mirror of
https://github.com/Lime3DS/Lime3DS
synced 2024-12-27 09:32:30 -06:00
commit
d8908aef63
2 changed files with 731 additions and 780 deletions
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@ -15,6 +15,7 @@
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// Official SVN repository and contact information can be found at
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// http://code.google.com/p/dolphin-emu/
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#include <cinttypes>
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#include <cstring>
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#include "common/assert.h"
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@ -25,11 +26,6 @@
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#include "cpu_detect.h"
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#include "emitter.h"
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#define PRIx64 "llx"
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// Minimize the diff against Dolphin
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#define DYNA_REC JIT
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namespace Gen
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{
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@ -374,7 +370,7 @@ void XEmitter::Rex(int w, int r, int x, int b)
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Write8(rx);
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}
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void XEmitter::JMP(const u8 *addr, bool force5Bytes)
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void XEmitter::JMP(const u8* addr, bool force5Bytes)
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{
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u64 fn = (u64)addr;
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if (!force5Bytes)
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@ -398,7 +394,7 @@ void XEmitter::JMP(const u8 *addr, bool force5Bytes)
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}
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}
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void XEmitter::JMPptr(const OpArg &arg2)
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void XEmitter::JMPptr(const OpArg& arg2)
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{
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OpArg arg = arg2;
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if (arg.IsImm()) ASSERT_MSG(0, "JMPptr - Imm argument");
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@ -425,7 +421,7 @@ void XEmitter::CALLptr(OpArg arg)
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arg.WriteRest(this);
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}
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void XEmitter::CALL(const void *fnptr)
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void XEmitter::CALL(const void* fnptr)
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{
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u64 distance = u64(fnptr) - (u64(code) + 5);
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ASSERT_MSG(
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@ -496,7 +492,7 @@ void XEmitter::J_CC(CCFlags conditionCode, const u8* addr, bool force5bytes)
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}
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}
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void XEmitter::SetJumpTarget(const FixupBranch &branch)
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void XEmitter::SetJumpTarget(const FixupBranch& branch)
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{
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if (branch.type == 0)
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{
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@ -512,30 +508,6 @@ void XEmitter::SetJumpTarget(const FixupBranch &branch)
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}
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}
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// INC/DEC considered harmful on newer CPUs due to partial flag set.
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// Use ADD, SUB instead.
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/*
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void XEmitter::INC(int bits, OpArg arg)
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{
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if (arg.IsImm()) ASSERT_MSG(0, "INC - Imm argument");
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arg.operandReg = 0;
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if (bits == 16) {Write8(0x66);}
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arg.WriteRex(this, bits, bits);
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Write8(bits == 8 ? 0xFE : 0xFF);
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arg.WriteRest(this);
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}
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void XEmitter::DEC(int bits, OpArg arg)
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{
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if (arg.IsImm()) ASSERT_MSG(0, "DEC - Imm argument");
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arg.operandReg = 1;
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if (bits == 16) {Write8(0x66);}
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arg.WriteRex(this, bits, bits);
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Write8(bits == 8 ? 0xFE : 0xFF);
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arg.WriteRest(this);
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}
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*/
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//Single byte opcodes
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//There is no PUSHAD/POPAD in 64-bit mode.
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void XEmitter::INT3() {Write8(0xCC);}
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@ -667,7 +639,7 @@ void XEmitter::CBW(int bits)
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void XEmitter::PUSH(X64Reg reg) {WriteSimple1Byte(32, 0x50, reg);}
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void XEmitter::POP(X64Reg reg) {WriteSimple1Byte(32, 0x58, reg);}
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void XEmitter::PUSH(int bits, const OpArg ®)
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void XEmitter::PUSH(int bits, const OpArg& reg)
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{
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if (reg.IsSimpleReg())
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PUSH(reg.GetSimpleReg());
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@ -703,7 +675,7 @@ void XEmitter::PUSH(int bits, const OpArg ®)
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}
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}
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void XEmitter::POP(int /*bits*/, const OpArg ®)
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void XEmitter::POP(int /*bits*/, const OpArg& reg)
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{
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if (reg.IsSimpleReg())
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POP(reg.GetSimpleReg());
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@ -791,12 +763,12 @@ void XEmitter::WriteMulDivType(int bits, OpArg src, int ext)
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src.WriteRest(this);
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}
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void XEmitter::MUL(int bits, OpArg src) {WriteMulDivType(bits, src, 4);}
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void XEmitter::DIV(int bits, OpArg src) {WriteMulDivType(bits, src, 6);}
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void XEmitter::IMUL(int bits, OpArg src) {WriteMulDivType(bits, src, 5);}
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void XEmitter::IDIV(int bits, OpArg src) {WriteMulDivType(bits, src, 7);}
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void XEmitter::NEG(int bits, OpArg src) {WriteMulDivType(bits, src, 3);}
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void XEmitter::NOT(int bits, OpArg src) {WriteMulDivType(bits, src, 2);}
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void XEmitter::MUL(int bits, const OpArg& src) {WriteMulDivType(bits, src, 4);}
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void XEmitter::DIV(int bits, const OpArg& src) {WriteMulDivType(bits, src, 6);}
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void XEmitter::IMUL(int bits, const OpArg& src) {WriteMulDivType(bits, src, 5);}
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void XEmitter::IDIV(int bits, const OpArg& src) {WriteMulDivType(bits, src, 7);}
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void XEmitter::NEG(int bits, const OpArg& src) {WriteMulDivType(bits, src, 3);}
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void XEmitter::NOT(int bits, const OpArg& src) {WriteMulDivType(bits, src, 2);}
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void XEmitter::WriteBitSearchType(int bits, X64Reg dest, OpArg src, u8 byte2, bool rep)
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{
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@ -813,24 +785,24 @@ void XEmitter::WriteBitSearchType(int bits, X64Reg dest, OpArg src, u8 byte2, bo
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src.WriteRest(this);
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}
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void XEmitter::MOVNTI(int bits, OpArg dest, X64Reg src)
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void XEmitter::MOVNTI(int bits, const OpArg& dest, X64Reg src)
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{
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if (bits <= 16)
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ASSERT_MSG(0, "MOVNTI - bits<=16");
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WriteBitSearchType(bits, src, dest, 0xC3);
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}
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void XEmitter::BSF(int bits, X64Reg dest, OpArg src) {WriteBitSearchType(bits,dest,src,0xBC);} //bottom bit to top bit
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void XEmitter::BSR(int bits, X64Reg dest, OpArg src) {WriteBitSearchType(bits,dest,src,0xBD);} //top bit to bottom bit
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void XEmitter::BSF(int bits, X64Reg dest, const OpArg& src) {WriteBitSearchType(bits,dest,src,0xBC);} // Bottom bit to top bit
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void XEmitter::BSR(int bits, X64Reg dest, const OpArg& src) {WriteBitSearchType(bits,dest,src,0xBD);} // Top bit to bottom bit
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void XEmitter::TZCNT(int bits, X64Reg dest, OpArg src)
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void XEmitter::TZCNT(int bits, X64Reg dest, const OpArg& src)
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{
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CheckFlags();
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if (!Common::GetCPUCaps().bmi1)
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ASSERT_MSG(0, "Trying to use BMI1 on a system that doesn't support it. Bad programmer.");
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WriteBitSearchType(bits, dest, src, 0xBC, true);
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}
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void XEmitter::LZCNT(int bits, X64Reg dest, OpArg src)
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void XEmitter::LZCNT(int bits, X64Reg dest, const OpArg& src)
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{
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CheckFlags();
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if (!Common::GetCPUCaps().lzcnt)
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@ -950,7 +922,7 @@ void XEmitter::LEA(int bits, X64Reg dest, OpArg src)
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}
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//shift can be either imm8 or cl
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void XEmitter::WriteShift(int bits, OpArg dest, OpArg &shift, int ext)
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void XEmitter::WriteShift(int bits, OpArg dest, const OpArg& shift, int ext)
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{
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CheckFlags();
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bool writeImm = false;
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@ -991,16 +963,16 @@ void XEmitter::WriteShift(int bits, OpArg dest, OpArg &shift, int ext)
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// large rotates and shift are slower on intel than amd
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// intel likes to rotate by 1, and the op is smaller too
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void XEmitter::ROL(int bits, OpArg dest, OpArg shift) {WriteShift(bits, dest, shift, 0);}
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void XEmitter::ROR(int bits, OpArg dest, OpArg shift) {WriteShift(bits, dest, shift, 1);}
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void XEmitter::RCL(int bits, OpArg dest, OpArg shift) {WriteShift(bits, dest, shift, 2);}
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void XEmitter::RCR(int bits, OpArg dest, OpArg shift) {WriteShift(bits, dest, shift, 3);}
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void XEmitter::SHL(int bits, OpArg dest, OpArg shift) {WriteShift(bits, dest, shift, 4);}
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void XEmitter::SHR(int bits, OpArg dest, OpArg shift) {WriteShift(bits, dest, shift, 5);}
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void XEmitter::SAR(int bits, OpArg dest, OpArg shift) {WriteShift(bits, dest, shift, 7);}
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void XEmitter::ROL(int bits, const OpArg& dest, const OpArg& shift) {WriteShift(bits, dest, shift, 0);}
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void XEmitter::ROR(int bits, const OpArg& dest, const OpArg& shift) {WriteShift(bits, dest, shift, 1);}
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void XEmitter::RCL(int bits, const OpArg& dest, const OpArg& shift) {WriteShift(bits, dest, shift, 2);}
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void XEmitter::RCR(int bits, const OpArg& dest, const OpArg& shift) {WriteShift(bits, dest, shift, 3);}
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void XEmitter::SHL(int bits, const OpArg& dest, const OpArg& shift) {WriteShift(bits, dest, shift, 4);}
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void XEmitter::SHR(int bits, const OpArg& dest, const OpArg& shift) {WriteShift(bits, dest, shift, 5);}
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void XEmitter::SAR(int bits, const OpArg& dest, const OpArg& shift) {WriteShift(bits, dest, shift, 7);}
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// index can be either imm8 or register, don't use memory destination because it's slow
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void XEmitter::WriteBitTest(int bits, OpArg &dest, OpArg &index, int ext)
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void XEmitter::WriteBitTest(int bits, const OpArg& dest, const OpArg& index, int ext)
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{
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CheckFlags();
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if (dest.IsImm())
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@ -1029,13 +1001,13 @@ void XEmitter::WriteBitTest(int bits, OpArg &dest, OpArg &index, int ext)
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}
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}
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void XEmitter::BT(int bits, OpArg dest, OpArg index) {WriteBitTest(bits, dest, index, 4);}
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void XEmitter::BTS(int bits, OpArg dest, OpArg index) {WriteBitTest(bits, dest, index, 5);}
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void XEmitter::BTR(int bits, OpArg dest, OpArg index) {WriteBitTest(bits, dest, index, 6);}
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void XEmitter::BTC(int bits, OpArg dest, OpArg index) {WriteBitTest(bits, dest, index, 7);}
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void XEmitter::BT(int bits, const OpArg& dest, const OpArg& index) {WriteBitTest(bits, dest, index, 4);}
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void XEmitter::BTS(int bits, const OpArg& dest, const OpArg& index) {WriteBitTest(bits, dest, index, 5);}
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void XEmitter::BTR(int bits, const OpArg& dest, const OpArg& index) {WriteBitTest(bits, dest, index, 6);}
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void XEmitter::BTC(int bits, const OpArg& dest, const OpArg& index) {WriteBitTest(bits, dest, index, 7);}
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//shift can be either imm8 or cl
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void XEmitter::SHRD(int bits, OpArg dest, OpArg src, OpArg shift)
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void XEmitter::SHRD(int bits, const OpArg& dest, const OpArg& src, const OpArg& shift)
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{
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CheckFlags();
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if (dest.IsImm())
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@ -1067,7 +1039,7 @@ void XEmitter::SHRD(int bits, OpArg dest, OpArg src, OpArg shift)
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}
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}
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void XEmitter::SHLD(int bits, OpArg dest, OpArg src, OpArg shift)
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void XEmitter::SHLD(int bits, const OpArg& dest, const OpArg& src, const OpArg& shift)
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{
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CheckFlags();
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if (dest.IsImm())
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@ -1111,7 +1083,7 @@ void OpArg::WriteSingleByteOp(XEmitter *emit, u8 op, X64Reg _operandReg, int bit
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}
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//operand can either be immediate or register
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void OpArg::WriteNormalOp(XEmitter *emit, bool toRM, NormalOp op, const OpArg &operand, int bits) const
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void OpArg::WriteNormalOp(XEmitter *emit, bool toRM, NormalOp op, const OpArg& operand, int bits) const
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{
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X64Reg _operandReg;
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if (IsImm())
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@ -1257,7 +1229,7 @@ void OpArg::WriteNormalOp(XEmitter *emit, bool toRM, NormalOp op, const OpArg &o
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}
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}
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void XEmitter::WriteNormalOp(XEmitter *emit, int bits, NormalOp op, const OpArg &a1, const OpArg &a2)
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void XEmitter::WriteNormalOp(XEmitter *emit, int bits, NormalOp op, const OpArg& a1, const OpArg& a2)
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{
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if (a1.IsImm())
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{
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@ -1283,24 +1255,24 @@ void XEmitter::WriteNormalOp(XEmitter *emit, int bits, NormalOp op, const OpArg
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}
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}
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void XEmitter::ADD (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmADD, a1, a2);}
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void XEmitter::ADC (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmADC, a1, a2);}
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void XEmitter::SUB (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmSUB, a1, a2);}
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void XEmitter::SBB (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmSBB, a1, a2);}
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void XEmitter::AND (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmAND, a1, a2);}
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void XEmitter::OR (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmOR , a1, a2);}
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void XEmitter::XOR (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmXOR, a1, a2);}
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void XEmitter::MOV (int bits, const OpArg &a1, const OpArg &a2)
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void XEmitter::ADD (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmADD, a1, a2);}
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void XEmitter::ADC (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmADC, a1, a2);}
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void XEmitter::SUB (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmSUB, a1, a2);}
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void XEmitter::SBB (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmSBB, a1, a2);}
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void XEmitter::AND (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmAND, a1, a2);}
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void XEmitter::OR (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmOR , a1, a2);}
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void XEmitter::XOR (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmXOR, a1, a2);}
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void XEmitter::MOV (int bits, const OpArg& a1, const OpArg& a2)
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{
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if (a1.IsSimpleReg() && a2.IsSimpleReg() && a1.GetSimpleReg() == a2.GetSimpleReg())
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LOG_ERROR(Common, "Redundant MOV @ %p - bug in JIT?", code);
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WriteNormalOp(this, bits, nrmMOV, a1, a2);
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}
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void XEmitter::TEST(int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmTEST, a1, a2);}
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void XEmitter::CMP (int bits, const OpArg &a1, const OpArg &a2) {CheckFlags(); WriteNormalOp(this, bits, nrmCMP, a1, a2);}
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void XEmitter::XCHG(int bits, const OpArg &a1, const OpArg &a2) {WriteNormalOp(this, bits, nrmXCHG, a1, a2);}
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void XEmitter::TEST(int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmTEST, a1, a2);}
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void XEmitter::CMP (int bits, const OpArg& a1, const OpArg& a2) {CheckFlags(); WriteNormalOp(this, bits, nrmCMP, a1, a2);}
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void XEmitter::XCHG(int bits, const OpArg& a1, const OpArg& a2) {WriteNormalOp(this, bits, nrmXCHG, a1, a2);}
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void XEmitter::IMUL(int bits, X64Reg regOp, OpArg a1, OpArg a2)
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void XEmitter::IMUL(int bits, X64Reg regOp, const OpArg& a1, const OpArg& a2)
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{
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CheckFlags();
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if (bits == 8)
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@ -1353,7 +1325,7 @@ void XEmitter::IMUL(int bits, X64Reg regOp, OpArg a1, OpArg a2)
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}
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||||
}
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void XEmitter::IMUL(int bits, X64Reg regOp, OpArg a)
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void XEmitter::IMUL(int bits, X64Reg regOp, const OpArg& a)
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{
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CheckFlags();
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if (bits == 8)
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|
@ -1390,7 +1362,7 @@ void XEmitter::WriteSSEOp(u8 opPrefix, u16 op, X64Reg regOp, OpArg arg, int extr
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arg.WriteRest(this, extrabytes);
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}
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||||
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void XEmitter::WriteAVXOp(u8 opPrefix, u16 op, X64Reg regOp, OpArg arg, int extrabytes)
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void XEmitter::WriteAVXOp(u8 opPrefix, u16 op, X64Reg regOp, const OpArg& arg, int extrabytes)
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{
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WriteAVXOp(opPrefix, op, regOp, INVALID_REG, arg, extrabytes);
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||||
}
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||||
|
@ -1400,25 +1372,25 @@ static int GetVEXmmmmm(u16 op)
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// Currently, only 0x38 and 0x3A are used as secondary escape byte.
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if ((op >> 8) == 0x3A)
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return 3;
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||||
else if ((op >> 8) == 0x38)
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if ((op >> 8) == 0x38)
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return 2;
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else
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return 1;
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return 1;
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}
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static int GetVEXpp(u8 opPrefix)
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{
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if (opPrefix == 0x66)
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return 1;
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else if (opPrefix == 0xF3)
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if (opPrefix == 0xF3)
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return 2;
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else if (opPrefix == 0xF2)
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if (opPrefix == 0xF2)
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||||
return 3;
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else
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return 0;
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return 0;
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||||
}
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||||
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void XEmitter::WriteAVXOp(u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, OpArg arg, int extrabytes)
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void XEmitter::WriteAVXOp(u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes)
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||||
{
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if (!Common::GetCPUCaps().avx)
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ASSERT_MSG(0, "Trying to use AVX on a system that doesn't support it. Bad programmer.");
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||||
|
@ -1431,7 +1403,7 @@ void XEmitter::WriteAVXOp(u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, OpA
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}
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||||
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||||
// Like the above, but more general; covers GPR-based VEX operations, like BMI1/2
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void XEmitter::WriteVEXOp(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, OpArg arg, int extrabytes)
|
||||
void XEmitter::WriteVEXOp(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes)
|
||||
{
|
||||
if (size != 32 && size != 64)
|
||||
ASSERT_MSG(0, "VEX GPR instructions only support 32-bit and 64-bit modes!");
|
||||
|
@ -1442,7 +1414,7 @@ void XEmitter::WriteVEXOp(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg r
|
|||
arg.WriteRest(this, extrabytes, regOp1);
|
||||
}
|
||||
|
||||
void XEmitter::WriteBMI1Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, OpArg arg, int extrabytes)
|
||||
void XEmitter::WriteBMI1Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes)
|
||||
{
|
||||
CheckFlags();
|
||||
if (!Common::GetCPUCaps().bmi1)
|
||||
|
@ -1450,7 +1422,7 @@ void XEmitter::WriteBMI1Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg
|
|||
WriteVEXOp(size, opPrefix, op, regOp1, regOp2, arg, extrabytes);
|
||||
}
|
||||
|
||||
void XEmitter::WriteBMI2Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, OpArg arg, int extrabytes)
|
||||
void XEmitter::WriteBMI2Op(int size, u8 opPrefix, u16 op, X64Reg regOp1, X64Reg regOp2, const OpArg& arg, int extrabytes)
|
||||
{
|
||||
CheckFlags();
|
||||
if (!Common::GetCPUCaps().bmi2)
|
||||
|
@ -1517,135 +1489,135 @@ void XEmitter::WriteMXCSR(OpArg arg, int ext)
|
|||
arg.WriteRest(this);
|
||||
}
|
||||
|
||||
void XEmitter::STMXCSR(OpArg memloc) {WriteMXCSR(memloc, 3);}
|
||||
void XEmitter::LDMXCSR(OpArg memloc) {WriteMXCSR(memloc, 2);}
|
||||
void XEmitter::STMXCSR(const OpArg& memloc) {WriteMXCSR(memloc, 3);}
|
||||
void XEmitter::LDMXCSR(const OpArg& memloc) {WriteMXCSR(memloc, 2);}
|
||||
|
||||
void XEmitter::MOVNTDQ(OpArg arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVNTDQ, regOp, arg);}
|
||||
void XEmitter::MOVNTPS(OpArg arg, X64Reg regOp) {WriteSSEOp(0x00, sseMOVNTP, regOp, arg);}
|
||||
void XEmitter::MOVNTPD(OpArg arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVNTP, regOp, arg);}
|
||||
void XEmitter::MOVNTDQ(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVNTDQ, regOp, arg);}
|
||||
void XEmitter::MOVNTPS(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x00, sseMOVNTP, regOp, arg);}
|
||||
void XEmitter::MOVNTPD(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVNTP, regOp, arg);}
|
||||
|
||||
void XEmitter::ADDSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseADD, regOp, arg);}
|
||||
void XEmitter::ADDSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseADD, regOp, arg);}
|
||||
void XEmitter::SUBSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseSUB, regOp, arg);}
|
||||
void XEmitter::SUBSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseSUB, regOp, arg);}
|
||||
void XEmitter::CMPSS(X64Reg regOp, OpArg arg, u8 compare) {WriteSSEOp(0xF3, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::CMPSD(X64Reg regOp, OpArg arg, u8 compare) {WriteSSEOp(0xF2, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::MULSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseMUL, regOp, arg);}
|
||||
void XEmitter::MULSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseMUL, regOp, arg);}
|
||||
void XEmitter::DIVSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseDIV, regOp, arg);}
|
||||
void XEmitter::DIVSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseDIV, regOp, arg);}
|
||||
void XEmitter::MINSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseMIN, regOp, arg);}
|
||||
void XEmitter::MINSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseMIN, regOp, arg);}
|
||||
void XEmitter::MAXSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseMAX, regOp, arg);}
|
||||
void XEmitter::MAXSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseMAX, regOp, arg);}
|
||||
void XEmitter::SQRTSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseSQRT, regOp, arg);}
|
||||
void XEmitter::SQRTSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseSQRT, regOp, arg);}
|
||||
void XEmitter::RSQRTSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseRSQRT, regOp, arg);}
|
||||
void XEmitter::ADDSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseADD, regOp, arg);}
|
||||
void XEmitter::ADDSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseADD, regOp, arg);}
|
||||
void XEmitter::SUBSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseSUB, regOp, arg);}
|
||||
void XEmitter::SUBSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseSUB, regOp, arg);}
|
||||
void XEmitter::CMPSS(X64Reg regOp, const OpArg& arg, u8 compare) {WriteSSEOp(0xF3, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::CMPSD(X64Reg regOp, const OpArg& arg, u8 compare) {WriteSSEOp(0xF2, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::MULSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseMUL, regOp, arg);}
|
||||
void XEmitter::MULSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseMUL, regOp, arg);}
|
||||
void XEmitter::DIVSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseDIV, regOp, arg);}
|
||||
void XEmitter::DIVSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseDIV, regOp, arg);}
|
||||
void XEmitter::MINSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseMIN, regOp, arg);}
|
||||
void XEmitter::MINSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseMIN, regOp, arg);}
|
||||
void XEmitter::MAXSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseMAX, regOp, arg);}
|
||||
void XEmitter::MAXSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseMAX, regOp, arg);}
|
||||
void XEmitter::SQRTSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseSQRT, regOp, arg);}
|
||||
void XEmitter::SQRTSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseSQRT, regOp, arg);}
|
||||
void XEmitter::RSQRTSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseRSQRT, regOp, arg);}
|
||||
|
||||
void XEmitter::ADDPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseADD, regOp, arg);}
|
||||
void XEmitter::ADDPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseADD, regOp, arg);}
|
||||
void XEmitter::SUBPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseSUB, regOp, arg);}
|
||||
void XEmitter::SUBPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseSUB, regOp, arg);}
|
||||
void XEmitter::CMPPS(X64Reg regOp, OpArg arg, u8 compare) {WriteSSEOp(0x00, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::CMPPD(X64Reg regOp, OpArg arg, u8 compare) {WriteSSEOp(0x66, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::ANDPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseAND, regOp, arg);}
|
||||
void XEmitter::ANDPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseAND, regOp, arg);}
|
||||
void XEmitter::ANDNPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseANDN, regOp, arg);}
|
||||
void XEmitter::ANDNPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseANDN, regOp, arg);}
|
||||
void XEmitter::ORPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseOR, regOp, arg);}
|
||||
void XEmitter::ORPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseOR, regOp, arg);}
|
||||
void XEmitter::XORPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseXOR, regOp, arg);}
|
||||
void XEmitter::XORPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseXOR, regOp, arg);}
|
||||
void XEmitter::MULPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseMUL, regOp, arg);}
|
||||
void XEmitter::MULPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseMUL, regOp, arg);}
|
||||
void XEmitter::DIVPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseDIV, regOp, arg);}
|
||||
void XEmitter::DIVPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseDIV, regOp, arg);}
|
||||
void XEmitter::MINPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseMIN, regOp, arg);}
|
||||
void XEmitter::MINPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseMIN, regOp, arg);}
|
||||
void XEmitter::MAXPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseMAX, regOp, arg);}
|
||||
void XEmitter::MAXPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseMAX, regOp, arg);}
|
||||
void XEmitter::SQRTPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseSQRT, regOp, arg);}
|
||||
void XEmitter::SQRTPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseSQRT, regOp, arg);}
|
||||
void XEmitter::RCPPS(X64Reg regOp, OpArg arg) { WriteSSEOp(0x00, sseRCP, regOp, arg); }
|
||||
void XEmitter::RSQRTPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseRSQRT, regOp, arg);}
|
||||
void XEmitter::SHUFPS(X64Reg regOp, OpArg arg, u8 shuffle) {WriteSSEOp(0x00, sseSHUF, regOp, arg,1); Write8(shuffle);}
|
||||
void XEmitter::SHUFPD(X64Reg regOp, OpArg arg, u8 shuffle) {WriteSSEOp(0x66, sseSHUF, regOp, arg,1); Write8(shuffle);}
|
||||
void XEmitter::ADDPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseADD, regOp, arg);}
|
||||
void XEmitter::ADDPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseADD, regOp, arg);}
|
||||
void XEmitter::SUBPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseSUB, regOp, arg);}
|
||||
void XEmitter::SUBPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseSUB, regOp, arg);}
|
||||
void XEmitter::CMPPS(X64Reg regOp, const OpArg& arg, u8 compare) {WriteSSEOp(0x00, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::CMPPD(X64Reg regOp, const OpArg& arg, u8 compare) {WriteSSEOp(0x66, sseCMP, regOp, arg, 1); Write8(compare);}
|
||||
void XEmitter::ANDPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseAND, regOp, arg);}
|
||||
void XEmitter::ANDPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseAND, regOp, arg);}
|
||||
void XEmitter::ANDNPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseANDN, regOp, arg);}
|
||||
void XEmitter::ANDNPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseANDN, regOp, arg);}
|
||||
void XEmitter::ORPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseOR, regOp, arg);}
|
||||
void XEmitter::ORPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseOR, regOp, arg);}
|
||||
void XEmitter::XORPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseXOR, regOp, arg);}
|
||||
void XEmitter::XORPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseXOR, regOp, arg);}
|
||||
void XEmitter::MULPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseMUL, regOp, arg);}
|
||||
void XEmitter::MULPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseMUL, regOp, arg);}
|
||||
void XEmitter::DIVPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseDIV, regOp, arg);}
|
||||
void XEmitter::DIVPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseDIV, regOp, arg);}
|
||||
void XEmitter::MINPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseMIN, regOp, arg);}
|
||||
void XEmitter::MINPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseMIN, regOp, arg);}
|
||||
void XEmitter::MAXPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseMAX, regOp, arg);}
|
||||
void XEmitter::MAXPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseMAX, regOp, arg);}
|
||||
void XEmitter::SQRTPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseSQRT, regOp, arg);}
|
||||
void XEmitter::SQRTPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseSQRT, regOp, arg);}
|
||||
void XEmitter::RCPPS(X64Reg regOp, const OpArg& arg) { WriteSSEOp(0x00, sseRCP, regOp, arg); }
|
||||
void XEmitter::RSQRTPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseRSQRT, regOp, arg);}
|
||||
void XEmitter::SHUFPS(X64Reg regOp, const OpArg& arg, u8 shuffle) {WriteSSEOp(0x00, sseSHUF, regOp, arg,1); Write8(shuffle);}
|
||||
void XEmitter::SHUFPD(X64Reg regOp, const OpArg& arg, u8 shuffle) {WriteSSEOp(0x66, sseSHUF, regOp, arg,1); Write8(shuffle);}
|
||||
|
||||
void XEmitter::HADDPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseHADD, regOp, arg);}
|
||||
void XEmitter::HADDPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseHADD, regOp, arg);}
|
||||
|
||||
void XEmitter::COMISS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseCOMIS, regOp, arg);} //weird that these should be packed
|
||||
void XEmitter::COMISD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseCOMIS, regOp, arg);} //ordered
|
||||
void XEmitter::UCOMISS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseUCOMIS, regOp, arg);} //unordered
|
||||
void XEmitter::UCOMISD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseUCOMIS, regOp, arg);}
|
||||
void XEmitter::COMISS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseCOMIS, regOp, arg);} //weird that these should be packed
|
||||
void XEmitter::COMISD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseCOMIS, regOp, arg);} //ordered
|
||||
void XEmitter::UCOMISS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseUCOMIS, regOp, arg);} //unordered
|
||||
void XEmitter::UCOMISD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseUCOMIS, regOp, arg);}
|
||||
|
||||
void XEmitter::MOVAPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseMOVAPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVAPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseMOVAPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVAPS(OpArg arg, X64Reg regOp) {WriteSSEOp(0x00, sseMOVAPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVAPD(OpArg arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVAPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVAPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseMOVAPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVAPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseMOVAPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVAPS(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x00, sseMOVAPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVAPD(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVAPtoRM, regOp, arg);}
|
||||
|
||||
void XEmitter::MOVUPS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVUPD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVUPS(OpArg arg, X64Reg regOp) {WriteSSEOp(0x00, sseMOVUPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVUPD(OpArg arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVUPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVUPS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVUPD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVUPS(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x00, sseMOVUPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVUPD(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVUPtoRM, regOp, arg);}
|
||||
|
||||
void XEmitter::MOVDQA(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, sseMOVDQfromRM, regOp, arg);}
|
||||
void XEmitter::MOVDQA(OpArg arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVDQtoRM, regOp, arg);}
|
||||
void XEmitter::MOVDQU(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseMOVDQfromRM, regOp, arg);}
|
||||
void XEmitter::MOVDQU(OpArg arg, X64Reg regOp) {WriteSSEOp(0xF3, sseMOVDQtoRM, regOp, arg);}
|
||||
void XEmitter::MOVDQA(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, sseMOVDQfromRM, regOp, arg);}
|
||||
void XEmitter::MOVDQA(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0x66, sseMOVDQtoRM, regOp, arg);}
|
||||
void XEmitter::MOVDQU(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseMOVDQfromRM, regOp, arg);}
|
||||
void XEmitter::MOVDQU(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0xF3, sseMOVDQtoRM, regOp, arg);}
|
||||
|
||||
void XEmitter::MOVSS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVSD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVSS(OpArg arg, X64Reg regOp) {WriteSSEOp(0xF3, sseMOVUPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVSD(OpArg arg, X64Reg regOp) {WriteSSEOp(0xF2, sseMOVUPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVSS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVSD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, sseMOVUPfromRM, regOp, arg);}
|
||||
void XEmitter::MOVSS(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0xF3, sseMOVUPtoRM, regOp, arg);}
|
||||
void XEmitter::MOVSD(const OpArg& arg, X64Reg regOp) {WriteSSEOp(0xF2, sseMOVUPtoRM, regOp, arg);}
|
||||
|
||||
void XEmitter::MOVLPS(X64Reg regOp, OpArg arg) { WriteSSEOp(0x00, sseMOVLPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVLPD(X64Reg regOp, OpArg arg) { WriteSSEOp(0x66, sseMOVLPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVLPS(OpArg arg, X64Reg regOp) { WriteSSEOp(0x00, sseMOVLPtoRM, regOp, arg); }
|
||||
void XEmitter::MOVLPD(OpArg arg, X64Reg regOp) { WriteSSEOp(0x66, sseMOVLPtoRM, regOp, arg); }
|
||||
void XEmitter::MOVLPS(X64Reg regOp, const OpArg& arg) { WriteSSEOp(0x00, sseMOVLPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVLPD(X64Reg regOp, const OpArg& arg) { WriteSSEOp(0x66, sseMOVLPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVLPS(const OpArg& arg, X64Reg regOp) { WriteSSEOp(0x00, sseMOVLPtoRM, regOp, arg); }
|
||||
void XEmitter::MOVLPD(const OpArg& arg, X64Reg regOp) { WriteSSEOp(0x66, sseMOVLPtoRM, regOp, arg); }
|
||||
|
||||
void XEmitter::MOVHPS(X64Reg regOp, OpArg arg) { WriteSSEOp(0x00, sseMOVHPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVHPD(X64Reg regOp, OpArg arg) { WriteSSEOp(0x66, sseMOVHPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVHPS(OpArg arg, X64Reg regOp) { WriteSSEOp(0x00, sseMOVHPtoRM, regOp, arg); }
|
||||
void XEmitter::MOVHPD(OpArg arg, X64Reg regOp) { WriteSSEOp(0x66, sseMOVHPtoRM, regOp, arg); }
|
||||
void XEmitter::MOVHPS(X64Reg regOp, const OpArg& arg) { WriteSSEOp(0x00, sseMOVHPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVHPD(X64Reg regOp, const OpArg& arg) { WriteSSEOp(0x66, sseMOVHPfromRM, regOp, arg); }
|
||||
void XEmitter::MOVHPS(const OpArg& arg, X64Reg regOp) { WriteSSEOp(0x00, sseMOVHPtoRM, regOp, arg); }
|
||||
void XEmitter::MOVHPD(const OpArg& arg, X64Reg regOp) { WriteSSEOp(0x66, sseMOVHPtoRM, regOp, arg); }
|
||||
|
||||
void XEmitter::MOVHLPS(X64Reg regOp1, X64Reg regOp2) {WriteSSEOp(0x00, sseMOVHLPS, regOp1, R(regOp2));}
|
||||
void XEmitter::MOVLHPS(X64Reg regOp1, X64Reg regOp2) {WriteSSEOp(0x00, sseMOVLHPS, regOp1, R(regOp2));}
|
||||
|
||||
void XEmitter::CVTPS2PD(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, 0x5A, regOp, arg);}
|
||||
void XEmitter::CVTPD2PS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, 0x5A, regOp, arg);}
|
||||
void XEmitter::CVTPS2PD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, 0x5A, regOp, arg);}
|
||||
void XEmitter::CVTPD2PS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, 0x5A, regOp, arg);}
|
||||
|
||||
void XEmitter::CVTSD2SS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, 0x5A, regOp, arg);}
|
||||
void XEmitter::CVTSS2SD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, 0x5A, regOp, arg);}
|
||||
void XEmitter::CVTSD2SI(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, 0x2D, regOp, arg);}
|
||||
void XEmitter::CVTSS2SI(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, 0x2D, regOp, arg);}
|
||||
void XEmitter::CVTSI2SD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, 0x2A, regOp, arg);}
|
||||
void XEmitter::CVTSI2SS(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, 0x2A, regOp, arg);}
|
||||
void XEmitter::CVTSD2SS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, 0x5A, regOp, arg);}
|
||||
void XEmitter::CVTSS2SD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, 0x5A, regOp, arg);}
|
||||
void XEmitter::CVTSD2SI(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, 0x2D, regOp, arg);}
|
||||
void XEmitter::CVTSS2SI(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, 0x2D, regOp, arg);}
|
||||
void XEmitter::CVTSI2SD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, 0x2A, regOp, arg);}
|
||||
void XEmitter::CVTSI2SS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, 0x2A, regOp, arg);}
|
||||
|
||||
void XEmitter::CVTDQ2PD(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, 0xE6, regOp, arg);}
|
||||
void XEmitter::CVTDQ2PS(X64Reg regOp, OpArg arg) {WriteSSEOp(0x00, 0x5B, regOp, arg);}
|
||||
void XEmitter::CVTPD2DQ(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, 0xE6, regOp, arg);}
|
||||
void XEmitter::CVTPS2DQ(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, 0x5B, regOp, arg);}
|
||||
void XEmitter::CVTDQ2PD(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, 0xE6, regOp, arg);}
|
||||
void XEmitter::CVTDQ2PS(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x00, 0x5B, regOp, arg);}
|
||||
void XEmitter::CVTPD2DQ(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, 0xE6, regOp, arg);}
|
||||
void XEmitter::CVTPS2DQ(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, 0x5B, regOp, arg);}
|
||||
|
||||
void XEmitter::CVTTSD2SI(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF2, 0x2C, regOp, arg);}
|
||||
void XEmitter::CVTTSS2SI(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, 0x2C, regOp, arg);}
|
||||
void XEmitter::CVTTPS2DQ(X64Reg regOp, OpArg arg) {WriteSSEOp(0xF3, 0x5B, regOp, arg);}
|
||||
void XEmitter::CVTTPD2DQ(X64Reg regOp, OpArg arg) {WriteSSEOp(0x66, 0xE6, regOp, arg);}
|
||||
void XEmitter::CVTTSD2SI(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF2, 0x2C, regOp, arg);}
|
||||
void XEmitter::CVTTSS2SI(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, 0x2C, regOp, arg);}
|
||||
void XEmitter::CVTTPS2DQ(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0xF3, 0x5B, regOp, arg);}
|
||||
void XEmitter::CVTTPD2DQ(X64Reg regOp, const OpArg& arg) {WriteSSEOp(0x66, 0xE6, regOp, arg);}
|
||||
|
||||
void XEmitter::MASKMOVDQU(X64Reg dest, X64Reg src) {WriteSSEOp(0x66, sseMASKMOVDQU, dest, R(src));}
|
||||
|
||||
void XEmitter::MOVMSKPS(X64Reg dest, OpArg arg) {WriteSSEOp(0x00, 0x50, dest, arg);}
|
||||
void XEmitter::MOVMSKPD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x50, dest, arg);}
|
||||
void XEmitter::MOVMSKPS(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x00, 0x50, dest, arg);}
|
||||
void XEmitter::MOVMSKPD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x50, dest, arg);}
|
||||
|
||||
void XEmitter::LDDQU(X64Reg dest, OpArg arg) {WriteSSEOp(0xF2, sseLDDQU, dest, arg);} // For integer data only
|
||||
void XEmitter::LDDQU(X64Reg dest, const OpArg& arg) {WriteSSEOp(0xF2, sseLDDQU, dest, arg);} // For integer data only
|
||||
|
||||
// THESE TWO ARE UNTESTED.
|
||||
void XEmitter::UNPCKLPS(X64Reg dest, OpArg arg) {WriteSSEOp(0x00, 0x14, dest, arg);}
|
||||
void XEmitter::UNPCKHPS(X64Reg dest, OpArg arg) {WriteSSEOp(0x00, 0x15, dest, arg);}
|
||||
void XEmitter::UNPCKLPS(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x00, 0x14, dest, arg);}
|
||||
void XEmitter::UNPCKHPS(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x00, 0x15, dest, arg);}
|
||||
|
||||
void XEmitter::UNPCKLPD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x14, dest, arg);}
|
||||
void XEmitter::UNPCKHPD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x15, dest, arg);}
|
||||
void XEmitter::UNPCKLPD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x14, dest, arg);}
|
||||
void XEmitter::UNPCKHPD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x15, dest, arg);}
|
||||
|
||||
void XEmitter::MOVDDUP(X64Reg regOp, OpArg arg)
|
||||
void XEmitter::MOVDDUP(X64Reg regOp, const OpArg& arg)
|
||||
{
|
||||
if (Common::GetCPUCaps().sse3)
|
||||
{
|
||||
|
@ -1663,9 +1635,9 @@ void XEmitter::MOVDDUP(X64Reg regOp, OpArg arg)
|
|||
//There are a few more left
|
||||
|
||||
// Also some integer instructions are missing
|
||||
void XEmitter::PACKSSDW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x6B, dest, arg);}
|
||||
void XEmitter::PACKSSWB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x63, dest, arg);}
|
||||
void XEmitter::PACKUSWB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x67, dest, arg);}
|
||||
void XEmitter::PACKSSDW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x6B, dest, arg);}
|
||||
void XEmitter::PACKSSWB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x63, dest, arg);}
|
||||
void XEmitter::PACKUSWB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x67, dest, arg);}
|
||||
|
||||
void XEmitter::PUNPCKLBW(X64Reg dest, const OpArg &arg) {WriteSSEOp(0x66, 0x60, dest, arg);}
|
||||
void XEmitter::PUNPCKLWD(X64Reg dest, const OpArg &arg) {WriteSSEOp(0x66, 0x61, dest, arg);}
|
||||
|
@ -1690,7 +1662,7 @@ void XEmitter::PSRLQ(X64Reg reg, int shift)
|
|||
Write8(shift);
|
||||
}
|
||||
|
||||
void XEmitter::PSRLQ(X64Reg reg, OpArg arg)
|
||||
void XEmitter::PSRLQ(X64Reg reg, const OpArg& arg)
|
||||
{
|
||||
WriteSSEOp(0x66, 0xd3, reg, arg);
|
||||
}
|
||||
|
@ -1735,212 +1707,212 @@ void XEmitter::PSRAD(X64Reg reg, int shift)
|
|||
Write8(shift);
|
||||
}
|
||||
|
||||
void XEmitter::WriteSSSE3Op(u8 opPrefix, u16 op, X64Reg regOp, OpArg arg, int extrabytes)
|
||||
void XEmitter::WriteSSSE3Op(u8 opPrefix, u16 op, X64Reg regOp, const OpArg& arg, int extrabytes)
|
||||
{
|
||||
if (!Common::GetCPUCaps().ssse3)
|
||||
ASSERT_MSG(0, "Trying to use SSSE3 on a system that doesn't support it. Bad programmer.");
|
||||
WriteSSEOp(opPrefix, op, regOp, arg, extrabytes);
|
||||
}
|
||||
|
||||
void XEmitter::WriteSSE41Op(u8 opPrefix, u16 op, X64Reg regOp, OpArg arg, int extrabytes)
|
||||
void XEmitter::WriteSSE41Op(u8 opPrefix, u16 op, X64Reg regOp, const OpArg& arg, int extrabytes)
|
||||
{
|
||||
if (!Common::GetCPUCaps().sse4_1)
|
||||
ASSERT_MSG(0, "Trying to use SSE4.1 on a system that doesn't support it. Bad programmer.");
|
||||
WriteSSEOp(opPrefix, op, regOp, arg, extrabytes);
|
||||
}
|
||||
|
||||
void XEmitter::PSHUFB(X64Reg dest, OpArg arg) {WriteSSSE3Op(0x66, 0x3800, dest, arg);}
|
||||
void XEmitter::PTEST(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3817, dest, arg);}
|
||||
void XEmitter::PACKUSDW(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x382b, dest, arg);}
|
||||
void XEmitter::DPPS(X64Reg dest, OpArg arg, u8 mask) {WriteSSE41Op(0x66, 0x3A40, dest, arg, 1); Write8(mask);}
|
||||
void XEmitter::PSHUFB(X64Reg dest, const OpArg& arg) {WriteSSSE3Op(0x66, 0x3800, dest, arg);}
|
||||
void XEmitter::PTEST(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3817, dest, arg);}
|
||||
void XEmitter::PACKUSDW(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x382b, dest, arg);}
|
||||
void XEmitter::DPPS(X64Reg dest, const OpArg& arg, u8 mask) {WriteSSE41Op(0x66, 0x3A40, dest, arg, 1); Write8(mask);}
|
||||
|
||||
void XEmitter::PMINSB(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3838, dest, arg);}
|
||||
void XEmitter::PMINSD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3839, dest, arg);}
|
||||
void XEmitter::PMINUW(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x383a, dest, arg);}
|
||||
void XEmitter::PMINUD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x383b, dest, arg);}
|
||||
void XEmitter::PMAXSB(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x383c, dest, arg);}
|
||||
void XEmitter::PMAXSD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x383d, dest, arg);}
|
||||
void XEmitter::PMAXUW(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x383e, dest, arg);}
|
||||
void XEmitter::PMAXUD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x383f, dest, arg);}
|
||||
void XEmitter::PMINSB(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3838, dest, arg);}
|
||||
void XEmitter::PMINSD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3839, dest, arg);}
|
||||
void XEmitter::PMINUW(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x383a, dest, arg);}
|
||||
void XEmitter::PMINUD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x383b, dest, arg);}
|
||||
void XEmitter::PMAXSB(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x383c, dest, arg);}
|
||||
void XEmitter::PMAXSD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x383d, dest, arg);}
|
||||
void XEmitter::PMAXUW(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x383e, dest, arg);}
|
||||
void XEmitter::PMAXUD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x383f, dest, arg);}
|
||||
|
||||
void XEmitter::PMOVSXBW(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3820, dest, arg);}
|
||||
void XEmitter::PMOVSXBD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3821, dest, arg);}
|
||||
void XEmitter::PMOVSXBQ(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3822, dest, arg);}
|
||||
void XEmitter::PMOVSXWD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3823, dest, arg);}
|
||||
void XEmitter::PMOVSXWQ(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3824, dest, arg);}
|
||||
void XEmitter::PMOVSXDQ(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3825, dest, arg);}
|
||||
void XEmitter::PMOVZXBW(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3830, dest, arg);}
|
||||
void XEmitter::PMOVZXBD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3831, dest, arg);}
|
||||
void XEmitter::PMOVZXBQ(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3832, dest, arg);}
|
||||
void XEmitter::PMOVZXWD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3833, dest, arg);}
|
||||
void XEmitter::PMOVZXWQ(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3834, dest, arg);}
|
||||
void XEmitter::PMOVZXDQ(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3835, dest, arg);}
|
||||
void XEmitter::PMOVSXBW(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3820, dest, arg);}
|
||||
void XEmitter::PMOVSXBD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3821, dest, arg);}
|
||||
void XEmitter::PMOVSXBQ(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3822, dest, arg);}
|
||||
void XEmitter::PMOVSXWD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3823, dest, arg);}
|
||||
void XEmitter::PMOVSXWQ(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3824, dest, arg);}
|
||||
void XEmitter::PMOVSXDQ(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3825, dest, arg);}
|
||||
void XEmitter::PMOVZXBW(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3830, dest, arg);}
|
||||
void XEmitter::PMOVZXBD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3831, dest, arg);}
|
||||
void XEmitter::PMOVZXBQ(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3832, dest, arg);}
|
||||
void XEmitter::PMOVZXWD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3833, dest, arg);}
|
||||
void XEmitter::PMOVZXWQ(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3834, dest, arg);}
|
||||
void XEmitter::PMOVZXDQ(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3835, dest, arg);}
|
||||
|
||||
void XEmitter::PBLENDVB(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3810, dest, arg);}
|
||||
void XEmitter::BLENDVPS(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3814, dest, arg);}
|
||||
void XEmitter::BLENDVPD(X64Reg dest, OpArg arg) {WriteSSE41Op(0x66, 0x3815, dest, arg);}
|
||||
void XEmitter::PBLENDVB(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3810, dest, arg);}
|
||||
void XEmitter::BLENDVPS(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3814, dest, arg);}
|
||||
void XEmitter::BLENDVPD(X64Reg dest, const OpArg& arg) {WriteSSE41Op(0x66, 0x3815, dest, arg);}
|
||||
void XEmitter::BLENDPS(X64Reg dest, const OpArg& arg, u8 blend) { WriteSSE41Op(0x66, 0x3A0C, dest, arg, 1); Write8(blend); }
|
||||
void XEmitter::BLENDPD(X64Reg dest, const OpArg& arg, u8 blend) { WriteSSE41Op(0x66, 0x3A0D, dest, arg, 1); Write8(blend); }
|
||||
|
||||
void XEmitter::ROUNDSS(X64Reg dest, OpArg arg, u8 mode) {WriteSSE41Op(0x66, 0x3A0A, dest, arg, 1); Write8(mode);}
|
||||
void XEmitter::ROUNDSD(X64Reg dest, OpArg arg, u8 mode) {WriteSSE41Op(0x66, 0x3A0B, dest, arg, 1); Write8(mode);}
|
||||
void XEmitter::ROUNDPS(X64Reg dest, OpArg arg, u8 mode) {WriteSSE41Op(0x66, 0x3A08, dest, arg, 1); Write8(mode);}
|
||||
void XEmitter::ROUNDPD(X64Reg dest, OpArg arg, u8 mode) {WriteSSE41Op(0x66, 0x3A09, dest, arg, 1); Write8(mode);}
|
||||
void XEmitter::ROUNDSS(X64Reg dest, const OpArg& arg, u8 mode) {WriteSSE41Op(0x66, 0x3A0A, dest, arg, 1); Write8(mode);}
|
||||
void XEmitter::ROUNDSD(X64Reg dest, const OpArg& arg, u8 mode) {WriteSSE41Op(0x66, 0x3A0B, dest, arg, 1); Write8(mode);}
|
||||
void XEmitter::ROUNDPS(X64Reg dest, const OpArg& arg, u8 mode) {WriteSSE41Op(0x66, 0x3A08, dest, arg, 1); Write8(mode);}
|
||||
void XEmitter::ROUNDPD(X64Reg dest, const OpArg& arg, u8 mode) {WriteSSE41Op(0x66, 0x3A09, dest, arg, 1); Write8(mode);}
|
||||
|
||||
void XEmitter::PAND(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xDB, dest, arg);}
|
||||
void XEmitter::PANDN(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xDF, dest, arg);}
|
||||
void XEmitter::PXOR(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xEF, dest, arg);}
|
||||
void XEmitter::POR(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xEB, dest, arg);}
|
||||
void XEmitter::PAND(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xDB, dest, arg);}
|
||||
void XEmitter::PANDN(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xDF, dest, arg);}
|
||||
void XEmitter::PXOR(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xEF, dest, arg);}
|
||||
void XEmitter::POR(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xEB, dest, arg);}
|
||||
|
||||
void XEmitter::PADDB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xFC, dest, arg);}
|
||||
void XEmitter::PADDW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xFD, dest, arg);}
|
||||
void XEmitter::PADDD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xFE, dest, arg);}
|
||||
void XEmitter::PADDQ(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xD4, dest, arg);}
|
||||
void XEmitter::PADDB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xFC, dest, arg);}
|
||||
void XEmitter::PADDW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xFD, dest, arg);}
|
||||
void XEmitter::PADDD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xFE, dest, arg);}
|
||||
void XEmitter::PADDQ(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xD4, dest, arg);}
|
||||
|
||||
void XEmitter::PADDSB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xEC, dest, arg);}
|
||||
void XEmitter::PADDSW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xED, dest, arg);}
|
||||
void XEmitter::PADDUSB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xDC, dest, arg);}
|
||||
void XEmitter::PADDUSW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xDD, dest, arg);}
|
||||
void XEmitter::PADDSB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xEC, dest, arg);}
|
||||
void XEmitter::PADDSW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xED, dest, arg);}
|
||||
void XEmitter::PADDUSB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xDC, dest, arg);}
|
||||
void XEmitter::PADDUSW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xDD, dest, arg);}
|
||||
|
||||
void XEmitter::PSUBB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xF8, dest, arg);}
|
||||
void XEmitter::PSUBW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xF9, dest, arg);}
|
||||
void XEmitter::PSUBD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xFA, dest, arg);}
|
||||
void XEmitter::PSUBQ(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xFB, dest, arg);}
|
||||
void XEmitter::PSUBB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xF8, dest, arg);}
|
||||
void XEmitter::PSUBW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xF9, dest, arg);}
|
||||
void XEmitter::PSUBD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xFA, dest, arg);}
|
||||
void XEmitter::PSUBQ(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xFB, dest, arg);}
|
||||
|
||||
void XEmitter::PSUBSB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xE8, dest, arg);}
|
||||
void XEmitter::PSUBSW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xE9, dest, arg);}
|
||||
void XEmitter::PSUBUSB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xD8, dest, arg);}
|
||||
void XEmitter::PSUBUSW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xD9, dest, arg);}
|
||||
void XEmitter::PSUBSB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xE8, dest, arg);}
|
||||
void XEmitter::PSUBSW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xE9, dest, arg);}
|
||||
void XEmitter::PSUBUSB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xD8, dest, arg);}
|
||||
void XEmitter::PSUBUSW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xD9, dest, arg);}
|
||||
|
||||
void XEmitter::PAVGB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xE0, dest, arg);}
|
||||
void XEmitter::PAVGW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xE3, dest, arg);}
|
||||
void XEmitter::PAVGB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xE0, dest, arg);}
|
||||
void XEmitter::PAVGW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xE3, dest, arg);}
|
||||
|
||||
void XEmitter::PCMPEQB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x74, dest, arg);}
|
||||
void XEmitter::PCMPEQW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x75, dest, arg);}
|
||||
void XEmitter::PCMPEQD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x76, dest, arg);}
|
||||
void XEmitter::PCMPEQB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x74, dest, arg);}
|
||||
void XEmitter::PCMPEQW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x75, dest, arg);}
|
||||
void XEmitter::PCMPEQD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x76, dest, arg);}
|
||||
|
||||
void XEmitter::PCMPGTB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x64, dest, arg);}
|
||||
void XEmitter::PCMPGTW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x65, dest, arg);}
|
||||
void XEmitter::PCMPGTD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0x66, dest, arg);}
|
||||
void XEmitter::PCMPGTB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x64, dest, arg);}
|
||||
void XEmitter::PCMPGTW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x65, dest, arg);}
|
||||
void XEmitter::PCMPGTD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0x66, dest, arg);}
|
||||
|
||||
void XEmitter::PEXTRW(X64Reg dest, OpArg arg, u8 subreg) {WriteSSEOp(0x66, 0xC5, dest, arg, 1); Write8(subreg);}
|
||||
void XEmitter::PINSRW(X64Reg dest, OpArg arg, u8 subreg) {WriteSSEOp(0x66, 0xC4, dest, arg, 1); Write8(subreg);}
|
||||
void XEmitter::PEXTRW(X64Reg dest, const OpArg& arg, u8 subreg) {WriteSSEOp(0x66, 0xC5, dest, arg, 1); Write8(subreg);}
|
||||
void XEmitter::PINSRW(X64Reg dest, const OpArg& arg, u8 subreg) {WriteSSEOp(0x66, 0xC4, dest, arg, 1); Write8(subreg);}
|
||||
|
||||
void XEmitter::PMADDWD(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xF5, dest, arg); }
|
||||
void XEmitter::PSADBW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xF6, dest, arg);}
|
||||
void XEmitter::PMADDWD(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xF5, dest, arg); }
|
||||
void XEmitter::PSADBW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xF6, dest, arg);}
|
||||
|
||||
void XEmitter::PMAXSW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xEE, dest, arg); }
|
||||
void XEmitter::PMAXUB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xDE, dest, arg); }
|
||||
void XEmitter::PMINSW(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xEA, dest, arg); }
|
||||
void XEmitter::PMINUB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xDA, dest, arg); }
|
||||
void XEmitter::PMAXSW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xEE, dest, arg); }
|
||||
void XEmitter::PMAXUB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xDE, dest, arg); }
|
||||
void XEmitter::PMINSW(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xEA, dest, arg); }
|
||||
void XEmitter::PMINUB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xDA, dest, arg); }
|
||||
|
||||
void XEmitter::PMOVMSKB(X64Reg dest, OpArg arg) {WriteSSEOp(0x66, 0xD7, dest, arg); }
|
||||
void XEmitter::PSHUFD(X64Reg regOp, OpArg arg, u8 shuffle) {WriteSSEOp(0x66, 0x70, regOp, arg, 1); Write8(shuffle);}
|
||||
void XEmitter::PSHUFLW(X64Reg regOp, OpArg arg, u8 shuffle) {WriteSSEOp(0xF2, 0x70, regOp, arg, 1); Write8(shuffle);}
|
||||
void XEmitter::PSHUFHW(X64Reg regOp, OpArg arg, u8 shuffle) {WriteSSEOp(0xF3, 0x70, regOp, arg, 1); Write8(shuffle);}
|
||||
void XEmitter::PMOVMSKB(X64Reg dest, const OpArg& arg) {WriteSSEOp(0x66, 0xD7, dest, arg); }
|
||||
void XEmitter::PSHUFD(X64Reg regOp, const OpArg& arg, u8 shuffle) {WriteSSEOp(0x66, 0x70, regOp, arg, 1); Write8(shuffle);}
|
||||
void XEmitter::PSHUFLW(X64Reg regOp, const OpArg& arg, u8 shuffle) {WriteSSEOp(0xF2, 0x70, regOp, arg, 1); Write8(shuffle);}
|
||||
void XEmitter::PSHUFHW(X64Reg regOp, const OpArg& arg, u8 shuffle) {WriteSSEOp(0xF3, 0x70, regOp, arg, 1); Write8(shuffle);}
|
||||
|
||||
// VEX
|
||||
void XEmitter::VADDSD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0xF2, sseADD, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSUBSD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0xF2, sseSUB, regOp1, regOp2, arg);}
|
||||
void XEmitter::VMULSD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0xF2, sseMUL, regOp1, regOp2, arg);}
|
||||
void XEmitter::VDIVSD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0xF2, sseDIV, regOp1, regOp2, arg);}
|
||||
void XEmitter::VADDPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0x66, sseADD, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSUBPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0x66, sseSUB, regOp1, regOp2, arg);}
|
||||
void XEmitter::VMULPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0x66, sseMUL, regOp1, regOp2, arg);}
|
||||
void XEmitter::VDIVPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0x66, sseDIV, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSQRTSD(X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteAVXOp(0xF2, sseSQRT, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSHUFPD(X64Reg regOp1, X64Reg regOp2, OpArg arg, u8 shuffle) {WriteAVXOp(0x66, sseSHUF, regOp1, regOp2, arg, 1); Write8(shuffle);}
|
||||
void XEmitter::VUNPCKLPD(X64Reg regOp1, X64Reg regOp2, OpArg arg){WriteAVXOp(0x66, 0x14, regOp1, regOp2, arg);}
|
||||
void XEmitter::VUNPCKHPD(X64Reg regOp1, X64Reg regOp2, OpArg arg){WriteAVXOp(0x66, 0x15, regOp1, regOp2, arg);}
|
||||
void XEmitter::VADDSD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0xF2, sseADD, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSUBSD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0xF2, sseSUB, regOp1, regOp2, arg);}
|
||||
void XEmitter::VMULSD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0xF2, sseMUL, regOp1, regOp2, arg);}
|
||||
void XEmitter::VDIVSD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0xF2, sseDIV, regOp1, regOp2, arg);}
|
||||
void XEmitter::VADDPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0x66, sseADD, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSUBPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0x66, sseSUB, regOp1, regOp2, arg);}
|
||||
void XEmitter::VMULPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0x66, sseMUL, regOp1, regOp2, arg);}
|
||||
void XEmitter::VDIVPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0x66, sseDIV, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSQRTSD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteAVXOp(0xF2, sseSQRT, regOp1, regOp2, arg);}
|
||||
void XEmitter::VSHUFPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg, u8 shuffle) {WriteAVXOp(0x66, sseSHUF, regOp1, regOp2, arg, 1); Write8(shuffle);}
|
||||
void XEmitter::VUNPCKLPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg){WriteAVXOp(0x66, 0x14, regOp1, regOp2, arg);}
|
||||
void XEmitter::VUNPCKHPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg){WriteAVXOp(0x66, 0x15, regOp1, regOp2, arg);}
|
||||
|
||||
void XEmitter::VANDPS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x00, sseAND, regOp1, regOp2, arg); }
|
||||
void XEmitter::VANDPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, sseAND, regOp1, regOp2, arg); }
|
||||
void XEmitter::VANDNPS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x00, sseANDN, regOp1, regOp2, arg); }
|
||||
void XEmitter::VANDNPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, sseANDN, regOp1, regOp2, arg); }
|
||||
void XEmitter::VORPS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x00, sseOR, regOp1, regOp2, arg); }
|
||||
void XEmitter::VORPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, sseOR, regOp1, regOp2, arg); }
|
||||
void XEmitter::VXORPS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x00, sseXOR, regOp1, regOp2, arg); }
|
||||
void XEmitter::VXORPD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, sseXOR, regOp1, regOp2, arg); }
|
||||
void XEmitter::VANDPS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x00, sseAND, regOp1, regOp2, arg); }
|
||||
void XEmitter::VANDPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, sseAND, regOp1, regOp2, arg); }
|
||||
void XEmitter::VANDNPS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x00, sseANDN, regOp1, regOp2, arg); }
|
||||
void XEmitter::VANDNPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, sseANDN, regOp1, regOp2, arg); }
|
||||
void XEmitter::VORPS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x00, sseOR, regOp1, regOp2, arg); }
|
||||
void XEmitter::VORPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, sseOR, regOp1, regOp2, arg); }
|
||||
void XEmitter::VXORPS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x00, sseXOR, regOp1, regOp2, arg); }
|
||||
void XEmitter::VXORPD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, sseXOR, regOp1, regOp2, arg); }
|
||||
|
||||
void XEmitter::VPAND(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0xDB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VPANDN(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0xDF, regOp1, regOp2, arg); }
|
||||
void XEmitter::VPOR(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0xEB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VPXOR(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0xEF, regOp1, regOp2, arg); }
|
||||
void XEmitter::VPAND(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0xDB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VPANDN(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0xDF, regOp1, regOp2, arg); }
|
||||
void XEmitter::VPOR(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0xEB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VPXOR(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0xEF, regOp1, regOp2, arg); }
|
||||
|
||||
void XEmitter::VFMADD132PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3898, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD213PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A8, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD231PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B8, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD132PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3898, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD213PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A8, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD231PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B8, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD132SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3899, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD213SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A9, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD231SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B9, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD132SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3899, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD213SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A9, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD231SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B9, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB132PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389A, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB213PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AA, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB231PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BA, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB132PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389A, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB213PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AA, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB231PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BA, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB132SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389B, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB213SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB231SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB132SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389B, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB213SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AB, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB231SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BB, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD132PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389C, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD213PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AC, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD231PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BC, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD132PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389C, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD213PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AC, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD231PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BC, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD132SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389D, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD213SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AD, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD231SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BD, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD132SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389D, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD213SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AD, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD231SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BD, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB132PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389E, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB213PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AE, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB231PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BE, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB132PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389E, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB213PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AE, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB231PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BE, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB132SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389F, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB213SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AF, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB231SS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BF, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB132SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x389F, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB213SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38AF, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB231SD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38BF, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADDSUB132PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3896, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADDSUB213PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A6, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADDSUB231PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B6, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADDSUB132PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3896, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADDSUB213PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A6, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADDSUB231PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B6, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUBADD132PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3897, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUBADD213PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A7, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUBADD231PS(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B7, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUBADD132PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x3897, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUBADD213PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38A7, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUBADD231PD(X64Reg regOp1, X64Reg regOp2, OpArg arg) { WriteAVXOp(0x66, 0x38B7, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD132PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3898, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD213PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A8, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD231PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B8, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD132PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3898, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A8, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B8, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD132SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3899, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD213SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A9, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD231SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B9, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADD132SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3899, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD213SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A9, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADD231SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B9, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB132PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389A, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB213PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AA, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB231PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BA, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB132PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389A, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AA, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BA, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB132SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389B, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB213SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB231SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BB, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUB132SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389B, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB213SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AB, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUB231SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BB, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD132PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389C, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD213PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AC, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD231PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BC, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD132PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389C, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AC, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BC, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD132SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389D, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD213SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AD, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD231SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BD, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMADD132SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389D, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD213SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AD, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMADD231SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BD, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB132PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389E, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB213PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AE, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB231PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BE, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB132PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389E, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AE, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BE, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB132SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389F, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB213SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AF, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB231SS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BF, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFNMSUB132SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x389F, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB213SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38AF, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFNMSUB231SD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38BF, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADDSUB132PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3896, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADDSUB213PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A6, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADDSUB231PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B6, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMADDSUB132PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3896, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADDSUB213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A6, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMADDSUB231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B6, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUBADD132PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3897, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUBADD213PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A7, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUBADD231PS(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B7, regOp1, regOp2, arg); }
|
||||
void XEmitter::VFMSUBADD132PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x3897, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUBADD213PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38A7, regOp1, regOp2, arg, 1); }
|
||||
void XEmitter::VFMSUBADD231PD(X64Reg regOp1, X64Reg regOp2, const OpArg& arg) { WriteAVXOp(0x66, 0x38B7, regOp1, regOp2, arg, 1); }
|
||||
|
||||
void XEmitter::SARX(int bits, X64Reg regOp1, OpArg arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF3, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::SHLX(int bits, X64Reg regOp1, OpArg arg, X64Reg regOp2) {WriteBMI2Op(bits, 0x66, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::SHRX(int bits, X64Reg regOp1, OpArg arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF2, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::RORX(int bits, X64Reg regOp, OpArg arg, u8 rotate) {WriteBMI2Op(bits, 0xF2, 0x3AF0, regOp, INVALID_REG, arg, 1); Write8(rotate);}
|
||||
void XEmitter::PEXT(int bits, X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteBMI2Op(bits, 0xF3, 0x38F5, regOp1, regOp2, arg);}
|
||||
void XEmitter::PDEP(int bits, X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteBMI2Op(bits, 0xF2, 0x38F5, regOp1, regOp2, arg);}
|
||||
void XEmitter::MULX(int bits, X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteBMI2Op(bits, 0xF2, 0x38F6, regOp2, regOp1, arg);}
|
||||
void XEmitter::BZHI(int bits, X64Reg regOp1, OpArg arg, X64Reg regOp2) {WriteBMI2Op(bits, 0x00, 0x38F5, regOp1, regOp2, arg);}
|
||||
void XEmitter::BLSR(int bits, X64Reg regOp, OpArg arg) {WriteBMI1Op(bits, 0x00, 0x38F3, (X64Reg)0x1, regOp, arg);}
|
||||
void XEmitter::BLSMSK(int bits, X64Reg regOp, OpArg arg) {WriteBMI1Op(bits, 0x00, 0x38F3, (X64Reg)0x2, regOp, arg);}
|
||||
void XEmitter::BLSI(int bits, X64Reg regOp, OpArg arg) {WriteBMI1Op(bits, 0x00, 0x38F3, (X64Reg)0x3, regOp, arg);}
|
||||
void XEmitter::BEXTR(int bits, X64Reg regOp1, OpArg arg, X64Reg regOp2){WriteBMI1Op(bits, 0x00, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::ANDN(int bits, X64Reg regOp1, X64Reg regOp2, OpArg arg) {WriteBMI1Op(bits, 0x00, 0x38F2, regOp1, regOp2, arg);}
|
||||
void XEmitter::SARX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF3, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::SHLX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0x66, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::SHRX(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0xF2, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::RORX(int bits, X64Reg regOp, const OpArg& arg, u8 rotate) {WriteBMI2Op(bits, 0xF2, 0x3AF0, regOp, INVALID_REG, arg, 1); Write8(rotate);}
|
||||
void XEmitter::PEXT(int bits, X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteBMI2Op(bits, 0xF3, 0x38F5, regOp1, regOp2, arg);}
|
||||
void XEmitter::PDEP(int bits, X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteBMI2Op(bits, 0xF2, 0x38F5, regOp1, regOp2, arg);}
|
||||
void XEmitter::MULX(int bits, X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteBMI2Op(bits, 0xF2, 0x38F6, regOp2, regOp1, arg);}
|
||||
void XEmitter::BZHI(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2) {WriteBMI2Op(bits, 0x00, 0x38F5, regOp1, regOp2, arg);}
|
||||
void XEmitter::BLSR(int bits, X64Reg regOp, const OpArg& arg) {WriteBMI1Op(bits, 0x00, 0x38F3, (X64Reg)0x1, regOp, arg);}
|
||||
void XEmitter::BLSMSK(int bits, X64Reg regOp, const OpArg& arg) {WriteBMI1Op(bits, 0x00, 0x38F3, (X64Reg)0x2, regOp, arg);}
|
||||
void XEmitter::BLSI(int bits, X64Reg regOp, const OpArg& arg) {WriteBMI1Op(bits, 0x00, 0x38F3, (X64Reg)0x3, regOp, arg);}
|
||||
void XEmitter::BEXTR(int bits, X64Reg regOp1, const OpArg& arg, X64Reg regOp2){WriteBMI1Op(bits, 0x00, 0x38F7, regOp1, regOp2, arg);}
|
||||
void XEmitter::ANDN(int bits, X64Reg regOp1, X64Reg regOp2, const OpArg& arg) {WriteBMI1Op(bits, 0x00, 0x38F2, regOp1, regOp2, arg);}
|
||||
|
||||
// Prefixes
|
||||
|
||||
|
@ -1956,7 +1928,7 @@ void XEmitter::FWAIT()
|
|||
}
|
||||
|
||||
// TODO: make this more generic
|
||||
void XEmitter::WriteFloatLoadStore(int bits, FloatOp op, FloatOp op_80b, OpArg arg)
|
||||
void XEmitter::WriteFloatLoadStore(int bits, FloatOp op, FloatOp op_80b, const OpArg& arg)
|
||||
{
|
||||
int mf = 0;
|
||||
ASSERT_MSG(!(bits == 80 && op_80b == floatINVALID), "WriteFloatLoadStore: 80 bits not supported for this instruction");
|
||||
|
@ -1974,9 +1946,9 @@ void XEmitter::WriteFloatLoadStore(int bits, FloatOp op, FloatOp op_80b, OpArg a
|
|||
arg.WriteRest(this, 0, (X64Reg) op);
|
||||
}
|
||||
|
||||
void XEmitter::FLD(int bits, OpArg src) {WriteFloatLoadStore(bits, floatLD, floatLD80, src);}
|
||||
void XEmitter::FST(int bits, OpArg dest) {WriteFloatLoadStore(bits, floatST, floatINVALID, dest);}
|
||||
void XEmitter::FSTP(int bits, OpArg dest) {WriteFloatLoadStore(bits, floatSTP, floatSTP80, dest);}
|
||||
void XEmitter::FLD(int bits, const OpArg& src) {WriteFloatLoadStore(bits, floatLD, floatLD80, src);}
|
||||
void XEmitter::FST(int bits, const OpArg& dest) {WriteFloatLoadStore(bits, floatST, floatINVALID, dest);}
|
||||
void XEmitter::FSTP(int bits, const OpArg& dest) {WriteFloatLoadStore(bits, floatSTP, floatSTP80, dest);}
|
||||
void XEmitter::FNSTSW_AX() { Write8(0xDF); Write8(0xE0); }
|
||||
|
||||
void XEmitter::RDTSC() { Write8(0x0F); Write8(0x31); }
|
||||
|
|
File diff suppressed because it is too large
Load diff
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Reference in a new issue