GSdx / zzogl-pg / pcsx2:

* Implemented support for legacy GS plugins (considered anything prior to the Reordering merge).
 * Added a lot of 'const' qualifiers to the GSgifTransfer functions in both GSdx and zzogl.

DevNote: GS plugins shouldn't be modifying the data provided to them from PCSX2 -- zzogl wasn't, GSdx was.  I had to do a little bit of juggling to remove the mem modifications from GSdx's TEX0/TEX2 handlers.  With luck, nothing's broken. ;)

git-svn-id: http://pcsx2.googlecode.com/svn/trunk@3536 96395faa-99c1-11dd-bbfe-3dabce05a288
This commit is contained in:
Jake.Stine 2010-07-19 15:49:30 +00:00
parent c7096a1d53
commit b6af82efa8
15 changed files with 432 additions and 359 deletions

View File

@ -248,7 +248,7 @@ void CALLBACK GSsetSettingsDir( const char* dir );
void CALLBACK GSsetLogDir( const char* dir );
void CALLBACK GSvsync(int field);
void CALLBACK GSgifTransfer(u32 *pMem, u32 addr);
void CALLBACK GSgifTransfer(const u32 *pMem, u32 addr);
void CALLBACK GSgifTransfer1(u32 *pMem, u32 addr);
void CALLBACK GSgifTransfer2(u32 *pMem, u32 size);
void CALLBACK GSgifTransfer3(u32 *pMem, u32 size);
@ -565,7 +565,7 @@ typedef void (CALLBACK* _PS2EsetEmuVersion)(const char* emuId, u32 version); //
typedef s32 (CALLBACK* _GSopen)(void *pDsp, char *Title, int multithread);
typedef s32 (CALLBACK* _GSopen2)( void *pDsp, u32 flags );
typedef void (CALLBACK* _GSvsync)(int field);
typedef void (CALLBACK* _GSgifTransfer)(u32 *pMem, u32 size);
typedef void (CALLBACK* _GSgifTransfer)(const u32 *pMem, u32 size);
typedef void (CALLBACK* _GSgifTransfer1)(u32 *pMem, u32 addr);
typedef void (CALLBACK* _GSgifTransfer2)(u32 *pMem, u32 size);
typedef void (CALLBACK* _GSgifTransfer3)(u32 *pMem, u32 size);

View File

@ -192,6 +192,51 @@ void CALLBACK GS_getTitleInfo( char dest[128] )
dest[2] = 0;
}
// This legacy passthrough function is needed because the old GS plugins tended to assume that
// a PATH1 transfer that didn't EOP needed an automatic EOP (which was needed to avoid a crash
// in the BIOS when it starts an XGKICK prior to having an EOP written to VU1 memory). The new
// MTGS wraps data around the end of the MTGS buffer, so it often splits PATH1 data into two
// transfers now.
static void CALLBACK GS_gifTransferLegacy( const u32* src, u32 data )
{
static __aligned16 u128 path1queue[0x400];
static uint path1size = 0;
const u128* src128 = (u128*)src;
if( (src128 + data) >= &RingBuffer.m_Ring[RingBufferSize] )
{
// the transfer is most likely wrapped/partial. We need to queue it into a linear buffer
// and then send it on its way on the next copy.
memcpy_qwc( path1queue, src128, data );
path1size = data;
}
else
{
if (path1size != 0)
{
// Previous transfer check. *Most* likely this one should be added to it, but to know for
// sure we need to check to see if src points to the head of RingBuffer. If its pointing
// to like Ringbuffer[1] instead it means the last transfer finished and this transfer is
// a new one.
if (src128 == RingBuffer.m_Ring)
{
pxAssume( (data+path1size) <= 0x400 );
memcpy_qwc( &path1queue[path1size], src128, data );
path1size += data;
}
GSgifTransfer1( (u32*)path1queue, 0 );
path1size = 0;
}
else
{
GSgifTransfer1( (u32*)src128, 0 );
}
}
}
// PAD
_PADinit PADinit;
@ -310,8 +355,7 @@ static const LegacyApi_ReqMethod s_MethMessReq_GS[] =
{
{ "GSopen", (vMeth**)&GSopen, NULL },
{ "GSvsync", (vMeth**)&GSvsync, NULL },
{ "GSgifTransfer", (vMeth**)&GSgifTransfer, NULL },
//{ "GSgifTransfer1", (vMeth**)&GSgifTransfer1, NULL },
{ "GSgifTransfer", (vMeth**)&GSgifTransfer, (vMeth*)GS_gifTransferLegacy },
{ "GSgifTransfer2", (vMeth**)&GSgifTransfer2, NULL },
{ "GSgifTransfer3", (vMeth**)&GSgifTransfer3, NULL },
{ "GSreadFIFO2", (vMeth**)&GSreadFIFO2, NULL },
@ -339,6 +383,7 @@ static const LegacyApi_OptMethod s_MethMessOpt_GS[] =
{ "GSmakeSnapshot2", (vMeth**)&GSmakeSnapshot2 },
{ "GSgifSoftReset", (vMeth**)&GSgifSoftReset },
{ "GSreadFIFO", (vMeth**)&GSreadFIFO },
{ "GSgifTransfer1", (vMeth**)&GSgifTransfer1 },
{ NULL }
};

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@ -319,24 +319,24 @@ EXPORT_C GSreadFIFO2(uint8* mem, uint32 size)
s_gs->ReadFIFO(mem, size);
}
EXPORT_C GSgifTransfer(uint8* mem, uint32 size)
EXPORT_C GSgifTransfer(const uint8* mem, uint32 size)
{
s_gs->Transfer<3>(mem , size);
s_gs->Transfer<3>(mem, size);
}
EXPORT_C GSgifTransfer1(uint8* mem, uint32 addr)
{
s_gs->Transfer<0>(mem + addr, (0x4000 - addr) / 16);
s_gs->Transfer<0>(const_cast<uint8*>(mem) + addr, (0x4000 - addr) / 16);
}
EXPORT_C GSgifTransfer2(uint8* mem, uint32 size)
{
s_gs->Transfer<1>(mem, size);
s_gs->Transfer<1>(const_cast<uint8*>(mem), size);
}
EXPORT_C GSgifTransfer3(uint8* mem, uint32 size)
{
s_gs->Transfer<2>(mem, size);
s_gs->Transfer<2>(const_cast<uint8*>(mem), size);
}
EXPORT_C GSvsync(int field)

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@ -60,7 +60,7 @@ void GSDump::Close()
if(m_obj) {fclose(m_obj); m_obj = NULL;}
}
void GSDump::Transfer(int index, uint8* mem, size_t size)
void GSDump::Transfer(int index, const uint8* mem, size_t size)
{
if(m_gs && size > 0)
{

View File

@ -58,7 +58,7 @@ public:
void Open(const string& fn, uint32 crc, const GSFreezeData& fd, const GSPrivRegSet* regs);
void Close();
void ReadFIFO(uint32 size);
void Transfer(int index, uint8* mem, size_t size);
void Transfer(int index, const uint8* mem, size_t size);
void VSync(int field, bool last, const GSPrivRegSet* regs);
void Object(GSVertexSW* vertices, int count, GS_PRIM_CLASS primclass);
operator bool() {return m_gs != NULL;}

View File

@ -543,7 +543,7 @@ GSPixelOffset4* GSLocalMemory::GetPixelOffset4(const GIFRegFRAME& FRAME, const G
////////////////////
template<int psm, int bsx, int bsy, bool aligned>
void GSLocalMemory::WriteImageColumn(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
void GSLocalMemory::WriteImageColumn(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
{
uint32 bp = BITBLTBUF.DBP;
uint32 bw = BITBLTBUF.DBW;
@ -572,7 +572,7 @@ void GSLocalMemory::WriteImageColumn(int l, int r, int y, int h, uint8* src, int
}
template<int psm, int bsx, int bsy, bool aligned>
void GSLocalMemory::WriteImageBlock(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
void GSLocalMemory::WriteImageBlock(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
{
uint32 bp = BITBLTBUF.DBP;
uint32 bw = BITBLTBUF.DBW;
@ -599,7 +599,7 @@ void GSLocalMemory::WriteImageBlock(int l, int r, int y, int h, uint8* src, int
}
template<int psm, int bsx, int bsy>
void GSLocalMemory::WriteImageLeftRight(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
void GSLocalMemory::WriteImageLeftRight(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
{
uint32 bp = BITBLTBUF.DBP;
uint32 bw = BITBLTBUF.DBW;
@ -626,7 +626,7 @@ void GSLocalMemory::WriteImageLeftRight(int l, int r, int y, int h, uint8* src,
}
template<int psm, int bsx, int bsy, int trbpp>
void GSLocalMemory::WriteImageTopBottom(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
void GSLocalMemory::WriteImageTopBottom(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF)
{
__aligned16 uint8 buff[64]; // merge buffer for one column
@ -777,7 +777,7 @@ void GSLocalMemory::WriteImageTopBottom(int l, int r, int y, int h, uint8* src,
}
template<int psm, int bsx, int bsy, int trbpp>
void GSLocalMemory::WriteImage(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
void GSLocalMemory::WriteImage(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
{
if(TRXREG.RRW == 0) return;
@ -801,7 +801,7 @@ void GSLocalMemory::WriteImage(int& tx, int& ty, uint8* src, int len, GIFRegBITB
if(ra - la >= bsx && h > 0) // "transfer width" >= "block width" && there is at least one full row
{
uint8* s = &src[-l * trbpp >> 3];
const uint8* s = &src[-l * trbpp >> 3];
src += srcpitch * h;
len -= srcpitch * h;
@ -886,7 +886,7 @@ void GSLocalMemory::WriteImage(int& tx, int& ty, uint8* src, int len, GIFRegBITB
#define IsTopLeftAligned(dsax, tx, ty, bw, bh) \
((((int)dsax) & ((bw)-1)) == 0 && ((tx) & ((bw)-1)) == 0 && ((int)dsax) == (tx) && ((ty) & ((bh)-1)) == 0)
void GSLocalMemory::WriteImage24(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
void GSLocalMemory::WriteImage24(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
{
if(TRXREG.RRW == 0) return;
@ -920,7 +920,7 @@ void GSLocalMemory::WriteImage24(int& tx, int& ty, uint8* src, int len, GIFRegBI
}
}
void GSLocalMemory::WriteImage8H(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
void GSLocalMemory::WriteImage8H(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
{
if(TRXREG.RRW == 0) return;
@ -954,7 +954,7 @@ void GSLocalMemory::WriteImage8H(int& tx, int& ty, uint8* src, int len, GIFRegBI
}
}
void GSLocalMemory::WriteImage4HL(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
void GSLocalMemory::WriteImage4HL(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
{
if(TRXREG.RRW == 0) return;
@ -988,7 +988,7 @@ void GSLocalMemory::WriteImage4HL(int& tx, int& ty, uint8* src, int len, GIFRegB
}
}
void GSLocalMemory::WriteImage4HH(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
void GSLocalMemory::WriteImage4HH(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
{
if(TRXREG.RRW == 0) return;
@ -1021,7 +1021,7 @@ void GSLocalMemory::WriteImage4HH(int& tx, int& ty, uint8* src, int len, GIFRegB
ty = th;
}
}
void GSLocalMemory::WriteImage24Z(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
void GSLocalMemory::WriteImage24Z(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
{
if(TRXREG.RRW == 0) return;
@ -1054,13 +1054,13 @@ void GSLocalMemory::WriteImage24Z(int& tx, int& ty, uint8* src, int len, GIFRegB
ty = th;
}
}
void GSLocalMemory::WriteImageX(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
void GSLocalMemory::WriteImageX(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG)
{
if(len <= 0) return;
uint8* pb = (uint8*)src;
uint16* pw = (uint16*)src;
uint32* pd = (uint32*)src;
const uint8* pb = (uint8*)src;
const uint16* pw = (uint16*)src;
const uint32* pd = (uint32*)src;
uint32 bp = BITBLTBUF.DBP;
uint32 bw = BITBLTBUF.DBW;

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@ -67,7 +67,7 @@ public:
typedef void (GSLocalMemory::*writeFrameAddr)(uint32 addr, uint32 c);
typedef uint32 (GSLocalMemory::*readPixelAddr)(uint32 addr) const;
typedef uint32 (GSLocalMemory::*readTexelAddr)(uint32 addr, const GIFRegTEXA& TEXA) const;
typedef void (GSLocalMemory::*writeImage)(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
typedef void (GSLocalMemory::*writeImage)(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
typedef void (GSLocalMemory::*readImage)(int& tx, int& ty, uint8* dst, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG) const;
typedef void (GSLocalMemory::*readTexture)(const GSOffset* RESTRICT o, const GSVector4i& r, uint8* dst, int dstpitch, const GIFRegTEXA& TEXA);
typedef void (GSLocalMemory::*readTextureBlock)(uint32 bp, uint8* dst, int dstpitch, const GIFRegTEXA& TEXA) const;
@ -814,26 +814,26 @@ public:
//
template<int psm, int bsx, int bsy, bool aligned>
void WriteImageColumn(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
void WriteImageColumn(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
template<int psm, int bsx, int bsy, bool aligned>
void WriteImageBlock(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
void WriteImageBlock(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
template<int psm, int bsx, int bsy>
void WriteImageLeftRight(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
void WriteImageLeftRight(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
template<int psm, int bsx, int bsy, int trbpp>
void WriteImageTopBottom(int l, int r, int y, int h, uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
void WriteImageTopBottom(int l, int r, int y, int h, const uint8* src, int srcpitch, const GIFRegBITBLTBUF& BITBLTBUF);
template<int psm, int bsx, int bsy, int trbpp>
void WriteImage(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage24(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage8H(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage4HL(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage4HH(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage24Z(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImageX(int& tx, int& ty, uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage24(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage8H(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage4HL(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage4HH(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImage24Z(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
void WriteImageX(int& tx, int& ty, const uint8* src, int len, GIFRegBITBLTBUF& BITBLTBUF, GIFRegTRXPOS& TRXPOS, GIFRegTRXREG& TRXREG);
// TODO: ReadImage32/24/...

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@ -321,19 +321,19 @@ int GSState::GetFPS()
// GIFPackedRegHandler*
void GSState::GIFPackedRegHandlerNull(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerNull(const GIFPackedReg* r)
{
// ASSERT(0);
}
void GSState::GIFPackedRegHandlerPRIM(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerPRIM(const GIFPackedReg* r)
{
// ASSERT(r->r.PRIM.PRIM < 7);
GIFRegHandlerPRIM(&r->r);
}
void GSState::GIFPackedRegHandlerRGBA(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerRGBA(const GIFPackedReg* r)
{
#if _M_SSE >= 0x301
@ -358,7 +358,7 @@ void GSState::GIFPackedRegHandlerRGBA(GIFPackedReg* r)
m_v.RGBAQ.Q = m_q;
}
void GSState::GIFPackedRegHandlerSTQ(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerSTQ(const GIFPackedReg* r)
{
#if defined(_M_AMD64)
@ -379,7 +379,7 @@ void GSState::GIFPackedRegHandlerSTQ(GIFPackedReg* r)
m_q = r->STQ.Q;
}
void GSState::GIFPackedRegHandlerUV(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerUV(const GIFPackedReg* r)
{
#if _M_SSE >= 0x200
@ -394,7 +394,7 @@ void GSState::GIFPackedRegHandlerUV(GIFPackedReg* r)
#endif
}
void GSState::GIFPackedRegHandlerXYZF2(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerXYZF2(const GIFPackedReg* r)
{
m_v.XYZ.X = r->XYZF2.X;
m_v.XYZ.Y = r->XYZF2.Y;
@ -404,7 +404,7 @@ void GSState::GIFPackedRegHandlerXYZF2(GIFPackedReg* r)
VertexKick(r->XYZF2.ADC);
}
void GSState::GIFPackedRegHandlerXYZ2(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerXYZ2(const GIFPackedReg* r)
{
m_v.XYZ.X = r->XYZ2.X;
m_v.XYZ.Y = r->XYZ2.Y;
@ -413,48 +413,48 @@ void GSState::GIFPackedRegHandlerXYZ2(GIFPackedReg* r)
VertexKick(r->XYZ2.ADC);
}
template<int i> void GSState::GIFPackedRegHandlerTEX0(GIFPackedReg* r)
template<int i> void GSState::GIFPackedRegHandlerTEX0(const GIFPackedReg* r)
{
GIFRegHandlerTEX0<i>((GIFReg*)&r->u64[0]);
}
template<int i> void GSState::GIFPackedRegHandlerCLAMP(GIFPackedReg* r)
template<int i> void GSState::GIFPackedRegHandlerCLAMP(const GIFPackedReg* r)
{
GIFRegHandlerCLAMP<i>((GIFReg*)&r->u64[0]);
}
void GSState::GIFPackedRegHandlerFOG(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerFOG(const GIFPackedReg* r)
{
m_v.FOG.F = r->FOG.F;
}
void GSState::GIFPackedRegHandlerXYZF3(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerXYZF3(const GIFPackedReg* r)
{
GIFRegHandlerXYZF3((GIFReg*)&r->u64[0]);
}
void GSState::GIFPackedRegHandlerXYZ3(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerXYZ3(const GIFPackedReg* r)
{
GIFRegHandlerXYZ3((GIFReg*)&r->u64[0]);
}
void GSState::GIFPackedRegHandlerA_D(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerA_D(const GIFPackedReg* r)
{
(this->*m_fpGIFRegHandlers[r->A_D.ADDR])(&r->r);
}
void GSState::GIFPackedRegHandlerNOP(GIFPackedReg* r)
void GSState::GIFPackedRegHandlerNOP(const GIFPackedReg* r)
{
}
// GIFRegHandler*
void GSState::GIFRegHandlerNull(GIFReg* r)
void GSState::GIFRegHandlerNull(const GIFReg* r)
{
// ASSERT(0);
}
void GSState::GIFRegHandlerPRIM(GIFReg* r)
void GSState::GIFRegHandlerPRIM(const GIFReg* r)
{
// ASSERT(r->PRIM.PRIM < 7);
@ -480,22 +480,22 @@ void GSState::GIFRegHandlerPRIM(GIFReg* r)
ResetPrim();
}
void GSState::GIFRegHandlerRGBAQ(GIFReg* r)
void GSState::GIFRegHandlerRGBAQ(const GIFReg* r)
{
m_v.RGBAQ = (GSVector4i)r->RGBAQ;
}
void GSState::GIFRegHandlerST(GIFReg* r)
void GSState::GIFRegHandlerST(const GIFReg* r)
{
m_v.ST = (GSVector4i)r->ST;
}
void GSState::GIFRegHandlerUV(GIFReg* r)
void GSState::GIFRegHandlerUV(const GIFReg* r)
{
m_v.UV.u32[0] = r->UV.u32[0] & 0x3fff3fff;
}
void GSState::GIFRegHandlerXYZF2(GIFReg* r)
void GSState::GIFRegHandlerXYZF2(const GIFReg* r)
{
/*
m_v.XYZ.X = r->XYZF.X;
@ -510,40 +510,37 @@ void GSState::GIFRegHandlerXYZF2(GIFReg* r)
VertexKick(false);
}
void GSState::GIFRegHandlerXYZ2(GIFReg* r)
void GSState::GIFRegHandlerXYZ2(const GIFReg* r)
{
m_v.XYZ = (GSVector4i)r->XYZ;
VertexKick(false);
}
template<int i> void GSState::GIFRegHandlerTEX0(GIFReg* r)
__forceinline void GSState::ApplyTEX0( uint i, GIFRegTEX0& TEX0 )
{
// even if TEX0 did not change, a new palette may have been uploaded and will overwrite the currently queued for drawing
bool wt = m_mem.m_clut.WriteTest(r->TEX0, m_env.TEXCLUT);
bool wt = m_mem.m_clut.WriteTest(TEX0, m_env.TEXCLUT);
if(wt || PRIM->CTXT == i && r->TEX0 != m_env.CTXT[i].TEX0)
if(wt || PRIM->CTXT == i && TEX0 != m_env.CTXT[i].TEX0)
{
Flush();
}
if(r->TEX0.TW > 10) r->TEX0.TW = 10;
if(r->TEX0.TH > 10) r->TEX0.TH = 10;
TEX0.CPSM &= 0xa; // 1010b
r->TEX0.CPSM &= 0xa; // 1010b
if((r->TEX0.TBW & 1) && (r->TEX0.PSM == PSM_PSMT8 || r->TEX0.PSM == PSM_PSMT4))
if((TEX0.TBW & 1) && (TEX0.PSM == PSM_PSMT8 || TEX0.PSM == PSM_PSMT4))
{
r->TEX0.TBW &= ~1; // GS User 2.6
TEX0.TBW &= ~1; // GS User 2.6
}
if((r->TEX0.u32[0] ^ m_env.CTXT[i].TEX0.u32[0]) & 0x3ffffff) // TBP0 TBW PSM
if((TEX0.u32[0] ^ m_env.CTXT[i].TEX0.u32[0]) & 0x3ffffff) // TBP0 TBW PSM
{
m_env.CTXT[i].offset.tex = m_mem.GetOffset(r->TEX0.TBP0, r->TEX0.TBW, r->TEX0.PSM);
m_env.CTXT[i].offset.tex = m_mem.GetOffset(TEX0.TBP0, TEX0.TBW, TEX0.PSM);
}
m_env.CTXT[i].TEX0 = (GSVector4i)r->TEX0;
m_env.CTXT[i].TEX0 = TEX0;
if(wt)
{
@ -551,7 +548,17 @@ template<int i> void GSState::GIFRegHandlerTEX0(GIFReg* r)
}
}
template<int i> void GSState::GIFRegHandlerCLAMP(GIFReg* r)
template<int i> void GSState::GIFRegHandlerTEX0(const GIFReg* r)
{
GIFRegTEX0 TEX0 = r->TEX0;
if(TEX0.TW > 10) TEX0.TW = 10;
if(TEX0.TH > 10) TEX0.TH = 10;
ApplyTEX0( i, TEX0 );
}
template<int i> void GSState::GIFRegHandlerCLAMP(const GIFReg* r)
{
if(PRIM->CTXT == i && r->CLAMP != m_env.CTXT[i].CLAMP)
{
@ -561,12 +568,12 @@ template<int i> void GSState::GIFRegHandlerCLAMP(GIFReg* r)
m_env.CTXT[i].CLAMP = (GSVector4i)r->CLAMP;
}
void GSState::GIFRegHandlerFOG(GIFReg* r)
void GSState::GIFRegHandlerFOG(const GIFReg* r)
{
m_v.FOG = (GSVector4i)r->FOG;
}
void GSState::GIFRegHandlerXYZF3(GIFReg* r)
void GSState::GIFRegHandlerXYZF3(const GIFReg* r)
{
/*
m_v.XYZ.X = r->XYZF.X;
@ -581,18 +588,18 @@ void GSState::GIFRegHandlerXYZF3(GIFReg* r)
VertexKick(true);
}
void GSState::GIFRegHandlerXYZ3(GIFReg* r)
void GSState::GIFRegHandlerXYZ3(const GIFReg* r)
{
m_v.XYZ = (GSVector4i)r->XYZ;
VertexKick(true);
}
void GSState::GIFRegHandlerNOP(GIFReg* r)
void GSState::GIFRegHandlerNOP(const GIFReg* r)
{
}
template<int i> void GSState::GIFRegHandlerTEX1(GIFReg* r)
template<int i> void GSState::GIFRegHandlerTEX1(const GIFReg* r)
{
if(PRIM->CTXT == i && r->TEX1 != m_env.CTXT[i].TEX1)
{
@ -602,18 +609,24 @@ template<int i> void GSState::GIFRegHandlerTEX1(GIFReg* r)
m_env.CTXT[i].TEX1 = (GSVector4i)r->TEX1;
}
template<int i> void GSState::GIFRegHandlerTEX2(GIFReg* r)
template<int i> void GSState::GIFRegHandlerTEX2(const GIFReg* r)
{
// m_env.CTXT[i].TEX2 = r->TEX2; // not used
// TEX2 is a masked write to TEX0, for performing CLUT swaps (palette swaps).
// It only applies the following fields:
// CLD, CSA, CSM, CPSM, CBP, PSM.
// It ignores these fields (uses existing values in the context):
// TFX, TCC, TH, TW, TBW, and TBP0
uint64 mask = 0xFFFFFFE003F00000ui64; // TEX2 bits
GIFRegTEX0 TEX0;
TEX0.u64 = (m_env.CTXT[i].TEX0.u64 & ~mask) | (r->u64 & mask);
r->u64 = (r->u64 & mask) | (m_env.CTXT[i].TEX0.u64 & ~mask);
GIFRegHandlerTEX0<i>(r);
ApplyTEX0(i, TEX0);
}
template<int i> void GSState::GIFRegHandlerXYOFFSET(GIFReg* r)
template<int i> void GSState::GIFRegHandlerXYOFFSET(const GIFReg* r)
{
GSVector4i o = (GSVector4i)r->XYOFFSET & GSVector4i::x0000ffff();
@ -627,7 +640,7 @@ template<int i> void GSState::GIFRegHandlerXYOFFSET(GIFReg* r)
m_env.CTXT[i].UpdateScissor();
}
void GSState::GIFRegHandlerPRMODECONT(GIFReg* r)
void GSState::GIFRegHandlerPRMODECONT(const GIFReg* r)
{
if(r->PRMODECONT != m_env.PRMODECONT)
{
@ -645,7 +658,7 @@ void GSState::GIFRegHandlerPRMODECONT(GIFReg* r)
UpdateVertexKick();
}
void GSState::GIFRegHandlerPRMODE(GIFReg* r)
void GSState::GIFRegHandlerPRMODE(const GIFReg* r)
{
if(!m_env.PRMODECONT.AC)
{
@ -661,7 +674,7 @@ void GSState::GIFRegHandlerPRMODE(GIFReg* r)
UpdateVertexKick();
}
void GSState::GIFRegHandlerTEXCLUT(GIFReg* r)
void GSState::GIFRegHandlerTEXCLUT(const GIFReg* r)
{
if(r->TEXCLUT != m_env.TEXCLUT)
{
@ -671,7 +684,7 @@ void GSState::GIFRegHandlerTEXCLUT(GIFReg* r)
m_env.TEXCLUT = (GSVector4i)r->TEXCLUT;
}
void GSState::GIFRegHandlerSCANMSK(GIFReg* r)
void GSState::GIFRegHandlerSCANMSK(const GIFReg* r)
{
if(r->SCANMSK != m_env.SCANMSK)
{
@ -681,7 +694,7 @@ void GSState::GIFRegHandlerSCANMSK(GIFReg* r)
m_env.SCANMSK = (GSVector4i)r->SCANMSK;
}
template<int i> void GSState::GIFRegHandlerMIPTBP1(GIFReg* r)
template<int i> void GSState::GIFRegHandlerMIPTBP1(const GIFReg* r)
{
if(PRIM->CTXT == i && r->MIPTBP1 != m_env.CTXT[i].MIPTBP1)
{
@ -691,7 +704,7 @@ template<int i> void GSState::GIFRegHandlerMIPTBP1(GIFReg* r)
m_env.CTXT[i].MIPTBP1 = (GSVector4i)r->MIPTBP1;
}
template<int i> void GSState::GIFRegHandlerMIPTBP2(GIFReg* r)
template<int i> void GSState::GIFRegHandlerMIPTBP2(const GIFReg* r)
{
if(PRIM->CTXT == i && r->MIPTBP2 != m_env.CTXT[i].MIPTBP2)
{
@ -701,7 +714,7 @@ template<int i> void GSState::GIFRegHandlerMIPTBP2(GIFReg* r)
m_env.CTXT[i].MIPTBP2 = (GSVector4i)r->MIPTBP2;
}
void GSState::GIFRegHandlerTEXA(GIFReg* r)
void GSState::GIFRegHandlerTEXA(const GIFReg* r)
{
if(r->TEXA != m_env.TEXA)
{
@ -711,7 +724,7 @@ void GSState::GIFRegHandlerTEXA(GIFReg* r)
m_env.TEXA = (GSVector4i)r->TEXA;
}
void GSState::GIFRegHandlerFOGCOL(GIFReg* r)
void GSState::GIFRegHandlerFOGCOL(const GIFReg* r)
{
if(r->FOGCOL != m_env.FOGCOL)
{
@ -721,14 +734,14 @@ void GSState::GIFRegHandlerFOGCOL(GIFReg* r)
m_env.FOGCOL = (GSVector4i)r->FOGCOL;
}
void GSState::GIFRegHandlerTEXFLUSH(GIFReg* r)
void GSState::GIFRegHandlerTEXFLUSH(const GIFReg* r)
{
// TRACE(_T("TEXFLUSH\n"));
// InvalidateTextureCache();
}
template<int i> void GSState::GIFRegHandlerSCISSOR(GIFReg* r)
template<int i> void GSState::GIFRegHandlerSCISSOR(const GIFReg* r)
{
if(PRIM->CTXT == i && r->SCISSOR != m_env.CTXT[i].SCISSOR)
{
@ -740,7 +753,7 @@ template<int i> void GSState::GIFRegHandlerSCISSOR(GIFReg* r)
m_env.CTXT[i].UpdateScissor();
}
template<int i> void GSState::GIFRegHandlerALPHA(GIFReg* r)
template<int i> void GSState::GIFRegHandlerALPHA(const GIFReg* r)
{
ASSERT(r->ALPHA.A != 3);
ASSERT(r->ALPHA.B != 3);
@ -759,7 +772,7 @@ template<int i> void GSState::GIFRegHandlerALPHA(GIFReg* r)
m_env.CTXT[i].ALPHA.u32[0] = ((~m_env.CTXT[i].ALPHA.u32[0] >> 1) | 0xAA) & m_env.CTXT[i].ALPHA.u32[0];
}
void GSState::GIFRegHandlerDIMX(GIFReg* r)
void GSState::GIFRegHandlerDIMX(const GIFReg* r)
{
bool update = false;
@ -778,7 +791,7 @@ void GSState::GIFRegHandlerDIMX(GIFReg* r)
}
}
void GSState::GIFRegHandlerDTHE(GIFReg* r)
void GSState::GIFRegHandlerDTHE(const GIFReg* r)
{
if(r->DTHE != m_env.DTHE)
{
@ -788,7 +801,7 @@ void GSState::GIFRegHandlerDTHE(GIFReg* r)
m_env.DTHE = (GSVector4i)r->DTHE;
}
void GSState::GIFRegHandlerCOLCLAMP(GIFReg* r)
void GSState::GIFRegHandlerCOLCLAMP(const GIFReg* r)
{
if(r->COLCLAMP != m_env.COLCLAMP)
{
@ -801,7 +814,7 @@ void GSState::GIFRegHandlerCOLCLAMP(GIFReg* r)
#endif
}
template<int i> void GSState::GIFRegHandlerTEST(GIFReg* r)
template<int i> void GSState::GIFRegHandlerTEST(const GIFReg* r)
{
if(PRIM->CTXT == i && r->TEST != m_env.CTXT[i].TEST)
{
@ -814,7 +827,7 @@ template<int i> void GSState::GIFRegHandlerTEST(GIFReg* r)
#endif
}
void GSState::GIFRegHandlerPABE(GIFReg* r)
void GSState::GIFRegHandlerPABE(const GIFReg* r)
{
if(r->PABE != m_env.PABE)
{
@ -824,7 +837,7 @@ void GSState::GIFRegHandlerPABE(GIFReg* r)
m_env.PABE = (GSVector4i)r->PABE;
}
template<int i> void GSState::GIFRegHandlerFBA(GIFReg* r)
template<int i> void GSState::GIFRegHandlerFBA(const GIFReg* r)
{
if(PRIM->CTXT == i && r->FBA != m_env.CTXT[i].FBA)
{
@ -834,7 +847,7 @@ template<int i> void GSState::GIFRegHandlerFBA(GIFReg* r)
m_env.CTXT[i].FBA = (GSVector4i)r->FBA;
}
template<int i> void GSState::GIFRegHandlerFRAME(GIFReg* r)
template<int i> void GSState::GIFRegHandlerFRAME(const GIFReg* r)
{
if(PRIM->CTXT == i && r->FRAME != m_env.CTXT[i].FRAME)
{
@ -854,40 +867,41 @@ template<int i> void GSState::GIFRegHandlerFRAME(GIFReg* r)
#endif
}
template<int i> void GSState::GIFRegHandlerZBUF(GIFReg* r)
template<int i> void GSState::GIFRegHandlerZBUF(const GIFReg* r)
{
if(r->ZBUF.u32[0] == 0)
GIFRegZBUF ZBUF = r->ZBUF;
if(ZBUF.u32[0] == 0)
{
// during startup all regs are cleared to 0 (by the bios or something), so we mask z until this register becomes valid
r->ZBUF.ZMSK = 1;
ZBUF.ZMSK = 1;
}
r->ZBUF.PSM |= 0x30;
ZBUF.PSM |= 0x30;
if(r->ZBUF.PSM != PSM_PSMZ32
&& r->ZBUF.PSM != PSM_PSMZ24
&& r->ZBUF.PSM != PSM_PSMZ16
&& r->ZBUF.PSM != PSM_PSMZ16S)
if(ZBUF.PSM != PSM_PSMZ32
&& ZBUF.PSM != PSM_PSMZ24
&& ZBUF.PSM != PSM_PSMZ16
&& ZBUF.PSM != PSM_PSMZ16S)
{
r->ZBUF.PSM = PSM_PSMZ32;
ZBUF.PSM = PSM_PSMZ32;
}
if(PRIM->CTXT == i && r->ZBUF != m_env.CTXT[i].ZBUF)
if(PRIM->CTXT == i && ZBUF != m_env.CTXT[i].ZBUF)
{
Flush();
}
if((m_env.CTXT[i].ZBUF.u32[0] ^ r->ZBUF.u32[0]) & 0x3f0001ff) // ZBP PSM
if((m_env.CTXT[i].ZBUF.u32[0] ^ ZBUF.u32[0]) & 0x3f0001ff) // ZBP PSM
{
m_env.CTXT[i].offset.zb = m_mem.GetOffset(r->ZBUF.Block(), m_env.CTXT[i].FRAME.FBW, r->ZBUF.PSM);
m_env.CTXT[i].offset.fzb = m_mem.GetPixelOffset4(m_env.CTXT[i].FRAME, r->ZBUF);
m_env.CTXT[i].offset.zb = m_mem.GetOffset(ZBUF.Block(), m_env.CTXT[i].FRAME.FBW, ZBUF.PSM);
m_env.CTXT[i].offset.fzb = m_mem.GetPixelOffset4(m_env.CTXT[i].FRAME, ZBUF);
}
m_env.CTXT[i].ZBUF = (GSVector4i)r->ZBUF;
m_env.CTXT[i].ZBUF = (GSVector4i)ZBUF;
}
void GSState::GIFRegHandlerBITBLTBUF(GIFReg* r)
void GSState::GIFRegHandlerBITBLTBUF(const GIFReg* r)
{
if(r->BITBLTBUF != m_env.BITBLTBUF)
{
@ -907,7 +921,7 @@ void GSState::GIFRegHandlerBITBLTBUF(GIFReg* r)
}
}
void GSState::GIFRegHandlerTRXPOS(GIFReg* r)
void GSState::GIFRegHandlerTRXPOS(const GIFReg* r)
{
if(r->TRXPOS != m_env.TRXPOS)
{
@ -917,7 +931,7 @@ void GSState::GIFRegHandlerTRXPOS(GIFReg* r)
m_env.TRXPOS = (GSVector4i)r->TRXPOS;
}
void GSState::GIFRegHandlerTRXREG(GIFReg* r)
void GSState::GIFRegHandlerTRXREG(const GIFReg* r)
{
if(r->TRXREG != m_env.TRXREG)
{
@ -927,7 +941,7 @@ void GSState::GIFRegHandlerTRXREG(GIFReg* r)
m_env.TRXREG = (GSVector4i)r->TRXREG;
}
void GSState::GIFRegHandlerTRXDIR(GIFReg* r)
void GSState::GIFRegHandlerTRXDIR(const GIFReg* r)
{
Flush();
@ -950,14 +964,14 @@ void GSState::GIFRegHandlerTRXDIR(GIFReg* r)
}
}
void GSState::GIFRegHandlerHWREG(GIFReg* r)
void GSState::GIFRegHandlerHWREG(const GIFReg* r)
{
ASSERT(m_env.TRXDIR.XDIR == 0); // host => local
Write((uint8*)r, 8); // haunting ground
}
void GSState::GIFRegHandlerSIGNAL(GIFReg* r)
void GSState::GIFRegHandlerSIGNAL(const GIFReg* r)
{
m_regs->SIGLBLID.SIGID = (m_regs->SIGLBLID.SIGID & ~r->SIGNAL.IDMSK) | (r->SIGNAL.ID & r->SIGNAL.IDMSK);
@ -965,13 +979,13 @@ void GSState::GIFRegHandlerSIGNAL(GIFReg* r)
if(!m_regs->IMR.SIGMSK && m_irq) m_irq();
}
void GSState::GIFRegHandlerFINISH(GIFReg* r)
void GSState::GIFRegHandlerFINISH(const GIFReg* r)
{
if(m_regs->CSR.wFINISH) m_regs->CSR.rFINISH = 1;
if(!m_regs->IMR.FINISHMSK && m_irq) m_irq();
}
void GSState::GIFRegHandlerLABEL(GIFReg* r)
void GSState::GIFRegHandlerLABEL(const GIFReg* r)
{
m_regs->SIGLBLID.LBLID = (m_regs->SIGLBLID.LBLID & ~r->LABEL.IDMSK) | (r->LABEL.ID & r->LABEL.IDMSK);
}
@ -1021,7 +1035,7 @@ void GSState::FlushWrite()
//
void GSState::Write(uint8* mem, int len)
void GSState::Write(const uint8* mem, int len)
{
int w = m_env.TRXREG.RRW;
int h = m_env.TRXREG.RRH;
@ -1405,16 +1419,16 @@ void GSState::ReadFIFO(uint8* mem, int size)
}
}
template void GSState::Transfer<0>(uint8* mem, uint32 size);
template void GSState::Transfer<1>(uint8* mem, uint32 size);
template void GSState::Transfer<2>(uint8* mem, uint32 size);
template void GSState::Transfer<3>(uint8* mem, uint32 size);
template void GSState::Transfer<0>(const uint8* mem, uint32 size);
template void GSState::Transfer<1>(const uint8* mem, uint32 size);
template void GSState::Transfer<2>(const uint8* mem, uint32 size);
template void GSState::Transfer<3>(const uint8* mem, uint32 size);
template<int index> void GSState::Transfer(uint8* mem, uint32 size)
template<int index> void GSState::Transfer(const uint8* mem, uint32 size)
{
GSPerfMonAutoTimer pmat(m_perfmon);
uint8* start = mem;
const uint8* start = mem;
GIFPath& path = m_path[index];
@ -1531,7 +1545,11 @@ template<int index> void GSState::Transfer(uint8* mem, uint32 size)
Write(mem, len * 16);
break;
case 1:
Read(mem, len * 16);
// This can't happen; downloads can not be started or performed as part of
// a GIFtag operation. They're an entirely separate process that can only be
// done through the ReverseFIFO transfer (aka ReadFIFO). --air
ASSERT(false);
//Read(mem, len * 16);
break;
case 2:
Move();
@ -1555,13 +1573,13 @@ template<int index> void GSState::Transfer(uint8* mem, uint32 size)
}
}
/*if(index == 0)
if(index == 0)
{
if(path.tag.EOP && path.nloop == 0)
{
break;
}
}*/
}
}
if(m_dump && mem > start)

View File

@ -38,72 +38,74 @@
class GSState : public GSAlignedClass<16>
{
typedef void (GSState::*GIFPackedRegHandler)(GIFPackedReg* r);
typedef void (GSState::*GIFPackedRegHandler)(const GIFPackedReg* r);
GIFPackedRegHandler m_fpGIFPackedRegHandlers[16];
void GIFPackedRegHandlerNull(GIFPackedReg* r);
void GIFPackedRegHandlerPRIM(GIFPackedReg* r);
void GIFPackedRegHandlerRGBA(GIFPackedReg* r);
void GIFPackedRegHandlerSTQ(GIFPackedReg* r);
void GIFPackedRegHandlerUV(GIFPackedReg* r);
void GIFPackedRegHandlerXYZF2(GIFPackedReg* r);
void GIFPackedRegHandlerXYZ2(GIFPackedReg* r);
template<int i> void GIFPackedRegHandlerTEX0(GIFPackedReg* r);
template<int i> void GIFPackedRegHandlerCLAMP(GIFPackedReg* r);
void GIFPackedRegHandlerFOG(GIFPackedReg* r);
void GIFPackedRegHandlerXYZF3(GIFPackedReg* r);
void GIFPackedRegHandlerXYZ3(GIFPackedReg* r);
void GIFPackedRegHandlerA_D(GIFPackedReg* r);
void GIFPackedRegHandlerNOP(GIFPackedReg* r);
void GIFPackedRegHandlerNull(const GIFPackedReg* r);
void GIFPackedRegHandlerPRIM(const GIFPackedReg* r);
void GIFPackedRegHandlerRGBA(const GIFPackedReg* r);
void GIFPackedRegHandlerSTQ(const GIFPackedReg* r);
void GIFPackedRegHandlerUV(const GIFPackedReg* r);
void GIFPackedRegHandlerXYZF2(const GIFPackedReg* r);
void GIFPackedRegHandlerXYZ2(const GIFPackedReg* r);
template<int i> void GIFPackedRegHandlerTEX0(const GIFPackedReg* r);
template<int i> void GIFPackedRegHandlerCLAMP(const GIFPackedReg* r);
void GIFPackedRegHandlerFOG(const GIFPackedReg* r);
void GIFPackedRegHandlerXYZF3(const GIFPackedReg* r);
void GIFPackedRegHandlerXYZ3(const GIFPackedReg* r);
void GIFPackedRegHandlerA_D(const GIFPackedReg* r);
void GIFPackedRegHandlerNOP(const GIFPackedReg* r);
typedef void (GSState::*GIFRegHandler)(GIFReg* r);
typedef void (GSState::*GIFRegHandler)(const GIFReg* r);
GIFRegHandler m_fpGIFRegHandlers[256];
void GIFRegHandlerNull(GIFReg* r);
void GIFRegHandlerPRIM(GIFReg* r);
void GIFRegHandlerRGBAQ(GIFReg* r);
void GIFRegHandlerST(GIFReg* r);
void GIFRegHandlerUV(GIFReg* r);
void GIFRegHandlerXYZF2(GIFReg* r);
void GIFRegHandlerXYZ2(GIFReg* r);
template<int i> void GIFRegHandlerTEX0(GIFReg* r);
template<int i> void GIFRegHandlerCLAMP(GIFReg* r);
void GIFRegHandlerFOG(GIFReg* r);
void GIFRegHandlerXYZF3(GIFReg* r);
void GIFRegHandlerXYZ3(GIFReg* r);
void GIFRegHandlerNOP(GIFReg* r);
template<int i> void GIFRegHandlerTEX1(GIFReg* r);
template<int i> void GIFRegHandlerTEX2(GIFReg* r);
template<int i> void GIFRegHandlerXYOFFSET(GIFReg* r);
void GIFRegHandlerPRMODECONT(GIFReg* r);
void GIFRegHandlerPRMODE(GIFReg* r);
void GIFRegHandlerTEXCLUT(GIFReg* r);
void GIFRegHandlerSCANMSK(GIFReg* r);
template<int i> void GIFRegHandlerMIPTBP1(GIFReg* r);
template<int i> void GIFRegHandlerMIPTBP2(GIFReg* r);
void GIFRegHandlerTEXA(GIFReg* r);
void GIFRegHandlerFOGCOL(GIFReg* r);
void GIFRegHandlerTEXFLUSH(GIFReg* r);
template<int i> void GIFRegHandlerSCISSOR(GIFReg* r);
template<int i> void GIFRegHandlerALPHA(GIFReg* r);
void GIFRegHandlerDIMX(GIFReg* r);
void GIFRegHandlerDTHE(GIFReg* r);
void GIFRegHandlerCOLCLAMP(GIFReg* r);
template<int i> void GIFRegHandlerTEST(GIFReg* r);
void GIFRegHandlerPABE(GIFReg* r);
template<int i> void GIFRegHandlerFBA(GIFReg* r);
template<int i> void GIFRegHandlerFRAME(GIFReg* r);
template<int i> void GIFRegHandlerZBUF(GIFReg* r);
void GIFRegHandlerBITBLTBUF(GIFReg* r);
void GIFRegHandlerTRXPOS(GIFReg* r);
void GIFRegHandlerTRXREG(GIFReg* r);
void GIFRegHandlerTRXDIR(GIFReg* r);
void GIFRegHandlerHWREG(GIFReg* r);
void GIFRegHandlerSIGNAL(GIFReg* r);
void GIFRegHandlerFINISH(GIFReg* r);
void GIFRegHandlerLABEL(GIFReg* r);
void ApplyTEX0( uint i, GIFRegTEX0& TEX0 );
void GIFRegHandlerNull(const GIFReg* r);
void GIFRegHandlerPRIM(const GIFReg* r);
void GIFRegHandlerRGBAQ(const GIFReg* r);
void GIFRegHandlerST(const GIFReg* r);
void GIFRegHandlerUV(const GIFReg* r);
void GIFRegHandlerXYZF2(const GIFReg* r);
void GIFRegHandlerXYZ2(const GIFReg* r);
template<int i> void GIFRegHandlerTEX0(const GIFReg* r);
template<int i> void GIFRegHandlerCLAMP(const GIFReg* r);
void GIFRegHandlerFOG(const GIFReg* r);
void GIFRegHandlerXYZF3(const GIFReg* r);
void GIFRegHandlerXYZ3(const GIFReg* r);
void GIFRegHandlerNOP(const GIFReg* r);
template<int i> void GIFRegHandlerTEX1(const GIFReg* r);
template<int i> void GIFRegHandlerTEX2(const GIFReg* r);
template<int i> void GIFRegHandlerXYOFFSET(const GIFReg* r);
void GIFRegHandlerPRMODECONT(const GIFReg* r);
void GIFRegHandlerPRMODE(const GIFReg* r);
void GIFRegHandlerTEXCLUT(const GIFReg* r);
void GIFRegHandlerSCANMSK(const GIFReg* r);
template<int i> void GIFRegHandlerMIPTBP1(const GIFReg* r);
template<int i> void GIFRegHandlerMIPTBP2(const GIFReg* r);
void GIFRegHandlerTEXA(const GIFReg* r);
void GIFRegHandlerFOGCOL(const GIFReg* r);
void GIFRegHandlerTEXFLUSH(const GIFReg* r);
template<int i> void GIFRegHandlerSCISSOR(const GIFReg* r);
template<int i> void GIFRegHandlerALPHA(const GIFReg* r);
void GIFRegHandlerDIMX(const GIFReg* r);
void GIFRegHandlerDTHE(const GIFReg* r);
void GIFRegHandlerCOLCLAMP(const GIFReg* r);
template<int i> void GIFRegHandlerTEST(const GIFReg* r);
void GIFRegHandlerPABE(const GIFReg* r);
template<int i> void GIFRegHandlerFBA(const GIFReg* r);
template<int i> void GIFRegHandlerFRAME(const GIFReg* r);
template<int i> void GIFRegHandlerZBUF(const GIFReg* r);
void GIFRegHandlerBITBLTBUF(const GIFReg* r);
void GIFRegHandlerTRXPOS(const GIFReg* r);
void GIFRegHandlerTRXREG(const GIFReg* r);
void GIFRegHandlerTRXDIR(const GIFReg* r);
void GIFRegHandlerHWREG(const GIFReg* r);
void GIFRegHandlerSIGNAL(const GIFReg* r);
void GIFRegHandlerFINISH(const GIFReg* r);
void GIFRegHandlerLABEL(const GIFReg* r);
int m_version;
int m_sssize;
@ -237,13 +239,13 @@ public:
virtual void InvalidateTextureCache() {}
void Move();
void Write(uint8* mem, int len);
void Write(const uint8* mem, int len);
void Read(uint8* mem, int len);
void SoftReset(uint32 mask);
void WriteCSR(uint32 csr) {m_regs->CSR.u32[1] = csr;}
void ReadFIFO(uint8* mem, int size);
template<int index> void Transfer(uint8* mem, uint32 size);
template<int index> void Transfer(const uint8* mem, uint32 size);
int Freeze(GSFreezeData* fd, bool sizeonly);
int Defrost(const GSFreezeData* fd);
void GetLastTag(uint32* tag) {*tag = m_path3hack; m_path3hack = 0;}

View File

@ -1010,19 +1010,19 @@ inline u32 ZZOglGet_fbmHighByte(u32 data)
//-------------------------- tex0 comparison
// Check if old and new tex0 registers have only clut difference
inline bool ZZOglAllExceptClutIsSame(u32* oldtex, u32* newtex)
inline bool ZZOglAllExceptClutIsSame(const u32* oldtex, const u32* newtex)
{
return ((oldtex[0] == newtex[0]) && ((oldtex[1] & 0x1f) == (newtex[1] & 0x1f)));
}
// Check if the CLUT registers are same, except CLD
inline bool ZZOglClutMinusCLDunchanged(u32* oldtex, u32* newtex)
inline bool ZZOglClutMinusCLDunchanged(const u32* oldtex, const u32* newtex)
{
return ((oldtex[1] & 0x1fffffe0) == (newtex[1] & 0x1fffffe0));
}
// Check if CLUT storage mode is not changed (CSA, CSM and CSPM)
inline bool ZZOglClutStorageUnchanged(u32* oldtex, u32* newtex)
inline bool ZZOglClutStorageUnchanged(const u32* oldtex, const u32* newtex)
{
return ((oldtex[1] & 0x1ff10000) == (newtex[1] & 0x1ff10000));
}

View File

@ -41,7 +41,7 @@ void CALLBACK GSgetLastTag(u64* ptag)
extern HANDLE g_hCurrentThread;
#endif
__forceinline void gifTransferLog(int index, u32 *pMem, u32 size)
__forceinline void gifTransferLog(int index, const u32 *pMem, u32 size)
{
#ifdef DEBUG_TRANSFER
@ -65,7 +65,7 @@ __forceinline void gifTransferLog(int index, u32 *pMem, u32 size)
extern int g_GSMultiThreaded;
template<int index> void _GSgifTransfer(u32 *pMem, u32 size)
template<int index> void _GSgifTransfer(const u32 *pMem, u32 size)
{
FUNCLOG
@ -174,7 +174,11 @@ template<int index> void _GSgifTransfer(u32 *pMem, u32 size)
break;
case 1:
ZeroGS::TransferLocalHost(pMem, len);
// This can't happen; downloads can not be started or performed as part of
// a GIFtag operation. They're an entirely separate process that can only be
// done through the ReverseFIFO transfer (aka ReadFIFO). --air
assert(0);
//ZeroGS::TransferLocalHost(pMem, len);
break;
case 2:
@ -253,7 +257,7 @@ void CALLBACK GSgifTransfer2(u32 *pMem, u32 size)
//ZZLog::GS_Log("GSgifTransfer2 size = %lx (mode %d, gs.path2.tag.nloop = %d).", size, gs.path[1].mode, gs.path[1].tag.nloop);
_GSgifTransfer<1>(pMem, size);
_GSgifTransfer<1>(const_cast<u32*>(pMem), size);
}
void CALLBACK GSgifTransfer3(u32 *pMem, u32 size)
@ -262,10 +266,10 @@ void CALLBACK GSgifTransfer3(u32 *pMem, u32 size)
//ZZLog::GS_Log("GSgifTransfer3 size = %lx (mode %d, gs.path3.tag.nloop = %d).", size, gs.path[2].mode, gs.path[2].tag.nloop);
_GSgifTransfer<2>(pMem, size);
_GSgifTransfer<2>(const_cast<u32*>(pMem), size);
}
void CALLBACK GSgifTransfer(u32 *pMem, u32 size)
void CALLBACK GSgifTransfer(const u32 *pMem, u32 size)
{
FUNCLOG

View File

@ -52,7 +52,7 @@ union GIFTag
u64 REGS : 64;
};
void set(u32 *data)
void set(const u32 *data)
{
for (int i = 0; i <= 3; i++)
{
@ -81,7 +81,7 @@ typedef struct
u32 adonly;
GIFTag tag;
void setTag(u32 *data)
void setTag(const u32 *data)
{
tag.set(data);
@ -124,9 +124,9 @@ typedef struct
} pathInfo;
void _GSgifPacket(pathInfo *path, u32 *pMem);
void _GSgifRegList(pathInfo *path, u32 *pMem);
void _GSgifTransfer(pathInfo *path, u32 *pMem, u32 size);
extern void _GSgifPacket(pathInfo *path, const u32 *pMem);
extern void _GSgifRegList(pathInfo *path, const u32 *pMem);
extern void _GSgifTransfer(pathInfo *path, const u32 *pMem, u32 size);
extern GIFRegHandler g_GIFPackedRegHandlers[];
extern GIFRegHandler g_GIFRegHandlers[];

View File

@ -88,22 +88,22 @@ inline bool NoHighlights(int i)
return (!(conf.settings().xenosaga_spec) || !ZeroGS::vb[i].zbuf.zmsk || prim->iip) ;
}
void __fastcall GIFPackedRegHandlerNull(u32* data)
void __gifCall GIFPackedRegHandlerNull(const u32* data)
{
FUNCLOG
ZZLog::Debug_Log("Unexpected packed reg handler %8.8lx_%8.8lx %x.", data[0], data[1], data[2]);
}
// All these just call their non-packed equivalent.
void __fastcall GIFPackedRegHandlerPRIM(u32* data) { GIFRegHandlerPRIM(data); }
void __fastcall GIFPackedRegHandlerTEX0_1(u32* data) { GIFRegHandlerTEX0_1(data); }
void __fastcall GIFPackedRegHandlerTEX0_2(u32* data) { GIFRegHandlerTEX0_2(data); }
void __fastcall GIFPackedRegHandlerCLAMP_1(u32* data) { GIFRegHandlerCLAMP_1(data); }
void __fastcall GIFPackedRegHandlerCLAMP_2(u32* data) { GIFRegHandlerCLAMP_2(data); }
void __fastcall GIFPackedRegHandlerXYZF3(u32* data) { GIFRegHandlerXYZF3(data); }
void __fastcall GIFPackedRegHandlerXYZ3(u32* data) { GIFRegHandlerXYZ3(data); }
void __gifCall GIFPackedRegHandlerPRIM(const u32* data) { GIFRegHandlerPRIM(data); }
void __gifCall GIFPackedRegHandlerTEX0_1(const u32* data) { GIFRegHandlerTEX0_1(data); }
void __gifCall GIFPackedRegHandlerTEX0_2(const u32* data) { GIFRegHandlerTEX0_2(data); }
void __gifCall GIFPackedRegHandlerCLAMP_1(const u32* data) { GIFRegHandlerCLAMP_1(data); }
void __gifCall GIFPackedRegHandlerCLAMP_2(const u32* data) { GIFRegHandlerCLAMP_2(data); }
void __gifCall GIFPackedRegHandlerXYZF3(const u32* data) { GIFRegHandlerXYZF3(data); }
void __gifCall GIFPackedRegHandlerXYZ3(const u32* data) { GIFRegHandlerXYZ3(data); }
void __fastcall GIFPackedRegHandlerRGBA(u32* data)
void __gifCall GIFPackedRegHandlerRGBA(const u32* data)
{
FUNCLOG
gs.rgba = (data[0] & 0xff) |
@ -114,7 +114,7 @@ void __fastcall GIFPackedRegHandlerRGBA(u32* data)
gs.vertexregs.q = gs.q;
}
void __fastcall GIFPackedRegHandlerSTQ(u32* data)
void __gifCall GIFPackedRegHandlerSTQ(const u32* data)
{
FUNCLOG
*(u32*)&gs.vertexregs.s = data[0] & 0xffffff00;
@ -122,7 +122,7 @@ void __fastcall GIFPackedRegHandlerSTQ(u32* data)
*(u32*)&gs.q = data[2];
}
void __fastcall GIFPackedRegHandlerUV(u32* data)
void __gifCall GIFPackedRegHandlerUV(const u32* data)
{
FUNCLOG
gs.vertexregs.u = data[0] & 0x3fff;
@ -158,7 +158,7 @@ void __forceinline KICK_VERTEX3()
}
}
void __fastcall GIFPackedRegHandlerXYZF2(u32* data)
void __gifCall GIFPackedRegHandlerXYZF2(const u32* data)
{
FUNCLOG
gs.vertexregs.x = (data[0] >> 0) & 0xffff;
@ -178,7 +178,7 @@ void __fastcall GIFPackedRegHandlerXYZF2(u32* data)
}
}
void __fastcall GIFPackedRegHandlerXYZ2(u32* data)
void __gifCall GIFPackedRegHandlerXYZ2(const u32* data)
{
FUNCLOG
gs.vertexregs.x = (data[0] >> 0) & 0xffff;
@ -197,13 +197,13 @@ void __fastcall GIFPackedRegHandlerXYZ2(u32* data)
}
}
void __fastcall GIFPackedRegHandlerFOG(u32* data)
void __gifCall GIFPackedRegHandlerFOG(const u32* data)
{
FUNCLOG
gs.vertexregs.f = (data[3] & 0xff0) >> 4;
}
void __fastcall GIFPackedRegHandlerA_D(u32* data)
void __gifCall GIFPackedRegHandlerA_D(const u32* data)
{
FUNCLOG
@ -213,12 +213,12 @@ void __fastcall GIFPackedRegHandlerA_D(u32* data)
GIFRegHandlerNull(data);
}
void __fastcall GIFPackedRegHandlerNOP(u32* data)
void __gifCall GIFPackedRegHandlerNOP(const u32* data)
{
FUNCLOG
}
void tex0Write(int i, u32 *data)
void tex0Write(int i, const u32 *data)
{
FUNCLOG
u32 psm = ZZOglGet_psm_TexBitsFix(data[0]);
@ -251,7 +251,7 @@ void tex0Write(int i, u32 *data)
}
}
void tex2Write(int i, u32 *data)
void tex2Write(int i, const u32 *data)
{
FUNCLOG
tex0Info& tex0 = ZeroGS::vb[i].tex0;
@ -297,7 +297,7 @@ void tex2Write(int i, u32 *data)
if (PSMT_ISCLUT(tex0.psm)) ZeroGS::CluttingForFlushedTex(&tex0, data[1], i);
}
__forceinline void frameWrite(int i, u32 *data)
__forceinline void frameWrite(int i, const u32 *data)
{
FUNCLOG
frameInfo& gsfb = ZeroGS::vb[i].gsfb;
@ -322,7 +322,7 @@ __forceinline void frameWrite(int i, u32 *data)
ZeroGS::vb[i].bNeedFrameCheck = 1;
}
__forceinline void testWrite(int i, u32 *data)
__forceinline void testWrite(int i, const u32 *data)
{
FUNCLOG
pixTest* test = &ZeroGS::vb[i].test;
@ -346,7 +346,7 @@ __forceinline void testWrite(int i, u32 *data)
#ifndef __LINUX__
__forceinline
#endif
void clampWrite(int i, u32 *data)
void clampWrite(int i, const u32 *data)
{
FUNCLOG
clampInfo& clamp = ZeroGS::vb[i].clamp;
@ -367,7 +367,7 @@ void clampWrite(int i, u32 *data)
}
}
void __fastcall GIFRegHandlerNull(u32* data)
void __gifCall GIFRegHandlerNull(const u32* data)
{
FUNCLOG
#ifdef _DEBUG
@ -383,7 +383,7 @@ void __fastcall GIFRegHandlerNull(u32* data)
#endif
}
void __fastcall GIFRegHandlerPRIM(u32 *data)
void __gifCall GIFRegHandlerPRIM(const u32 *data)
{
FUNCLOG
@ -403,7 +403,7 @@ void __fastcall GIFRegHandlerPRIM(u32 *data)
ZeroGS::Prim();
}
void __fastcall GIFRegHandlerRGBAQ(u32* data)
void __gifCall GIFRegHandlerRGBAQ(const u32* data)
{
FUNCLOG
gs.rgba = data[0];
@ -411,7 +411,7 @@ void __fastcall GIFRegHandlerRGBAQ(u32* data)
*(u32*)&gs.vertexregs.q = data[1];
}
void __fastcall GIFRegHandlerST(u32* data)
void __gifCall GIFRegHandlerST(const u32* data)
{
FUNCLOG
*(u32*)&gs.vertexregs.s = data[0] & 0xffffff00;
@ -419,14 +419,14 @@ void __fastcall GIFRegHandlerST(u32* data)
//*(u32*)&gs.q = data[2];
}
void __fastcall GIFRegHandlerUV(u32* data)
void __gifCall GIFRegHandlerUV(const u32* data)
{
FUNCLOG
gs.vertexregs.u = (data[0]) & 0x3fff;
gs.vertexregs.v = (data[0] >> 16) & 0x3fff;
}
void __fastcall GIFRegHandlerXYZF2(u32* data)
void __gifCall GIFRegHandlerXYZF2(const u32* data)
{
FUNCLOG
gs.vertexregs.x = (data[0]) & 0xffff;
@ -439,7 +439,7 @@ void __fastcall GIFRegHandlerXYZF2(u32* data)
KICK_VERTEX2();
}
void __fastcall GIFRegHandlerXYZ2(u32* data)
void __gifCall GIFRegHandlerXYZ2(const u32* data)
{
FUNCLOG
gs.vertexregs.x = (data[0]) & 0xffff;
@ -451,7 +451,7 @@ void __fastcall GIFRegHandlerXYZ2(u32* data)
KICK_VERTEX2();
}
void __fastcall GIFRegHandlerTEX0_1(u32* data)
void __gifCall GIFRegHandlerTEX0_1(const u32* data)
{
FUNCLOG
@ -460,7 +460,7 @@ void __fastcall GIFRegHandlerTEX0_1(u32* data)
tex0Write(0, data);
}
void __fastcall GIFRegHandlerTEX0_2(u32* data)
void __gifCall GIFRegHandlerTEX0_2(const u32* data)
{
FUNCLOG
@ -469,7 +469,7 @@ void __fastcall GIFRegHandlerTEX0_2(u32* data)
tex0Write(1, data);
}
void __fastcall GIFRegHandlerCLAMP_1(u32* data)
void __gifCall GIFRegHandlerCLAMP_1(const u32* data)
{
FUNCLOG
@ -478,7 +478,7 @@ void __fastcall GIFRegHandlerCLAMP_1(u32* data)
clampWrite(0, data);
}
void __fastcall GIFRegHandlerCLAMP_2(u32* data)
void __gifCall GIFRegHandlerCLAMP_2(const u32* data)
{
FUNCLOG
@ -487,14 +487,14 @@ void __fastcall GIFRegHandlerCLAMP_2(u32* data)
clampWrite(1, data);
}
void __fastcall GIFRegHandlerFOG(u32* data)
void __gifCall GIFRegHandlerFOG(const u32* data)
{
FUNCLOG
//gs.gsvertex[gs.primIndex].f = (data[1] >> 24); // shift to upper bits
gs.vertexregs.f = data[1] >> 24;
}
void __fastcall GIFRegHandlerXYZF3(u32* data)
void __gifCall GIFRegHandlerXYZF3(const u32* data)
{
FUNCLOG
gs.vertexregs.x = (data[0]) & 0xffff;
@ -507,7 +507,7 @@ void __fastcall GIFRegHandlerXYZF3(u32* data)
KICK_VERTEX3();
}
void __fastcall GIFRegHandlerXYZ3(u32* data)
void __gifCall GIFRegHandlerXYZ3(const u32* data)
{
FUNCLOG
gs.vertexregs.x = (data[0]) & 0xffff;
@ -519,12 +519,12 @@ void __fastcall GIFRegHandlerXYZ3(u32* data)
KICK_VERTEX3();
}
void __fastcall GIFRegHandlerNOP(u32* data)
void __gifCall GIFRegHandlerNOP(const u32* data)
{
FUNCLOG
}
void tex1Write(int i, u32* data)
void tex1Write(int i, const u32* data)
{
FUNCLOG
tex1Info& tex1 = ZeroGS::vb[i].tex1;
@ -545,7 +545,7 @@ void tex1Write(int i, u32* data)
tex1.k = (data[1] >> 4) & 0xff;
}
void __fastcall GIFRegHandlerTEX1_1(u32* data)
void __gifCall GIFRegHandlerTEX1_1(const u32* data)
{
FUNCLOG
@ -554,7 +554,7 @@ void __fastcall GIFRegHandlerTEX1_1(u32* data)
tex1Write(0, data);
}
void __fastcall GIFRegHandlerTEX1_2(u32* data)
void __gifCall GIFRegHandlerTEX1_2(const u32* data)
{
FUNCLOG
@ -563,19 +563,19 @@ void __fastcall GIFRegHandlerTEX1_2(u32* data)
tex1Write(1, data);
}
void __fastcall GIFRegHandlerTEX2_1(u32* data)
void __gifCall GIFRegHandlerTEX2_1(const u32* data)
{
FUNCLOG
tex2Write(0, data);
}
void __fastcall GIFRegHandlerTEX2_2(u32* data)
void __gifCall GIFRegHandlerTEX2_2(const u32* data)
{
FUNCLOG
tex2Write(1, data);
}
void __fastcall GIFRegHandlerXYOFFSET_1(u32* data)
void __gifCall GIFRegHandlerXYOFFSET_1(const u32* data)
{
FUNCLOG
// eliminator low 4 bits for now
@ -588,7 +588,7 @@ void __fastcall GIFRegHandlerXYOFFSET_1(u32* data)
// }
}
void __fastcall GIFRegHandlerXYOFFSET_2(u32* data)
void __gifCall GIFRegHandlerXYOFFSET_2(const u32* data)
{
FUNCLOG
ZeroGS::vb[1].offset.x = (data[0]) & 0xffff;
@ -600,7 +600,7 @@ void __fastcall GIFRegHandlerXYOFFSET_2(u32* data)
// }
}
void __fastcall GIFRegHandlerPRMODECONT(u32* data)
void __gifCall GIFRegHandlerPRMODECONT(const u32* data)
{
FUNCLOG
gs.prac = data[0] & 0x1;
@ -609,7 +609,7 @@ void __fastcall GIFRegHandlerPRMODECONT(u32* data)
ZeroGS::Prim();
}
void __fastcall GIFRegHandlerPRMODE(u32* data)
void __gifCall GIFRegHandlerPRMODE(const u32* data)
{
FUNCLOG
gs._prim[0]._val = (data[0] >> 3) & 0xff;
@ -617,7 +617,7 @@ void __fastcall GIFRegHandlerPRMODE(u32* data)
if (gs.prac == 0) ZeroGS::Prim();
}
void __fastcall GIFRegHandlerTEXCLUT(u32* data)
void __gifCall GIFRegHandlerTEXCLUT(const u32* data)
{
FUNCLOG
@ -629,7 +629,7 @@ void __fastcall GIFRegHandlerTEXCLUT(u32* data)
gs.clut.cov = (data[0] >> 12) & 0x3ff;
}
void __fastcall GIFRegHandlerSCANMSK(u32* data)
void __gifCall GIFRegHandlerSCANMSK(const u32* data)
{
FUNCLOG
// ZeroGS::FlushBoth();
@ -639,7 +639,7 @@ void __fastcall GIFRegHandlerSCANMSK(u32* data)
gs.smask = data[0] & 0x3;
}
void __fastcall GIFRegHandlerMIPTBP1_1(u32* data)
void __gifCall GIFRegHandlerMIPTBP1_1(const u32* data)
{
FUNCLOG
miptbpInfo& miptbp0 = ZeroGS::vb[0].miptbp0;
@ -651,7 +651,7 @@ void __fastcall GIFRegHandlerMIPTBP1_1(u32* data)
miptbp0.tbw[2] = (data[1] >> 22) & 0x3f;
}
void __fastcall GIFRegHandlerMIPTBP1_2(u32* data)
void __gifCall GIFRegHandlerMIPTBP1_2(const u32* data)
{
FUNCLOG
miptbpInfo& miptbp0 = ZeroGS::vb[1].miptbp0;
@ -663,7 +663,7 @@ void __fastcall GIFRegHandlerMIPTBP1_2(u32* data)
miptbp0.tbw[2] = (data[1] >> 22) & 0x3f;
}
void __fastcall GIFRegHandlerMIPTBP2_1(u32* data)
void __gifCall GIFRegHandlerMIPTBP2_1(const u32* data)
{
FUNCLOG
miptbpInfo& miptbp1 = ZeroGS::vb[0].miptbp1;
@ -675,7 +675,7 @@ void __fastcall GIFRegHandlerMIPTBP2_1(u32* data)
miptbp1.tbw[2] = (data[1] >> 22) & 0x3f;
}
void __fastcall GIFRegHandlerMIPTBP2_2(u32* data)
void __gifCall GIFRegHandlerMIPTBP2_2(const u32* data)
{
FUNCLOG
miptbpInfo& miptbp1 = ZeroGS::vb[1].miptbp1;
@ -687,7 +687,7 @@ void __fastcall GIFRegHandlerMIPTBP2_2(u32* data)
miptbp1.tbw[2] = (data[1] >> 22) & 0x3f;
}
void __fastcall GIFRegHandlerTEXA(u32* data)
void __gifCall GIFRegHandlerTEXA(const u32* data)
{
FUNCLOG
texaInfo newinfo;
@ -709,19 +709,19 @@ void __fastcall GIFRegHandlerTEXA(u32* data)
}
}
void __fastcall GIFRegHandlerFOGCOL(u32* data)
void __gifCall GIFRegHandlerFOGCOL(const u32* data)
{
FUNCLOG
ZeroGS::SetFogColor(data[0]&0xffffff);
}
void __fastcall GIFRegHandlerTEXFLUSH(u32* data)
void __gifCall GIFRegHandlerTEXFLUSH(const u32* data)
{
FUNCLOG
ZeroGS::SetTexFlush();
}
void __fastcall GIFRegHandlerSCISSOR_1(u32* data)
void __gifCall GIFRegHandlerSCISSOR_1(const u32* data)
{
FUNCLOG
Rect2& scissor = ZeroGS::vb[0].scissor;
@ -742,7 +742,7 @@ void __fastcall GIFRegHandlerSCISSOR_1(u32* data)
}
}
void __fastcall GIFRegHandlerSCISSOR_2(u32* data)
void __gifCall GIFRegHandlerSCISSOR_2(const u32* data)
{
FUNCLOG
Rect2& scissor = ZeroGS::vb[1].scissor;
@ -765,7 +765,7 @@ void __fastcall GIFRegHandlerSCISSOR_2(u32* data)
}
}
void __fastcall GIFRegHandlerALPHA_1(u32* data)
void __gifCall GIFRegHandlerALPHA_1(const u32* data)
{
FUNCLOG
alphaInfo newalpha;
@ -785,7 +785,7 @@ void __fastcall GIFRegHandlerALPHA_1(u32* data)
}
}
void __fastcall GIFRegHandlerALPHA_2(u32* data)
void __gifCall GIFRegHandlerALPHA_2(const u32* data)
{
FUNCLOG
alphaInfo newalpha;
@ -805,36 +805,36 @@ void __fastcall GIFRegHandlerALPHA_2(u32* data)
}
}
void __fastcall GIFRegHandlerDIMX(u32* data)
void __gifCall GIFRegHandlerDIMX(const u32* data)
{
FUNCLOG
}
void __fastcall GIFRegHandlerDTHE(u32* data)
void __gifCall GIFRegHandlerDTHE(const u32* data)
{
FUNCLOG
gs.dthe = data[0] & 0x1;
}
void __fastcall GIFRegHandlerCOLCLAMP(u32* data)
void __gifCall GIFRegHandlerCOLCLAMP(const u32* data)
{
FUNCLOG
gs.colclamp = data[0] & 0x1;
}
void __fastcall GIFRegHandlerTEST_1(u32* data)
void __gifCall GIFRegHandlerTEST_1(const u32* data)
{
FUNCLOG
testWrite(0, data);
}
void __fastcall GIFRegHandlerTEST_2(u32* data)
void __gifCall GIFRegHandlerTEST_2(const u32* data)
{
FUNCLOG
testWrite(1, data);
}
void __fastcall GIFRegHandlerPABE(u32* data)
void __gifCall GIFRegHandlerPABE(const u32* data)
{
FUNCLOG
//ZeroGS::SetAlphaChanged(0, GPUREG_PABE);
@ -844,7 +844,7 @@ void __fastcall GIFRegHandlerPABE(u32* data)
gs.pabe = *data & 0x1;
}
void __fastcall GIFRegHandlerFBA_1(u32* data)
void __gifCall GIFRegHandlerFBA_1(const u32* data)
{
FUNCLOG
@ -852,7 +852,7 @@ void __fastcall GIFRegHandlerFBA_1(u32* data)
ZeroGS::vb[0].fba.fba = *data & 0x1;
}
void __fastcall GIFRegHandlerFBA_2(u32* data)
void __gifCall GIFRegHandlerFBA_2(const u32* data)
{
FUNCLOG
@ -861,19 +861,19 @@ void __fastcall GIFRegHandlerFBA_2(u32* data)
ZeroGS::vb[1].fba.fba = *data & 0x1;
}
void __fastcall GIFRegHandlerFRAME_1(u32* data)
void __gifCall GIFRegHandlerFRAME_1(const u32* data)
{
FUNCLOG
frameWrite(0, data);
}
void __fastcall GIFRegHandlerFRAME_2(u32* data)
void __gifCall GIFRegHandlerFRAME_2(const u32* data)
{
FUNCLOG
frameWrite(1, data);
}
void __fastcall GIFRegHandlerZBUF_1(u32* data)
void __gifCall GIFRegHandlerZBUF_1(const u32* data)
{
FUNCLOG
zbufInfo& zbuf = ZeroGS::vb[0].zbuf;
@ -903,7 +903,7 @@ void __fastcall GIFRegHandlerZBUF_1(u32* data)
ZeroGS::vb[0].bNeedZCheck = 1;
}
void __fastcall GIFRegHandlerZBUF_2(u32* data)
void __gifCall GIFRegHandlerZBUF_2(const u32* data)
{
FUNCLOG
zbufInfo& zbuf = ZeroGS::vb[1].zbuf;
@ -934,7 +934,7 @@ void __fastcall GIFRegHandlerZBUF_2(u32* data)
if (zbuf.psm > 0x31) ZeroGS::vb[1].zprimmask = 0xffff;
}
void __fastcall GIFRegHandlerBITBLTBUF(u32* data)
void __gifCall GIFRegHandlerBITBLTBUF(const u32* data)
{
FUNCLOG
gs.srcbufnew.bp = ((data[0]) & 0x3fff); // * 64;
@ -947,7 +947,7 @@ void __fastcall GIFRegHandlerBITBLTBUF(u32* data)
if (gs.dstbufnew.bw == 0) gs.dstbufnew.bw = 64;
}
void __fastcall GIFRegHandlerTRXPOS(u32* data)
void __gifCall GIFRegHandlerTRXPOS(const u32* data)
{
FUNCLOG
@ -958,14 +958,14 @@ void __fastcall GIFRegHandlerTRXPOS(u32* data)
gs.trxposnew.dir = (data[1] >> 27) & 0x3;
}
void __fastcall GIFRegHandlerTRXREG(u32* data)
void __gifCall GIFRegHandlerTRXREG(const u32* data)
{
FUNCLOG
gs.imageWtemp = data[0] & 0xfff;
gs.imageHtemp = data[1] & 0xfff;
}
void __fastcall GIFRegHandlerTRXDIR(u32* data)
void __gifCall GIFRegHandlerTRXDIR(const u32* data)
{
FUNCLOG
// terminate any previous transfers
@ -1023,7 +1023,7 @@ void __fastcall GIFRegHandlerTRXDIR(u32* data)
}
}
void __fastcall GIFRegHandlerHWREG(u32* data)
void __gifCall GIFRegHandlerHWREG(const u32* data)
{
FUNCLOG
@ -1042,7 +1042,7 @@ void __fastcall GIFRegHandlerHWREG(u32* data)
extern int g_GSMultiThreaded;
void __fastcall GIFRegHandlerSIGNAL(u32* data)
void __gifCall GIFRegHandlerSIGNAL(const u32* data)
{
FUNCLOG
@ -1064,7 +1064,7 @@ void __fastcall GIFRegHandlerSIGNAL(u32* data)
}
}
void __fastcall GIFRegHandlerFINISH(u32* data)
void __gifCall GIFRegHandlerFINISH(const u32* data)
{
FUNCLOG
@ -1087,7 +1087,7 @@ void __fastcall GIFRegHandlerFINISH(u32* data)
}
}
void __fastcall GIFRegHandlerLABEL(u32* data)
void __gifCall GIFRegHandlerLABEL(const u32* data)
{
FUNCLOG

View File

@ -101,83 +101,87 @@ enum GIF_A_D_REG
GIF_A_D_REG_LABEL = 0x62,
};
typedef void (__fastcall *GIFRegHandler)(u32* data);
// In case we want to change to/from __fastcall for GIF register handlers:
#define __gifCall __fastcall
void __fastcall GIFPackedRegHandlerNull(u32* data);
void __fastcall GIFPackedRegHandlerRGBA(u32* data);
void __fastcall GIFPackedRegHandlerSTQ(u32* data);
void __fastcall GIFPackedRegHandlerUV(u32* data);
void __fastcall GIFPackedRegHandlerXYZF2(u32* data);
void __fastcall GIFPackedRegHandlerXYZ2(u32* data);
void __fastcall GIFPackedRegHandlerFOG(u32* data);
void __fastcall GIFPackedRegHandlerA_D(u32* data);
void __fastcall GIFPackedRegHandlerNOP(u32* data);
typedef void __gifCall FnType_GIFRegHandler(const u32* data);
typedef FnType_GIFRegHandler* GIFRegHandler;
extern FnType_GIFRegHandler GIFPackedRegHandlerNull;
extern FnType_GIFRegHandler GIFPackedRegHandlerRGBA;
extern FnType_GIFRegHandler GIFPackedRegHandlerSTQ;
extern FnType_GIFRegHandler GIFPackedRegHandlerUV;
extern FnType_GIFRegHandler GIFPackedRegHandlerXYZF2;
extern FnType_GIFRegHandler GIFPackedRegHandlerXYZ2;
extern FnType_GIFRegHandler GIFPackedRegHandlerFOG;
extern FnType_GIFRegHandler GIFPackedRegHandlerA_D;
extern FnType_GIFRegHandler GIFPackedRegHandlerNOP;
// These are unimplemented, and fall back on the non-packed versions.
void __fastcall GIFPackedRegHandlerPRIM(u32* data);
void __fastcall GIFPackedRegHandlerTEX0_1(u32* data);
void __fastcall GIFPackedRegHandlerTEX0_2(u32* data);
void __fastcall GIFPackedRegHandlerCLAMP_1(u32* data);
void __fastcall GIFPackedRegHandlerCLAMP_2(u32* data);
void __fastcall GIFPackedRegHandlerXYZF3(u32* data);
void __fastcall GIFPackedRegHandlerXYZ3(u32* data);
extern FnType_GIFRegHandler GIFPackedRegHandlerPRIM;
extern FnType_GIFRegHandler GIFPackedRegHandlerTEX0_1;
extern FnType_GIFRegHandler GIFPackedRegHandlerTEX0_2;
extern FnType_GIFRegHandler GIFPackedRegHandlerCLAMP_1;
extern FnType_GIFRegHandler GIFPackedRegHandlerCLAMP_2;
extern FnType_GIFRegHandler GIFPackedRegHandlerXYZF3;
extern FnType_GIFRegHandler GIFPackedRegHandlerXYZ3;
void __fastcall GIFRegHandlerNull(u32* data);
void __fastcall GIFRegHandlerPRIM(u32* data);
void __fastcall GIFRegHandlerRGBAQ(u32* data);
void __fastcall GIFRegHandlerST(u32* data);
void __fastcall GIFRegHandlerUV(u32* data);
void __fastcall GIFRegHandlerXYZF2(u32* data);
void __fastcall GIFRegHandlerXYZ2(u32* data);
void __fastcall GIFRegHandlerTEX0_1(u32* data);
void __fastcall GIFRegHandlerTEX0_2(u32* data);
void __fastcall GIFRegHandlerCLAMP_1(u32* data);
void __fastcall GIFRegHandlerCLAMP_2(u32* data);
void __fastcall GIFRegHandlerFOG(u32* data);
void __fastcall GIFRegHandlerXYZF3(u32* data);
void __fastcall GIFRegHandlerXYZ3(u32* data);
void __fastcall GIFRegHandlerNOP(u32* data);
void __fastcall GIFRegHandlerTEX1_1(u32* data);
void __fastcall GIFRegHandlerTEX1_2(u32* data);
void __fastcall GIFRegHandlerTEX2_1(u32* data);
void __fastcall GIFRegHandlerTEX2_2(u32* data);
void __fastcall GIFRegHandlerXYOFFSET_1(u32* data);
void __fastcall GIFRegHandlerXYOFFSET_2(u32* data);
void __fastcall GIFRegHandlerPRMODECONT(u32* data);
void __fastcall GIFRegHandlerPRMODE(u32* data);
void __fastcall GIFRegHandlerTEXCLUT(u32* data);
void __fastcall GIFRegHandlerSCANMSK(u32* data);
void __fastcall GIFRegHandlerMIPTBP1_1(u32* data);
void __fastcall GIFRegHandlerMIPTBP1_2(u32* data);
void __fastcall GIFRegHandlerMIPTBP2_1(u32* data);
void __fastcall GIFRegHandlerMIPTBP2_2(u32* data);
void __fastcall GIFRegHandlerTEXA(u32* data);
void __fastcall GIFRegHandlerFOGCOL(u32* data);
void __fastcall GIFRegHandlerTEXFLUSH(u32* data);
void __fastcall GIFRegHandlerSCISSOR_1(u32* data);
void __fastcall GIFRegHandlerSCISSOR_2(u32* data);
void __fastcall GIFRegHandlerALPHA_1(u32* data);
void __fastcall GIFRegHandlerALPHA_2(u32* data);
void __fastcall GIFRegHandlerDIMX(u32* data);
void __fastcall GIFRegHandlerDTHE(u32* data);
void __fastcall GIFRegHandlerCOLCLAMP(u32* data);
void __fastcall GIFRegHandlerTEST_1(u32* data);
void __fastcall GIFRegHandlerTEST_2(u32* data);
void __fastcall GIFRegHandlerPABE(u32* data);
void __fastcall GIFRegHandlerFBA_1(u32* data);
void __fastcall GIFRegHandlerFBA_2(u32* data);
void __fastcall GIFRegHandlerFRAME_1(u32* data);
void __fastcall GIFRegHandlerFRAME_2(u32* data);
void __fastcall GIFRegHandlerZBUF_1(u32* data);
void __fastcall GIFRegHandlerZBUF_2(u32* data);
void __fastcall GIFRegHandlerBITBLTBUF(u32* data);
void __fastcall GIFRegHandlerTRXPOS(u32* data);
void __fastcall GIFRegHandlerTRXREG(u32* data);
void __fastcall GIFRegHandlerTRXDIR(u32* data);
void __fastcall GIFRegHandlerHWREG(u32* data);
void __fastcall GIFRegHandlerSIGNAL(u32* data);
void __fastcall GIFRegHandlerFINISH(u32* data);
void __fastcall GIFRegHandlerLABEL(u32* data);
extern FnType_GIFRegHandler GIFRegHandlerNull;
extern FnType_GIFRegHandler GIFRegHandlerPRIM;
extern FnType_GIFRegHandler GIFRegHandlerRGBAQ;
extern FnType_GIFRegHandler GIFRegHandlerST;
extern FnType_GIFRegHandler GIFRegHandlerUV;
extern FnType_GIFRegHandler GIFRegHandlerXYZF2;
extern FnType_GIFRegHandler GIFRegHandlerXYZ2;
extern FnType_GIFRegHandler GIFRegHandlerTEX0_1;
extern FnType_GIFRegHandler GIFRegHandlerTEX0_2;
extern FnType_GIFRegHandler GIFRegHandlerCLAMP_1;
extern FnType_GIFRegHandler GIFRegHandlerCLAMP_2;
extern FnType_GIFRegHandler GIFRegHandlerFOG;
extern FnType_GIFRegHandler GIFRegHandlerXYZF3;
extern FnType_GIFRegHandler GIFRegHandlerXYZ3;
extern FnType_GIFRegHandler GIFRegHandlerNOP;
extern FnType_GIFRegHandler GIFRegHandlerTEX1_1;
extern FnType_GIFRegHandler GIFRegHandlerTEX1_2;
extern FnType_GIFRegHandler GIFRegHandlerTEX2_1;
extern FnType_GIFRegHandler GIFRegHandlerTEX2_2;
extern FnType_GIFRegHandler GIFRegHandlerXYOFFSET_1;
extern FnType_GIFRegHandler GIFRegHandlerXYOFFSET_2;
extern FnType_GIFRegHandler GIFRegHandlerPRMODECONT;
extern FnType_GIFRegHandler GIFRegHandlerPRMODE;
extern FnType_GIFRegHandler GIFRegHandlerTEXCLUT;
extern FnType_GIFRegHandler GIFRegHandlerSCANMSK;
extern FnType_GIFRegHandler GIFRegHandlerMIPTBP1_1;
extern FnType_GIFRegHandler GIFRegHandlerMIPTBP1_2;
extern FnType_GIFRegHandler GIFRegHandlerMIPTBP2_1;
extern FnType_GIFRegHandler GIFRegHandlerMIPTBP2_2;
extern FnType_GIFRegHandler GIFRegHandlerTEXA;
extern FnType_GIFRegHandler GIFRegHandlerFOGCOL;
extern FnType_GIFRegHandler GIFRegHandlerTEXFLUSH;
extern FnType_GIFRegHandler GIFRegHandlerSCISSOR_1;
extern FnType_GIFRegHandler GIFRegHandlerSCISSOR_2;
extern FnType_GIFRegHandler GIFRegHandlerALPHA_1;
extern FnType_GIFRegHandler GIFRegHandlerALPHA_2;
extern FnType_GIFRegHandler GIFRegHandlerDIMX;
extern FnType_GIFRegHandler GIFRegHandlerDTHE;
extern FnType_GIFRegHandler GIFRegHandlerCOLCLAMP;
extern FnType_GIFRegHandler GIFRegHandlerTEST_1;
extern FnType_GIFRegHandler GIFRegHandlerTEST_2;
extern FnType_GIFRegHandler GIFRegHandlerPABE;
extern FnType_GIFRegHandler GIFRegHandlerFBA_1;
extern FnType_GIFRegHandler GIFRegHandlerFBA_2;
extern FnType_GIFRegHandler GIFRegHandlerFRAME_1;
extern FnType_GIFRegHandler GIFRegHandlerFRAME_2;
extern FnType_GIFRegHandler GIFRegHandlerZBUF_1;
extern FnType_GIFRegHandler GIFRegHandlerZBUF_2;
extern FnType_GIFRegHandler GIFRegHandlerBITBLTBUF;
extern FnType_GIFRegHandler GIFRegHandlerTRXPOS;
extern FnType_GIFRegHandler GIFRegHandlerTRXREG;
extern FnType_GIFRegHandler GIFRegHandlerTRXDIR;
extern FnType_GIFRegHandler GIFRegHandlerHWREG;
extern FnType_GIFRegHandler GIFRegHandlerSIGNAL;
extern FnType_GIFRegHandler GIFRegHandlerFINISH;
extern FnType_GIFRegHandler GIFRegHandlerLABEL;
// GifReg & GifPackedReg structs from GSdx, slightly modified