[AArch64] Implement 19 floating point instructions
This commit is contained in:
parent
6dff4421d3
commit
7370473eb3
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@ -225,6 +225,7 @@ elseif(_M_ARM_64)
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PowerPC/JitArm64/JitArm64_RegCache.cpp
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PowerPC/JitArm64/JitArm64_BackPatch.cpp
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PowerPC/JitArm64/JitArm64_Branch.cpp
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PowerPC/JitArm64/JitArm64_FloatingPoint.cpp
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PowerPC/JitArm64/JitArm64_Integer.cpp
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PowerPC/JitArm64/JitArm64_LoadStore.cpp
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PowerPC/JitArm64/JitArm64_Paired.cpp
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@ -117,6 +117,27 @@ public:
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void lXX(UGeckoInstruction inst);
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void stX(UGeckoInstruction inst);
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// Floating point
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void fabsx(UGeckoInstruction inst);
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void faddsx(UGeckoInstruction inst);
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void faddx(UGeckoInstruction inst);
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void fmaddsx(UGeckoInstruction inst);
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void fmaddx(UGeckoInstruction inst);
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void fmrx(UGeckoInstruction inst);
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void fmsubsx(UGeckoInstruction inst);
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void fmsubx(UGeckoInstruction inst);
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void fmulsx(UGeckoInstruction inst);
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void fmulx(UGeckoInstruction inst);
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void fnabsx(UGeckoInstruction inst);
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void fnegx(UGeckoInstruction inst);
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void fnmaddsx(UGeckoInstruction inst);
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void fnmaddx(UGeckoInstruction inst);
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void fnmsubsx(UGeckoInstruction inst);
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void fnmsubx(UGeckoInstruction inst);
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void fselx(UGeckoInstruction inst);
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void fsubsx(UGeckoInstruction inst);
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void fsubx(UGeckoInstruction inst);
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// Paired
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void ps_abs(UGeckoInstruction inst);
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void ps_add(UGeckoInstruction inst);
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@ -0,0 +1,376 @@
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// Copyright 2014 Dolphin Emulator Project
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// Licensed under GPLv2
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// Refer to the license.txt file included.
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#include "Common/Arm64Emitter.h"
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#include "Common/Common.h"
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#include "Common/StringUtil.h"
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#include "Core/Core.h"
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#include "Core/CoreTiming.h"
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#include "Core/PowerPC/PowerPC.h"
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#include "Core/PowerPC/PPCTables.h"
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#include "Core/PowerPC/JitArm64/Jit.h"
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#include "Core/PowerPC/JitArm64/JitArm64_RegCache.h"
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#include "Core/PowerPC/JitArm64/JitAsm.h"
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using namespace Arm64Gen;
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void JitArm64::fabsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FB);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FABS(64, V0, VB);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::faddsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FA || inst.FD == inst.FB);
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ARM64Reg VA = fpr.R(inst.FA);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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m_float_emit.FADD(64, VD, VA, VB);
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m_float_emit.INS(64, VD, 1, VD, 0);
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}
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void JitArm64::faddx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FA || inst.FD == inst.FB);
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ARM64Reg VA = fpr.R(inst.FA);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FADD(64, V0, VA, VB);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fmaddsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FADD(64, V0, V0, VB);
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m_float_emit.DUP(64, VD, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fmaddx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FADD(64, V0, V0, VB);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fmrx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FB);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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m_float_emit.INS(64, VD, 0, VB, 0);
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}
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void JitArm64::fmsubsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FSUB(64, V0, V0, VB);
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m_float_emit.DUP(64, VD, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fmsubx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FSUB(64, V0, V0, VB);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fmulsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FA || inst.FD == inst.FC);
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ARM64Reg VA = fpr.R(inst.FA);
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ARM64Reg VC = fpr.R(inst.FC);
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ARM64Reg VD = fpr.R(inst.FD);
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m_float_emit.FMUL(64, VD, VA, VC);
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m_float_emit.INS(64, VD, 1, VD, 0);
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}
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void JitArm64::fmulx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FA || inst.FD == inst.FC);
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ARM64Reg VA = fpr.R(inst.FA);
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ARM64Reg VC = fpr.R(inst.FC);
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ARM64Reg VD = fpr.R(inst.FD);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fnabsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FB);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FABS(64, V0, VB);
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m_float_emit.FNEG(64, V0, V0);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fnegx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FB);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FNEG(64, V0, VB);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fnmaddsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FADD(64, V0, V0, VB);
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m_float_emit.FNEG(64, V0, V0);
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m_float_emit.DUP(64, VD, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fnmaddx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FADD(64, V0, V0, VB);
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m_float_emit.FNEG(64, V0, V0);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fnmsubsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FSUB(64, V0, V0, VB);
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m_float_emit.FNEG(64, V0, V0);
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m_float_emit.DUP(64, VD, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fnmsubx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
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fpr.BindToRegister(d, d == a || d == b || d == c);
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ARM64Reg VA = fpr.R(a);
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ARM64Reg VB = fpr.R(b);
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ARM64Reg VC = fpr.R(c);
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ARM64Reg VD = fpr.R(d);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FMUL(64, V0, VA, VC);
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m_float_emit.FSUB(64, V0, V0, VB);
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m_float_emit.FNEG(64, V0, V0);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fselx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD,
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inst.FD == inst.FA ||
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inst.FD == inst.FB ||
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inst.FD == inst.FC);
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ARM64Reg V0 = fpr.GetReg();
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ARM64Reg VD = fpr.R(inst.FD);
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ARM64Reg VA = fpr.R(inst.FA);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VC = gpr.R(inst.FC);
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m_float_emit.FCMPE(VA);
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m_float_emit.FCSEL(V0, VC, VB, CC_GE);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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void JitArm64::fsubsx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FA || inst.FD == inst.FB);
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ARM64Reg VA = fpr.R(inst.FA);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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m_float_emit.FSUB(64, VD, VA, VB);
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m_float_emit.INS(64, VD, 1, VD, 0);
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}
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void JitArm64::fsubx(UGeckoInstruction inst)
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{
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INSTRUCTION_START
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JITDISABLE(bJITFloatingPointOff);
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FALLBACK_IF(inst.Rc);
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fpr.BindToRegister(inst.FD, inst.FD == inst.FA || inst.FD == inst.FB);
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ARM64Reg VA = fpr.R(inst.FA);
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ARM64Reg VB = fpr.R(inst.FB);
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ARM64Reg VD = fpr.R(inst.FD);
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ARM64Reg V0 = fpr.GetReg();
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m_float_emit.FSUB(64, V0, VA, VB);
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m_float_emit.INS(64, VD, 0, V0, 0);
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fpr.Unlock(V0);
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}
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@ -323,27 +323,27 @@ static GekkoOPTemplate table31_2[] =
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static GekkoOPTemplate table59[] =
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{
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{18, &JitArm64::FallBackToInterpreter}, //{"fdivsx", OPTYPE_FPU, FL_RC_BIT_F, 16}},
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{20, &JitArm64::FallBackToInterpreter}, //"fsubsx", OPTYPE_FPU, FL_RC_BIT_F}},
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{21, &JitArm64::FallBackToInterpreter}, //"faddsx", OPTYPE_FPU, FL_RC_BIT_F}},
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{20, &JitArm64::fsubsx}, //"fsubsx", OPTYPE_FPU, FL_RC_BIT_F}},
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{21, &JitArm64::faddsx}, //"faddsx", OPTYPE_FPU, FL_RC_BIT_F}},
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// {22, &JitArm64::FallBackToInterpreter}, //"fsqrtsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{24, &JitArm64::FallBackToInterpreter}, //"fresx", OPTYPE_FPU, FL_RC_BIT_F}},
|
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{25, &JitArm64::FallBackToInterpreter}, //"fmulsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{28, &JitArm64::FallBackToInterpreter}, //"fmsubsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{29, &JitArm64::FallBackToInterpreter}, //"fmaddsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{30, &JitArm64::FallBackToInterpreter}, //"fnmsubsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{31, &JitArm64::FallBackToInterpreter}, //"fnmaddsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{25, &JitArm64::fmulsx}, //"fmulsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{28, &JitArm64::fmsubsx}, //"fmsubsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{29, &JitArm64::fmaddsx}, //"fmaddsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{30, &JitArm64::fnmsubsx}, //"fnmsubsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{31, &JitArm64::fnmaddsx}, //"fnmaddsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
};
|
||||
|
||||
static GekkoOPTemplate table63[] =
|
||||
{
|
||||
{264, &JitArm64::FallBackToInterpreter}, //"fabsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{264, &JitArm64::fabsx}, //"fabsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{32, &JitArm64::FallBackToInterpreter}, //"fcmpo", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{0, &JitArm64::FallBackToInterpreter}, //"fcmpu", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{14, &JitArm64::FallBackToInterpreter}, //"fctiwx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{15, &JitArm64::FallBackToInterpreter}, //"fctiwzx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{72, &JitArm64::FallBackToInterpreter}, //"fmrx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{136, &JitArm64::FallBackToInterpreter}, //"fnabsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{40, &JitArm64::FallBackToInterpreter}, //"fnegx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{72, &JitArm64::fmrx}, //"fmrx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{136, &JitArm64::fnabsx}, //"fnabsx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{40, &JitArm64::fnegx}, //"fnegx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{12, &JitArm64::FallBackToInterpreter}, //"frspx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
|
||||
{64, &JitArm64::FallBackToInterpreter}, //"mcrfs", OPTYPE_SYSTEMFP, 0}},
|
||||
|
@ -357,16 +357,16 @@ static GekkoOPTemplate table63[] =
|
|||
static GekkoOPTemplate table63_2[] =
|
||||
{
|
||||
{18, &JitArm64::FallBackToInterpreter}, //"fdivx", OPTYPE_FPU, FL_RC_BIT_F, 30}},
|
||||
{20, &JitArm64::FallBackToInterpreter}, //"fsubx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{21, &JitArm64::FallBackToInterpreter}, //"faddx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{20, &JitArm64::fsubx}, //"fsubx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{21, &JitArm64::faddx}, //"faddx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{22, &JitArm64::FallBackToInterpreter}, //"fsqrtx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{23, &JitArm64::FallBackToInterpreter}, //"fselx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{25, &JitArm64::FallBackToInterpreter}, //"fmulx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{23, &JitArm64::fselx}, //"fselx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{25, &JitArm64::fmulx}, //"fmulx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{26, &JitArm64::FallBackToInterpreter}, //"frsqrtex", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{28, &JitArm64::FallBackToInterpreter}, //"fmsubx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{29, &JitArm64::FallBackToInterpreter}, //"fmaddx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{30, &JitArm64::FallBackToInterpreter}, //"fnmsubx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{31, &JitArm64::FallBackToInterpreter}, //"fnmaddx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{28, &JitArm64::fmsubx}, //"fmsubx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{29, &JitArm64::fmaddx}, //"fmaddx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{30, &JitArm64::fnmsubx}, //"fnmsubx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
{31, &JitArm64::fnmaddx}, //"fnmaddx", OPTYPE_FPU, FL_RC_BIT_F}},
|
||||
};
|
||||
|
||||
|
||||
|
|
Loading…
Reference in New Issue