBase); S9xPackStatus (); PushB (Registers.PL); #ifndef NO_OPEN_BUS OpenBus = Registers.PL; #endif ClearDecimal (); SetIRQ (); Registers.PB = 0; ICPU.ShiftedPB = 0; S9xSetPCBase (S9xGetWord (0xFFF4)); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } } /**********************************************************************************************/ /* JML *************************************************************************************** */ static void OpDC (void) { AbsoluteIndirectLong (JUMP, OpAddressPassthrough); Registers.PB = (uint8) (OpAddress >> 16); ICPU.ShiftedPB = OpAddress & 0xff0000; S9xSetPCBase (OpAddress); #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } static void Op5C (void) { AbsoluteLong (JUMP, OpAddressPassthrough); Registers.PB = (uint8) (OpAddress >> 16); ICPU.ShiftedPB = OpAddress & 0xff0000; S9xSetPCBase (OpAddress); } /**********************************************************************************************/ /* JMP *************************************************************************************** */ static void Op4C (void) { Absolute (JUMP, OpAddressPassthrough); S9xSetPCBase (ICPU.ShiftedPB + (OpAddress & 0xffff)); #if defined(CPU_SHUTDOWN) && defined(SA1_OPCODES) CPUShutdown (); #endif } static void Op6C (void) { AbsoluteIndirect (JUMP, OpAddressPassthrough); S9xSetPCBase (ICPU.ShiftedPB + (OpAddress & 0xffff)); } static void Op7C (void) { AbsoluteIndexedIndirect (JUMP, OpAddressPassthrough); S9xSetPCBase (ICPU.ShiftedPB + OpAddress); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } /**********************************************************************************************/ /* JSL/RTL *********************************************************************************** */ static void Op22E1 (void) { AbsoluteLong (JUMP, OpAddressPassthrough); PushB (Registers.PB); PushWENew (CPU.PC - CPU.PCBase - 1); Registers.PB = (uint8) (OpAddress >> 16); ICPU.ShiftedPB = OpAddress & 0xff0000; S9xSetPCBase (OpAddress); } static void Op22 (void) { AbsoluteLong (JUMP, OpAddressPassthrough); PushB (Registers.PB); PushW (CPU.PC - CPU.PCBase - 1); Registers.PB = (uint8) (OpAddress >> 16); ICPU.ShiftedPB = OpAddress & 0xff0000; S9xSetPCBase (OpAddress); } static void Op6BE1 (void) { PullWENew (Registers.PC); PullB (Registers.PB); ICPU.ShiftedPB = Registers.PB << 16; S9xSetPCBase (ICPU.ShiftedPB + ((Registers.PC + 1) & 0xffff)); #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } static void Op6B (void) { PullW (Registers.PC); PullB (Registers.PB); ICPU.ShiftedPB = Registers.PB << 16; S9xSetPCBase (ICPU.ShiftedPB + ((Registers.PC + 1) & 0xffff)); #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } /**********************************************************************************************/ /* JSR/RTS *********************************************************************************** */ static void Op20 (void) { Absolute (JUMP, OpAddressPassthrough); PushW (CPU.PC - CPU.PCBase - 1); S9xSetPCBase (ICPU.ShiftedPB + (OpAddress & 0xffff)); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } //JSR a,x static void OpFCE1 (void) { AbsoluteIndexedIndirect (JUMP, OpAddressPassthrough); PushWENew (CPU.PC - CPU.PCBase - 1); S9xSetPCBase (ICPU.ShiftedPB + OpAddress); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void OpFC (void) { AbsoluteIndexedIndirect (JUMP, OpAddressPassthrough); PushW (CPU.PC - CPU.PCBase - 1); S9xSetPCBase (ICPU.ShiftedPB + OpAddress); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE; #endif } static void Op60 (void) { PullW (Registers.PC); S9xSetPCBase (ICPU.ShiftedPB + ((Registers.PC + 1) & 0xffff)); #ifndef SA1_OPCODES CPU.Cycles += ONE_CYCLE * 3; #endif } /**********************************************************************************************/ /* MVN/MVP *********************************************************************************** */ static void Op54X1 (void) { uint32 SrcBank; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES; #endif Registers.DB = *CPU.PC++; ICPU.ShiftedDB = Registers.DB << 16; #ifndef NO_OPEN_BUS OpenBus = #endif SrcBank = *CPU.PC++; S9xSetByte (S9xGetByte ((SrcBank << 16) + Registers.X.W), ICPU.ShiftedDB + Registers.Y.W); Registers.XL++; Registers.YL++; Registers.A.W--; if (Registers.A.W != 0xffff) CPU.PC -= 3; } static void Op54X0 (void) { uint32 SrcBank; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES; #endif Registers.DB = *CPU.PC++; ICPU.ShiftedDB = Registers.DB << 16; #ifndef NO_OPEN_BUS OpenBus = #endif SrcBank = *CPU.PC++; S9xSetByte (S9xGetByte ((SrcBank << 16) + Registers.X.W), ICPU.ShiftedDB + Registers.Y.W); Registers.X.W++; Registers.Y.W++; Registers.A.W--; if (Registers.A.W != 0xffff) CPU.PC -= 3; } static void Op44X1 (void) { uint32 SrcBank; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES; #endif Registers.DB = *CPU.PC++; ICPU.ShiftedDB = Registers.DB << 16; #ifndef NO_OPEN_BUS OpenBus = #endif SrcBank = *CPU.PC++; S9xSetByte (S9xGetByte ((SrcBank << 16) + Registers.X.W), ICPU.ShiftedDB + Registers.Y.W); Registers.XL--; Registers.YL--; Registers.A.W--; if (Registers.A.W != 0xffff) CPU.PC -= 3; } static void Op44X0 (void) { uint32 SrcBank; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES; #endif Registers.DB = *CPU.PC++; ICPU.ShiftedDB = Registers.DB << 16; #ifndef NO_OPEN_BUS OpenBus = #endif SrcBank = *CPU.PC++; S9xSetByte (S9xGetByte ((SrcBank << 16) + Registers.X.W), ICPU.ShiftedDB + Registers.Y.W); Registers.X.W--; Registers.Y.W--; Registers.A.W--; if (Registers.A.W != 0xffff) CPU.PC -= 3; } /**********************************************************************************************/ /* REP/SEP *********************************************************************************** */ static void OpC2 (void) { Work8 = ~*CPU.PC++; Registers.PL &= Work8; ICPU._Carry &= Work8; ICPU._Overflow &= (Work8 >> 6); ICPU._Negative &= Work8; ICPU._Zero |= ~Work8 & Zero; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed + ONE_CYCLE; #endif if (CheckEmulation()) { SetFlags (MemoryFlag | IndexFlag); missing.emulate6502 = 1; } if (CheckIndex ()) { Registers.XH = 0; Registers.YH = 0; } S9xFixCycles(); /* CHECK_FOR_IRQ(); */ } static void OpE2 (void) { Work8 = *CPU.PC++; Registers.PL |= Work8; ICPU._Carry |= Work8 & 1; ICPU._Overflow |= (Work8 >> 6) & 1; ICPU._Negative |= Work8; if (Work8 & Zero) ICPU._Zero = 0; #ifndef SA1_OPCODES CPU.Cycles += CPU.MemSpeed + ONE_CYCLE; #endif if (CheckEmulation()) { SetFlags (MemoryFlag | IndexFlag); missing.emulate6502 = 1; } if (CheckIndex ()) { Registers.XH = 0; Registers.YH = 0; } S9xFixCycles(); } /**********************************************************************************************/ /* XBA *************************************************************************************** */ static void OpEB (void) { Work8 = Registers.AL; Registers.AL = Registers.AH; Registers.AH = Work8; SetZN8 (Registers.AL); #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } /**********************************************************************************************/ /* RTI *************************************************************************************** */ static void Op40 (void) { PullB (Registers.PL); S9xUnpackStatus (); PullW (Registers.PC); if (!CheckEmulation()) { PullB (Registers.PB); ICPU.ShiftedPB = Registers.PB << 16; } else { SetFlags (MemoryFlag | IndexFlag); missing.emulate6502 = 1; } S9xSetPCBase (ICPU.ShiftedPB + Registers.PC); if (CheckIndex ()) { Registers.XH = 0; Registers.YH = 0; } #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif S9xFixCycles(); /* CHECK_FOR_IRQ(); */ } /**********************************************************************************************/ /* STP/WAI/DB ******************************************************************************** */ // WAI static void OpCB (void) { // Ok, let's just C-ify the ASM versions separately. #ifdef SA1_OPCODES SA1.WaitingForInterrupt = TRUE; SA1.PC--; #if 0 // XXX: FIXME if(Settings.Shutdown){ SA1.Cycles = SA1.NextEvent; if (IAPU.APUExecuting) { SA1.Executing = FALSE; do { APU_EXECUTE1 (, } while (APU.Cycles < SA1.NextEvent, SA1.Executing = TRUE; } } #endif #else // SA1_OPCODES #if 0 if (CPU.IRQActive) { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif } else #endif { CPU.WaitingForInterrupt = TRUE; CPU.PC--; #ifdef CPU_SHUTDOWN if (Settings.Shutdown) { CPU.Cycles = CPU.NextEvent; if (IAPU.APUExecuting) { ICPU.CPUExecuting = FALSE; do { APU_EXECUTE1 (); } while (APU.Cycles < CPU.NextEvent); ICPU.CPUExecuting = TRUE; } } else { #ifndef SA1_OPCODES CPU.Cycles += TWO_CYCLES; #endif #endif } } #endif // SA1_OPCODES } // STP static void OpDB (void) { CPU.PC--; CPU.Flags |= DEBUG_MODE_FLAG; } // Reserved S9xOpcode static void Op42 (void) { } /*****************************************************************************/ /*****************************************************************************/ /* CPU-S9xOpcodes Definitions */ /*****************************************************************************/ struct SOpcodes S9xOpcodesM1X1[256] = { {Op00}, {Op01M1}, {Op02}, {Op03M1}, {Op04M1}, {Op05M1}, {Op06M1}, {Op07M1}, {Op08}, {Op09M1}, {Op0AM1}, {Op0B}, {Op0CM1}, {Op0DM1}, {Op0EM1}, {Op0FM1}, {Op10}, {Op11M1}, {Op12M1}, {Op13M1}, {Op14M1}, {Op15M1}, {Op16M1}, {Op17M1}, {Op18}, {Op19M1}, {Op1AM1}, {Op1B}, {Op1CM1}, {Op1DM1}, {Op1EM1}, {Op1FM1}, {Op20}, {Op21M1}, {Op22}, {Op23M1}, {Op24M1}, {Op25M1}, {Op26M1}, {Op27M1}, {Op28}, {Op29M1}, {Op2AM1}, {Op2B}, {Op2CM1}, {Op2DM1}, {Op2EM1}, {Op2FM1}, {Op30}, {Op31M1}, {Op32M1}, {Op33M1}, {Op34M1}, {Op35M1}, {Op36M1}, {Op37M1}, {Op38}, {Op39M1}, {Op3AM1}, {Op3B}, {Op3CM1}, {Op3DM1}, {Op3EM1}, {Op3FM1}, {Op40}, {Op41M1}, {Op42}, {Op43M1}, {Op44X1}, {Op45M1}, {Op46M1}, {Op47M1}, {Op48M1}, {Op49M1}, {Op4AM1}, {Op4B}, {Op4C}, {Op4DM1}, {Op4EM1}, {Op4FM1}, {Op50}, {Op51M1}, {Op52M1}, {Op53M1}, {Op54X1}, {Op55M1}, {Op56M1}, {Op57M1}, {Op58}, {Op59M1}, {Op5AX1}, {Op5B}, {Op5C}, {Op5DM1}, {Op5EM1}, {Op5FM1}, {Op60}, {Op61M1}, {Op62}, {Op63M1}, {Op64M1}, {Op65M1}, {Op66M1}, {Op67M1}, {Op68M1}, {Op69M1}, {Op6AM1}, {Op6B}, {Op6C}, {Op6DM1}, {Op6EM1}, {Op6FM1}, {Op70}, {Op71M1}, {Op72M1}, {Op73M1}, {Op74M1}, {Op75M1}, {Op76M1}, {Op77M1}, {Op78}, {Op79M1}, {Op7AX1}, {Op7B}, {Op7C}, {Op7DM1}, {Op7EM1}, {Op7FM1}, {Op80}, {Op81M1}, {Op82}, {Op83M1}, {Op84X1}, {Op85M1}, {Op86X1}, {Op87M1}, {Op88X1}, {Op89M1}, {Op8AM1}, {Op8B}, {Op8CX1}, {Op8DM1}, {Op8EX1}, {Op8FM1}, {Op90}, {Op91M1}, {Op92M1}, {Op93M1}, {Op94X1}, {Op95M1}, {Op96X1}, {Op97M1}, {Op98M1}, {Op99M1}, {Op9A}, {Op9BX1}, {Op9CM1}, {Op9DM1}, {Op9EM1}, {Op9FM1}, {OpA0X1}, {OpA1M1}, {OpA2X1}, {OpA3M1}, {OpA4X1}, {OpA5M1}, {OpA6X1}, {OpA7M1}, {OpA8X1}, {OpA9M1}, {OpAAX1}, {OpAB}, {OpACX1}, {OpADM1}, {OpAEX1}, {OpAFM1}, {OpB0}, {OpB1M1}, {OpB2M1}, {OpB3M1}, {OpB4X1}, {OpB5M1}, {OpB6X1}, {OpB7M1}, {OpB8}, {OpB9M1}, {OpBAX1}, {OpBBX1}, {OpBCX1}, {OpBDM1}, {OpBEX1}, {OpBFM1}, {OpC0X1}, {OpC1M1}, {OpC2}, {OpC3M1}, {OpC4X1}, {OpC5M1}, {OpC6M1}, {OpC7M1}, {OpC8X1}, {OpC9M1}, {OpCAX1}, {OpCB}, {OpCCX1}, {OpCDM1}, {OpCEM1}, {OpCFM1}, {OpD0}, {OpD1M1}, {OpD2M1}, {OpD3M1}, {OpD4}, {OpD5M1}, {OpD6M1}, {OpD7M1}, {OpD8}, {OpD9M1}, {OpDAX1}, {OpDB}, {OpDC}, {OpDDM1}, {OpDEM1}, {OpDFM1}, {OpE0X1}, {OpE1M1}, {OpE2}, {OpE3M1}, {OpE4X1}, {OpE5M1}, {OpE6M1}, {OpE7M1}, {OpE8X1}, {OpE9M1}, {OpEA}, {OpEB}, {OpECX1}, {OpEDM1}, {OpEEM1}, {OpEFM1}, {OpF0}, {OpF1M1}, {OpF2M1}, {OpF3M1}, {OpF4}, {OpF5M1}, {OpF6M1}, {OpF7M1}, {OpF8}, {OpF9M1}, {OpFAX1}, {OpFB}, {OpFC}, {OpFDM1}, {OpFEM1}, {OpFFM1} }; struct SOpcodes S9xOpcodesE1[256] = { {Op00}, {Op01M1}, {Op02}, {Op03M1}, {Op04M1}, {Op05M1}, {Op06M1}, {Op07M1}, {Op08E1}, {Op09M1}, {Op0AM1}, {Op0BE1}, {Op0CM1}, {Op0DM1}, {Op0EM1}, {Op0FM1}, {Op10}, {Op11M1}, {Op12M1}, {Op13M1}, {Op14M1}, {Op15M1}, {Op16M1}, {Op17M1}, {Op18}, {Op19M1}, {Op1AM1}, {Op1B}, {Op1CM1}, {Op1DM1}, {Op1EM1}, {Op1FM1}, {Op20}, {Op21M1}, {Op22E1}, {Op23M1}, {Op24M1}, {Op25M1}, {Op26M1}, {Op27M1}, {Op28}, {Op29M1}, {Op2AM1}, {Op2BE1}, {Op2CM1}, {Op2DM1}, {Op2EM1}, {Op2FM1}, {Op30}, {Op31M1}, {Op32M1}, {Op33M1}, {Op34M1}, {Op35M1}, {Op36M1}, {Op37M1}, {Op38}, {Op39M1}, {Op3AM1}, {Op3B}, {Op3CM1}, {Op3DM1}, {Op3EM1}, {Op3FM1}, {Op40}, {Op41M1}, {Op42}, {Op43M1}, {Op44X1}, {Op45M1}, {Op46M1}, {Op47M1}, {Op48E1}, {Op49M1}, {Op4AM1}, {Op4BE1}, {Op4C}, {Op4DM1}, {Op4EM1}, {Op4FM1}, {Op50}, {Op51M1}, {Op52M1}, {Op53M1}, {Op54X1}, {Op55M1}, {Op56M1}, {Op57M1}, {Op58}, {Op59M1}, {Op5AE1}, {Op5B}, {Op5C}, {Op5DM1}, {Op5EM1}, {Op5FM1}, {Op60}, {Op61M1}, {Op62E1}, {Op63M1}, {Op64M1}, {Op65M1}, {Op66M1}, {Op67M1}, {Op68E1}, {Op69M1}, {Op6AM1}, {Op6BE1}, {Op6C}, {Op6DM1}, {Op6EM1}, {Op6FM1}, {Op70}, {Op71M1}, {Op72M1}, {Op73M1}, {Op74M1}, {Op75M1}, {Op76M1}, {Op77M1}, {Op78}, {Op79M1}, {Op7AE1}, {Op7B}, {Op7C}, {Op7DM1}, {Op7EM1}, {Op7FM1}, {Op80}, {Op81M1}, {Op82}, {Op83M1}, {Op84X1}, {Op85M1}, {Op86X1}, {Op87M1}, {Op88X1}, {Op89M1}, {Op8AM1}, {Op8BE1}, {Op8CX1}, {Op8DM1}, {Op8EX1}, {Op8FM1}, {Op90}, {Op91M1}, {Op92M1}, {Op93M1}, {Op94X1}, {Op95M1}, {Op96X1}, {Op97M1}, {Op98M1}, {Op99M1}, {Op9A}, {Op9BX1}, {Op9CM1}, {Op9DM1}, {Op9EM1}, {Op9FM1}, {OpA0X1}, {OpA1M1}, {OpA2X1}, {OpA3M1}, {OpA4X1}, {OpA5M1}, {OpA6X1}, {OpA7M1}, {OpA8X1}, {OpA9M1}, {OpAAX1}, {OpABE1}, {OpACX1}, {OpADM1}, {OpAEX1}, {OpAFM1}, {OpB0}, {OpB1M1}, {OpB2M1}, {OpB3M1}, {OpB4X1}, {OpB5M1}, {OpB6X1}, {OpB7M1}, {OpB8}, {OpB9M1}, {OpBAX1}, {OpBBX1}, {OpBCX1}, {OpBDM1}, {OpBEX1}, {OpBFM1}, {OpC0X1}, {OpC1M1}, {OpC2}, {OpC3M1}, {OpC4X1}, {OpC5M1}, {OpC6M1}, {OpC7M1}, {OpC8X1}, {OpC9M1}, {OpCAX1}, {OpCB}, {OpCCX1}, {OpCDM1}, {OpCEM1}, {OpCFM1}, {OpD0}, {OpD1M1}, {OpD2M1}, {OpD3M1}, {OpD4E1}, {OpD5M1}, {OpD6M1}, {OpD7M1}, {OpD8}, {OpD9M1}, {OpDAE1}, {OpDB}, {OpDC}, {OpDDM1}, {OpDEM1}, {OpDFM1}, {OpE0X1}, {OpE1M1}, {OpE2}, {OpE3M1}, {OpE4X1}, {OpE5M1}, {OpE6M1}, {OpE7M1}, {OpE8X1}, {OpE9M1}, {OpEA}, {OpEB}, {OpECX1}, {OpEDM1}, {OpEEM1}, {OpEFM1}, {OpF0}, {OpF1M1}, {OpF2M1}, {OpF3M1}, {OpF4E1}, {OpF5M1}, {OpF6M1}, {OpF7M1}, {OpF8}, {OpF9M1}, {OpFAE1}, {OpFB}, {OpFCE1}, {OpFDM1}, {OpFEM1}, {OpFFM1} }; struct SOpcodes S9xOpcodesM1X0[256] = { {Op00}, {Op01M1}, {Op02}, {Op03M1}, {Op04M1}, {Op05M1}, {Op06M1}, {Op07M1}, {Op08}, {Op09M1}, {Op0AM1}, {Op0B}, {Op0CM1}, {Op0DM1}, {Op0EM1}, {Op0FM1}, {Op10}, {Op11M1}, {Op12M1}, {Op13M1}, {Op14M1}, {Op15M1}, {Op16M1}, {Op17M1}, {Op18}, {Op19M1}, {Op1AM1}, {Op1B}, {Op1CM1}, {Op1DM1}, {Op1EM1}, {Op1FM1}, {Op20}, {Op21M1}, {Op22}, {Op23M1}, {Op24M1}, {Op25M1}, {Op26M1}, {Op27M1}, {Op28}, {Op29M1}, {Op2AM1}, {Op2B}, {Op2CM1}, {Op2DM1}, {Op2EM1}, {Op2FM1}, {Op30}, {Op31M1}, {Op32M1}, {Op33M1}, {Op34M1}, {Op35M1}, {Op36M1}, {Op37M1}, {Op38}, {Op39M1}, {Op3AM1}, {Op3B}, {Op3CM1}, {Op3DM1}, {Op3EM1}, {Op3FM1}, {Op40}, {Op41M1}, {Op42}, {Op43M1}, {Op44X0}, {Op45M1}, {Op46M1}, {Op47M1}, {Op48M1}, {Op49M1}, {Op4AM1}, {Op4B}, {Op4C}, {Op4DM1}, {Op4EM1}, {Op4FM1}, {Op50}, {Op51M1}, {Op52M1}, {Op53M1}, {Op54X0}, {Op55M1}, {Op56M1}, {Op57M1}, {Op58}, {Op59M1}, {Op5AX0}, {Op5B}, {Op5C}, {Op5DM1}, {Op5EM1}, {Op5FM1}, {Op60}, {Op61M1}, {Op62}, {Op63M1}, {Op64M1}, {Op65M1}, {Op66M1}, {Op67M1}, {Op68M1}, {Op69M1}, {Op6AM1}, {Op6B}, {Op6C}, {Op6DM1}, {Op6EM1}, {Op6FM1}, {Op70}, {Op71M1}, {Op72M1}, {Op73M1}, {Op74M1}, {Op75M1}, {Op76M1}, {Op77M1}, {Op78}, {Op79M1}, {Op7AX0}, {Op7B}, {Op7C}, {Op7DM1}, {Op7EM1}, {Op7FM1}, {Op80}, {Op81M1}, {Op82}, {Op83M1}, {Op84X0}, {Op85M1}, {Op86X0}, {Op87M1}, {Op88X0}, {Op89M1}, {Op8AM1}, {Op8B}, {Op8CX0}, {Op8DM1}, {Op8EX0}, {Op8FM1}, {Op90}, {Op91M1}, {Op92M1}, {Op93M1}, {Op94X0}, {Op95M1}, {Op96X0}, {Op97M1}, {Op98M1}, {Op99M1}, {Op9A}, {Op9BX0}, {Op9CM1}, {Op9DM1}, {Op9EM1}, {Op9FM1}, {OpA0X0}, {OpA1M1}, {OpA2X0}, {OpA3M1}, {OpA4X0}, {OpA5M1}, {OpA6X0}, {OpA7M1}, {OpA8X0}, {OpA9M1}, {OpAAX0}, {OpAB}, {OpACX0}, {OpADM1}, {OpAEX0}, {OpAFM1}, {OpB0}, {OpB1M1}, {OpB2M1}, {OpB3M1}, {OpB4X0}, {OpB5M1}, {OpB6X0}, {OpB7M1}, {OpB8}, {OpB9M1}, {OpBAX0}, {OpBBX0}, {OpBCX0}, {OpBDM1}, {OpBEX0}, {OpBFM1}, {OpC0X0}, {OpC1M1}, {OpC2}, {OpC3M1}, {OpC4X0}, {OpC5M1}, {OpC6M1}, {OpC7M1}, {OpC8X0}, {OpC9M1}, {OpCAX0}, {OpCB}, {OpCCX0}, {OpCDM1}, {OpCEM1}, {OpCFM1}, {OpD0}, {OpD1M1}, {OpD2M1}, {OpD3M1}, {OpD4}, {OpD5M1}, {OpD6M1}, {OpD7M1}, {OpD8}, {OpD9M1}, {OpDAX0}, {OpDB}, {OpDC}, {OpDDM1}, {OpDEM1}, {OpDFM1}, {OpE0X0}, {OpE1M1}, {OpE2}, {OpE3M1}, {OpE4X0}, {OpE5M1}, {OpE6M1}, {OpE7M1}, {OpE8X0}, {OpE9M1}, {OpEA}, {OpEB}, {OpECX0}, {OpEDM1}, {OpEEM1}, {OpEFM1}, {OpF0}, {OpF1M1}, {OpF2M1}, {OpF3M1}, {OpF4}, {OpF5M1}, {OpF6M1}, {OpF7M1}, {OpF8}, {OpF9M1}, {OpFAX0}, {OpFB}, {OpFC}, {OpFDM1}, {OpFEM1}, {OpFFM1} }; struct SOpcodes S9xOpcodesM0X0[256] = { {Op00}, {Op01M0}, {Op02}, {Op03M0}, {Op04M0}, {Op05M0}, {Op06M0}, {Op07M0}, {Op08}, {Op09M0}, {Op0AM0}, {Op0B}, {Op0CM0}, {Op0DM0}, {Op0EM0}, {Op0FM0}, {Op10}, {Op11M0}, {Op12M0}, {Op13M0}, {Op14M0}, {Op15M0}, {Op16M0}, {Op17M0}, {Op18}, {Op19M0}, {Op1AM0}, {Op1B}, {Op1CM0}, {Op1DM0}, {Op1EM0}, {Op1FM0}, {Op20}, {Op21M0}, {Op22}, {Op23M0}, {Op24M0}, {Op25M0}, {Op26M0}, {Op27M0}, {Op28}, {Op29M0}, {Op2AM0}, {Op2B}, {Op2CM0}, {Op2DM0}, {Op2EM0}, {Op2FM0}, {Op30}, {Op31M0}, {Op32M0}, {Op33M0}, {Op34M0}, {Op35M0}, {Op36M0}, {Op37M0}, {Op38}, {Op39M0}, {Op3AM0}, {Op3B}, {Op3CM0}, {Op3DM0}, {Op3EM0}, {Op3FM0}, {Op40}, {Op41M0}, {Op42}, {Op43M0}, {Op44X0}, {Op45M0}, {Op46M0}, {Op47M0}, {Op48M0}, {Op49M0}, {Op4AM0}, {Op4B}, {Op4C}, {Op4DM0}, {Op4EM0}, {Op4FM0}, {Op50}, {Op51M0}, {Op52M0}, {Op53M0}, {Op54X0}, {Op55M0}, {Op56M0}, {Op57M0}, {Op58}, {Op59M0}, {Op5AX0}, {Op5B}, {Op5C}, {Op5DM0}, {Op5EM0}, {Op5FM0}, {Op60}, {Op61M0}, {Op62}, {Op63M0}, {Op64M0}, {Op65M0}, {Op66M0}, {Op67M0}, {Op68M0}, {Op69M0}, {Op6AM0}, {Op6B}, {Op6C}, {Op6DM0}, {Op6EM0}, {Op6FM0}, {Op70}, {Op71M0}, {Op72M0}, {Op73M0}, {Op74M0}, {Op75M0}, {Op76M0}, {Op77M0}, {Op78}, {Op79M0}, {Op7AX0}, {Op7B}, {Op7C}, {Op7DM0}, {Op7EM0}, {Op7FM0}, {Op80}, {Op81M0}, {Op82}, {Op83M0}, {Op84X0}, {Op85M0}, {Op86X0}, {Op87M0}, {Op88X0}, {Op89M0}, {Op8AM0}, {Op8B}, {Op8CX0}, {Op8DM0}, {Op8EX0}, {Op8FM0}, {Op90}, {Op91M0}, {Op92M0}, {Op93M0}, {Op94X0}, {Op95M0}, {Op96X0}, {Op97M0}, {Op98M0}, {Op99M0}, {Op9A}, {Op9BX0}, {Op9CM0}, {Op9DM0}, {Op9EM0}, {Op9FM0}, {OpA0X0}, {OpA1M0}, {OpA2X0}, {OpA3M0}, {OpA4X0}, {OpA5M0}, {OpA6X0}, {OpA7M0}, {OpA8X0}, {OpA9M0}, {OpAAX0}, {OpAB}, {OpACX0}, {OpADM0}, {OpAEX0}, {OpAFM0}, {OpB0}, {OpB1M0}, {OpB2M0}, {OpB3M0}, {OpB4X0}, {OpB5M0}, {OpB6X0}, {OpB7M0}, {OpB8}, {OpB9M0}, {OpBAX0}, {OpBBX0}, {OpBCX0}, {OpBDM0}, {OpBEX0}, {OpBFM0}, {OpC0X0}, {OpC1M0}, {OpC2}, {OpC3M0}, {OpC4X0}, {OpC5M0}, {OpC6M0}, {OpC7M0}, {OpC8X0}, {OpC9M0}, {OpCAX0}, {OpCB}, {OpCCX0}, {OpCDM0}, {OpCEM0}, {OpCFM0}, {OpD0}, {OpD1M0}, {OpD2M0}, {OpD3M0}, {OpD4}, {OpD5M0}, {OpD6M0}, {OpD7M0}, {OpD8}, {OpD9M0}, {OpDAX0}, {OpDB}, {OpDC}, {OpDDM0}, {OpDEM0}, {OpDFM0}, {OpE0X0}, {OpE1M0}, {OpE2}, {OpE3M0}, {OpE4X0}, {OpE5M0}, {OpE6M0}, {OpE7M0}, {OpE8X0}, {OpE9M0}, {OpEA}, {OpEB}, {OpECX0}, {OpEDM0}, {OpEEM0}, {OpEFM0}, {OpF0}, {OpF1M0}, {OpF2M0}, {OpF3M0}, {OpF4}, {OpF5M0}, {OpF6M0}, {OpF7M0}, {OpF8}, {OpF9M0}, {OpFAX0}, {OpFB}, {OpFC}, {OpFDM0}, {OpFEM0}, {OpFFM0} }; struct SOpcodes S9xOpcodesM0X1[256] = { {Op00}, {Op01M0}, {Op02}, {Op03M0}, {Op04M0}, {Op05M0}, {Op06M0}, {Op07M0}, {Op08}, {Op09M0}, {Op0AM0}, {Op0B}, {Op0CM0}, {Op0DM0}, {Op0EM0}, {Op0FM0}, {Op10}, {Op11M0}, {Op12M0}, {Op13M0}, {Op14M0}, {Op15M0}, {Op16M0}, {Op17M0}, {Op18}, {Op19M0}, {Op1AM0}, {Op1B}, {Op1CM0}, {Op1DM0}, {Op1EM0}, {Op1FM0}, {Op20}, {Op21M0}, {Op22}, {Op23M0}, {Op24M0}, {Op25M0}, {Op26M0}, {Op27M0}, {Op28}, {Op29M0}, {Op2AM0}, {Op2B}, {Op2CM0}, {Op2DM0}, {Op2EM0}, {Op2FM0}, {Op30}, {Op31M0}, {Op32M0}, {Op33M0}, {Op34M0}, {Op35M0}, {Op36M0}, {Op37M0}, {Op38}, {Op39M0}, {Op3AM0}, {Op3B}, {Op3CM0}, {Op3DM0}, {Op3EM0}, {Op3FM0}, {Op40}, {Op41M0}, {Op42}, {Op43M0}, {Op44X1}, {Op45M0}, {Op46M0}, {Op47M0}, {Op48M0}, {Op49M0}, {Op4AM0}, {Op4B}, {Op4C}, {Op4DM0}, {Op4EM0}, {Op4FM0}, {Op50}, {Op51M0}, {Op52M0}, {Op53M0}, {Op54X1}, {Op55M0}, {Op56M0}, {Op57M0}, {Op58}, {Op59M0}, {Op5AX1}, {Op5B}, {Op5C}, {Op5DM0}, {Op5EM0}, {Op5FM0}, {Op60}, {Op61M0}, {Op62}, {Op63M0}, {Op64M0}, {Op65M0}, {Op66M0}, {Op67M0}, {Op68M0}, {Op69M0}, {Op6AM0}, {Op6B}, {Op6C}, {Op6DM0}, {Op6EM0}, {Op6FM0}, {Op70}, {Op71M0}, {Op72M0}, {Op73M0}, {Op74M0}, {Op75M0}, {Op76M0}, {Op77M0}, {Op78}, {Op79M0}, {Op7AX1}, {Op7B}, {Op7C}, {Op7DM0}, {Op7EM0}, {Op7FM0}, {Op80}, {Op81M0}, {Op82}, {Op83M0}, {Op84X1}, {Op85M0}, {Op86X1}, {Op87M0}, {Op88X1}, {Op89M0}, {Op8AM0}, {Op8B}, {Op8CX1}, {Op8DM0}, {Op8EX1}, {Op8FM0}, {Op90}, {Op91M0}, {Op92M0}, {Op93M0}, {Op94X1}, {Op95M0}, {Op96X1}, {Op97M0}, {Op98M0}, {Op99M0}, {Op9A}, {Op9BX1}, {Op9CM0}, {Op9DM0}, {Op9EM0}, {Op9FM0}, {OpA0X1}, {OpA1M0}, {OpA2X1}, {OpA3M0}, {OpA4X1}, {OpA5M0}, {OpA6X1}, {OpA7M0}, {OpA8X1}, {OpA9M0}, {OpAAX1}, {OpAB}, {OpACX1}, {OpADM0}, {OpAEX1}, {OpAFM0}, {OpB0}, {OpB1M0}, {OpB2M0}, {OpB3M0}, {OpB4X1}, {OpB5M0}, {OpB6X1}, {OpB7M0}, {OpB8}, {OpB9M0}, {OpBAX1}, {OpBBX1}, {OpBCX1}, {OpBDM0}, {OpBEX1}, {OpBFM0}, {OpC0X1}, {OpC1M0}, {OpC2}, {OpC3M0}, {OpC4X1}, {OpC5M0}, {OpC6M0}, {OpC7M0}, {OpC8X1}, {OpC9M0}, {OpCAX1}, {OpCB}, {OpCCX1}, {OpCDM0}, {OpCEM0}, {OpCFM0}, {OpD0}, {OpD1M0}, {OpD2M0}, {OpD3M0}, {OpD4}, {OpD5M0}, {OpD6M0}, {OpD7M0}, {OpD8}, {OpD9M0}, {OpDAX1}, {OpDB}, {OpDC}, {OpDDM0}, {OpDEM0}, {OpDFM0}, {OpE0X1}, {OpE1M0}, {OpE2}, {OpE3M0}, {OpE4X1}, {OpE5M0}, {OpE6M0}, {OpE7M0}, {OpE8X1}, {OpE9M0}, {OpEA}, {OpEB}, {OpECX1}, {OpEDM0}, {OpEEM0}, {OpEFM0}, {OpF0}, {OpF1M0}, {OpF2M0}, {OpF3M0}, {OpF4}, {OpF5M0}, {OpF6M0}, {OpF7M0}, {OpF8}, {OpF9M0}, {OpFAX1}, {OpFB}, {OpFC}, {OpFDM0}, {OpFEM0}, {OpFFM0} };