EE: Add COP1 Instructions to profiler

This commit is contained in:
Akash 2016-01-17 15:18:29 +05:30
parent 38c548854e
commit 72e8d083b7
2 changed files with 60 additions and 3 deletions

View File

@ -115,6 +115,7 @@ static const __aligned16 u32 s_pos[4] = { 0x7fffffff, 0xffffffff, 0xffffffff, 0x
void recCFC1(void) void recCFC1(void)
{ {
if ( !_Rt_ || ( (_Fs_ != 0) && (_Fs_ != 31) ) ) return; if ( !_Rt_ || ( (_Fs_ != 0) && (_Fs_ != 31) ) ) return;
EE::Profiler.EmitOp(eeOpcode::CFC1);
_eeOnWriteReg(_Rt_, 1); _eeOnWriteReg(_Rt_, 1);
@ -135,6 +136,7 @@ void recCFC1(void)
void recCTC1() void recCTC1()
{ {
if ( _Fs_ != 31 ) return; if ( _Fs_ != 31 ) return;
EE::Profiler.EmitOp(eeOpcode::CTC1);
if ( GPR_IS_CONST1(_Rt_) ) if ( GPR_IS_CONST1(_Rt_) )
{ {
@ -180,6 +182,7 @@ void recMFC1()
{ {
int regt, regs; int regt, regs;
if ( ! _Rt_ ) return; if ( ! _Rt_ ) return;
EE::Profiler.EmitOp(eeOpcode::MFC1);
_eeOnWriteReg(_Rt_, 1); _eeOnWriteReg(_Rt_, 1);
@ -242,6 +245,7 @@ void recMFC1()
//------------------------------------------------------------------ //------------------------------------------------------------------
void recMTC1() void recMTC1()
{ {
EE::Profiler.EmitOp(eeOpcode::MTC1);
if( GPR_IS_CONST1(_Rt_) ) if( GPR_IS_CONST1(_Rt_) )
{ {
_deleteFPtoXMMreg(_Fs_, 0); _deleteFPtoXMMreg(_Fs_, 0);
@ -407,6 +411,7 @@ void ClampValues(int regd) {
//------------------------------------------------------------------ //------------------------------------------------------------------
void recABS_S_xmm(int info) void recABS_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::ABS_F);
if( info & PROCESS_EE_S ) xMOVSS(xRegisterSSE(EEREC_D), xRegisterSSE(EEREC_S)); if( info & PROCESS_EE_S ) xMOVSS(xRegisterSSE(EEREC_D), xRegisterSSE(EEREC_S));
else xMOVSSZX(xRegisterSSE(EEREC_D), ptr[&fpuRegs.fpr[_Fs_]]); else xMOVSSZX(xRegisterSSE(EEREC_D), ptr[&fpuRegs.fpr[_Fs_]]);
@ -639,6 +644,7 @@ int recCommutativeOp(int info, int regd, int op)
//------------------------------------------------------------------ //------------------------------------------------------------------
void recADD_S_xmm(int info) void recADD_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::ADD_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
ClampValues(recCommutativeOp(info, EEREC_D, 0)); ClampValues(recCommutativeOp(info, EEREC_D, 0));
//REC_FPUOP(ADD_S); //REC_FPUOP(ADD_S);
@ -648,6 +654,7 @@ FPURECOMPILE_CONSTCODE(ADD_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recADDA_S_xmm(int info) void recADDA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::ADDA_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
ClampValues(recCommutativeOp(info, EEREC_ACC, 0)); ClampValues(recCommutativeOp(info, EEREC_ACC, 0));
} }
@ -673,24 +680,28 @@ static void _setupBranchTest()
void recBC1F() void recBC1F()
{ {
EE::Profiler.EmitOp(eeOpcode::BC1F);
_setupBranchTest(); _setupBranchTest();
recDoBranchImm(JNZ32(0)); recDoBranchImm(JNZ32(0));
} }
void recBC1T() void recBC1T()
{ {
EE::Profiler.EmitOp(eeOpcode::BC1T);
_setupBranchTest(); _setupBranchTest();
recDoBranchImm(JZ32(0)); recDoBranchImm(JZ32(0));
} }
void recBC1FL() void recBC1FL()
{ {
EE::Profiler.EmitOp(eeOpcode::BC1FL);
_setupBranchTest(); _setupBranchTest();
recDoBranchImm_Likely(JNZ32(0)); recDoBranchImm_Likely(JNZ32(0));
} }
void recBC1TL() void recBC1TL()
{ {
EE::Profiler.EmitOp(eeOpcode::BC1TL);
_setupBranchTest(); _setupBranchTest();
recDoBranchImm_Likely(JZ32(0)); recDoBranchImm_Likely(JZ32(0));
} }
@ -702,6 +713,7 @@ void recBC1TL()
//------------------------------------------------------------------ //------------------------------------------------------------------
void recC_EQ_xmm(int info) void recC_EQ_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::CEQ_F);
int tempReg; int tempReg;
int t0reg; int t0reg;
@ -765,12 +777,14 @@ FPURECOMPILE_CONSTCODE(C_EQ, XMMINFO_READS|XMMINFO_READT);
void recC_F() void recC_F()
{ {
EE::Profiler.EmitOp(eeOpcode::CF_F);
xAND(ptr32[&fpuRegs.fprc[31]], ~FPUflagC ); xAND(ptr32[&fpuRegs.fprc[31]], ~FPUflagC );
} }
//REC_FPUFUNC(C_F); //REC_FPUFUNC(C_F);
void recC_LE_xmm(int info ) void recC_LE_xmm(int info )
{ {
EE::Profiler.EmitOp(eeOpcode::CLE_F);
int tempReg; //tempX86reg int tempReg; //tempX86reg
int t0reg; //tempXMMreg int t0reg; //tempXMMreg
@ -844,6 +858,7 @@ FPURECOMPILE_CONSTCODE(C_LE, XMMINFO_READS|XMMINFO_READT);
void recC_LT_xmm(int info) void recC_LT_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::CLT_F);
int tempReg; int tempReg;
int t0reg; int t0reg;
@ -924,6 +939,7 @@ FPURECOMPILE_CONSTCODE(C_LT, XMMINFO_READS|XMMINFO_READT);
//------------------------------------------------------------------ //------------------------------------------------------------------
void recCVT_S_xmm(int info) void recCVT_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::CVTS_F);
if( !(info&PROCESS_EE_S) || (EEREC_D != EEREC_S && !(info&PROCESS_EE_MODEWRITES)) ) { if( !(info&PROCESS_EE_S) || (EEREC_D != EEREC_S && !(info&PROCESS_EE_MODEWRITES)) ) {
xCVTSI2SS(xRegisterSSE(EEREC_D), ptr32[&fpuRegs.fpr[_Fs_]]); xCVTSI2SS(xRegisterSSE(EEREC_D), ptr32[&fpuRegs.fpr[_Fs_]]);
} }
@ -941,6 +957,9 @@ void recCVT_W()
DOUBLE::recCVT_W(); DOUBLE::recCVT_W();
return; return;
} }
// If we have the following EmitOP() on the top then it'll get calculated twice when CHECK_FPU_FULL is true
// as we also have an EmitOP() at recCVT_W() on iFPUd.cpp. hence we have it below the possible return.
EE::Profiler.EmitOp(eeOpcode::CVTW);
int regs = _checkXMMreg(XMMTYPE_FPREG, _Fs_, MODE_READ); int regs = _checkXMMreg(XMMTYPE_FPREG, _Fs_, MODE_READ);
@ -949,7 +968,7 @@ void recCVT_W()
if (CHECK_FPU_EXTRA_OVERFLOW) fpuFloat2(regs); if (CHECK_FPU_EXTRA_OVERFLOW) fpuFloat2(regs);
xCVTTSS2SI(eax, xRegisterSSE(regs)); xCVTTSS2SI(eax, xRegisterSSE(regs));
xMOVMSKPS(edx, xRegisterSSE(regs)); //extract the signs xMOVMSKPS(edx, xRegisterSSE(regs)); //extract the signs
xAND(edx, 1); //keep only LSB xAND(edx, 1); //keep only LSB
} }
else else
{ {
@ -1034,6 +1053,7 @@ static __aligned16 SSE_MXCSR roundmode_nearest, roundmode_neg;
void recDIV_S_xmm(int info) void recDIV_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::DIV_F);
bool roundmodeFlag = false; bool roundmodeFlag = false;
int t0reg = _allocTempXMMreg(XMMT_FPS, -1); int t0reg = _allocTempXMMreg(XMMT_FPS, -1);
//Console.WriteLn("DIV"); //Console.WriteLn("DIV");
@ -1286,6 +1306,7 @@ void recMADDtemp(int info, int regd)
void recMADD_S_xmm(int info) void recMADD_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MADD_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
recMADDtemp(info, EEREC_D); recMADDtemp(info, EEREC_D);
} }
@ -1294,6 +1315,7 @@ FPURECOMPILE_CONSTCODE(MADD_S, XMMINFO_WRITED|XMMINFO_READACC|XMMINFO_READS|XMMI
void recMADDA_S_xmm(int info) void recMADDA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MADDA_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
recMADDtemp(info, EEREC_ACC); recMADDtemp(info, EEREC_ACC);
} }
@ -1307,6 +1329,7 @@ FPURECOMPILE_CONSTCODE(MADDA_S, XMMINFO_WRITEACC|XMMINFO_READACC|XMMINFO_READS|X
//------------------------------------------------------------------ //------------------------------------------------------------------
void recMAX_S_xmm(int info) void recMAX_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MAX_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
recCommutativeOp(info, EEREC_D, 2); recCommutativeOp(info, EEREC_D, 2);
} }
@ -1315,6 +1338,7 @@ FPURECOMPILE_CONSTCODE(MAX_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recMIN_S_xmm(int info) void recMIN_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MIN_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
recCommutativeOp(info, EEREC_D, 3); recCommutativeOp(info, EEREC_D, 3);
} }
@ -1328,6 +1352,7 @@ FPURECOMPILE_CONSTCODE(MIN_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
//------------------------------------------------------------------ //------------------------------------------------------------------
void recMOV_S_xmm(int info) void recMOV_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MOV_F);
if( info & PROCESS_EE_S ) xMOVSS(xRegisterSSE(EEREC_D), xRegisterSSE(EEREC_S)); if( info & PROCESS_EE_S ) xMOVSS(xRegisterSSE(EEREC_D), xRegisterSSE(EEREC_S));
else xMOVSSZX(xRegisterSSE(EEREC_D), ptr[&fpuRegs.fpr[_Fs_]]); else xMOVSSZX(xRegisterSSE(EEREC_D), ptr[&fpuRegs.fpr[_Fs_]]);
} }
@ -1473,6 +1498,7 @@ int t1reg;
void recMSUB_S_xmm(int info) void recMSUB_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MSUB_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
recMSUBtemp(info, EEREC_D); recMSUBtemp(info, EEREC_D);
} }
@ -1481,6 +1507,7 @@ FPURECOMPILE_CONSTCODE(MSUB_S, XMMINFO_WRITED|XMMINFO_READACC|XMMINFO_READS|XMMI
void recMSUBA_S_xmm(int info) void recMSUBA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MSUBA_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
recMSUBtemp(info, EEREC_ACC); recMSUBtemp(info, EEREC_ACC);
} }
@ -1494,6 +1521,7 @@ FPURECOMPILE_CONSTCODE(MSUBA_S, XMMINFO_WRITEACC|XMMINFO_READACC|XMMINFO_READS|X
//------------------------------------------------------------------ //------------------------------------------------------------------
void recMUL_S_xmm(int info) void recMUL_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MUL_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
ClampValues(recCommutativeOp(info, EEREC_D, 1)); ClampValues(recCommutativeOp(info, EEREC_D, 1));
} }
@ -1502,6 +1530,7 @@ FPURECOMPILE_CONSTCODE(MUL_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recMULA_S_xmm(int info) void recMULA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MULA_F);
//xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags //xAND(ptr32[&fpuRegs.fprc[31]], ~(FPUflagO|FPUflagU)); // Clear O and U flags
ClampValues(recCommutativeOp(info, EEREC_ACC, 1)); ClampValues(recCommutativeOp(info, EEREC_ACC, 1));
} }
@ -1514,6 +1543,7 @@ FPURECOMPILE_CONSTCODE(MULA_S, XMMINFO_WRITEACC|XMMINFO_READS|XMMINFO_READT);
// NEG XMM // NEG XMM
//------------------------------------------------------------------ //------------------------------------------------------------------
void recNEG_S_xmm(int info) { void recNEG_S_xmm(int info) {
EE::Profiler.EmitOp(eeOpcode::NEG_F);
if( info & PROCESS_EE_S ) xMOVSS(xRegisterSSE(EEREC_D), xRegisterSSE(EEREC_S)); if( info & PROCESS_EE_S ) xMOVSS(xRegisterSSE(EEREC_D), xRegisterSSE(EEREC_S));
else xMOVSSZX(xRegisterSSE(EEREC_D), ptr[&fpuRegs.fpr[_Fs_]]); else xMOVSSZX(xRegisterSSE(EEREC_D), ptr[&fpuRegs.fpr[_Fs_]]);
@ -1586,6 +1616,7 @@ void recSUBop(int info, int regd)
void recSUB_S_xmm(int info) void recSUB_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::SUB_F);
recSUBop(info, EEREC_D); recSUBop(info, EEREC_D);
} }
@ -1594,6 +1625,7 @@ FPURECOMPILE_CONSTCODE(SUB_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recSUBA_S_xmm(int info) void recSUBA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::SUBA_F);
recSUBop(info, EEREC_ACC); recSUBop(info, EEREC_ACC);
} }
@ -1606,6 +1638,7 @@ FPURECOMPILE_CONSTCODE(SUBA_S, XMMINFO_WRITEACC|XMMINFO_READS|XMMINFO_READT);
//------------------------------------------------------------------ //------------------------------------------------------------------
void recSQRT_S_xmm(int info) void recSQRT_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::SQRT_F);
u8* pjmp; u8* pjmp;
bool roundmodeFlag = false; bool roundmodeFlag = false;
//Console.WriteLn("FPU: SQRT"); //Console.WriteLn("FPU: SQRT");
@ -1725,6 +1758,7 @@ void recRSQRThelper2(int regd, int t0reg) // Preforms the RSQRT function when re
void recRSQRT_S_xmm(int info) void recRSQRT_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::RSQRT_F);
// iFPUd (Full mode) sets roundmode to nearest for rSQRT. // iFPUd (Full mode) sets roundmode to nearest for rSQRT.
// Should this do the same, or should Full mode leave roundmode alone? --air // Should this do the same, or should Full mode leave roundmode alone? --air

View File

@ -307,6 +307,7 @@ void SetMaxValue(int regd)
//------------------------------------------------------------------ //------------------------------------------------------------------
void recABS_S_xmm(int info) void recABS_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::ABS_F);
GET_S(EEREC_D); GET_S(EEREC_D);
CLEAR_OU_FLAGS; CLEAR_OU_FLAGS;
@ -450,6 +451,7 @@ void recFPUOp(int info, int regd, int op, bool acc)
//------------------------------------------------------------------ //------------------------------------------------------------------
void recADD_S_xmm(int info) void recADD_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::ADD_F);
recFPUOp(info, EEREC_D, 0, false); recFPUOp(info, EEREC_D, 0, false);
} }
@ -457,6 +459,7 @@ FPURECOMPILE_CONSTCODE(ADD_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recADDA_S_xmm(int info) void recADDA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::ADDA_F);
recFPUOp(info, EEREC_ACC, 0, true); recFPUOp(info, EEREC_ACC, 0, true);
} }
@ -479,6 +482,7 @@ void recCMP(int info)
//------------------------------------------------------------------ //------------------------------------------------------------------
void recC_EQ_xmm(int info) void recC_EQ_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::CEQ_F);
recCMP(info); recCMP(info);
j8Ptr[0] = JZ8(0); j8Ptr[0] = JZ8(0);
@ -493,6 +497,7 @@ FPURECOMPILE_CONSTCODE(C_EQ, XMMINFO_READS|XMMINFO_READT);
void recC_LE_xmm(int info ) void recC_LE_xmm(int info )
{ {
EE::Profiler.EmitOp(eeOpcode::CLE_F);
recCMP(info); recCMP(info);
j8Ptr[0] = JBE8(0); j8Ptr[0] = JBE8(0);
@ -507,6 +512,7 @@ FPURECOMPILE_CONSTCODE(C_LE, XMMINFO_READS|XMMINFO_READT);
void recC_LT_xmm(int info) void recC_LT_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::CLT_F);
recCMP(info); recCMP(info);
j8Ptr[0] = JB8(0); j8Ptr[0] = JB8(0);
@ -526,6 +532,7 @@ FPURECOMPILE_CONSTCODE(C_LT, XMMINFO_READS|XMMINFO_READT);
//------------------------------------------------------------------ //------------------------------------------------------------------
void recCVT_S_xmm(int info) void recCVT_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::CVTS_F);
if( !(info&PROCESS_EE_S) || (EEREC_D != EEREC_S && !(info&PROCESS_EE_MODEWRITES)) ) { if( !(info&PROCESS_EE_S) || (EEREC_D != EEREC_S && !(info&PROCESS_EE_MODEWRITES)) ) {
xCVTSI2SS(xRegisterSSE(EEREC_D), ptr32[&fpuRegs.fpr[_Fs_]]); xCVTSI2SS(xRegisterSSE(EEREC_D), ptr32[&fpuRegs.fpr[_Fs_]]);
} }
@ -538,6 +545,7 @@ FPURECOMPILE_CONSTCODE(CVT_S, XMMINFO_WRITED|XMMINFO_READS);
void recCVT_W() //called from iFPU.cpp's recCVT_W void recCVT_W() //called from iFPU.cpp's recCVT_W
{ {
EE::Profiler.EmitOp(eeOpcode::CVTW);
int regs = _checkXMMreg(XMMTYPE_FPREG, _Fs_, MODE_READ); int regs = _checkXMMreg(XMMTYPE_FPREG, _Fs_, MODE_READ);
if( regs >= 0 ) if( regs >= 0 )
@ -631,6 +639,7 @@ static __aligned16 SSE_MXCSR roundmode_nearest, roundmode_neg;
void recDIV_S_xmm(int info) void recDIV_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::DIV_F);
bool roundmodeFlag = false; bool roundmodeFlag = false;
//Console.WriteLn("DIV"); //Console.WriteLn("DIV");
@ -745,6 +754,7 @@ void recMaddsub(int info, int regd, int op, bool acc)
void recMADD_S_xmm(int info) void recMADD_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MADD_F);
recMaddsub(info, EEREC_D, 0, false); recMaddsub(info, EEREC_D, 0, false);
} }
@ -752,6 +762,7 @@ FPURECOMPILE_CONSTCODE(MADD_S, XMMINFO_WRITED|XMMINFO_READACC|XMMINFO_READS|XMMI
void recMADDA_S_xmm(int info) void recMADDA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MADDA_F);
recMaddsub(info, EEREC_ACC, 0, true); recMaddsub(info, EEREC_ACC, 0, true);
} }
@ -794,6 +805,7 @@ void recMINMAX(int info, bool ismin)
void recMAX_S_xmm(int info) void recMAX_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MAX_F);
recMINMAX(info, false); recMINMAX(info, false);
} }
@ -801,6 +813,7 @@ FPURECOMPILE_CONSTCODE(MAX_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recMIN_S_xmm(int info) void recMIN_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MIN_F);
recMINMAX(info, true); recMINMAX(info, true);
} }
@ -813,6 +826,7 @@ FPURECOMPILE_CONSTCODE(MIN_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
//------------------------------------------------------------------ //------------------------------------------------------------------
void recMOV_S_xmm(int info) void recMOV_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MOV_F);
GET_S(EEREC_D); GET_S(EEREC_D);
} }
@ -826,6 +840,7 @@ FPURECOMPILE_CONSTCODE(MOV_S, XMMINFO_WRITED|XMMINFO_READS);
void recMSUB_S_xmm(int info) void recMSUB_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MSUB_F);
recMaddsub(info, EEREC_D, 1, false); recMaddsub(info, EEREC_D, 1, false);
} }
@ -833,6 +848,7 @@ FPURECOMPILE_CONSTCODE(MSUB_S, XMMINFO_WRITED|XMMINFO_READACC|XMMINFO_READS|XMMI
void recMSUBA_S_xmm(int info) void recMSUBA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MSUBA_F);
recMaddsub(info, EEREC_ACC, 1, true); recMaddsub(info, EEREC_ACC, 1, true);
} }
@ -844,6 +860,7 @@ FPURECOMPILE_CONSTCODE(MSUBA_S, XMMINFO_WRITEACC|XMMINFO_READACC|XMMINFO_READS|X
//------------------------------------------------------------------ //------------------------------------------------------------------
void recMUL_S_xmm(int info) void recMUL_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MUL_F);
int sreg, treg; int sreg, treg;
ALLOC_S(sreg); ALLOC_T(treg); ALLOC_S(sreg); ALLOC_T(treg);
@ -855,6 +872,7 @@ FPURECOMPILE_CONSTCODE(MUL_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recMULA_S_xmm(int info) void recMULA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::MULA_F);
int sreg, treg; int sreg, treg;
ALLOC_S(sreg); ALLOC_T(treg); ALLOC_S(sreg); ALLOC_T(treg);
@ -869,8 +887,9 @@ FPURECOMPILE_CONSTCODE(MULA_S, XMMINFO_WRITEACC|XMMINFO_READS|XMMINFO_READT);
//------------------------------------------------------------------ //------------------------------------------------------------------
// NEG XMM // NEG XMM
//------------------------------------------------------------------ //------------------------------------------------------------------
void recNEG_S_xmm(int info) { void recNEG_S_xmm(int info)
{
EE::Profiler.EmitOp(eeOpcode::NEG_F);
GET_S(EEREC_D); GET_S(EEREC_D);
CLEAR_OU_FLAGS; CLEAR_OU_FLAGS;
@ -888,6 +907,7 @@ FPURECOMPILE_CONSTCODE(NEG_S, XMMINFO_WRITED|XMMINFO_READS);
void recSUB_S_xmm(int info) void recSUB_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::SUB_F);
recFPUOp(info, EEREC_D, 1, false); recFPUOp(info, EEREC_D, 1, false);
} }
@ -896,6 +916,7 @@ FPURECOMPILE_CONSTCODE(SUB_S, XMMINFO_WRITED|XMMINFO_READS|XMMINFO_READT);
void recSUBA_S_xmm(int info) void recSUBA_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::SUBA_F);
recFPUOp(info, EEREC_ACC, 1, true); recFPUOp(info, EEREC_ACC, 1, true);
} }
@ -908,6 +929,7 @@ FPURECOMPILE_CONSTCODE(SUBA_S, XMMINFO_WRITEACC|XMMINFO_READS|XMMINFO_READT);
//------------------------------------------------------------------ //------------------------------------------------------------------
void recSQRT_S_xmm(int info) void recSQRT_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::SQRT_F);
u8 *pjmp; u8 *pjmp;
int roundmodeFlag = 0; int roundmodeFlag = 0;
int tempReg = _allocX86reg(xEmptyReg, X86TYPE_TEMP, 0, 0); int tempReg = _allocX86reg(xEmptyReg, X86TYPE_TEMP, 0, 0);
@ -1031,6 +1053,7 @@ void recRSQRThelper2(int regd, int regt) // Preforms the RSQRT function when reg
void recRSQRT_S_xmm(int info) void recRSQRT_S_xmm(int info)
{ {
EE::Profiler.EmitOp(eeOpcode::RSQRT_F);
int sreg, treg; int sreg, treg;
// iFPU (regular FPU) doesn't touch roundmode for rSQRT. // iFPU (regular FPU) doesn't touch roundmode for rSQRT.