From a6dc7abc9b8cc3986eda5a84141da7dc9e4e8f1a Mon Sep 17 00:00:00 2001 From: aliaspider Date: Wed, 29 Oct 2014 05:36:07 +0100 Subject: start moving everything to C --- source/spc700.c | 2548 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 2548 insertions(+) create mode 100644 source/spc700.c (limited to 'source/spc700.c') diff --git a/source/spc700.c b/source/spc700.c new file mode 100644 index 0000000..3bfeeac --- /dev/null +++ b/source/spc700.c @@ -0,0 +1,2548 @@ +/******************************************************************************* + 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. +*******************************************************************************/ +#include "snes9x.h" +#include "spc700.h" +#include "memmap.h" +#include "display.h" +#include "cpuexec.h" +#include "apu.h" + +// SPC700/Sound DSP chips have a 24.57MHz crystal on their PCB. + +#ifdef NO_INLINE_SET_GET +uint8 S9xAPUGetByteZ (uint8 address); +uint8 S9xAPUGetByte (uint32 address); +void S9xAPUSetByteZ (uint8, uint8 address); +void S9xAPUSetByte (uint8, uint32 address); + +#else +#undef INLINE +#define INLINE inline +#include "apumem.h" +#endif + +#define OP1 (*(IAPU.PC + 1)) +#define OP2 (*(IAPU.PC + 2)) + +#ifdef SPC700_SHUTDOWN +#define APUShutdown() \ + if (Settings.Shutdown && (IAPU.PC == IAPU.WaitAddress1 || IAPU.PC == IAPU.WaitAddress2)) \ + { \ + if (IAPU.WaitCounter == 0) \ + { \ + if (!ICPU.CPUExecuting) \ + APU.Cycles = CPU.Cycles = CPU.NextEvent; \ + else \ + IAPU.APUExecuting = FALSE; \ + } \ + else \ + if (IAPU.WaitCounter >= 2) \ + IAPU.WaitCounter = 1; \ + else \ + IAPU.WaitCounter--; \ + } +#else +#define APUShutdown() +#endif + +#define APUSetZN8(b)\ + IAPU._Zero = (b); + +#define APUSetZN16(w)\ + IAPU._Zero = ((w) != 0) | ((w) >> 8); + +void STOP (char *s) +{ + char buffer[100]; + + buffer[0] = '\0'; + + sprintf (String, "Sound CPU in unknown state executing %s at %04X\n%s\n", s, IAPU.PC - IAPU.RAM, buffer); + S9xMessage (S9X_ERROR, S9X_APU_STOPPED, String); + APU.TimerEnabled[0] = APU.TimerEnabled[1] = APU.TimerEnabled[2] = FALSE; + IAPU.APUExecuting = FALSE; + + S9xExit (); +} + +#define TCALL(n)\ +{\ + PushW (IAPU.PC - IAPU.RAM + 1); \ + IAPU.PC = IAPU.RAM + (APU.ExtraRAM [((15 - n) << 1)] + \ + (APU.ExtraRAM [((15 - n) << 1) + 1] << 8)); \ +} + +// XXX: HalfCarry - BJ fixed? +#define SBC(a,b)\ +int16 Int16 = (short) (a) - (short) (b) + (short) (APUCheckCarry ()) - 1;\ +IAPU._Carry = Int16 >= 0;\ +if ((((a) ^ (b)) & 0x80) && (((a) ^ (uint8) Int16) & 0x80))\ + APUSetOverflow ();\ +else \ + APUClearOverflow (); \ +APUSetHalfCarry ();\ +if(((a) ^ (b) ^ (uint8) Int16) & 0x10)\ + APUClearHalfCarry ();\ +(a) = (uint8) Int16;\ +APUSetZN8 ((uint8) Int16); + +// XXX: HalfCarry - BJ fixed? +// XXX: HalfCarry used Int16 before; trying to fix it with Work16 [Neb] +#define ADC(a,b)\ +uint16 Work16 = (a) + (b) + APUCheckCarry();\ +IAPU._Carry = Work16 >= 0x100; \ +if (~((a) ^ (b)) & ((b) ^ (uint8) Work16) & 0x80)\ + APUSetOverflow ();\ +else \ + APUClearOverflow (); \ +APUClearHalfCarry ();\ +if(((a) ^ (b) ^ (uint8) Work16) & 0x10)\ + APUSetHalfCarry ();\ +(a) = (uint8) Work16;\ +APUSetZN8 ((uint8) Work16); + +#define CMP(a,b)\ +int16 Int16 = (short) (a) - (short) (b);\ +IAPU._Carry = Int16 >= 0;\ +APUSetZN8 ((uint8) Int16); + +#define ASL(b)\ + IAPU._Carry = ((b) & 0x80) != 0; \ + (b) <<= 1;\ + APUSetZN8 (b); +#define LSR(b)\ + IAPU._Carry = (b) & 1;\ + (b) >>= 1;\ + APUSetZN8 (b); +#define ROL(b)\ + uint16 Work16 = ((b) << 1) | APUCheckCarry (); \ + IAPU._Carry = Work16 >= 0x100; \ + (b) = (uint8) Work16; \ + APUSetZN8 (b); +#define ROR(b)\ + uint16 Work16 = (b) | ((uint16) APUCheckCarry () << 8); \ + IAPU._Carry = (uint8) Work16 & 1; \ + Work16 >>= 1; \ + (b) = (uint8) Work16; \ + APUSetZN8 (b); + +#define Push(b)\ + *(IAPU.RAM + 0x100 + IAPU.Registers.S) = b;\ + IAPU.Registers.S--; + +#define Pop(b)\ + IAPU.Registers.S++;\ + (b) = *(IAPU.RAM + 0x100 + IAPU.Registers.S); + +#ifdef FAST_LSB_WORD_ACCESS +#define PushW(w)\ + *(uint16 *) (IAPU.RAM + 0xff + IAPU.Registers.S) = w;\ + IAPU.Registers.S -= 2; +#define PopW(w)\ + IAPU.Registers.S += 2;\ + w = *(uint16 *) (IAPU.RAM + 0xff + IAPU.Registers.S); +#else +#define PushW(w)\ + *(IAPU.RAM + 0xff + IAPU.Registers.S) = w;\ + *(IAPU.RAM + 0x100 + IAPU.Registers.S) = (w >> 8);\ + IAPU.Registers.S -= 2; +#define PopW(w)\ + IAPU.Registers.S += 2; \ + (w) = *(IAPU.RAM + 0xff + IAPU.Registers.S) + (*(IAPU.RAM + 0x100 + IAPU.Registers.S) << 8); +#endif + +#define Relative()\ + int8 Int8 = OP1;\ + int16 Int16 = (intptr_t) (IAPU.PC + 2 - IAPU.RAM) + Int8; + +#define Relative2()\ + int8 Int8 = OP2;\ + int16 Int16 = (intptr_t) (IAPU.PC + 3 - IAPU.RAM) + Int8; + +#ifdef FAST_LSB_WORD_ACCESS +#define IndexedXIndirect()\ + IAPU.Address = *(uint16 *) (IAPU.DirectPage + ((OP1 + IAPU.Registers.X) & 0xff)); + +#define Absolute()\ + IAPU.Address = *(uint16 *) (IAPU.PC + 1); + +#define AbsoluteX()\ + IAPU.Address = *(uint16 *) (IAPU.PC + 1) + IAPU.Registers.X; + +#define AbsoluteY()\ + IAPU.Address = *(uint16 *) (IAPU.PC + 1) + IAPU.Registers.YA.B.Y; + +#define MemBit()\ + IAPU.Address = *(uint16 *) (IAPU.PC + 1);\ + IAPU.Bit = (uint8)(IAPU.Address >> 13);\ + IAPU.Address &= 0x1fff; + +#define IndirectIndexedY()\ + IAPU.Address = *(uint16 *) (IAPU.DirectPage + OP1) + IAPU.Registers.YA.B.Y; +#else +#define IndexedXIndirect()\ + IAPU.Address = *(IAPU.DirectPage + ((OP1 + IAPU.Registers.X) & 0xff)) + \ + (*(IAPU.DirectPage + ((OP1 + IAPU.Registers.X + 1) & 0xff)) << 8); +#define Absolute()\ + IAPU.Address = OP1 + (OP2 << 8); + +#define AbsoluteX()\ + IAPU.Address = OP1 + (OP2 << 8) + IAPU.Registers.X; + +#define AbsoluteY()\ + IAPU.Address = OP1 + (OP2 << 8) + IAPU.Registers.YA.B.Y; + +#define MemBit()\ + IAPU.Address = OP1 + (OP2 << 8);\ + IAPU.Bit = (int8) (IAPU.Address >> 13);\ + IAPU.Address &= 0x1fff; + +#define IndirectIndexedY()\ + IAPU.Address = *(IAPU.DirectPage + OP1) + \ + (*(IAPU.DirectPage + OP1 + 1) << 8) + \ + IAPU.Registers.YA.B.Y; +#endif + +void Apu00 () +{ +// NOP + IAPU.PC++; +} + +void Apu01 () { TCALL (0) } + +void Apu11 () { TCALL (1) } + +void Apu21 () { TCALL (2) } + +void Apu31 () { TCALL (3) } + +void Apu41 () { TCALL (4) } + +void Apu51 () { TCALL (5) } + +void Apu61 () { TCALL (6) } + +void Apu71 () { TCALL (7) } + +void Apu81 () { TCALL (8) } + +void Apu91 () { TCALL (9) } + +void ApuA1 () { TCALL (10) } + +void ApuB1 () { TCALL (11) } + +void ApuC1 () { TCALL (12) } + +void ApuD1 () { TCALL (13) } + +void ApuE1 () { TCALL (14) } + +void ApuF1 () { TCALL (15) } + +void Apu3F () // CALL absolute +{ + Absolute (); + // 0xB6f for Star Fox 2 + PushW (IAPU.PC + 3 - IAPU.RAM); + IAPU.PC = IAPU.RAM + IAPU.Address; +} + +void Apu4F () // PCALL $XX +{ + uint8 Work8 = OP1; + PushW (IAPU.PC + 2 - IAPU.RAM); + IAPU.PC = IAPU.RAM + 0xff00 + Work8; +} + +#define SET(b) \ +S9xAPUSetByteZ ((uint8) (S9xAPUGetByteZ (OP1 ) | (1 << (b))), OP1); \ +IAPU.PC += 2 + +void Apu02 () +{ + SET (0); +} + +void Apu22 () +{ + SET (1); +} + +void Apu42 () +{ + SET (2); +} + +void Apu62 () +{ + SET (3); +} + +void Apu82 () +{ + SET (4); +} + +void ApuA2 () +{ + SET (5); +} + +void ApuC2 () +{ + SET (6); +} + +void ApuE2 () +{ + SET (7); +} + +#define CLR(b) \ +S9xAPUSetByteZ ((uint8) (S9xAPUGetByteZ (OP1) & ~(1 << (b))), OP1); \ +IAPU.PC += 2; + +void Apu12 () +{ + CLR (0); +} + +void Apu32 () +{ + CLR (1); +} + +void Apu52 () +{ + CLR (2); +} + +void Apu72 () +{ + CLR (3); +} + +void Apu92 () +{ + CLR (4); +} + +void ApuB2 () +{ + CLR (5); +} + +void ApuD2 () +{ + CLR (6); +} + +void ApuF2 () +{ + CLR (7); +} + +#define BBS(b) \ +uint8 Work8 = OP1; \ +Relative2 (); \ +if (S9xAPUGetByteZ (Work8) & (1 << (b))) \ +{ \ + IAPU.PC = IAPU.RAM + (uint16) Int16; \ + APU.Cycles += IAPU.TwoCycles; \ +} \ +else \ + IAPU.PC += 3 + +void Apu03 () +{ + BBS (0); +} + +void Apu23 () +{ + BBS (1); +} + +void Apu43 () +{ + BBS (2); +} + +void Apu63 () +{ + BBS (3); +} + +void Apu83 () +{ + BBS (4); +} + +void ApuA3 () +{ + BBS (5); +} + +void ApuC3 () +{ + BBS (6); +} + +void ApuE3 () +{ + BBS (7); +} + +#define BBC(b) \ +uint8 Work8 = OP1; \ +Relative2 (); \ +if (!(S9xAPUGetByteZ (Work8) & (1 << (b)))) \ +{ \ + IAPU.PC = IAPU.RAM + (uint16) Int16; \ + APU.Cycles += IAPU.TwoCycles; \ +} \ +else \ + IAPU.PC += 3 + +void Apu13 () +{ + BBC (0); +} + +void Apu33 () +{ + BBC (1); +} + +void Apu53 () +{ + BBC (2); +} + +void Apu73 () +{ + BBC (3); +} + +void Apu93 () +{ + BBC (4); +} + +void ApuB3 () +{ + BBC (5); +} + +void ApuD3 () +{ + BBC (6); +} + +void ApuF3 () +{ + BBC (7); +} + +void Apu04 () +{ +// OR A,dp + IAPU.Registers.YA.B.A |= S9xAPUGetByteZ (OP1); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu05 () +{ +// OR A,abs + Absolute (); + IAPU.Registers.YA.B.A |= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu06 () +{ +// OR A,(X) + IAPU.Registers.YA.B.A |= S9xAPUGetByteZ (IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu07 () +{ +// OR A,(dp+X) + IndexedXIndirect (); + IAPU.Registers.YA.B.A |= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu08 () +{ +// OR A,#00 + IAPU.Registers.YA.B.A |= OP1; + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu09 () +{ +// OR dp(dest),dp(src) + uint8 Work8 = S9xAPUGetByteZ (OP1); + Work8 |= S9xAPUGetByteZ (OP2); + S9xAPUSetByteZ (Work8, OP2); + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu14 () +{ +// OR A,dp+X + IAPU.Registers.YA.B.A |= S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu15 () +{ +// OR A,abs+X + AbsoluteX (); + IAPU.Registers.YA.B.A |= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu16 () +{ +// OR A,abs+Y + AbsoluteY (); + IAPU.Registers.YA.B.A |= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu17 () +{ +// OR A,(dp)+Y + IndirectIndexedY (); + IAPU.Registers.YA.B.A |= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu18 () +{ +// OR dp,#00 + uint8 Work8 = OP1; + Work8 |= S9xAPUGetByteZ (OP2); + S9xAPUSetByteZ (Work8, OP2); + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu19 () +{ +// OR (X),(Y) + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.X) | S9xAPUGetByteZ (IAPU.Registers.YA.B.Y); + APUSetZN8 (Work8); + S9xAPUSetByteZ (Work8, IAPU.Registers.X); + IAPU.PC++; +} + +void Apu0A () +{ +// OR1 C,membit + MemBit (); + if (!APUCheckCarry ()) + { + if (S9xAPUGetByte (IAPU.Address) & (1 << IAPU.Bit)) + APUSetCarry (); + } + IAPU.PC += 3; +} + +void Apu2A () +{ +// OR1 C,not membit + MemBit (); + if (!APUCheckCarry ()) + { + if (!(S9xAPUGetByte (IAPU.Address) & (1 << IAPU.Bit))) + APUSetCarry (); + } + IAPU.PC += 3; +} + +void Apu4A () +{ +// AND1 C,membit + MemBit (); + if (APUCheckCarry ()) + { + if (!(S9xAPUGetByte (IAPU.Address) & (1 << IAPU.Bit))) + APUClearCarry (); + } + IAPU.PC += 3; +} + +void Apu6A () +{ +// AND1 C, not membit + MemBit (); + if (APUCheckCarry ()) + { + if ((S9xAPUGetByte (IAPU.Address) & (1 << IAPU.Bit))) + APUClearCarry (); + } + IAPU.PC += 3; +} + +void Apu8A () +{ +// EOR1 C, membit + MemBit (); + if (APUCheckCarry ()) + { + if (S9xAPUGetByte (IAPU.Address) & (1 << IAPU.Bit)) + APUClearCarry (); + } + else + { + if (S9xAPUGetByte (IAPU.Address) & (1 << IAPU.Bit)) + APUSetCarry (); + } + IAPU.PC += 3; +} + +void ApuAA () +{ +// MOV1 C,membit + MemBit (); + if (S9xAPUGetByte (IAPU.Address) & (1 << IAPU.Bit)) + APUSetCarry (); + else + APUClearCarry (); + IAPU.PC += 3; +} + +void ApuCA () +{ +// MOV1 membit,C + MemBit (); + if (APUCheckCarry ()) + { + S9xAPUSetByte (S9xAPUGetByte (IAPU.Address) | (1 << IAPU.Bit), IAPU.Address); + } + else + { + S9xAPUSetByte (S9xAPUGetByte (IAPU.Address) & ~(1 << IAPU.Bit), IAPU.Address); + } + IAPU.PC += 3; +} + +void ApuEA () +{ +// NOT1 membit + MemBit (); + S9xAPUSetByte (S9xAPUGetByte (IAPU.Address) ^ (1 << IAPU.Bit), IAPU.Address); + IAPU.PC += 3; +} + +void Apu0B () +{ +// ASL dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + ASL (Work8); + S9xAPUSetByteZ (Work8, OP1); + IAPU.PC += 2; +} + +void Apu0C () +{ +// ASL abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ASL (Work8); + S9xAPUSetByte (Work8, IAPU.Address); + IAPU.PC += 3; +} + +void Apu1B () +{ +// ASL dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + ASL (Work8); + S9xAPUSetByteZ (Work8, OP1 + IAPU.Registers.X); + IAPU.PC += 2; +} + +void Apu1C () +{ +// ASL A + ASL (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu0D () +{ +// PUSH PSW + S9xAPUPackStatus (); + Push (IAPU.Registers.P); + IAPU.PC++; +} + +void Apu2D () +{ +// PUSH A + Push (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu4D () +{ +// PUSH X + Push (IAPU.Registers.X); + IAPU.PC++; +} + +void Apu6D () +{ +// PUSH Y + Push (IAPU.Registers.YA.B.Y); + IAPU.PC++; +} + +void Apu8E () +{ +// POP PSW + Pop (IAPU.Registers.P); + S9xAPUUnpackStatus (); + if (APUCheckDirectPage ()) + IAPU.DirectPage = IAPU.RAM + 0x100; + else + IAPU.DirectPage = IAPU.RAM; + IAPU.PC++; +} + +void ApuAE () +{ +// POP A + Pop (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void ApuCE () +{ +// POP X + Pop (IAPU.Registers.X); + IAPU.PC++; +} + +void ApuEE () +{ +// POP Y + Pop (IAPU.Registers.YA.B.Y); + IAPU.PC++; +} + +void Apu0E () +{ +// TSET1 abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + S9xAPUSetByte (Work8 | IAPU.Registers.YA.B.A, IAPU.Address); + Work8 &= IAPU.Registers.YA.B.A; + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu4E () +{ +// TCLR1 abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + S9xAPUSetByte (Work8 & ~IAPU.Registers.YA.B.A, IAPU.Address); + Work8 &= IAPU.Registers.YA.B.A; + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu0F () +{ +// BRK + +#if 0 + STOP ("BRK"); +#else + PushW (IAPU.PC + 1 - IAPU.RAM); + S9xAPUPackStatus (); + Push (IAPU.Registers.P); + APUSetBreak (); + APUClearInterrupt (); +// XXX:Where is the BRK vector ??? + IAPU.PC = IAPU.RAM + APU.ExtraRAM[0x20] + (APU.ExtraRAM[0x21] << 8); +#endif +} + +void ApuEF () +{ +// SLEEP + // XXX: sleep + // STOP ("SLEEP"); + IAPU.APUExecuting = FALSE; + IAPU.PC++; +} + +void ApuFF () +{ +// STOP + // STOP ("STOP"); + IAPU.APUExecuting = FALSE; + IAPU.PC++; +} + +void Apu10 () +{ +// BPL + Relative (); + if (!APUCheckNegative ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 2; +} + +void Apu30 () +{ +// BMI + Relative (); + if (APUCheckNegative ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 2; +} + +void Apu90 () +{ +// BCC + Relative (); + if (!APUCheckCarry ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 2; +} + +void ApuB0 () +{ +// BCS + Relative (); + if (APUCheckCarry ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 2; +} + +void ApuD0 () +{ +// BNE + Relative (); + if (!APUCheckZero ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 2; +} + +void ApuF0 () +{ +// BEQ + Relative (); + if (APUCheckZero ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 2; +} + +void Apu50 () +{ +// BVC + Relative (); + if (!APUCheckOverflow ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + } + else + IAPU.PC += 2; +} + +void Apu70 () +{ +// BVS + Relative (); + if (APUCheckOverflow ()) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + } + else + IAPU.PC += 2; +} + +void Apu2F () +{ +// BRA + Relative (); + IAPU.PC = IAPU.RAM + (uint16) Int16; +} + +void Apu80 () +{ +// SETC + APUSetCarry (); + IAPU.PC++; +} + +void ApuED () +{ +// NOTC + IAPU._Carry ^= 1; + IAPU.PC++; +} + +void Apu40 () +{ +// SETP + APUSetDirectPage (); + IAPU.DirectPage = IAPU.RAM + 0x100; + IAPU.PC++; +} + +void Apu1A () +{ +// DECW dp + uint16 Work16 = S9xAPUGetByteZ (OP1) + (S9xAPUGetByteZ (OP1 + 1) << 8); + Work16--; + S9xAPUSetByteZ ((uint8) Work16, OP1); + S9xAPUSetByteZ (Work16 >> 8, OP1 + 1); + APUSetZN16 (Work16); + IAPU.PC += 2; +} + +void Apu5A () +{ +// CMPW YA,dp + uint16 Work16 = S9xAPUGetByteZ (OP1) + (S9xAPUGetByteZ (OP1 + 1) << 8); + int32 Int32 = (long) IAPU.Registers.YA.W - (long) Work16; + IAPU._Carry = Int32 >= 0; + APUSetZN16 ((uint16) Int32); + IAPU.PC += 2; +} + +void Apu3A () +{ +// INCW dp + uint16 Work16 = S9xAPUGetByteZ (OP1) + (S9xAPUGetByteZ (OP1 + 1) << 8); + Work16++; + S9xAPUSetByteZ ((uint8) Work16, OP1); + S9xAPUSetByteZ (Work16 >> 8, OP1 + 1); + APUSetZN16 (Work16); + IAPU.PC += 2; +} + +// XXX: HalfCarry - BJ Fixed? Or is it between bits 7 and 8 for ADDW/SUBW? +void Apu7A () +{ +// ADDW YA,dp + uint16 Work16 = S9xAPUGetByteZ (OP1) + (S9xAPUGetByteZ (OP1 + 1) << 8); + uint32 Work32 = (uint32) IAPU.Registers.YA.W + Work16; + IAPU._Carry = Work32 >= 0x10000; + if (~(IAPU.Registers.YA.W ^ Work16) & (Work16 ^ (uint16) Work32) & 0x8000) + APUSetOverflow (); + else + APUClearOverflow (); + APUClearHalfCarry (); + if((IAPU.Registers.YA.W ^ Work16 ^ (uint16) Work32) & 0x10) + APUSetHalfCarry (); + IAPU.Registers.YA.W = (uint16) Work32; + APUSetZN16 (IAPU.Registers.YA.W); + IAPU.PC += 2; +} + +// XXX: BJ: i think the old HalfCarry behavior was wrong... +// XXX: Or is it between bits 7 and 8 for ADDW/SUBW? +// XXX: Used Work32 instead of Int32 before. Fixed? [Neb] +void Apu9A () +{ +// SUBW YA,dp + uint16 Work16 = S9xAPUGetByteZ (OP1) + (S9xAPUGetByteZ (OP1 + 1) << 8); + int32 Int32 = (long) IAPU.Registers.YA.W - (long) Work16; + APUClearHalfCarry (); + IAPU._Carry = Int32 >= 0; + if (((IAPU.Registers.YA.W ^ Work16) & 0x8000) && + ((IAPU.Registers.YA.W ^ (uint16) Int32) & 0x8000)) + APUSetOverflow (); + else + APUClearOverflow (); + if (((IAPU.Registers.YA.W ^ Work16) & 0x0080) && + ((IAPU.Registers.YA.W ^ (uint16) Int32) & 0x0080)) + APUSetHalfCarry (); + APUSetHalfCarry (); + if((IAPU.Registers.YA.W ^ Work16 ^ (uint16) Int32) & 0x10) + APUClearHalfCarry (); + IAPU.Registers.YA.W = (uint16) Int32; + APUSetZN16 (IAPU.Registers.YA.W); + IAPU.PC += 2; +} + +void ApuBA () +{ +// MOVW YA,dp + IAPU.Registers.YA.B.A = S9xAPUGetByteZ (OP1); + IAPU.Registers.YA.B.Y = S9xAPUGetByteZ (OP1 + 1); + APUSetZN16 (IAPU.Registers.YA.W); + IAPU.PC += 2; +} + +void ApuDA () +{ +// MOVW dp,YA + S9xAPUSetByteZ (IAPU.Registers.YA.B.A, OP1); + S9xAPUSetByteZ (IAPU.Registers.YA.B.Y, OP1 + 1); + IAPU.PC += 2; +} + +void Apu64 () +{ +// CMP A,dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu65 () +{ +// CMP A,abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void Apu66 () +{ +// CMP A,(X) + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.X); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC++; +} + +void Apu67 () +{ +// CMP A,(dp+X) + IndexedXIndirect (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu68 () +{ +// CMP A,#00 + uint8 Work8 = OP1; + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu69 () +{ +// CMP dp(dest), dp(src) + uint8 W1 = S9xAPUGetByteZ (OP1); + uint8 Work8 = S9xAPUGetByteZ (OP2); + CMP (Work8, W1); + IAPU.PC += 3; +} + +void Apu74 () +{ +// CMP A, dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu75 () +{ +// CMP A,abs+X + AbsoluteX (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void Apu76 () +{ +// CMP A, abs+Y + AbsoluteY (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void Apu77 () +{ +// CMP A,(dp)+Y + IndirectIndexedY (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + CMP (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu78 () +{ +// CMP dp,#00 + uint8 Work8 = OP1; + uint8 W1 = S9xAPUGetByteZ (OP2); + CMP (W1, Work8); + IAPU.PC += 3; +} + +void Apu79 () +{ +// CMP (X),(Y) + uint8 W1 = S9xAPUGetByteZ (IAPU.Registers.X); + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.YA.B.Y); + CMP (W1, Work8); + IAPU.PC++; +} + +void Apu1E () +{ +// CMP X,abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + CMP (IAPU.Registers.X, Work8); + IAPU.PC += 3; +} + +void Apu3E () +{ +// CMP X,dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + CMP (IAPU.Registers.X, Work8); + IAPU.PC += 2; +} + +void ApuC8 () +{ +// CMP X,#00 + CMP (IAPU.Registers.X, OP1); + IAPU.PC += 2; +} + +void Apu5E () +{ +// CMP Y,abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + CMP (IAPU.Registers.YA.B.Y, Work8); + IAPU.PC += 3; +} + +void Apu7E () +{ +// CMP Y,dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + CMP (IAPU.Registers.YA.B.Y, Work8); + IAPU.PC += 2; +} + +void ApuAD () +{ +// CMP Y,#00 + uint8 Work8 = OP1; + CMP (IAPU.Registers.YA.B.Y, Work8); + IAPU.PC += 2; +} + +void Apu1F () +{ +// JMP (abs+X) + Absolute (); + IAPU.PC = IAPU.RAM + S9xAPUGetByte (IAPU.Address + IAPU.Registers.X) + + (S9xAPUGetByte (IAPU.Address + IAPU.Registers.X + 1) << 8); +// XXX: HERE: + // APU.Flags |= TRACE_FLAG; +} + +void Apu5F () +{ +// JMP abs + Absolute (); + IAPU.PC = IAPU.RAM + IAPU.Address; +} + +void Apu20 () +{ +// CLRP + APUClearDirectPage (); + IAPU.DirectPage = IAPU.RAM; + IAPU.PC++; +} + +void Apu60 () +{ +// CLRC + APUClearCarry (); + IAPU.PC++; +} + +void ApuE0 () +{ +// CLRV + APUClearHalfCarry (); + APUClearOverflow (); + IAPU.PC++; +} + +void Apu24 () +{ +// AND A,dp + IAPU.Registers.YA.B.A &= S9xAPUGetByteZ (OP1); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu25 () +{ +// AND A,abs + Absolute (); + IAPU.Registers.YA.B.A &= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu26 () +{ +// AND A,(X) + IAPU.Registers.YA.B.A &= S9xAPUGetByteZ (IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu27 () +{ +// AND A,(dp+X) + IndexedXIndirect (); + IAPU.Registers.YA.B.A &= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu28 () +{ +// AND A,#00 + IAPU.Registers.YA.B.A &= OP1; + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu29 () +{ +// AND dp(dest),dp(src) + uint8 Work8 = S9xAPUGetByteZ (OP1); + Work8 &= S9xAPUGetByteZ (OP2); + S9xAPUSetByteZ (Work8, OP2); + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu34 () +{ +// AND A,dp+X + IAPU.Registers.YA.B.A &= S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu35 () +{ +// AND A,abs+X + AbsoluteX (); + IAPU.Registers.YA.B.A &= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu36 () +{ +// AND A,abs+Y + AbsoluteY (); + IAPU.Registers.YA.B.A &= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu37 () +{ +// AND A,(dp)+Y + IndirectIndexedY (); + IAPU.Registers.YA.B.A &= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu38 () +{ +// AND dp,#00 + uint8 Work8 = OP1; + Work8 &= S9xAPUGetByteZ (OP2); + S9xAPUSetByteZ (Work8, OP2); + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu39 () +{ +// AND (X),(Y) + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.X) & S9xAPUGetByteZ (IAPU.Registers.YA.B.Y); + APUSetZN8 (Work8); + S9xAPUSetByteZ (Work8, IAPU.Registers.X); + IAPU.PC++; +} + +void Apu2B () +{ +// ROL dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + ROL (Work8); + S9xAPUSetByteZ (Work8, OP1); + IAPU.PC += 2; +} + +void Apu2C () +{ +// ROL abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ROL (Work8); + S9xAPUSetByte (Work8, IAPU.Address); + IAPU.PC += 3; +} + +void Apu3B () +{ +// ROL dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + ROL (Work8); + S9xAPUSetByteZ (Work8, OP1 + IAPU.Registers.X); + IAPU.PC += 2; +} + +void Apu3C () +{ +// ROL A + ROL (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu2E () +{ +// CBNE dp,rel + uint8 Work8 = OP1; + Relative2 (); + + if (S9xAPUGetByteZ (Work8) != IAPU.Registers.YA.B.A) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 3; +} + +void ApuDE () +{ +// CBNE dp+X,rel + uint8 Work8 = OP1 + IAPU.Registers.X; + Relative2 (); + + if (S9xAPUGetByteZ (Work8) != IAPU.Registers.YA.B.A) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + APUShutdown (); + } + else + IAPU.PC += 3; +} + +void Apu3D () +{ +// INC X + IAPU.Registers.X++; + APUSetZN8 (IAPU.Registers.X); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC++; +} + +void ApuFC () +{ +// INC Y + IAPU.Registers.YA.B.Y++; + APUSetZN8 (IAPU.Registers.YA.B.Y); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC++; +} + +void Apu1D () +{ +// DEC X + IAPU.Registers.X--; + APUSetZN8 (IAPU.Registers.X); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC++; +} + +void ApuDC () +{ +// DEC Y + IAPU.Registers.YA.B.Y--; + APUSetZN8 (IAPU.Registers.YA.B.Y); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC++; +} + +void ApuAB () +{ +// INC dp + uint8 Work8 = S9xAPUGetByteZ (OP1) + 1; + S9xAPUSetByteZ (Work8, OP1); + APUSetZN8 (Work8); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC += 2; +} + +void ApuAC () +{ +// INC abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address) + 1; + S9xAPUSetByte (Work8, IAPU.Address); + APUSetZN8 (Work8); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC += 3; +} + +void ApuBB () +{ +// INC dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X) + 1; + S9xAPUSetByteZ (Work8, OP1 + IAPU.Registers.X); + APUSetZN8 (Work8); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC += 2; +} + +void ApuBC () +{ +// INC A + IAPU.Registers.YA.B.A++; + APUSetZN8 (IAPU.Registers.YA.B.A); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC++; +} + +void Apu8B () +{ +// DEC dp + uint8 Work8 = S9xAPUGetByteZ (OP1) - 1; + S9xAPUSetByteZ (Work8, OP1); + APUSetZN8 (Work8); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC += 2; +} + +void Apu8C () +{ +// DEC abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address) - 1; + S9xAPUSetByte (Work8, IAPU.Address); + APUSetZN8 (Work8); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC += 3; +} + +void Apu9B () +{ +// DEC dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X) - 1; + S9xAPUSetByteZ (Work8, OP1 + IAPU.Registers.X); + APUSetZN8 (Work8); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC += 2; +} + +void Apu9C () +{ +// DEC A + IAPU.Registers.YA.B.A--; + APUSetZN8 (IAPU.Registers.YA.B.A); + +#ifdef SPC700_SHUTDOWN + IAPU.WaitCounter++; +#endif + + IAPU.PC++; +} + +void Apu44 () +{ +// EOR A,dp + IAPU.Registers.YA.B.A ^= S9xAPUGetByteZ (OP1); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu45 () +{ +// EOR A,abs + Absolute (); + IAPU.Registers.YA.B.A ^= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu46 () +{ +// EOR A,(X) + IAPU.Registers.YA.B.A ^= S9xAPUGetByteZ (IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu47 () +{ +// EOR A,(dp+X) + IndexedXIndirect (); + IAPU.Registers.YA.B.A ^= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu48 () +{ +// EOR A,#00 + IAPU.Registers.YA.B.A ^= OP1; + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu49 () +{ +// EOR dp(dest),dp(src) + uint8 Work8 = S9xAPUGetByteZ (OP1); + Work8 ^= S9xAPUGetByteZ (OP2); + S9xAPUSetByteZ (Work8, OP2); + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu54 () +{ +// EOR A,dp+X + IAPU.Registers.YA.B.A ^= S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu55 () +{ +// EOR A,abs+X + AbsoluteX (); + IAPU.Registers.YA.B.A ^= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu56 () +{ +// EOR A,abs+Y + AbsoluteY (); + IAPU.Registers.YA.B.A ^= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void Apu57 () +{ +// EOR A,(dp)+Y + IndirectIndexedY (); + IAPU.Registers.YA.B.A ^= S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void Apu58 () +{ +// EOR dp,#00 + uint8 Work8 = OP1; + Work8 ^= S9xAPUGetByteZ (OP2); + S9xAPUSetByteZ (Work8, OP2); + APUSetZN8 (Work8); + IAPU.PC += 3; +} + +void Apu59 () +{ +// EOR (X),(Y) + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.X) ^ S9xAPUGetByteZ (IAPU.Registers.YA.B.Y); + APUSetZN8 (Work8); + S9xAPUSetByteZ (Work8, IAPU.Registers.X); + IAPU.PC++; +} + +void Apu4B () +{ +// LSR dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + LSR (Work8); + S9xAPUSetByteZ (Work8, OP1); + IAPU.PC += 2; +} + +void Apu4C () +{ +// LSR abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + LSR (Work8); + S9xAPUSetByte (Work8, IAPU.Address); + IAPU.PC += 3; +} + +void Apu5B () +{ +// LSR dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + LSR (Work8); + S9xAPUSetByteZ (Work8, OP1 + IAPU.Registers.X); + IAPU.PC += 2; +} + +void Apu5C () +{ +// LSR A + LSR (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu7D () +{ +// MOV A,X + IAPU.Registers.YA.B.A = IAPU.Registers.X; + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void ApuDD () +{ +// MOV A,Y + IAPU.Registers.YA.B.A = IAPU.Registers.YA.B.Y; + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu5D () +{ +// MOV X,A + IAPU.Registers.X = IAPU.Registers.YA.B.A; + APUSetZN8 (IAPU.Registers.X); + IAPU.PC++; +} + +void ApuFD () +{ +// MOV Y,A + IAPU.Registers.YA.B.Y = IAPU.Registers.YA.B.A; + APUSetZN8 (IAPU.Registers.YA.B.Y); + IAPU.PC++; +} + +void Apu9D () +{ +//MOV X,SP + IAPU.Registers.X = IAPU.Registers.S; + APUSetZN8 (IAPU.Registers.X); + IAPU.PC++; +} + +void ApuBD () +{ +// MOV SP,X + IAPU.Registers.S = IAPU.Registers.X; + IAPU.PC++; +} + +void Apu6B () +{ +// ROR dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + ROR (Work8); + S9xAPUSetByteZ (Work8, OP1); + IAPU.PC += 2; +} + +void Apu6C () +{ +// ROR abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ROR (Work8); + S9xAPUSetByte (Work8, IAPU.Address); + IAPU.PC += 3; +} + +void Apu7B () +{ +// ROR dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + ROR (Work8); + S9xAPUSetByteZ (Work8, OP1 + IAPU.Registers.X); + IAPU.PC += 2; +} + +void Apu7C () +{ +// ROR A + ROR (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu6E () +{ +// DBNZ dp,rel + uint8 Work8 = OP1; + Relative2 (); + uint8 W1 = S9xAPUGetByteZ (Work8) - 1; + S9xAPUSetByteZ (W1, Work8); + if (W1 != 0) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + } + else + IAPU.PC += 3; +} + +void ApuFE () +{ +// DBNZ Y,rel + Relative (); + IAPU.Registers.YA.B.Y--; + if (IAPU.Registers.YA.B.Y != 0) + { + IAPU.PC = IAPU.RAM + (uint16) Int16; + APU.Cycles += IAPU.TwoCycles; + } + else + IAPU.PC += 2; +} + +void Apu6F () +{ +// RET + PopW (IAPU.Registers.PC); + IAPU.PC = IAPU.RAM + IAPU.Registers.PC; +} + +void Apu7F () +{ +// RETI + // STOP ("RETI"); + Pop (IAPU.Registers.P); + S9xAPUUnpackStatus (); + PopW (IAPU.Registers.PC); + IAPU.PC = IAPU.RAM + IAPU.Registers.PC; +} + +void Apu84 () +{ +// ADC A,dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu85 () +{ +// ADC A, abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void Apu86 () +{ +// ADC A,(X) + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.X); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC++; +} + +void Apu87 () +{ +// ADC A,(dp+X) + IndexedXIndirect (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu88 () +{ +// ADC A,#00 + uint8 Work8 = OP1; + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu89 () +{ +// ADC dp(dest),dp(src) + uint8 Work8 = S9xAPUGetByteZ (OP1); + uint8 W1 = S9xAPUGetByteZ (OP2); + ADC (W1, Work8); + S9xAPUSetByteZ (W1, OP2); + IAPU.PC += 3; +} + +void Apu94 () +{ +// ADC A,dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu95 () +{ +// ADC A, abs+X + AbsoluteX (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void Apu96 () +{ +// ADC A, abs+Y + AbsoluteY (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void Apu97 () +{ +// ADC A, (dp)+Y + IndirectIndexedY (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + ADC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void Apu98 () +{ +// ADC dp,#00 + uint8 Work8 = OP1; + uint8 W1 = S9xAPUGetByteZ (OP2); + ADC (W1, Work8); + S9xAPUSetByteZ (W1, OP2); + IAPU.PC += 3; +} + +void Apu99 () +{ +// ADC (X),(Y) + uint8 W1 = S9xAPUGetByteZ (IAPU.Registers.X); + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.YA.B.Y); + ADC (W1, Work8); + S9xAPUSetByteZ (W1, IAPU.Registers.X); + IAPU.PC++; +} + +void Apu8D () +{ +// MOV Y,#00 + IAPU.Registers.YA.B.Y = OP1; + APUSetZN8 (IAPU.Registers.YA.B.Y); + IAPU.PC += 2; +} + +void Apu8F () +{ +// MOV dp,#00 + uint8 Work8 = OP1; + S9xAPUSetByteZ (Work8, OP2); + IAPU.PC += 3; +} + +void Apu9E () +{ +// DIV YA,X + if (IAPU.Registers.X == 0) + { + APUSetOverflow (); + IAPU.Registers.YA.B.Y = 0xff; + IAPU.Registers.YA.B.A = 0xff; + } + else + { + APUClearOverflow (); + uint8 Work8 = IAPU.Registers.YA.W / IAPU.Registers.X; + IAPU.Registers.YA.B.Y = IAPU.Registers.YA.W % IAPU.Registers.X; + IAPU.Registers.YA.B.A = Work8; + } +// XXX How should Overflow, Half Carry, Zero and Negative flags be set?? + // APUSetZN16 (IAPU.Registers.YA.W); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void Apu9F () +{ +// XCN A + IAPU.Registers.YA.B.A = (IAPU.Registers.YA.B.A >> 4) | (IAPU.Registers.YA.B.A << 4); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void ApuA4 () +{ +// SBC A, dp + uint8 Work8 = S9xAPUGetByteZ (OP1); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void ApuA5 () +{ +// SBC A, abs + Absolute (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void ApuA6 () +{ +// SBC A, (X) + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.X); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC++; +} + +void ApuA7 () +{ +// SBC A,(dp+X) + IndexedXIndirect (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void ApuA8 () +{ +// SBC A,#00 + uint8 Work8 = OP1; + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void ApuA9 () +{ +// SBC dp(dest), dp(src) + uint8 Work8 = S9xAPUGetByteZ (OP1); + uint8 W1 = S9xAPUGetByteZ (OP2); + SBC (W1, Work8); + S9xAPUSetByteZ (W1, OP2); + IAPU.PC += 3; +} + +void ApuB4 () +{ +// SBC A, dp+X + uint8 Work8 = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void ApuB5 () +{ +// SBC A,abs+X + AbsoluteX (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void ApuB6 () +{ +// SBC A,abs+Y + AbsoluteY (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 3; +} + +void ApuB7 () +{ +// SBC A,(dp)+Y + IndirectIndexedY (); + uint8 Work8 = S9xAPUGetByte (IAPU.Address); + SBC (IAPU.Registers.YA.B.A, Work8); + IAPU.PC += 2; +} + +void ApuB8 () +{ +// SBC dp,#00 + uint8 Work8 = OP1; + uint8 W1 = S9xAPUGetByteZ (OP2); + SBC (W1, Work8); + S9xAPUSetByteZ (W1, OP2); + IAPU.PC += 3; +} + +void ApuB9 () +{ +// SBC (X),(Y) + uint8 W1 = S9xAPUGetByteZ (IAPU.Registers.X); + uint8 Work8 = S9xAPUGetByteZ (IAPU.Registers.YA.B.Y); + SBC (W1, Work8); + S9xAPUSetByteZ (W1, IAPU.Registers.X); + IAPU.PC++; +} + +void ApuAF () +{ +// MOV (X)+, A + S9xAPUSetByteZ (IAPU.Registers.YA.B.A, IAPU.Registers.X++); + IAPU.PC++; +} + +void ApuBE () +{ +// DAS + if ((IAPU.Registers.YA.B.A & 0x0f) > 9 || !APUCheckHalfCarry()) + { + IAPU.Registers.YA.B.A -= 6; + } + if (IAPU.Registers.YA.B.A > 0x9f || !IAPU._Carry) + { + IAPU.Registers.YA.B.A -= 0x60; + APUClearCarry (); + } + else { APUSetCarry (); } + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void ApuBF () +{ +// MOV A,(X)+ + IAPU.Registers.YA.B.A = S9xAPUGetByteZ (IAPU.Registers.X++); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void ApuC0 () +{ +// DI + APUClearInterrupt (); + IAPU.PC++; +} + +void ApuA0 () +{ +// EI + APUSetInterrupt (); + IAPU.PC++; +} + +void ApuC4 () +{ +// MOV dp,A + S9xAPUSetByteZ (IAPU.Registers.YA.B.A, OP1); + IAPU.PC += 2; +} + +void ApuC5 () +{ +// MOV abs,A + Absolute (); + S9xAPUSetByte (IAPU.Registers.YA.B.A, IAPU.Address); + IAPU.PC += 3; +} + +void ApuC6 () +{ +// MOV (X), A + S9xAPUSetByteZ (IAPU.Registers.YA.B.A, IAPU.Registers.X); + IAPU.PC++; +} + +void ApuC7 () +{ +// MOV (dp+X),A + IndexedXIndirect (); + S9xAPUSetByte (IAPU.Registers.YA.B.A, IAPU.Address); + IAPU.PC += 2; +} + +void ApuC9 () +{ +// MOV abs,X + Absolute (); + S9xAPUSetByte (IAPU.Registers.X, IAPU.Address); + IAPU.PC += 3; +} + +void ApuCB () +{ +// MOV dp,Y + S9xAPUSetByteZ (IAPU.Registers.YA.B.Y, OP1); + IAPU.PC += 2; +} + +void ApuCC () +{ +// MOV abs,Y + Absolute (); + S9xAPUSetByte (IAPU.Registers.YA.B.Y, IAPU.Address); + IAPU.PC += 3; +} + +void ApuCD () +{ +// MOV X,#00 + IAPU.Registers.X = OP1; + APUSetZN8 (IAPU.Registers.X); + IAPU.PC += 2; +} + +void ApuCF () +{ +// MUL YA + IAPU.Registers.YA.W = (uint16) IAPU.Registers.YA.B.A * IAPU.Registers.YA.B.Y; + APUSetZN16 (IAPU.Registers.YA.W); + IAPU.PC++; +} + +void ApuD4 () +{ +// MOV dp+X, A + S9xAPUSetByteZ (IAPU.Registers.YA.B.A, OP1 + IAPU.Registers.X); + IAPU.PC += 2; +} + +void ApuD5 () +{ +// MOV abs+X,A + AbsoluteX (); + S9xAPUSetByte (IAPU.Registers.YA.B.A, IAPU.Address); + IAPU.PC += 3; +} + +void ApuD6 () +{ +// MOV abs+Y,A + AbsoluteY (); + S9xAPUSetByte (IAPU.Registers.YA.B.A, IAPU.Address); + IAPU.PC += 3; +} + +void ApuD7 () +{ +// MOV (dp)+Y,A + IndirectIndexedY (); + S9xAPUSetByte (IAPU.Registers.YA.B.A, IAPU.Address); + IAPU.PC += 2; +} + +void ApuD8 () +{ +// MOV dp,X + S9xAPUSetByteZ (IAPU.Registers.X, OP1); + IAPU.PC += 2; +} + +void ApuD9 () +{ +// MOV dp+Y,X + S9xAPUSetByteZ (IAPU.Registers.X, OP1 + IAPU.Registers.YA.B.Y); + IAPU.PC += 2; +} + +void ApuDB () +{ +// MOV dp+X,Y + S9xAPUSetByteZ (IAPU.Registers.YA.B.Y, OP1 + IAPU.Registers.X); + IAPU.PC += 2; +} + +void ApuDF () +{ +// DAA + if ((IAPU.Registers.YA.B.A & 0x0f) > 9 || APUCheckHalfCarry()) + { + if(IAPU.Registers.YA.B.A > 0xf0) APUSetCarry (); + IAPU.Registers.YA.B.A += 6; + //APUSetHalfCarry (); Intel procs do this, but this is a Sony proc... + } + //else { APUClearHalfCarry (); } ditto as above + if (IAPU.Registers.YA.B.A > 0x9f || IAPU._Carry) + { + IAPU.Registers.YA.B.A += 0x60; + APUSetCarry (); + } + else { APUClearCarry (); } + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void ApuE4 () +{ +// MOV A, dp + IAPU.Registers.YA.B.A = S9xAPUGetByteZ (OP1); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void ApuE5 () +{ +// MOV A,abs + Absolute (); + IAPU.Registers.YA.B.A = S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void ApuE6 () +{ +// MOV A,(X) + IAPU.Registers.YA.B.A = S9xAPUGetByteZ (IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC++; +} + +void ApuE7 () +{ +// MOV A,(dp+X) + IndexedXIndirect (); + IAPU.Registers.YA.B.A = S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void ApuE8 () +{ +// MOV A,#00 + IAPU.Registers.YA.B.A = OP1; + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void ApuE9 () +{ +// MOV X, abs + Absolute (); + IAPU.Registers.X = S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.X); + IAPU.PC += 3; +} + +void ApuEB () +{ +// MOV Y,dp + IAPU.Registers.YA.B.Y = S9xAPUGetByteZ (OP1); + APUSetZN8 (IAPU.Registers.YA.B.Y); + IAPU.PC += 2; +} + +void ApuEC () +{ +// MOV Y,abs + Absolute (); + IAPU.Registers.YA.B.Y = S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.Y); + IAPU.PC += 3; +} + +void ApuF4 () +{ +// MOV A, dp+X + IAPU.Registers.YA.B.A = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void ApuF5 () +{ +// MOV A, abs+X + AbsoluteX (); + IAPU.Registers.YA.B.A = S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void ApuF6 () +{ +// MOV A, abs+Y + AbsoluteY (); + IAPU.Registers.YA.B.A = S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 3; +} + +void ApuF7 () +{ +// MOV A, (dp)+Y + IndirectIndexedY (); + IAPU.Registers.YA.B.A = S9xAPUGetByte (IAPU.Address); + APUSetZN8 (IAPU.Registers.YA.B.A); + IAPU.PC += 2; +} + +void ApuF8 () +{ +// MOV X,dp + IAPU.Registers.X = S9xAPUGetByteZ (OP1); + APUSetZN8 (IAPU.Registers.X); + IAPU.PC += 2; +} + +void ApuF9 () +{ +// MOV X,dp+Y + IAPU.Registers.X = S9xAPUGetByteZ (OP1 + IAPU.Registers.YA.B.Y); + APUSetZN8 (IAPU.Registers.X); + IAPU.PC += 2; +} + +void ApuFA () +{ +// MOV dp(dest),dp(src) + S9xAPUSetByteZ (S9xAPUGetByteZ (OP1), OP2); + IAPU.PC += 3; +} + +void ApuFB () +{ +// MOV Y,dp+X + IAPU.Registers.YA.B.Y = S9xAPUGetByteZ (OP1 + IAPU.Registers.X); + APUSetZN8 (IAPU.Registers.YA.B.Y); + IAPU.PC += 2; +} + +#ifdef NO_INLINE_SET_GET +#undef INLINE +#define INLINE +#include "apumem.h" +#endif + +void (*S9xApuOpcodes[256]) (void) = +{ + Apu00, Apu01, Apu02, Apu03, Apu04, Apu05, Apu06, Apu07, + Apu08, Apu09, Apu0A, Apu0B, Apu0C, Apu0D, Apu0E, Apu0F, + Apu10, Apu11, Apu12, Apu13, Apu14, Apu15, Apu16, Apu17, + Apu18, Apu19, Apu1A, Apu1B, Apu1C, Apu1D, Apu1E, Apu1F, + Apu20, Apu21, Apu22, Apu23, Apu24, Apu25, Apu26, Apu27, + Apu28, Apu29, Apu2A, Apu2B, Apu2C, Apu2D, Apu2E, Apu2F, + Apu30, Apu31, Apu32, Apu33, Apu34, Apu35, Apu36, Apu37, + Apu38, Apu39, Apu3A, Apu3B, Apu3C, Apu3D, Apu3E, Apu3F, + Apu40, Apu41, Apu42, Apu43, Apu44, Apu45, Apu46, Apu47, + Apu48, Apu49, Apu4A, Apu4B, Apu4C, Apu4D, Apu4E, Apu4F, + Apu50, Apu51, Apu52, Apu53, Apu54, Apu55, Apu56, Apu57, + Apu58, Apu59, Apu5A, Apu5B, Apu5C, Apu5D, Apu5E, Apu5F, + Apu60, Apu61, Apu62, Apu63, Apu64, Apu65, Apu66, Apu67, + Apu68, Apu69, Apu6A, Apu6B, Apu6C, Apu6D, Apu6E, Apu6F, + Apu70, Apu71, Apu72, Apu73, Apu74, Apu75, Apu76, Apu77, + Apu78, Apu79, Apu7A, Apu7B, Apu7C, Apu7D, Apu7E, Apu7F, + Apu80, Apu81, Apu82, Apu83, Apu84, Apu85, Apu86, Apu87, + Apu88, Apu89, Apu8A, Apu8B, Apu8C, Apu8D, Apu8E, Apu8F, + Apu90, Apu91, Apu92, Apu93, Apu94, Apu95, Apu96, Apu97, + Apu98, Apu99, Apu9A, Apu9B, Apu9C, Apu9D, Apu9E, Apu9F, + ApuA0, ApuA1, ApuA2, ApuA3, ApuA4, ApuA5, ApuA6, ApuA7, + ApuA8, ApuA9, ApuAA, ApuAB, ApuAC, ApuAD, ApuAE, ApuAF, + ApuB0, ApuB1, ApuB2, ApuB3, ApuB4, ApuB5, ApuB6, ApuB7, + ApuB8, ApuB9, ApuBA, ApuBB, ApuBC, ApuBD, ApuBE, ApuBF, + ApuC0, ApuC1, ApuC2, ApuC3, ApuC4, ApuC5, ApuC6, ApuC7, + ApuC8, ApuC9, ApuCA, ApuCB, ApuCC, ApuCD, ApuCE, ApuCF, + ApuD0, ApuD1, ApuD2, ApuD3, ApuD4, ApuD5, ApuD6, ApuD7, + ApuD8, ApuD9, ApuDA, ApuDB, ApuDC, ApuDD, ApuDE, ApuDF, + ApuE0, ApuE1, ApuE2, ApuE3, ApuE4, ApuE5, ApuE6, ApuE7, + ApuE8, ApuE9, ApuEA, ApuEB, ApuEC, ApuED, ApuEE, ApuEF, + ApuF0, ApuF1, ApuF2, ApuF3, ApuF4, ApuF5, ApuF6, ApuF7, + ApuF8, ApuF9, ApuFA, ApuFB, ApuFC, ApuFD, ApuFE, ApuFF +}; + -- cgit v1.2.3