pcsx2/plugins/GSnull/Registers.h

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/* GSnull
* Copyright (C) 2004-2009 PCSX2 Team
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
// These enums & structures are copied from GSdx, which got them from sp2dev 0.4.0.
// In fact, after looking at both ZeroGS and GSdx, and seeing how similar this section is on both,
// I'm just going to blatantly copy most of GS.h here and localize.
// And if this is kept close enough to GSdx's code, if should make porting GSdx to Linux a bit easier...
// sp2dev is Copyright (C) 2002 Terratron Technologies Inc. All Rights Reserved.
// http://window.terratron.com/~sosman/ps2linux/
//
// Gsdx is Copyright (C) 2007-2009 Gabest All Rights Reserved.
// http://www.gabest.org
//
#ifdef __cplusplus
extern "C"
{
#endif
#define GSdefs
#include "PS2Edefs.h"
#include "PS2Etypes.h"
#ifdef __cplusplus
}
#endif
#include "emmintrin.h"
#include "GifTransfer.h"
#pragma pack(push, 1)
enum GS_PRIM
{
GS_POINTLIST = 0,
GS_LINELIST = 1,
GS_LINESTRIP = 2,
GS_TRIANGLELIST = 3,
GS_TRIANGLESTRIP = 4,
GS_TRIANGLEFAN = 5,
GS_SPRITE = 6,
GS_INVALID = 7,
};
enum GS_PRIM_CLASS
{
GS_POINT_CLASS = 0,
GS_LINE_CLASS = 1,
GS_TRIANGLE_CLASS = 2,
GS_SPRITE_CLASS = 3,
GS_INVALID_CLASS = 7,
};
enum GS_PSM
{
PSM_PSMCT32 = 0, // 0000-0000
PSM_PSMCT24 = 1, // 0000-0001
PSM_PSMCT16 = 2, // 0000-0010
PSM_PSMCT16S = 10, // 0000-1010
PSM_PSMT8 = 19, // 0001-0011
PSM_PSMT4 = 20, // 0001-0100
PSM_PSMT8H = 27, // 0001-1011
PSM_PSMT4HL = 36, // 0010-0100
PSM_PSMT4HH = 44, // 0010-1100
PSM_PSMZ32 = 48, // 0011-0000
PSM_PSMZ24 = 49, // 0011-0001
PSM_PSMZ16 = 50, // 0011-0010
PSM_PSMZ16S = 58, // 0011-1010
};
enum GS_TFX
{
TFX_MODULATE = 0,
TFX_DECAL = 1,
TFX_HIGHLIGHT = 2,
TFX_HIGHLIGHT2 = 3,
TFX_NONE = 4,
};
enum GS_CLAMP
{
CLAMP_REPEAT = 0,
CLAMP_CLAMP = 1,
CLAMP_REGION_CLAMP = 2,
CLAMP_REGION_REPEAT = 3,
};
enum GS_ZTST
{
ZTST_NEVER = 0,
ZTST_ALWAYS = 1,
ZTST_GEQUAL = 2,
ZTST_GREATER = 3,
};
enum GS_ATST
{
ATST_NEVER = 0,
ATST_ALWAYS = 1,
ATST_LESS = 2,
ATST_LEQUAL = 3,
ATST_EQUAL = 4,
ATST_GEQUAL = 5,
ATST_GREATER = 6,
ATST_NOTEQUAL = 7,
};
enum GS_AFAIL
{
AFAIL_KEEP = 0,
AFAIL_FB_ONLY = 1,
AFAIL_ZB_ONLY = 2,
AFAIL_RGB_ONLY = 3,
};
#define REG32(name) \
union name \
{ \
u32 _u32; \
struct { \
#define REG64(name) \
union name \
{ \
u64 _u64; \
u32 _u32[2]; \
/*void operator = (const GSVector4i& v) {GSVector4i::storel(this, v);} \
bool operator == (const union name& r) const {return ((GSVector4i)r).eq(*this);} \
bool operator != (const union name& r) const {return !((GSVector4i)r).eq(*this);} \
operator GSVector4i() const {return GSVector4i::loadl(this);}*/ \
struct { \
#define REG128(name)\
union name \
{ \
u64 _u64[2]; \
u32 _u32[4]; \
struct { \
#define REG32_(prefix, name) REG32(prefix##name)
#define REG64_(prefix, name) REG64(prefix##name)
#define REG128_(prefix, name) REG128(prefix##name)
#define REG_END }; };
#define REG_END2 };
#define REG32_SET(name) \
union name \
{ \
u32 _u32; \
#define REG64_SET(name) \
union name \
{ \
u64 _u64; \
u32 _u32[2]; \
#define REG128_SET(name)\
union name \
{ \
__m128i _m128; \
u64 _u64[2]; \
u32 _u32[4]; \
#define REG_SET_END };
REG64_(GSReg, BGCOLOR)
u32 R:8;
u32 G:8;
u32 B:8;
u32 _PAD1:8;
u32 _PAD2:32;
REG_END
REG64_(GSReg, BUSDIR)
u32 DIR:1;
u32 _PAD1:31;
u32 _PAD2:32;
REG_END
REG64_(GSReg, CSR)
u32 rSIGNAL:1;
u32 rFINISH:1;
u32 rHSINT:1;
u32 rVSINT:1;
u32 rEDWINT:1;
u32 rZERO1:1;
u32 rZERO2:1;
u32 r_PAD1:1;
u32 rFLUSH:1;
u32 rRESET:1;
u32 r_PAD2:2;
u32 rNFIELD:1;
u32 rFIELD:1;
u32 rFIFO:2;
u32 rREV:8;
u32 rID:8;
u32 wSIGNAL:1;
u32 wFINISH:1;
u32 wHSINT:1;
u32 wVSINT:1;
u32 wEDWINT:1;
u32 wZERO1:1;
u32 wZERO2:1;
u32 w_PAD1:1;
u32 wFLUSH:1;
u32 wRESET:1;
u32 w_PAD2:2;
u32 wNFIELD:1;
u32 wFIELD:1;
u32 wFIFO:2;
u32 wREV:8;
u32 wID:8;
REG_END
REG64_(GSReg, DISPFB) // (-1/2)
u32 FBP:9;
u32 FBW:6;
u32 PSM:5;
u32 _PAD:12;
u32 DBX:11;
u32 DBY:11;
u32 _PAD2:10;
REG_END2
u32 Block() const {return FBP << 5;}
REG_END2
REG64_(GSReg, DISPLAY) // (-1/2)
u32 DX:12;
u32 DY:11;
u32 MAGH:4;
u32 MAGV:2;
u32 _PAD:3;
u32 DW:12;
u32 DH:11;
u32 _PAD2:9;
REG_END
REG64_(GSReg, EXTBUF)
u32 EXBP:14;
u32 EXBW:6;
u32 FBIN:2;
u32 WFFMD:1;
u32 EMODA:2;
u32 EMODC:2;
u32 _PAD1:5;
u32 WDX:11;
u32 WDY:11;
u32 _PAD2:10;
REG_END
REG64_(GSReg, EXTDATA)
u32 SX:12;
u32 SY:11;
u32 SMPH:4;
u32 SMPV:2;
u32 _PAD1:3;
u32 WW:12;
u32 WH:11;
u32 _PAD2:9;
REG_END
REG64_(GSReg, EXTWRITE)
u32 WRITE:1;
u32 _PAD1:31;
u32 _PAD2:32;
REG_END
REG64_(GSReg, IMR)
u32 _PAD1:8;
u32 SIGMSK:1;
u32 FINISHMSK:1;
u32 HSMSK:1;
u32 VSMSK:1;
u32 EDWMSK:1;
u32 _PAD2:19;
u32 _PAD3:32;
REG_END
REG64_(GSReg, PMODE)
union
{
struct
{
u32 EN1:1;
u32 EN2:1;
u32 CRTMD:3;
u32 MMOD:1;
u32 AMOD:1;
u32 SLBG:1;
u32 ALP:8;
u32 _PAD:16;
u32 _PAD1:32;
};
struct
{
u32 EN:2;
u32 _PAD2:30;
u32 _PAD3:32;
};
};
REG_END
REG64_(GSReg, SIGLBLID)
u32 SIGID:32;
u32 LBLID:32;
REG_END
REG64_(GSReg, SMODE1)
u32 RC:3;
u32 LC:7;
u32 T1248:2;
u32 SLCK:1;
u32 CMOD:2;
u32 EX:1;
u32 PRST:1;
u32 SINT:1;
u32 XPCK:1;
u32 PCK2:2;
u32 SPML:4;
u32 GCONT:1; // YCrCb
u32 PHS:1;
u32 PVS:1;
u32 PEHS:1;
u32 PEVS:1;
u32 CLKSEL:2;
u32 NVCK:1;
u32 SLCK2:1;
u32 VCKSEL:2;
u32 VHP:1;
u32 _PAD1:27;
REG_END
/*
// pal
CLKSEL=1 CMOD=3 EX=0 GCONT=0 LC=32 NVCK=1 PCK2=0 PEHS=0 PEVS=0 PHS=0 PRST=1 PVS=0 RC=4 SINT=0 SLCK=0 SLCK2=1 SPML=4 T1248=1 VCKSEL=1 VHP=0 XPCK=0
// ntsc
CLKSEL=1 CMOD=2 EX=0 GCONT=0 LC=32 NVCK=1 PCK2=0 PEHS=0 PEVS=0 PHS=0 PRST=1 PVS=0 RC=4 SINT=0 SLCK=0 SLCK2=1 SPML=4 T1248=1 VCKSEL=1 VHP=0 XPCK=0
// ntsc progressive (SoTC)
CLKSEL=1 CMOD=0 EX=0 GCONT=0 LC=32 NVCK=1 PCK2=0 PEHS=0 PEVS=0 PHS=0 PRST=1 PVS=0 RC=4 SINT=0 SLCK=0 SLCK2=1 SPML=2 T1248=1 VCKSEL=1 VHP=1 XPCK=0
*/
REG64_(GSReg, SMODE2)
u32 INT:1;
u32 FFMD:1;
u32 DPMS:2;
u32 _PAD2:28;
u32 _PAD3:32;
REG_END
REG64_(GSReg, SRFSH)
u32 _DUMMY;
// TODO
REG_END
REG64_(GSReg, SYNCH1)
u32 _DUMMY;
// TODO
REG_END
REG64_(GSReg, SYNCH2)
u32 _DUMMY;
// TODO
REG_END
REG64_(GSReg, SYNCV)
u64 _DUMMY;
// TODO
REG_END
REG64_SET(GSReg)
GSRegBGCOLOR BGCOLOR;
GSRegBUSDIR BUSDIR;
GSRegCSR CSR;
GSRegDISPFB DISPFB;
GSRegDISPLAY DISPLAY;
GSRegEXTBUF EXTBUF;
GSRegEXTDATA EXTDATA;
GSRegEXTWRITE EXTWRITE;
GSRegIMR IMR;
GSRegPMODE PMODE;
GSRegSIGLBLID SIGLBLID;
GSRegSMODE1 SMODE1;
GSRegSMODE2 SMODE2;
REG_SET_END
//
// sps2tags.h
//
#define SET_GIF_REG(gifTag, iRegNo, uiValue) \
{((GIFTag*)&gifTag)->u64[1] |= (((uiValue) & 0xf) << ((iRegNo) << 2));}
#define GET_GIF_REG(tag, reg) \
(((tag).u32[2 + ((reg) >> 3)] >> (((reg) & 7) << 2)) & 0xf)
//
// GIFTag
REG128(GIFTag)
u32 NLOOP:15;
u32 EOP:1;
u32 _PAD1:16;
u32 _PAD2:14;
u32 PRE:1;
u32 PRIM:11;
u32 FLG:2; // enum GIF_FLG
u32 NREG:4;
u64 REGS:64;
REG_END
// GIFReg
REG64_(GIFReg, ALPHA)
u32 A:2;
u32 B:2;
u32 C:2;
u32 D:2;
u32 _PAD1:24;
u32 FIX:8;
u32 _PAD2:24;
REG_END2
// opaque => output will be Cs/As
__forceinline bool IsOpaque() const {return (A == B || C == 2 && FIX == 0) && D == 0 || (A == 0 && B == D && C == 2 && FIX == 0x80);}
__forceinline bool IsOpaque(int amin, int amax) const {return (A == B || amax == 0) && D == 0 || A == 0 && B == D && amin == 0x80 && amax == 0x80;}
REG_END2
REG64_(GIFReg, BITBLTBUF)
u32 SBP:14;
u32 _PAD1:2;
u32 SBW:6;
u32 _PAD2:2;
u32 SPSM:6;
u32 _PAD3:2;
u32 DBP:14;
u32 _PAD4:2;
u32 DBW:6;
u32 _PAD5:2;
u32 DPSM:6;
u32 _PAD6:2;
REG_END
REG64_(GIFReg, CLAMP)
union
{
struct
{
u32 WMS:2;
u32 WMT:2;
u32 MINU:10;
u32 MAXU:10;
u32 _PAD1:8;
u32 _PAD2:2;
u32 MAXV:10;
u32 _PAD3:20;
};
struct
{
u64 _PAD4:24;
u64 MINV:10;
u64 _PAD5:30;
};
};
REG_END
REG64_(GIFReg, COLCLAMP)
u32 CLAMP:1;
u32 _PAD1:31;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, DIMX)
s32 DM00:3;
s32 _PAD00:1;
s32 DM01:3;
s32 _PAD01:1;
s32 DM02:3;
s32 _PAD02:1;
s32 DM03:3;
s32 _PAD03:1;
s32 DM10:3;
s32 _PAD10:1;
s32 DM11:3;
s32 _PAD11:1;
s32 DM12:3;
s32 _PAD12:1;
s32 DM13:3;
s32 _PAD13:1;
s32 DM20:3;
s32 _PAD20:1;
s32 DM21:3;
s32 _PAD21:1;
s32 DM22:3;
s32 _PAD22:1;
s32 DM23:3;
s32 _PAD23:1;
s32 DM30:3;
s32 _PAD30:1;
s32 DM31:3;
s32 _PAD31:1;
s32 DM32:3;
s32 _PAD32:1;
s32 DM33:3;
s32 _PAD33:1;
REG_END
REG64_(GIFReg, DTHE)
u32 DTHE:1;
u32 _PAD1:31;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, FBA)
u32 FBA:1;
u32 _PAD1:31;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, FINISH)
u32 _PAD1:32;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, FOG)
u32 _PAD1:32;
u32 _PAD2:24;
u32 F:8;
REG_END
REG64_(GIFReg, FOGCOL)
u32 FCR:8;
u32 FCG:8;
u32 FCB:8;
u32 _PAD1:8;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, FRAME)
u32 FBP:9;
u32 _PAD1:7;
u32 FBW:6;
u32 _PAD2:2;
u32 PSM:6;
u32 _PAD3:2;
u32 FBMSK:32;
REG_END2
u32 Block() const {return FBP << 5;}
REG_END2
REG64_(GIFReg, HWREG)
u32 DATA_LOWER:32;
u32 DATA_UPPER:32;
REG_END
REG64_(GIFReg, LABEL)
u32 ID:32;
u32 IDMSK:32;
REG_END
REG64_(GIFReg, MIPTBP1)
u64 TBP1:14;
u64 TBW1:6;
u64 TBP2:14;
u64 TBW2:6;
u64 TBP3:14;
u64 TBW3:6;
u64 _PAD:4;
REG_END
REG64_(GIFReg, MIPTBP2)
u64 TBP4:14;
u64 TBW4:6;
u64 TBP5:14;
u64 TBW5:6;
u64 TBP6:14;
u64 TBW6:6;
u64 _PAD:4;
REG_END
REG64_(GIFReg, NOP)
u32 _PAD1:32;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, PABE)
u32 PABE:1;
u32 _PAD1:31;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, PRIM)
u32 PRIM:3;
u32 IIP:1;
u32 TME:1;
u32 FGE:1;
u32 ABE:1;
u32 AA1:1;
u32 FST:1;
u32 CTXT:1;
u32 FIX:1;
u32 _PAD1:21;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, PRMODE)
u32 _PRIM:3;
u32 IIP:1;
u32 TME:1;
u32 FGE:1;
u32 ABE:1;
u32 AA1:1;
u32 FST:1;
u32 CTXT:1;
u32 FIX:1;
u32 _PAD2:21;
u32 _PAD3:32;
REG_END
REG64_(GIFReg, PRMODECONT)
u32 AC:1;
u32 _PAD1:31;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, RGBAQ)
u32 R:8;
u32 G:8;
u32 B:8;
u32 A:8;
float Q;
REG_END
REG64_(GIFReg, SCANMSK)
u32 MSK:2;
u32 _PAD1:30;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, SCISSOR)
u32 SCAX0:11;
u32 _PAD1:5;
u32 SCAX1:11;
u32 _PAD2:5;
u32 SCAY0:11;
u32 _PAD3:5;
u32 SCAY1:11;
u32 _PAD4:5;
REG_END
REG64_(GIFReg, SIGNAL)
u32 ID:32;
u32 IDMSK:32;
REG_END
REG64_(GIFReg, ST)
float S;
float T;
REG_END
REG64_(GIFReg, TEST)
u32 ATE:1;
u32 ATST:3;
u32 AREF:8;
u32 AFAIL:2;
u32 DATE:1;
u32 DATM:1;
u32 ZTE:1;
u32 ZTST:2;
u32 _PAD1:13;
u32 _PAD2:32;
REG_END2
__forceinline bool DoFirstPass() {return !ATE || ATST != ATST_NEVER;} // not all pixels fail automatically
__forceinline bool DoSecondPass() {return ATE && ATST != ATST_ALWAYS && AFAIL != AFAIL_KEEP;} // pixels may fail, write fb/z
__forceinline bool NoSecondPass() {return ATE && ATST != ATST_ALWAYS && AFAIL == AFAIL_KEEP;} // pixels may fail, no output
REG_END2
REG64_(GIFReg, TEX0)
union
{
struct
{
u32 TBP0:14;
u32 TBW:6;
u32 PSM:6;
u32 TW:4;
u32 _PAD1:2;
u32 _PAD2:2;
u32 TCC:1;
u32 TFX:2;
u32 CBP:14;
u32 CPSM:4;
u32 CSM:1;
u32 CSA:5;
u32 CLD:3;
};
struct
{
u64 _PAD3:30;
u64 TH:4;
u64 _PAD4:30;
};
};
REG_END2
__forceinline bool IsRepeating() {return ((u32)1 << TW) > (TBW << 6);}
REG_END2
REG64_(GIFReg, TEX1)
u32 LCM:1;
u32 _PAD1:1;
u32 MXL:3;
u32 MMAG:1;
u32 MMIN:3;
u32 MTBA:1;
u32 _PAD2:9;
u32 L:2;
u32 _PAD3:11;
s32 K:12; // 1:7:4
u32 _PAD4:20;
REG_END2
bool IsMinLinear() const {return (MMIN == 1) || (MMIN & 4);}
bool IsMagLinear() const {return MMAG;}
REG_END2
REG64_(GIFReg, TEX2)
u32 _PAD1:20;
u32 PSM:6;
u32 _PAD2:6;
u32 _PAD3:5;
u32 CBP:14;
u32 CPSM:4;
u32 CSM:1;
u32 CSA:5;
u32 CLD:3;
REG_END
REG64_(GIFReg, TEXA)
u32 TA0:8;
u32 _PAD1:7;
u32 AEM:1;
u32 _PAD2:16;
u32 TA1:8;
u32 _PAD3:24;
REG_END
REG64_(GIFReg, TEXCLUT)
u32 CBW:6;
u32 COU:6;
u32 COV:10;
u32 _PAD1:10;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, TEXFLUSH)
u32 _PAD1:32;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, TRXDIR)
u32 XDIR:2;
u32 _PAD1:30;
u32 _PAD2:32;
REG_END
REG64_(GIFReg, TRXPOS)
u32 SSAX:11;
u32 _PAD1:5;
u32 SSAY:11;
u32 _PAD2:5;
u32 DSAX:11;
u32 _PAD3:5;
u32 DSAY:11;
u32 DIRY:1;
u32 DIRX:1;
u32 _PAD4:3;
REG_END
REG64_(GIFReg, TRXREG)
u32 RRW:12;
u32 _PAD1:20;
u32 RRH:12;
u32 _PAD2:20;
REG_END
// GSState::GIFPackedRegHandlerUV and GSState::GIFRegHandlerUV will make sure that the _PAD1/2 bits are set to zero
REG64_(GIFReg, UV)
u32 U:16;
// u32 _PAD1:2;
u32 V:16;
// u32 _PAD2:2;
u32 _PAD3:32;
REG_END
// GSState::GIFRegHandlerXYOFFSET will make sure that the _PAD1/2 bits are set to zero
REG64_(GIFReg, XYOFFSET)
u32 OFX; // :16; u32 _PAD1:16;
u32 OFY; // :16; u32 _PAD2:16;
REG_END
REG64_(GIFReg, XYZ)
u32 X:16;
u32 Y:16;
u32 Z:32;
REG_END
REG64_(GIFReg, XYZF)
u32 X:16;
u32 Y:16;
u32 Z:24;
u32 F:8;
REG_END
REG64_(GIFReg, ZBUF)
u32 ZBP:9;
u32 _PAD1:15;
// u32 PSM:4;
// u32 _PAD2:4;
u32 PSM:6;
u32 _PAD2:2;
u32 ZMSK:1;
u32 _PAD3:31;
REG_END2
u32 Block() const {return ZBP << 5;}
REG_END2
REG64_SET(GIFReg)
GIFRegALPHA ALPHA;
GIFRegBITBLTBUF BITBLTBUF;
GIFRegCLAMP CLAMP;
GIFRegCOLCLAMP COLCLAMP;
GIFRegDIMX DIMX;
GIFRegDTHE DTHE;
GIFRegFBA FBA;
GIFRegFINISH FINISH;
GIFRegFOG FOG;
GIFRegFOGCOL FOGCOL;
GIFRegFRAME FRAME;
GIFRegHWREG HWREG;
GIFRegLABEL LABEL;
GIFRegMIPTBP1 MIPTBP1;
GIFRegMIPTBP2 MIPTBP2;
GIFRegNOP NOP;
GIFRegPABE PABE;
GIFRegPRIM PRIM;
GIFRegPRMODE PRMODE;
GIFRegPRMODECONT PRMODECONT;
GIFRegRGBAQ RGBAQ;
GIFRegSCANMSK SCANMSK;
GIFRegSCISSOR SCISSOR;
GIFRegSIGNAL SIGNAL;
GIFRegST ST;
GIFRegTEST TEST;
GIFRegTEX0 TEX0;
GIFRegTEX1 TEX1;
GIFRegTEX2 TEX2;
GIFRegTEXA TEXA;
GIFRegTEXCLUT TEXCLUT;
GIFRegTEXFLUSH TEXFLUSH;
GIFRegTRXDIR TRXDIR;
GIFRegTRXPOS TRXPOS;
GIFRegTRXREG TRXREG;
GIFRegUV UV;
GIFRegXYOFFSET XYOFFSET;
GIFRegXYZ XYZ;
GIFRegXYZF XYZF;
GIFRegZBUF ZBUF;
REG_SET_END
// GIFPacked
REG128_(GIFPacked, PRIM)
u32 PRIM:11;
u32 _PAD1:21;
u32 _PAD2:32;
u32 _PAD3:32;
u32 _PAD4:32;
REG_END
REG128_(GIFPacked, RGBA)
u32 R:8;
u32 _PAD1:24;
u32 G:8;
u32 _PAD2:24;
u32 B:8;
u32 _PAD3:24;
u32 A:8;
u32 _PAD4:24;
REG_END
REG128_(GIFPacked, STQ)
float S;
float T;
float Q;
u32 _PAD1:32;
REG_END
REG128_(GIFPacked, UV)
u32 U:14;
u32 _PAD1:18;
u32 V:14;
u32 _PAD2:18;
u32 _PAD3:32;
u32 _PAD4:32;
REG_END
REG128_(GIFPacked, XYZF2)
u32 X:16;
u32 _PAD1:16;
u32 Y:16;
u32 _PAD2:16;
u32 _PAD3:4;
u32 Z:24;
u32 _PAD4:4;
u32 _PAD5:4;
u32 F:8;
u32 _PAD6:3;
u32 ADC:1;
u32 _PAD7:16;
REG_END
REG128_(GIFPacked, XYZ2)
u32 X:16;
u32 _PAD1:16;
u32 Y:16;
u32 _PAD2:16;
u32 Z:32;
u32 _PAD3:15;
u32 ADC:1;
u32 _PAD4:16;
REG_END
REG128_(GIFPacked, FOG)
u32 _PAD1:32;
u32 _PAD2:32;
u32 _PAD3:32;
u32 _PAD4:4;
u32 F:8;
u32 _PAD5:20;
REG_END
REG128_(GIFPacked, A_D)
u64 DATA:64;
u32 ADDR:8; // enum GIF_A_D_REG
u32 _PAD1:24;
u32 _PAD2:32;
REG_END
REG128_(GIFPacked, NOP)
u32 _PAD1:32;
u32 _PAD2:32;
u32 _PAD3:32;
u32 _PAD4:32;
REG_END
REG128_SET(GIFPackedReg)
GIFReg r;
GIFPackedPRIM PRIM;
GIFPackedRGBA RGBA;
GIFPackedSTQ STQ;
GIFPackedUV UV;
GIFPackedXYZF2 XYZF2;
GIFPackedXYZ2 XYZ2;
GIFPackedFOG FOG;
GIFPackedA_D A_D;
GIFPackedNOP NOP;
REG_SET_END
struct GSPrivRegSet
{
union
{
struct
{
GSRegPMODE PMODE;
u64 _pad1;
GSRegSMODE1 SMODE1;
u64 _pad2;
GSRegSMODE2 SMODE2;
u64 _pad3;
GSRegSRFSH SRFSH;
u64 _pad4;
GSRegSYNCH1 SYNCH1;
u64 _pad5;
GSRegSYNCH2 SYNCH2;
u64 _pad6;
GSRegSYNCV SYNCV;
u64 _pad7;
struct {
GSRegDISPFB DISPFB;
u64 _pad1;
GSRegDISPLAY DISPLAY;
u64 _pad2;
} DISP[2];
GSRegEXTBUF EXTBUF;
u64 _pad8;
GSRegEXTDATA EXTDATA;
u64 _pad9;
GSRegEXTWRITE EXTWRITE;
u64 _pad10;
GSRegBGCOLOR BGCOLOR;
u64 _pad11;
};
u8 _pad12[0x1000];
};
union
{
struct
{
GSRegCSR CSR;
u64 _pad13;
GSRegIMR IMR;
u64 _pad14;
u64 _unk1[4];
GSRegBUSDIR BUSDIR;
u64 _pad15;
u64 _unk2[6];
GSRegSIGLBLID SIGLBLID;
u64 _pad16;
};
u8 _pad17[0x1000];
};
};
#pragma pack(pop)