XEmitter: add FMA4 instructions
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7d29039c48
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8db6588bb9
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@ -44,6 +44,7 @@ struct CPUInfo
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bool bBMI1;
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bool bBMI1;
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bool bBMI2;
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bool bBMI2;
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bool bFMA;
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bool bFMA;
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bool bFMA4;
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bool bAES;
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bool bAES;
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// FXSAVE/FXRSTOR
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// FXSAVE/FXRSTOR
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bool bFXSR;
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bool bFXSR;
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@ -175,6 +175,7 @@ void CPUInfo::Detect()
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__cpuid(cpu_id, 0x80000001);
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__cpuid(cpu_id, 0x80000001);
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if (cpu_id[2] & 1) bLAHFSAHF64 = true;
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if (cpu_id[2] & 1) bLAHFSAHF64 = true;
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if ((cpu_id[2] >> 5) & 1) bLZCNT = true;
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if ((cpu_id[2] >> 5) & 1) bLZCNT = true;
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if ((cpu_id[2] >> 16) & 1) bFMA4 = true;
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if ((cpu_id[3] >> 29) & 1) bLongMode = true;
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if ((cpu_id[3] >> 29) & 1) bLongMode = true;
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}
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}
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@ -1437,6 +1437,13 @@ void XEmitter::WriteFMA3Op(u8 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg
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WriteVEXOp(0x66, 0x3800 | op, regOp1, regOp2, arg, W);
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WriteVEXOp(0x66, 0x3800 | op, regOp1, regOp2, arg, W);
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}
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}
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void XEmitter::WriteFMA4Op(u8 op, X64Reg dest, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int W)
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{
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if (!cpu_info.bFMA4)
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PanicAlert("Trying to use FMA4 on a system that doesn't support it. Computer is v. f'n madd.");
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WriteVEXOp4(0x66, 0x3A00 | op, dest, regOp1, arg, regOp2, W);
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}
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void XEmitter::WriteBMIOp(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes)
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void XEmitter::WriteBMIOp(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes)
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{
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{
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CheckFlags();
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CheckFlags();
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@ -1921,6 +1928,32 @@ void XEmitter::VFMSUBADD132PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {W
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void XEmitter::VFMSUBADD213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteFMA3Op(0xA7, regOp1, regOp2, arg, 1);}
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void XEmitter::VFMSUBADD213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteFMA3Op(0xA7, regOp1, regOp2, arg, 1);}
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void XEmitter::VFMSUBADD231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteFMA3Op(0xB7, regOp1, regOp2, arg, 1);}
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void XEmitter::VFMSUBADD231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteFMA3Op(0xB7, regOp1, regOp2, arg, 1);}
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#define FMA4(name, op) \
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void XEmitter::name(X64Reg dest, X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteFMA4Op(op, dest, regOp1, regOp2, arg, 1);} \
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void XEmitter::name(X64Reg dest, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteFMA4Op(op, dest, regOp1, regOp2, arg, 0);}
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FMA4(VFMADDSUBPS, 0x5C)
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FMA4(VFMADDSUBPD, 0x5D)
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FMA4(VFMSUBADDPS, 0x5E)
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FMA4(VFMSUBADDPD, 0x5F)
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FMA4(VFMADDPS, 0x68)
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FMA4(VFMADDPD, 0x69)
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FMA4(VFMADDSS, 0x6A)
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FMA4(VFMADDSD, 0x6B)
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FMA4(VFMSUBPS, 0x6C)
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FMA4(VFMSUBPD, 0x6D)
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FMA4(VFMSUBSS, 0x6E)
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FMA4(VFMSUBSD, 0x6F)
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FMA4(VFNMADDPS, 0x78)
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FMA4(VFNMADDPD, 0x79)
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FMA4(VFNMADDSS, 0x7A)
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FMA4(VFNMADDSD, 0x7B)
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FMA4(VFNMSUBPS, 0x7C)
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FMA4(VFNMSUBPD, 0x7D)
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FMA4(VFNMSUBSS, 0x7E)
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FMA4(VFNMSUBSD, 0x7F)
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#undef FMA4
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void XEmitter::SARX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF3, 0x38F7, regOp1, regOp2, arg);}
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void XEmitter::SARX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF3, 0x38F7, regOp1, regOp2, arg);}
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void XEmitter::SHLX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0x66, 0x38F7, regOp1, regOp2, arg);}
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void XEmitter::SHLX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0x66, 0x38F7, regOp1, regOp2, arg);}
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void XEmitter::SHRX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF2, 0x38F7, regOp1, regOp2, arg);}
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void XEmitter::SHRX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF2, 0x38F7, regOp1, regOp2, arg);}
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@ -298,6 +298,7 @@ private:
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void WriteAVXOp(u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int W = 0, int extrabytes = 0);
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void WriteAVXOp(u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int W = 0, int extrabytes = 0);
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void WriteAVXOp4(u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, X64Reg regOp3, int W = 0);
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void WriteAVXOp4(u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, X64Reg regOp3, int W = 0);
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void WriteFMA3Op(u8 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int W = 0);
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void WriteFMA3Op(u8 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int W = 0);
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void WriteFMA4Op(u8 op, X64Reg dest, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int W = 0);
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void WriteBMIOp(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes = 0);
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void WriteBMIOp(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes = 0);
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void WriteBMI1Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes = 0);
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void WriteBMI1Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes = 0);
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void WriteBMI2Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes = 0);
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void WriteBMI2Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes = 0);
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@ -860,6 +861,32 @@ public:
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void VFMSUBADD213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg);
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void VFMSUBADD213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg);
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void VFMSUBADD231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg);
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void VFMSUBADD231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg);
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#define FMA4(name) \
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void name(X64Reg dest, X64Reg regOp1, X64Reg regOp2, const OpArg& arg); \
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void name(X64Reg dest, X64Reg regOp1, const OpArg& arg, X64Reg regOp2);
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FMA4(VFMADDSUBPS)
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FMA4(VFMADDSUBPD)
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FMA4(VFMSUBADDPS)
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FMA4(VFMSUBADDPD)
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FMA4(VFMADDPS)
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FMA4(VFMADDPD)
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FMA4(VFMADDSS)
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FMA4(VFMADDSD)
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FMA4(VFMSUBPS)
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FMA4(VFMSUBPD)
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FMA4(VFMSUBSS)
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FMA4(VFMSUBSD)
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FMA4(VFNMADDPS)
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FMA4(VFNMADDPD)
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FMA4(VFNMADDSS)
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FMA4(VFNMADDSD)
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FMA4(VFNMSUBPS)
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FMA4(VFNMSUBPD)
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FMA4(VFNMSUBSS)
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FMA4(VFNMSUBSD)
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#undef FMA4
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// VEX GPR instructions
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// VEX GPR instructions
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void SARX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2);
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void SARX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2);
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void SHLX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2);
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void SHLX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2);
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@ -1045,4 +1045,43 @@ FMA3_TEST(VFNMSUB, S, false)
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FMA3_TEST(VFMADDSUB, P, true)
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FMA3_TEST(VFMADDSUB, P, true)
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FMA3_TEST(VFMSUBADD, P, true)
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FMA3_TEST(VFMSUBADD, P, true)
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// for VEX instructions that take the form op reg, reg, r/m, reg OR reg, reg, reg, r/m
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#define VEX_RRMR_RRRM_TEST(Name, sizename) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string out_name; \
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std::string size; \
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} regsets[] = { \
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{ 64, xmmnames, "xmm0", sizename }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(r.reg, XMM0, R(XMM0), r.reg); \
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emitter->Name(XMM0, XMM0, r.reg, MatR(R12)); \
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emitter->Name(XMM0, r.reg, MatR(R12), XMM0); \
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ExpectDisassembly(#Name " " + r.name+ ", " + regset.out_name + ", " + regset.out_name + ", " + r.name + " " \
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#Name " " + regset.out_name + ", " + regset.out_name + ", " + r.name + ", " + regset.size + " ptr ds:[r12] " \
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#Name " " + regset.out_name + ", " + r.name + ", " + regset.size + " ptr ds:[r12], " + regset.out_name); \
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} \
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}
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#define FMA4_TEST(Name, P, packed) \
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VEX_RRMR_RRRM_TEST(Name ## P ## S, packed ? "dqword" : "dword") \
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VEX_RRMR_RRRM_TEST(Name ## P ## D, packed ? "dqword" : "qword")
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FMA4_TEST(VFMADD, P, true)
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FMA4_TEST(VFMADD, S, false)
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FMA4_TEST(VFMSUB, P, true)
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FMA4_TEST(VFMSUB, S, false)
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FMA4_TEST(VFNMADD, P, true)
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FMA4_TEST(VFNMADD, S, false)
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FMA4_TEST(VFNMSUB, P, true)
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FMA4_TEST(VFNMSUB, S, false)
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FMA4_TEST(VFMADDSUB, P, true)
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FMA4_TEST(VFMSUBADD, P, true)
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} // namespace Gen
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} // namespace Gen
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