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// Copyright (c) 2012- PPSSPP Project.
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, version 2.0 or later versions.
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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// GNU General Public License 2.0 for more details.
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// A copy of the GPL 2.0 should have been included with the program.
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// If not, see http://www.gnu.org/licenses/
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// Official git repository and contact information can be found at
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// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
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#include "ppsspp_config.h"
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#if PPSSPP_ARCH(ARM64)
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#include "Core/Config.h"
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#include "Core/MemMap.h"
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#include "Core/MIPS/MIPS.h"
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#include "Core/MIPS/MIPSCodeUtils.h"
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#include "Core/MIPS/MIPSTables.h"
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#include "Core/MIPS/ARM64/Arm64Jit.h"
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#include "Core/MIPS/ARM64/Arm64RegCache.h"
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#include "Common/CPUDetect.h"
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#define _RS MIPS_GET_RS(op)
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#define _RT MIPS_GET_RT(op)
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#define _RD MIPS_GET_RD(op)
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#define _FS MIPS_GET_FS(op)
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#define _FT MIPS_GET_FT(op)
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#define _FD MIPS_GET_FD(op)
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#define _SA MIPS_GET_SA(op)
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#define _POS  ((op>> 6) & 0x1F)
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#define _SIZE ((op>>11) & 0x1F)
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#define _IMM16 (signed short)(op & 0xFFFF)
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#define _IMM26 (op & 0x03FFFFFF)
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// FPCR interesting bits:
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// 24: FZ (flush-to-zero)
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// 23:22: RMode (0 = nearest, 1 = +inf, 2 = -inf, 3 = zero)
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// not much else is interesting for us, but should be preserved.
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// To access: MRS Xt, FPCR ;  MSR FPCR, Xt
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// All functions should have CONDITIONAL_DISABLE, so we can narrow things down to a file quickly.
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// Currently known non working ones should have DISABLE.
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// #define CONDITIONAL_DISABLE(flag) { Comp_Generic(op); return; }
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#define CONDITIONAL_DISABLE(flag) if (jo.Disabled(JitDisable::flag)) { Comp_Generic(op); return; }
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#define DISABLE { Comp_Generic(op); return; }
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namespace MIPSComp {
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	using namespace Arm64Gen;
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	using namespace Arm64JitConstants;
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void Arm64Jit::Comp_FPU3op(MIPSOpcode op) {
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	CONDITIONAL_DISABLE(FPU);
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	int ft = _FT;
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	int fs = _FS;
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	int fd = _FD;
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	fpr.MapDirtyInIn(fd, fs, ft);
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	switch (op & 0x3f) {
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	case 0: fp.FADD(fpr.R(fd), fpr.R(fs), fpr.R(ft)); break; //F(fd) = F(fs) + F(ft); //add
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	case 1: fp.FSUB(fpr.R(fd), fpr.R(fs), fpr.R(ft)); break; //F(fd) = F(fs) - F(ft); //sub
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	case 2: fp.FMUL(fpr.R(fd), fpr.R(fs), fpr.R(ft)); break; //F(fd) = F(fs) * F(ft); //mul
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	case 3: fp.FDIV(fpr.R(fd), fpr.R(fs), fpr.R(ft)); break; //F(fd) = F(fs) / F(ft); //div
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	default:
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		DISABLE;
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		return;
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	}
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}
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void Arm64Jit::Comp_FPULS(MIPSOpcode op)
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{
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	CONDITIONAL_DISABLE(LSU_FPU);
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	CheckMemoryBreakpoint();
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	s32 offset = SignExtend16ToS32(op & 0xFFFF);
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	int ft = _FT;
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	MIPSGPReg rs = _RS;
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	// u32 addr = R(rs) + offset;
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	std::vector<FixupBranch> skips;
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	switch (op >> 26) {
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	case 49: //FI(ft) = Memory::Read_U32(addr); break; //lwc1
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		if (!gpr.IsImm(rs) && jo.cachePointers && g_Config.bFastMemory && (offset & 3) == 0 && offset <= 16380 && offset >= 0) {
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			gpr.MapRegAsPointer(rs);
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			fpr.MapReg(ft, MAP_NOINIT | MAP_DIRTY);
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			fp.LDR(32, INDEX_UNSIGNED, fpr.R(ft), gpr.RPtr(rs), offset);
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			break;
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		}
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		fpr.SpillLock(ft);
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		fpr.MapReg(ft, MAP_NOINIT | MAP_DIRTY);
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		if (gpr.IsImm(rs)) {
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#ifdef MASKED_PSP_MEMORY
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			u32 addr = (offset + gpr.GetImm(rs)) & 0x3FFFFFFF;
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#else
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			u32 addr = offset + gpr.GetImm(rs);
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#endif
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			gpr.SetRegImm(SCRATCH1, addr);
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		} else {
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			gpr.MapReg(rs);
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			if (g_Config.bFastMemory) {
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				SetScratch1ToEffectiveAddress(rs, offset);
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			} else {
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				skips = SetScratch1ForSafeAddress(rs, offset, SCRATCH2);
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			}
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		}
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		fp.LDR(32, fpr.R(ft), SCRATCH1_64, ArithOption(MEMBASEREG));
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		for (auto skip : skips) {
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			SetJumpTarget(skip);
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		}
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		fpr.ReleaseSpillLocksAndDiscardTemps();
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		break;
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	case 57: //Memory::Write_U32(FI(ft), addr); break; //swc1
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		if (!gpr.IsImm(rs) && jo.cachePointers && g_Config.bFastMemory && (offset & 3) == 0 && offset <= 16380 && offset >= 0) {
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			gpr.MapRegAsPointer(rs);
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			fpr.MapReg(ft, 0);
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			fp.STR(32, INDEX_UNSIGNED, fpr.R(ft), gpr.RPtr(rs), offset);
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			break;
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		}
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		fpr.MapReg(ft);
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		if (gpr.IsImm(rs)) {
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#ifdef MASKED_PSP_MEMORY
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			u32 addr = (offset + gpr.GetImm(rs)) & 0x3FFFFFFF;
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#else
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			u32 addr = offset + gpr.GetImm(rs);
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#endif
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			gpr.SetRegImm(SCRATCH1, addr);
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		} else {
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			gpr.MapReg(rs);
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			if (g_Config.bFastMemory) {
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				SetScratch1ToEffectiveAddress(rs, offset);
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			} else {
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				skips = SetScratch1ForSafeAddress(rs, offset, SCRATCH2);
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			}
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		}
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		fp.STR(32, fpr.R(ft), SCRATCH1_64, ArithOption(MEMBASEREG));
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		for (auto skip : skips) {
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			SetJumpTarget(skip);
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		}
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		break;
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	default:
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		Comp_Generic(op);
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		return;
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	}
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}
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void Arm64Jit::Comp_FPUComp(MIPSOpcode op) {
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	CONDITIONAL_DISABLE(FPU_COMP);
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	int opc = op & 0xF;
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	if (opc >= 8) opc -= 8; // alias
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	if (opc == 0) {  // f, sf (signalling false)
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		gpr.SetImm(MIPS_REG_FPCOND, 0);
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		return;
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	}
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	int fs = _FS;
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	int ft = _FT;
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	gpr.MapReg(MIPS_REG_FPCOND, MAP_DIRTY | MAP_NOINIT);
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	fpr.MapInIn(fs, ft);
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	fp.FCMP(fpr.R(fs), fpr.R(ft));
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	switch (opc) {
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	case 1:      // un,  ngle (unordered)
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		CSET(gpr.R(MIPS_REG_FPCOND), CC_VS);
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		break;
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	case 2:      // eq,  seq (equal, ordered)
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		CSET(gpr.R(MIPS_REG_FPCOND), CC_EQ);
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		break;
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	case 3:      // ueq, ngl (equal, unordered)
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		CSET(gpr.R(MIPS_REG_FPCOND), CC_EQ);
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		// If ordered, use the above result.  If unordered, use ZR+1 (being 1.)
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		CSINC(gpr.R(MIPS_REG_FPCOND), gpr.R(MIPS_REG_FPCOND), WZR, CC_VC);
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		return;
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	case 4:      // olt, lt (less than, ordered)
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		CSET(gpr.R(MIPS_REG_FPCOND), CC_LO);
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		break;
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	case 5:      // ult, nge (less than, unordered)
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		CSET(gpr.R(MIPS_REG_FPCOND), CC_LT);
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		break;
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	case 6:      // ole, le (less equal, ordered)
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		CSET(gpr.R(MIPS_REG_FPCOND), CC_LS);
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		break;
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	case 7:      // ule, ngt (less equal, unordered)
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		CSET(gpr.R(MIPS_REG_FPCOND), CC_LE);
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		break;
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	default:
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		Comp_Generic(op);
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		return;
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	}
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}
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void Arm64Jit::Comp_FPU2op(MIPSOpcode op) {
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	CONDITIONAL_DISABLE(FPU);
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	int fs = _FS;
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	int fd = _FD;
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	switch (op & 0x3f) {
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	case 4:	//F(fd)	   = sqrtf(F(fs));            break; //sqrt
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		fpr.MapDirtyIn(fd, fs);
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		fp.FSQRT(fpr.R(fd), fpr.R(fs));
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		break;
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	case 5:	//F(fd)    = fabsf(F(fs));            break; //abs
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		fpr.MapDirtyIn(fd, fs);
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		fp.FABS(fpr.R(fd), fpr.R(fs));
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		break;
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	case 6:	//F(fd)	   = F(fs);                   break; //mov
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		fpr.MapDirtyIn(fd, fs);
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		fp.FMOV(fpr.R(fd), fpr.R(fs));
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		break;
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	case 7:	//F(fd)	   = -F(fs);                  break; //neg
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		fpr.MapDirtyIn(fd, fs);
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		fp.FNEG(fpr.R(fd), fpr.R(fs));
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		break;
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	case 12: //FsI(fd) = (int)floorf(F(fs)+0.5f); break; //round.w.s
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	{
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		fpr.MapDirtyIn(fd, fs);
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		fp.FCMP(fpr.R(fs), fpr.R(fs));  // Detect NaN
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		fp.FCVTS(fpr.R(fd), fpr.R(fs), ROUND_N);  // to nearest, ties to even
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		FixupBranch skip = B(CC_VC);
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		MOVI2R(SCRATCH1, 0x7FFFFFFF);
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		fp.FMOV(fpr.R(fd), SCRATCH1);
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		SetJumpTarget(skip);
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		break;
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	}
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	case 13: //FsI(fd) = Rto0(F(fs)));            break; //trunc.w.s
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	{
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		fpr.MapDirtyIn(fd, fs);
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		fp.FCMP(fpr.R(fs), fpr.R(fs));
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		fp.FCVTS(fpr.R(fd), fpr.R(fs), ROUND_Z);
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		FixupBranch skip = B(CC_VC);
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		MOVI2R(SCRATCH1, 0x7FFFFFFF);
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		fp.FMOV(fpr.R(fd), SCRATCH1);
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		SetJumpTarget(skip);
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		break;
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	}
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	case 14://FsI(fd) = (int)ceilf (F(fs));      break; //ceil.w.s
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	{
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		fpr.MapDirtyIn(fd, fs);
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		fp.FCMP(fpr.R(fs), fpr.R(fs));
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		fp.FCVTS(fpr.R(fd), fpr.R(fs), ROUND_P);  // towards +inf
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		FixupBranch skip = B(CC_VC);
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		MOVI2R(SCRATCH1, 0x7FFFFFFF);
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		fp.FMOV(fpr.R(fd), SCRATCH1);
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		SetJumpTarget(skip);
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		break;
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	}
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	case 15: //FsI(fd) = (int)floorf(F(fs));      break; //floor.w.s
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	{
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		fpr.MapDirtyIn(fd, fs);
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		fp.FCMP(fpr.R(fs), fpr.R(fs));
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		fp.FCVTS(fpr.R(fd), fpr.R(fs), ROUND_M);  // towards -inf
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		FixupBranch skip = B(CC_VC);
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		MOVI2R(SCRATCH1, 0x7FFFFFFF);
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		fp.FMOV(fpr.R(fd), SCRATCH1);
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		SetJumpTarget(skip);
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		break;
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	}
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	case 32: //F(fd)   = (float)FsI(fs);          break; //cvt.s.w
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		fpr.MapDirtyIn(fd, fs);
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		fp.SCVTF(fpr.R(fd), fpr.R(fs));
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		break;
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	case 36: //FsI(fd) = (int)  F(fs);            break; //cvt.w.s
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		fpr.MapDirtyIn(fd, fs);
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		if (js.hasSetRounding) {
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			// We're just going to defer to our cached func.  Here's the arg.
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			fp.FMOV(S0, fpr.R(fs));
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			MOVP2R(SCRATCH1_64, &js.currentRoundingFunc);
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			LDR(INDEX_UNSIGNED, SCRATCH1_64, SCRATCH1_64, 0);
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			BLR(SCRATCH1_64);
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			fp.FMOV(fpr.R(fd), S0);
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		} else {
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			fp.FCMP(fpr.R(fs), fpr.R(fs));
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			fp.FCVTS(fpr.R(fd), fpr.R(fs), ROUND_N);
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			FixupBranch skip_nan = B(CC_VC);
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			MOVI2R(SCRATCH1, 0x7FFFFFFF);
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			fp.FMOV(fpr.R(fd), SCRATCH1);
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			SetJumpTarget(skip_nan);
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		}
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		break;
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	default:
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		DISABLE;
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	}
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}
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void Arm64Jit::Comp_mxc1(MIPSOpcode op)
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{
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	CONDITIONAL_DISABLE(FPU_XFER);
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	int fs = _FS;
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	MIPSGPReg rt = _RT;
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	switch ((op >> 21) & 0x1f) {
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	case 0: // R(rt) = FI(fs); break; //mfc1
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		if (rt == MIPS_REG_ZERO) {
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			return;
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		}
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		gpr.MapReg(rt, MAP_DIRTY | MAP_NOINIT);
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		if (fpr.IsMapped(fs)) {
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			fp.FMOV(gpr.R(rt), fpr.R(fs));
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		} else {
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			LDR(INDEX_UNSIGNED, gpr.R(rt), CTXREG, fpr.GetMipsRegOffset(fs));
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		}
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		return;
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	case 2: //cfc1
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		if (rt == MIPS_REG_ZERO) {
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			return;
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		}
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		if (fs == 31) {
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			if (gpr.IsImm(MIPS_REG_FPCOND)) {
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				gpr.MapReg(rt, MAP_DIRTY | MAP_NOINIT);
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				LDR(INDEX_UNSIGNED, gpr.R(rt), CTXREG, offsetof(MIPSState, fcr31));
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				if (gpr.GetImm(MIPS_REG_FPCOND) & 1) {
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					ORRI2R(gpr.R(rt), gpr.R(rt), 0x1 << 23, SCRATCH2);
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				} else {
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					ANDI2R(gpr.R(rt), gpr.R(rt), ~(0x1 << 23), SCRATCH2);
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				}
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			} else {
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				gpr.MapDirtyIn(rt, MIPS_REG_FPCOND);
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				LDR(INDEX_UNSIGNED, gpr.R(rt), CTXREG, offsetof(MIPSState, fcr31));
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				BFI(gpr.R(rt), gpr.R(MIPS_REG_FPCOND), 23, 1);
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			}
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		} else if (fs == 0) {
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			gpr.SetImm(rt, MIPSState::FCR0_VALUE);
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		} else {
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			// Unsupported regs are always 0.
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			gpr.SetImm(rt, 0);
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		}
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		return;
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	case 4: //FI(fs) = R(rt);	break; //mtc1
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		if (gpr.IsImm(rt)) {
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			// This can't be run on LO/HI.
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			uint32_t ival = (uint32_t)gpr.GetImm(rt);
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			float floatval;
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			memcpy(&floatval, &ival, sizeof(floatval));
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			uint8_t imm8;
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			// If zero, just zero it.
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			fpr.MapReg(fs, MAP_NOINIT | MAP_DIRTY);
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			if (ival == 0) {
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				fp.FMOV(fpr.R(fs), WZR);  // This is supposedly special cased in hardware to be fast.
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			} else if (FPImm8FromFloat(floatval, &imm8)) {
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				fp.FMOV(fpr.R(fs), imm8);
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			} else {
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				// Materialize the register and do a cross move.
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				gpr.MapReg(rt);
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				fp.FMOV(fpr.R(fs), gpr.R(rt));
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			}
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		} else {
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			gpr.MapReg(rt);
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			fpr.MapReg(fs, MAP_NOINIT | MAP_DIRTY);
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			fp.FMOV(fpr.R(fs), gpr.R(rt));
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		}
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		return;
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	case 6: //ctc1
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		if (fs == 31) {
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			// Must clear before setting, since ApplyRoundingMode() assumes it was cleared.
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			RestoreRoundingMode();
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			bool wasImm = gpr.IsImm(rt);
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			u32 immVal = -1;
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			if (wasImm) {
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				immVal = gpr.GetImm(rt);
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				gpr.SetImm(MIPS_REG_FPCOND, (immVal >> 23) & 1);
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				gpr.MapReg(rt);
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			} else {
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				gpr.MapDirtyIn(MIPS_REG_FPCOND, rt);
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			}
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			// Update MIPS state
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			// TODO: Technically, should mask by 0x0181FFFF.  Maybe just put all of FCR31 in the reg?
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			STR(INDEX_UNSIGNED, gpr.R(rt), CTXREG, offsetof(MIPSState, fcr31));
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			if (!wasImm) {
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				UBFX(gpr.R(MIPS_REG_FPCOND), gpr.R(rt), 23, 1);
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				// TODO: We do have the fcr31 value in a register here, could use that in UpdateRoundingMode to avoid reloading it.
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				UpdateRoundingMode();
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			} else {
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				UpdateRoundingMode(immVal);
402
			}
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			ApplyRoundingMode();
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		} else {
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			Comp_Generic(op);
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		}
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		return;
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	default:
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		DISABLE;
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		break;
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	}
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}
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}	// namespace MIPSComp
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#endif // PPSSPP_ARCH(ARM64)
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