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fxinst.cpp
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fxinst.cpp
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/*******************************************************************************
Snes9x - Portable Super Nintendo Entertainment System (TM) emulator.
(c) Copyright 1996 - 2002 Gary Henderson ([email protected]) and
Jerremy Koot ([email protected])
(c) Copyright 2001 - 2004 John Weidman ([email protected])
(c) Copyright 2002 - 2004 Brad Jorsch ([email protected]),
funkyass ([email protected]),
Joel Yliluoma (http://iki.fi/bisqwit/)
Kris Bleakley ([email protected]),
Matthew Kendora,
Nach ([email protected]),
Peter Bortas ([email protected]) and
zones ([email protected])
C4 x86 assembler and some C emulation code
(c) Copyright 2000 - 2003 zsKnight ([email protected]),
_Demo_ ([email protected]), and Nach
C4 C++ code
(c) Copyright 2003 Brad Jorsch
DSP-1 emulator code
(c) Copyright 1998 - 2004 Ivar ([email protected]), _Demo_, Gary Henderson,
John Weidman, neviksti ([email protected]),
Kris Bleakley, Andreas Naive
DSP-2 emulator code
(c) Copyright 2003 Kris Bleakley, John Weidman, neviksti, Matthew Kendora, and
Lord Nightmare ([email protected]
OBC1 emulator code
(c) Copyright 2001 - 2004 zsKnight, pagefault ([email protected]) 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 ([email protected])
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.
*******************************************************************************/
#define FX_DO_ROMBUFFER
#include "fxemu.h"
#include "fxinst.h"
#include <string.h>
#include <stdio.h>
extern struct FxRegs_s GSU;
int gsu_bank [512] = {0};
/* Set this define if you wish the plot instruction to check for y-pos limits */
/* (I don't think it's nessecary) */
#define CHECK_LIMITS
/* Codes used:
*
* rn = a GSU register (r0-r15)
* #n = 4 bit immediate value
* #pp = 8 bit immediate value
* (yy) = 8 bit word address (0x0000 - 0x01fe)
* #xx = 16 bit immediate value
* (xx) = 16 bit address (0x0000 - 0xffff)
*
*/
/* 00 - stop - stop GSU execution (and maybe generate an IRQ) */
static inline void fx_stop()
{
CF(G);
GSU.vCounter = 0;
GSU.vInstCount = GSU.vCounter;
/* Check if we need to generate an IRQ */
if(!(GSU.pvRegisters[GSU_CFGR] & 0x80))
SF(IRQ);
GSU.vPlotOptionReg = 0;
GSU.vPipe = 1;
CLRFLAGS;
R15++;
}
/* 01 - nop - no operation */
static inline void fx_nop() { CLRFLAGS; R15++; }
extern void fx_flushCache();
/* 02 - cache - reintialize GSU cache */
static inline void fx_cache()
{
uint32 c = R15 & 0xfff0;
if(GSU.vCacheBaseReg != c || !GSU.bCacheActive)
{
fx_flushCache();
GSU.vCacheBaseReg = c;
GSU.bCacheActive = TRUE;
#if 0
if(c < (0x10000-512))
{
uint8 const* t = &ROM(c);
memcpy(GSU.pvCache,t,512);
}
else
{
uint8 const* t1;
uint8 const* t2;
uint32 i = 0x10000 - c;
t1 = &ROM(c);
t2 = &ROM(0);
memcpy(GSU.pvCache,t1,i);
memcpy(&GSU.pvCache[i],t2,512-i);
}
#endif
}
R15++;
CLRFLAGS;
}
/* 03 - lsr - logic shift right */
static inline void fx_lsr()
{
uint32 v;
GSU.vCarry = SREG & 1;
v = USEX16(SREG) >> 1;
R15++; DREG = v;
GSU.vSign = v;
GSU.vZero = v;
TESTR14;
CLRFLAGS;
}
/* 04 - rol - rotate left */
static inline void fx_rol()
{
uint32 v = USEX16((SREG << 1) + GSU.vCarry);
GSU.vCarry = (SREG >> 15) & 1;
R15++; DREG = v;
GSU.vSign = v;
GSU.vZero = v;
TESTR14;
CLRFLAGS;
}
/* 05 - bra - branch always */
static inline void fx_bra() { uint8 v = PIPE; R15++; FETCHPIPE; R15 += SEX8(v); }
/* Branch on condition */
#define BRA_COND(cond) uint8 v = PIPE; R15++; FETCHPIPE; if(cond) R15 += SEX8(v); else R15++;
#define TEST_S (GSU.vSign & 0x8000)
#define TEST_Z (USEX16(GSU.vZero) == 0)
#define TEST_OV (GSU.vOverflow >= 0x8000 || GSU.vOverflow < -0x8000)
#define TEST_CY (GSU.vCarry & 1)
/* 06 - blt - branch on less than */
static inline void fx_blt() { BRA_COND( (TEST_S!=0) != (TEST_OV!=0) ); }
/* 07 - bge - branch on greater or equals */
static inline void fx_bge() { BRA_COND( (TEST_S!=0) == (TEST_OV!=0)); }
/* 08 - bne - branch on not equal */
static inline void fx_bne() { BRA_COND( !TEST_Z ); }
/* 09 - beq - branch on equal */
static inline void fx_beq() { BRA_COND( TEST_Z ); }
/* 0a - bpl - branch on plus */
static inline void fx_bpl() { BRA_COND( !TEST_S ); }
/* 0b - bmi - branch on minus */
static inline void fx_bmi() { BRA_COND( TEST_S ); }
/* 0c - bcc - branch on carry clear */
static inline void fx_bcc() { BRA_COND( !TEST_CY ); }
/* 0d - bcs - branch on carry set */
static inline void fx_bcs() { BRA_COND( TEST_CY ); }
/* 0e - bvc - branch on overflow clear */
static inline void fx_bvc() { BRA_COND( !TEST_OV ); }
/* 0f - bvs - branch on overflow set */
static inline void fx_bvs() { BRA_COND( TEST_OV ); }
/* 10-1f - to rn - set register n as destination register */
/* 10-1f(B) - move rn - move one register to another (if B flag is set) */
#define FX_TO(reg) \
if(TF(B)) { GSU.avReg[(reg)] = SREG; CLRFLAGS; } \
else { GSU.pvDreg = &GSU.avReg[reg]; } R15++;
#define FX_TO_R14(reg) \
if(TF(B)) { GSU.avReg[(reg)] = SREG; CLRFLAGS; READR14; } \
else { GSU.pvDreg = &GSU.avReg[reg]; } R15++;
#define FX_TO_R15(reg) \
if(TF(B)) { GSU.avReg[(reg)] = SREG; CLRFLAGS; } \
else { GSU.pvDreg = &GSU.avReg[reg]; R15++; }
static inline void fx_to_r0() { FX_TO(0); }
static inline void fx_to_r1() { FX_TO(1); }
static inline void fx_to_r2() { FX_TO(2); }
static inline void fx_to_r3() { FX_TO(3); }
static inline void fx_to_r4() { FX_TO(4); }
static inline void fx_to_r5() { FX_TO(5); }
static inline void fx_to_r6() { FX_TO(6); }
static inline void fx_to_r7() { FX_TO(7); }
static inline void fx_to_r8() { FX_TO(8); }
static inline void fx_to_r9() { FX_TO(9); }
static inline void fx_to_r10() { FX_TO(10); }
static inline void fx_to_r11() { FX_TO(11); }
static inline void fx_to_r12() { FX_TO(12); }
static inline void fx_to_r13() { FX_TO(13); }
static inline void fx_to_r14() { FX_TO_R14(14); }
static inline void fx_to_r15() { FX_TO_R15(15); }
/* 20-2f - to rn - set register n as source and destination register */
#define FX_WITH(reg) SF(B); GSU.pvSreg = GSU.pvDreg = &GSU.avReg[reg]; R15++;
static inline void fx_with_r0() { FX_WITH(0); }
static inline void fx_with_r1() { FX_WITH(1); }
static inline void fx_with_r2() { FX_WITH(2); }
static inline void fx_with_r3() { FX_WITH(3); }
static inline void fx_with_r4() { FX_WITH(4); }
static inline void fx_with_r5() { FX_WITH(5); }
static inline void fx_with_r6() { FX_WITH(6); }
static inline void fx_with_r7() { FX_WITH(7); }
static inline void fx_with_r8() { FX_WITH(8); }
static inline void fx_with_r9() { FX_WITH(9); }
static inline void fx_with_r10() { FX_WITH(10); }
static inline void fx_with_r11() { FX_WITH(11); }
static inline void fx_with_r12() { FX_WITH(12); }
static inline void fx_with_r13() { FX_WITH(13); }
static inline void fx_with_r14() { FX_WITH(14); }
static inline void fx_with_r15() { FX_WITH(15); }
/* 30-3b - stw (rn) - store word */
#define FX_STW(reg) \
GSU.vLastRamAdr = GSU.avReg[reg]; \
RAM(GSU.avReg[reg]) = (uint8)SREG; \
RAM(GSU.avReg[reg]^1) = (uint8)(SREG>>8); \
CLRFLAGS; R15++
static inline void fx_stw_r0() { FX_STW(0); }
static inline void fx_stw_r1() { FX_STW(1); }
static inline void fx_stw_r2() { FX_STW(2); }
static inline void fx_stw_r3() { FX_STW(3); }
static inline void fx_stw_r4() { FX_STW(4); }
static inline void fx_stw_r5() { FX_STW(5); }
static inline void fx_stw_r6() { FX_STW(6); }
static inline void fx_stw_r7() { FX_STW(7); }
static inline void fx_stw_r8() { FX_STW(8); }
static inline void fx_stw_r9() { FX_STW(9); }
static inline void fx_stw_r10() { FX_STW(10); }
static inline void fx_stw_r11() { FX_STW(11); }
/* 30-3b(ALT1) - stb (rn) - store byte */
#define FX_STB(reg) \
GSU.vLastRamAdr = GSU.avReg[reg]; \
RAM(GSU.avReg[reg]) = (uint8)SREG; \
CLRFLAGS; R15++
static inline void fx_stb_r0() { FX_STB(0); }
static inline void fx_stb_r1() { FX_STB(1); }
static inline void fx_stb_r2() { FX_STB(2); }
static inline void fx_stb_r3() { FX_STB(3); }
static inline void fx_stb_r4() { FX_STB(4); }
static inline void fx_stb_r5() { FX_STB(5); }
static inline void fx_stb_r6() { FX_STB(6); }
static inline void fx_stb_r7() { FX_STB(7); }
static inline void fx_stb_r8() { FX_STB(8); }
static inline void fx_stb_r9() { FX_STB(9); }
static inline void fx_stb_r10() { FX_STB(10); }
static inline void fx_stb_r11() { FX_STB(11); }
/* 3c - loop - decrement loop counter, and branch on not zero */
static inline void fx_loop()
{
GSU.vSign = GSU.vZero = --R12;
if( (uint16) R12 != 0 )
R15 = R13;
else
R15++;
CLRFLAGS;
}
/* 3d - alt1 - set alt1 mode */
static inline void fx_alt1() { SF(ALT1); CF(B); R15++; }
/* 3e - alt2 - set alt2 mode */
static inline void fx_alt2() { SF(ALT2); CF(B); R15++; }
/* 3f - alt3 - set alt3 mode */
static inline void fx_alt3() { SF(ALT1); SF(ALT2); CF(B); R15++; }
/* 40-4b - ldw (rn) - load word from RAM */
#define FX_LDW(reg) uint32 v; \
GSU.vLastRamAdr = GSU.avReg[reg]; \
v = (uint32)RAM(GSU.avReg[reg]); \
v |= ((uint32)RAM(GSU.avReg[reg]^1))<<8; \
R15++; DREG = v; \
TESTR14; \
CLRFLAGS
static inline void fx_ldw_r0() { FX_LDW(0); }
static inline void fx_ldw_r1() { FX_LDW(1); }
static inline void fx_ldw_r2() { FX_LDW(2); }
static inline void fx_ldw_r3() { FX_LDW(3); }
static inline void fx_ldw_r4() { FX_LDW(4); }
static inline void fx_ldw_r5() { FX_LDW(5); }
static inline void fx_ldw_r6() { FX_LDW(6); }
static inline void fx_ldw_r7() { FX_LDW(7); }
static inline void fx_ldw_r8() { FX_LDW(8); }
static inline void fx_ldw_r9() { FX_LDW(9); }
static inline void fx_ldw_r10() { FX_LDW(10); }
static inline void fx_ldw_r11() { FX_LDW(11); }
/* 40-4b(ALT1) - ldb (rn) - load byte */
#define FX_LDB(reg) uint32 v; \
GSU.vLastRamAdr = GSU.avReg[reg]; \
v = (uint32)RAM(GSU.avReg[reg]); \
R15++; DREG = v; \
TESTR14; \
CLRFLAGS
static inline void fx_ldb_r0() { FX_LDB(0); }
static inline void fx_ldb_r1() { FX_LDB(1); }
static inline void fx_ldb_r2() { FX_LDB(2); }
static inline void fx_ldb_r3() { FX_LDB(3); }
static inline void fx_ldb_r4() { FX_LDB(4); }
static inline void fx_ldb_r5() { FX_LDB(5); }
static inline void fx_ldb_r6() { FX_LDB(6); }
static inline void fx_ldb_r7() { FX_LDB(7); }
static inline void fx_ldb_r8() { FX_LDB(8); }
static inline void fx_ldb_r9() { FX_LDB(9); }
static inline void fx_ldb_r10() { FX_LDB(10); }
static inline void fx_ldb_r11() { FX_LDB(11); }
/* 4c - plot - plot pixel with R1,R2 as x,y and the color register as the color */
static inline void fx_plot_2bit()
{
uint32 x = USEX8(R1);
uint32 y = USEX8(R2);
uint8 *a;
uint8 v,c;
R15++;
CLRFLAGS;
R1++;
#ifdef CHECK_LIMITS
if(y >= GSU.vScreenHeight) return;
#endif
if(GSU.vPlotOptionReg & 0x02)
c = (x^y)&1 ? (uint8)(GSU.vColorReg>>4) : (uint8)GSU.vColorReg;
else
c = (uint8)GSU.vColorReg;
if( !(GSU.vPlotOptionReg & 0x01) && !(c & 0xf)) return;
a = GSU.apvScreen[y >> 3] + GSU.x[x >> 3] + ((y & 7) << 1);
v = 128 >> (x&7);
if(c & 0x01) a[0] |= v;
else a[0] &= ~v;
if(c & 0x02) a[1] |= v;
else a[1] &= ~v;
}
/* 2c(ALT1) - rpix - read color of the pixel with R1,R2 as x,y */
static inline void fx_rpix_2bit()
{
uint32 x = USEX8(R1);
uint32 y = USEX8(R2);
uint8 *a;
uint8 v;
R15++;
CLRFLAGS;
#ifdef CHECK_LIMITS
if(y >= GSU.vScreenHeight) return;
#endif
a = GSU.apvScreen[y >> 3] + GSU.x[x >> 3] + ((y & 7) << 1);
v = 128 >> (x&7);
DREG = 0;
DREG |= ((uint32)((a[0] & v) != 0)) << 0;
DREG |= ((uint32)((a[1] & v) != 0)) << 1;
TESTR14;
}
/* 4c - plot - plot pixel with R1,R2 as x,y and the color register as the color */
static inline void fx_plot_4bit()
{
uint32 x = USEX8(R1);
uint32 y = USEX8(R2);
uint8 *a;
uint8 v,c;
R15++;
CLRFLAGS;
R1++;
#ifdef CHECK_LIMITS
if(y >= GSU.vScreenHeight) return;
#endif
if(GSU.vPlotOptionReg & 0x02)
c = (x^y)&1 ? (uint8)(GSU.vColorReg>>4) : (uint8)GSU.vColorReg;
else
c = (uint8)GSU.vColorReg;
if( !(GSU.vPlotOptionReg & 0x01) && !(c & 0xf)) return;
a = GSU.apvScreen[y >> 3] + GSU.x[x >> 3] + ((y & 7) << 1);
v = 128 >> (x&7);
if(c & 0x01) a[0x00] |= v;
else a[0x00] &= ~v;
if(c & 0x02) a[0x01] |= v;
else a[0x01] &= ~v;
if(c & 0x04) a[0x10] |= v;
else a[0x10] &= ~v;
if(c & 0x08) a[0x11] |= v;
else a[0x11] &= ~v;
}
/* 4c(ALT1) - rpix - read color of the pixel with R1,R2 as x,y */
static inline void fx_rpix_4bit()
{
uint32 x = USEX8(R1);
uint32 y = USEX8(R2);
uint8 *a;
uint8 v;
R15++;
CLRFLAGS;
#ifdef CHECK_LIMITS
if(y >= GSU.vScreenHeight) return;
#endif
a = GSU.apvScreen[y >> 3] + GSU.x[x >> 3] + ((y & 7) << 1);
v = 128 >> (x&7);
DREG = 0;
DREG |= ((uint32)((a[0x00] & v) != 0)) << 0;
DREG |= ((uint32)((a[0x01] & v) != 0)) << 1;
DREG |= ((uint32)((a[0x10] & v) != 0)) << 2;
DREG |= ((uint32)((a[0x11] & v) != 0)) << 3;
TESTR14;
}
/* 8c - plot - plot pixel with R1,R2 as x,y and the color register as the color */
static inline void fx_plot_8bit()
{
uint32 x = USEX8(R1);
uint32 y = USEX8(R2);
uint8 *a;
uint8 v,c;
R15++;
CLRFLAGS;
R1++;
#ifdef CHECK_LIMITS
if(y >= GSU.vScreenHeight) return;
#endif
c = (uint8)GSU.vColorReg;
if( !(GSU.vPlotOptionReg & 0x10) )
{
if( !(GSU.vPlotOptionReg & 0x01) && !(c&0xf)) return;
}
else
if( !(GSU.vPlotOptionReg & 0x01) && !c) return;
a = GSU.apvScreen[y >> 3] + GSU.x[x >> 3] + ((y & 7) << 1);
v = 128 >> (x&7);
if(c & 0x01) a[0x00] |= v;
else a[0x00] &= ~v;
if(c & 0x02) a[0x01] |= v;
else a[0x01] &= ~v;
if(c & 0x04) a[0x10] |= v;
else a[0x10] &= ~v;
if(c & 0x08) a[0x11] |= v;
else a[0x11] &= ~v;
if(c & 0x10) a[0x20] |= v;
else a[0x20] &= ~v;
if(c & 0x20) a[0x21] |= v;
else a[0x21] &= ~v;
if(c & 0x40) a[0x30] |= v;
else a[0x30] &= ~v;
if(c & 0x80) a[0x31] |= v;
else a[0x31] &= ~v;
}
/* 4c(ALT1) - rpix - read color of the pixel with R1,R2 as x,y */
static inline void fx_rpix_8bit()
{
uint32 x = USEX8(R1);
uint32 y = USEX8(R2);
uint8 *a;
uint8 v;
R15++;
CLRFLAGS;
#ifdef CHECK_LIMITS
if(y >= GSU.vScreenHeight) return;
#endif
a = GSU.apvScreen[y >> 3] + GSU.x[x >> 3] + ((y & 7) << 1);
v = 128 >> (x&7);
DREG = 0;
DREG |= ((uint32)((a[0x00] & v) != 0)) << 0;
DREG |= ((uint32)((a[0x01] & v) != 0)) << 1;
DREG |= ((uint32)((a[0x10] & v) != 0)) << 2;
DREG |= ((uint32)((a[0x11] & v) != 0)) << 3;
DREG |= ((uint32)((a[0x20] & v) != 0)) << 4;
DREG |= ((uint32)((a[0x21] & v) != 0)) << 5;
DREG |= ((uint32)((a[0x30] & v) != 0)) << 6;
DREG |= ((uint32)((a[0x31] & v) != 0)) << 7;
GSU.vZero = DREG;
TESTR14;
}
/* 4o - plot - plot pixel with R1,R2 as x,y and the color register as the color */
static inline void fx_plot_obj()
{
printf ("ERROR fx_plot_obj called\n");
}
/* 4c(ALT1) - rpix - read color of the pixel with R1,R2 as x,y */
static inline void fx_rpix_obj()
{
printf ("ERROR fx_rpix_obj called\n");
}
/* 4d - swap - swap upper and lower byte of a register */
static inline void fx_swap()
{
uint8 c = (uint8)SREG;
uint8 d = (uint8)(SREG>>8);
uint32 v = (((uint32)c)<<8)|((uint32)d);
R15++; DREG = v;
GSU.vSign = v;
GSU.vZero = v;
TESTR14;
CLRFLAGS;
}
/* 4e - color - copy source register to color register */
static inline void fx_color()
{
uint8 c = (uint8)SREG;
if(GSU.vPlotOptionReg & 0x04)
c = (c&0xf0) | (c>>4);
if(GSU.vPlotOptionReg & 0x08)
{
GSU.vColorReg &= 0xf0;
GSU.vColorReg |= c & 0x0f;
}
else
GSU.vColorReg = USEX8(c);
CLRFLAGS;
R15++;
}
/* 4e(ALT1) - cmode - set plot option register */
static inline void fx_cmode()
{
GSU.vPlotOptionReg = SREG;
if(GSU.vPlotOptionReg & 0x10)
{
/* OBJ Mode (for drawing into sprites) */
GSU.vScreenHeight = 256;
}
else
GSU.vScreenHeight = GSU.vScreenRealHeight;
fx_computeScreenPointers ();
CLRFLAGS;
R15++;
}
/* 4f - not - perform exclusive exor with 1 on all bits */
static inline void fx_not()
{
uint32 v = ~SREG;
R15++; DREG = v;
GSU.vSign = v;
GSU.vZero = v;
TESTR14;
CLRFLAGS;
}
/* 50-5f - add rn - add, register + register */
#define FX_ADD(reg) \
int32 s = SUSEX16(SREG) + SUSEX16(GSU.avReg[reg]); \
GSU.vCarry = s >= 0x10000; \
GSU.vOverflow = ~(SREG ^ GSU.avReg[reg]) & (GSU.avReg[reg] ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; DREG = s; \
TESTR14; \
CLRFLAGS
static inline void fx_add_r0() { FX_ADD(0); }
static inline void fx_add_r1() { FX_ADD(1); }
static inline void fx_add_r2() { FX_ADD(2); }
static inline void fx_add_r3() { FX_ADD(3); }
static inline void fx_add_r4() { FX_ADD(4); }
static inline void fx_add_r5() { FX_ADD(5); }
static inline void fx_add_r6() { FX_ADD(6); }
static inline void fx_add_r7() { FX_ADD(7); }
static inline void fx_add_r8() { FX_ADD(8); }
static inline void fx_add_r9() { FX_ADD(9); }
static inline void fx_add_r10() { FX_ADD(10); }
static inline void fx_add_r11() { FX_ADD(11); }
static inline void fx_add_r12() { FX_ADD(12); }
static inline void fx_add_r13() { FX_ADD(13); }
static inline void fx_add_r14() { FX_ADD(14); }
static inline void fx_add_r15() { FX_ADD(15); }
/* 50-5f(ALT1) - adc rn - add with carry, register + register */
#define FX_ADC(reg) \
int32 s = SUSEX16(SREG) + SUSEX16(GSU.avReg[reg]) + SEX16(GSU.vCarry); \
GSU.vCarry = s >= 0x10000; \
GSU.vOverflow = ~(SREG ^ GSU.avReg[reg]) & (GSU.avReg[reg] ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; DREG = s; \
TESTR14; \
CLRFLAGS
static inline void fx_adc_r0() { FX_ADC(0); }
static inline void fx_adc_r1() { FX_ADC(1); }
static inline void fx_adc_r2() { FX_ADC(2); }
static inline void fx_adc_r3() { FX_ADC(3); }
static inline void fx_adc_r4() { FX_ADC(4); }
static inline void fx_adc_r5() { FX_ADC(5); }
static inline void fx_adc_r6() { FX_ADC(6); }
static inline void fx_adc_r7() { FX_ADC(7); }
static inline void fx_adc_r8() { FX_ADC(8); }
static inline void fx_adc_r9() { FX_ADC(9); }
static inline void fx_adc_r10() { FX_ADC(10); }
static inline void fx_adc_r11() { FX_ADC(11); }
static inline void fx_adc_r12() { FX_ADC(12); }
static inline void fx_adc_r13() { FX_ADC(13); }
static inline void fx_adc_r14() { FX_ADC(14); }
static inline void fx_adc_r15() { FX_ADC(15); }
/* 50-5f(ALT2) - add #n - add, register + immediate */
#define FX_ADD_I(imm) \
int32 s = SUSEX16(SREG) + imm; \
GSU.vCarry = s >= 0x10000; \
GSU.vOverflow = ~(SREG ^ imm) & (imm ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; DREG = s; \
TESTR14; \
CLRFLAGS
static inline void fx_add_i0() { FX_ADD_I(0); }
static inline void fx_add_i1() { FX_ADD_I(1); }
static inline void fx_add_i2() { FX_ADD_I(2); }
static inline void fx_add_i3() { FX_ADD_I(3); }
static inline void fx_add_i4() { FX_ADD_I(4); }
static inline void fx_add_i5() { FX_ADD_I(5); }
static inline void fx_add_i6() { FX_ADD_I(6); }
static inline void fx_add_i7() { FX_ADD_I(7); }
static inline void fx_add_i8() { FX_ADD_I(8); }
static inline void fx_add_i9() { FX_ADD_I(9); }
static inline void fx_add_i10() { FX_ADD_I(10); }
static inline void fx_add_i11() { FX_ADD_I(11); }
static inline void fx_add_i12() { FX_ADD_I(12); }
static inline void fx_add_i13() { FX_ADD_I(13); }
static inline void fx_add_i14() { FX_ADD_I(14); }
static inline void fx_add_i15() { FX_ADD_I(15); }
/* 50-5f(ALT3) - adc #n - add with carry, register + immediate */
#define FX_ADC_I(imm) \
int32 s = SUSEX16(SREG) + imm + SUSEX16(GSU.vCarry); \
GSU.vCarry = s >= 0x10000; \
GSU.vOverflow = ~(SREG ^ imm) & (imm ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; DREG = s; \
TESTR14; \
CLRFLAGS
static inline void fx_adc_i0() { FX_ADC_I(0); }
static inline void fx_adc_i1() { FX_ADC_I(1); }
static inline void fx_adc_i2() { FX_ADC_I(2); }
static inline void fx_adc_i3() { FX_ADC_I(3); }
static inline void fx_adc_i4() { FX_ADC_I(4); }
static inline void fx_adc_i5() { FX_ADC_I(5); }
static inline void fx_adc_i6() { FX_ADC_I(6); }
static inline void fx_adc_i7() { FX_ADC_I(7); }
static inline void fx_adc_i8() { FX_ADC_I(8); }
static inline void fx_adc_i9() { FX_ADC_I(9); }
static inline void fx_adc_i10() { FX_ADC_I(10); }
static inline void fx_adc_i11() { FX_ADC_I(11); }
static inline void fx_adc_i12() { FX_ADC_I(12); }
static inline void fx_adc_i13() { FX_ADC_I(13); }
static inline void fx_adc_i14() { FX_ADC_I(14); }
static inline void fx_adc_i15() { FX_ADC_I(15); }
/* 60-6f - sub rn - subtract, register - register */
#define FX_SUB(reg) \
int32 s = SUSEX16(SREG) - SUSEX16(GSU.avReg[reg]); \
GSU.vCarry = s >= 0; \
GSU.vOverflow = (SREG ^ GSU.avReg[reg]) & (SREG ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; DREG = s; \
TESTR14; \
CLRFLAGS
static inline void fx_sub_r0() { FX_SUB(0); }
static inline void fx_sub_r1() { FX_SUB(1); }
static inline void fx_sub_r2() { FX_SUB(2); }
static inline void fx_sub_r3() { FX_SUB(3); }
static inline void fx_sub_r4() { FX_SUB(4); }
static inline void fx_sub_r5() { FX_SUB(5); }
static inline void fx_sub_r6() { FX_SUB(6); }
static inline void fx_sub_r7() { FX_SUB(7); }
static inline void fx_sub_r8() { FX_SUB(8); }
static inline void fx_sub_r9() { FX_SUB(9); }
static inline void fx_sub_r10() { FX_SUB(10); }
static inline void fx_sub_r11() { FX_SUB(11); }
static inline void fx_sub_r12() { FX_SUB(12); }
static inline void fx_sub_r13() { FX_SUB(13); }
static inline void fx_sub_r14() { FX_SUB(14); }
static inline void fx_sub_r15() { FX_SUB(15); }
/* 60-6f(ALT1) - sbc rn - subtract with carry, register - register */
#define FX_SBC(reg) \
int32 s = SUSEX16(SREG) - SUSEX16(GSU.avReg[reg]) - (SUSEX16(GSU.vCarry^1)); \
GSU.vCarry = s >= 0; \
GSU.vOverflow = (SREG ^ GSU.avReg[reg]) & (SREG ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; DREG = s; \
TESTR14; \
CLRFLAGS
static inline void fx_sbc_r0() { FX_SBC(0); }
static inline void fx_sbc_r1() { FX_SBC(1); }
static inline void fx_sbc_r2() { FX_SBC(2); }
static inline void fx_sbc_r3() { FX_SBC(3); }
static inline void fx_sbc_r4() { FX_SBC(4); }
static inline void fx_sbc_r5() { FX_SBC(5); }
static inline void fx_sbc_r6() { FX_SBC(6); }
static inline void fx_sbc_r7() { FX_SBC(7); }
static inline void fx_sbc_r8() { FX_SBC(8); }
static inline void fx_sbc_r9() { FX_SBC(9); }
static inline void fx_sbc_r10() { FX_SBC(10); }
static inline void fx_sbc_r11() { FX_SBC(11); }
static inline void fx_sbc_r12() { FX_SBC(12); }
static inline void fx_sbc_r13() { FX_SBC(13); }
static inline void fx_sbc_r14() { FX_SBC(14); }
static inline void fx_sbc_r15() { FX_SBC(15); }
/* 60-6f(ALT2) - sub #n - subtract, register - immediate */
#define FX_SUB_I(imm) \
int32 s = SUSEX16(SREG) - imm; \
GSU.vCarry = s >= 0; \
GSU.vOverflow = (SREG ^ imm) & (SREG ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; DREG = s; \
TESTR14; \
CLRFLAGS
static inline void fx_sub_i0() { FX_SUB_I(0); }
static inline void fx_sub_i1() { FX_SUB_I(1); }
static inline void fx_sub_i2() { FX_SUB_I(2); }
static inline void fx_sub_i3() { FX_SUB_I(3); }
static inline void fx_sub_i4() { FX_SUB_I(4); }
static inline void fx_sub_i5() { FX_SUB_I(5); }
static inline void fx_sub_i6() { FX_SUB_I(6); }
static inline void fx_sub_i7() { FX_SUB_I(7); }
static inline void fx_sub_i8() { FX_SUB_I(8); }
static inline void fx_sub_i9() { FX_SUB_I(9); }
static inline void fx_sub_i10() { FX_SUB_I(10); }
static inline void fx_sub_i11() { FX_SUB_I(11); }
static inline void fx_sub_i12() { FX_SUB_I(12); }
static inline void fx_sub_i13() { FX_SUB_I(13); }
static inline void fx_sub_i14() { FX_SUB_I(14); }
static inline void fx_sub_i15() { FX_SUB_I(15); }
/* 60-6f(ALT3) - cmp rn - compare, register, register */
#define FX_CMP(reg) \
int32 s = SUSEX16(SREG) - SUSEX16(GSU.avReg[reg]); \
GSU.vCarry = s >= 0; \
GSU.vOverflow = (SREG ^ GSU.avReg[reg]) & (SREG ^ s) & 0x8000; \
GSU.vSign = s; \
GSU.vZero = s; \
R15++; \
CLRFLAGS;
static inline void fx_cmp_r0() { FX_CMP(0); }
static inline void fx_cmp_r1() { FX_CMP(1); }
static inline void fx_cmp_r2() { FX_CMP(2); }
static inline void fx_cmp_r3() { FX_CMP(3); }
static inline void fx_cmp_r4() { FX_CMP(4); }
static inline void fx_cmp_r5() { FX_CMP(5); }
static inline void fx_cmp_r6() { FX_CMP(6); }
static inline void fx_cmp_r7() { FX_CMP(7); }
static inline void fx_cmp_r8() { FX_CMP(8); }
static inline void fx_cmp_r9() { FX_CMP(9); }
static inline void fx_cmp_r10() { FX_CMP(10); }
static inline void fx_cmp_r11() { FX_CMP(11); }
static inline void fx_cmp_r12() { FX_CMP(12); }
static inline void fx_cmp_r13() { FX_CMP(13); }
static inline void fx_cmp_r14() { FX_CMP(14); }
static inline void fx_cmp_r15() { FX_CMP(15); }
/* 70 - merge - R7 as upper byte, R8 as lower byte (used for texture-mapping) */
static inline void fx_merge()
{
uint32 v = (R7&0xff00) | ((R8&0xff00)>>8);
R15++; DREG = v;
GSU.vOverflow = (v & 0xc0c0) << 16;
GSU.vZero = !(v & 0xf0f0);
GSU.vSign = ((v | (v<<8)) & 0x8000);
GSU.vCarry = (v & 0xe0e0) != 0;
TESTR14;
CLRFLAGS;
}
/* 71-7f - and rn - reister & register */
#define FX_AND(reg) \
uint32 v = SREG & GSU.avReg[reg]; \
R15++; DREG = v; \
GSU.vSign = v; \
GSU.vZero = v; \
TESTR14; \
CLRFLAGS;
static inline void fx_and_r1() { FX_AND(1); }
static inline void fx_and_r2() { FX_AND(2); }
static inline void fx_and_r3() { FX_AND(3); }
static inline void fx_and_r4() { FX_AND(4); }
static inline void fx_and_r5() { FX_AND(5); }
static inline void fx_and_r6() { FX_AND(6); }
static inline void fx_and_r7() { FX_AND(7); }
static inline void fx_and_r8() { FX_AND(8); }
static inline void fx_and_r9() { FX_AND(9); }
static inline void fx_and_r10() { FX_AND(10); }
static inline void fx_and_r11() { FX_AND(11); }
static inline void fx_and_r12() { FX_AND(12); }
static inline void fx_and_r13() { FX_AND(13); }
static inline void fx_and_r14() { FX_AND(14); }
static inline void fx_and_r15() { FX_AND(15); }
/* 71-7f(ALT1) - bic rn - reister & ~register */
#define FX_BIC(reg) \
uint32 v = SREG & ~GSU.avReg[reg]; \
R15++; DREG = v; \
GSU.vSign = v; \
GSU.vZero = v; \
TESTR14; \
CLRFLAGS;
static inline void fx_bic_r1() { FX_BIC(1); }
static inline void fx_bic_r2() { FX_BIC(2); }
static inline void fx_bic_r3() { FX_BIC(3); }
static inline void fx_bic_r4() { FX_BIC(4); }
static inline void fx_bic_r5() { FX_BIC(5); }
static inline void fx_bic_r6() { FX_BIC(6); }
static inline void fx_bic_r7() { FX_BIC(7); }
static inline void fx_bic_r8() { FX_BIC(8); }
static inline void fx_bic_r9() { FX_BIC(9); }
static inline void fx_bic_r10() { FX_BIC(10); }
static inline void fx_bic_r11() { FX_BIC(11); }
static inline void fx_bic_r12() { FX_BIC(12); }
static inline void fx_bic_r13() { FX_BIC(13); }
static inline void fx_bic_r14() { FX_BIC(14); }
static inline void fx_bic_r15() { FX_BIC(15); }
/* 71-7f(ALT2) - and #n - reister & immediate */
#define FX_AND_I(imm) \
uint32 v = SREG & imm; \
R15++; DREG = v; \
GSU.vSign = v; \
GSU.vZero = v; \
TESTR14; \
CLRFLAGS;
static inline void fx_and_i1() { FX_AND_I(1); }
static inline void fx_and_i2() { FX_AND_I(2); }
static inline void fx_and_i3() { FX_AND_I(3); }
static inline void fx_and_i4() { FX_AND_I(4); }
static inline void fx_and_i5() { FX_AND_I(5); }
static inline void fx_and_i6() { FX_AND_I(6); }
static inline void fx_and_i7() { FX_AND_I(7); }
static inline void fx_and_i8() { FX_AND_I(8); }
static inline void fx_and_i9() { FX_AND_I(9); }
static inline void fx_and_i10() { FX_AND_I(10); }
static inline void fx_and_i11() { FX_AND_I(11); }
static inline void fx_and_i12() { FX_AND_I(12); }
static inline void fx_and_i13() { FX_AND_I(13); }
static inline void fx_and_i14() { FX_AND_I(14); }
static inline void fx_and_i15() { FX_AND_I(15); }
/* 71-7f(ALT3) - bic #n - reister & ~immediate */
#define FX_BIC_I(imm) \
uint32 v = SREG & ~imm; \
R15++; DREG = v; \
GSU.vSign = v; \
GSU.vZero = v; \
TESTR14; \
CLRFLAGS;
static inline void fx_bic_i1() { FX_BIC_I(1); }
static inline void fx_bic_i2() { FX_BIC_I(2); }
static inline void fx_bic_i3() { FX_BIC_I(3); }
static inline void fx_bic_i4() { FX_BIC_I(4); }
static inline void fx_bic_i5() { FX_BIC_I(5); }
static inline void fx_bic_i6() { FX_BIC_I(6); }
static inline void fx_bic_i7() { FX_BIC_I(7); }
static inline void fx_bic_i8() { FX_BIC_I(8); }
static inline void fx_bic_i9() { FX_BIC_I(9); }
static inline void fx_bic_i10() { FX_BIC_I(10); }
static inline void fx_bic_i11() { FX_BIC_I(11); }
static inline void fx_bic_i12() { FX_BIC_I(12); }
static inline void fx_bic_i13() { FX_BIC_I(13); }
static inline void fx_bic_i14() { FX_BIC_I(14); }
static inline void fx_bic_i15() { FX_BIC_I(15); }
/* 80-8f - mult rn - 8 bit to 16 bit signed multiply, register * register */
#define FX_MULT(reg) \
uint32 v = (uint32)(SEX8(SREG) * SEX8(GSU.avReg[reg])); \
R15++; DREG = v; \
GSU.vSign = v; \
GSU.vZero = v; \
TESTR14; \
CLRFLAGS;
static inline void fx_mult_r0() { FX_MULT(0); }
static inline void fx_mult_r1() { FX_MULT(1); }
static inline void fx_mult_r2() { FX_MULT(2); }
static inline void fx_mult_r3() { FX_MULT(3); }
static inline void fx_mult_r4() { FX_MULT(4); }
static inline void fx_mult_r5() { FX_MULT(5); }
static inline void fx_mult_r6() { FX_MULT(6); }
static inline void fx_mult_r7() { FX_MULT(7); }
static inline void fx_mult_r8() { FX_MULT(8); }
static inline void fx_mult_r9() { FX_MULT(9); }
static inline void fx_mult_r10() { FX_MULT(10); }
static inline void fx_mult_r11() { FX_MULT(11); }
static inline void fx_mult_r12() { FX_MULT(12); }
static inline void fx_mult_r13() { FX_MULT(13); }
static inline void fx_mult_r14() { FX_MULT(14); }
static inline void fx_mult_r15() { FX_MULT(15); }
/* 80-8f(ALT1) - umult rn - 8 bit to 16 bit unsigned multiply, register * register */
#define FX_UMULT(reg) \
uint32 v = USEX8(SREG) * USEX8(GSU.avReg[reg]); \
R15++; DREG = v; \
GSU.vSign = v; \
GSU.vZero = v; \
TESTR14; \
CLRFLAGS;
static inline void fx_umult_r0() { FX_UMULT(0); }
static inline void fx_umult_r1() { FX_UMULT(1); }
static inline void fx_umult_r2() { FX_UMULT(2); }
static inline void fx_umult_r3() { FX_UMULT(3); }
static inline void fx_umult_r4() { FX_UMULT(4); }
static inline void fx_umult_r5() { FX_UMULT(5); }