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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(X86) || PPSSPP_ARCH(AMD64)
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#include "Core/MemMap.h"
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#include "Core/MIPS/MIPSAnalyst.h"
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#include "Core/Config.h"
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#include "Core/MIPS/MIPSCodeUtils.h"
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#include "Core/MIPS/x86/Jit.h"
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#include "Core/MIPS/x86/RegCache.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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// 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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#define INVALIDOP { Comp_Generic(op); return; }
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namespace MIPSComp {
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	using namespace Gen;
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	void Jit::CompITypeMemRead(MIPSOpcode op, u32 bits, void (XEmitter::*mov)(int, int, X64Reg, OpArg), const void *safeFunc)
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	{
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		CONDITIONAL_DISABLE(LSU);
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		int offset = _IMM16;
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		MIPSGPReg rt = _RT;
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		MIPSGPReg rs = _RS;
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		gpr.Lock(rt, rs);
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		gpr.MapReg(rt, rt == rs, true);
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		JitSafeMem safe(this, rs, offset);
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		OpArg src;
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		if (safe.PrepareRead(src, bits / 8))
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			(this->*mov)(32, bits, gpr.RX(rt), src);
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		if (safe.PrepareSlowRead(safeFunc))
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			(this->*mov)(32, bits, gpr.RX(rt), R(EAX));
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		safe.Finish();
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		gpr.UnlockAll();
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	}
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	static OpArg DowncastImm(OpArg in, int bits) {
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		if (!in.IsImm())
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			return in;
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		if (in.GetImmBits() > bits) {
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			in.SetImmBits(bits);
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			return in;
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		}
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		return in;
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	}
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	void Jit::CompITypeMemWrite(MIPSOpcode op, u32 bits, const void *safeFunc, bool makeRTWritable)
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	{
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		CONDITIONAL_DISABLE(LSU);
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		int offset = _IMM16;
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		MIPSGPReg rt = _RT;
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		MIPSGPReg rs = _RS;
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		gpr.Lock(rt, rs);
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		if (rt == MIPS_REG_ZERO || gpr.R(rt).IsImm()) {
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			if (makeRTWritable) {
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				gpr.MapReg(rt, true, true);
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			}
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			// NOTICE_LOG(Log::JIT, "%d-bit Imm at %08x : %08x", bits, js.blockStart, (u32)gpr.R(rt).GetImmValue());
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		} else {
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			gpr.MapReg(rt, true, false);
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		}
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#if PPSSPP_ARCH(X86)
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		// We use EDX so we can have DL for 8-bit ops.
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		const bool needSwap = bits == 8 && !gpr.R(rt).IsSimpleReg(EDX) && !gpr.R(rt).IsSimpleReg(ECX);
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		if (needSwap)
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			gpr.FlushLockX(EDX);
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#else
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		const bool needSwap = false;
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#endif
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		JitSafeMem safe(this, rs, offset);
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		OpArg dest;
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		if (safe.PrepareWrite(dest, bits / 8))
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		{
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			if (needSwap)
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			{
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				MOV(32, R(EDX), gpr.R(rt));
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				MOV(bits, dest, R(EDX));
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			}
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			else {
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				if (rt == MIPS_REG_ZERO) {
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					switch (bits) {
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					case 8: MOV(8, dest, Imm8(0)); break;
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					case 16: MOV(16, dest, Imm16(0)); break;
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					case 32: MOV(32, dest, Imm32(0)); break;
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					}
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				} else {
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					// The downcast is needed so we don't try to generate a 8-bit write with a 32-bit imm
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					// (that might have been generated from an li instruction) which is illegal.
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					MOV(bits, dest, DowncastImm(gpr.R(rt), bits));
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				}
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			}
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		}
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		if (safe.PrepareSlowWrite())
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			safe.DoSlowWrite(safeFunc, gpr.R(rt));
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		safe.Finish();
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		if (needSwap)
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			gpr.UnlockAllX();
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		gpr.UnlockAll();
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	}
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	void Jit::CompITypeMemUnpairedLR(MIPSOpcode op, bool isStore)
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	{
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		CONDITIONAL_DISABLE(LSU);
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		int offset = _IMM16;
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		MIPSGPReg rt = _RT;
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		MIPSGPReg rs = _RS;
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		X64Reg shiftReg = ECX;
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		gpr.FlushLockX(ECX, EDX);
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#if PPSSPP_ARCH(AMD64)
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		// On x64, we need ECX for CL, but it's also the first arg and gets lost.  Annoying.
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		gpr.FlushLockX(R9);
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		shiftReg = R9;
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#endif
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		gpr.Lock(rt, rs);
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		gpr.MapReg(rt, true, !isStore);
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		// Grab the offset from alignment for shifting (<< 3 for bytes -> bits.)
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		MOV(32, R(shiftReg), gpr.R(rs));
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		ADD(32, R(shiftReg), Imm32(offset));
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		AND(32, R(shiftReg), Imm32(3));
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		SHL(32, R(shiftReg), Imm8(3));
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		{
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			JitSafeMem safe(this, rs, offset, ~3);
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			OpArg src;
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			if (safe.PrepareRead(src, 4))
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			{
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				if (!src.IsSimpleReg(EAX))
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					MOV(32, R(EAX), src);
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				CompITypeMemUnpairedLRInner(op, shiftReg);
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			}
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			if (safe.PrepareSlowRead(safeMemFuncs.readU32))
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				CompITypeMemUnpairedLRInner(op, shiftReg);
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			safe.Finish();
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		}
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		// For store ops, write EDX back to memory.
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		if (isStore)
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		{
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			JitSafeMem safe(this, rs, offset, ~3);
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			OpArg dest;
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			if (safe.PrepareWrite(dest, 4))
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				MOV(32, dest, R(EDX));
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			if (safe.PrepareSlowWrite())
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				safe.DoSlowWrite(safeMemFuncs.writeU32, R(EDX));
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			safe.Finish();
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		}
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		gpr.UnlockAll();
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		gpr.UnlockAllX();
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	}
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	void Jit::CompITypeMemUnpairedLRInner(MIPSOpcode op, X64Reg shiftReg)
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	{
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		CONDITIONAL_DISABLE(LSU);
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		int o = op>>26;
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		MIPSGPReg rt = _RT;
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		// Make sure we have the shift for the target in ECX.
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		if (shiftReg != ECX)
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			MOV(32, R(ECX), R(shiftReg));
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		// Now use that shift (left on target, right on source.)
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		switch (o)
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		{
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		case 34: //lwl
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			MOV(32, R(EDX), Imm32(0x00ffffff));
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			SHR(32, R(EDX), R(CL));
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			AND(32, gpr.R(rt), R(EDX));
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			break;
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		case 38: //lwr
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			SHR(32, R(EAX), R(CL));
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			break;
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		case 42: //swl
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			MOV(32, R(EDX), Imm32(0xffffff00));
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			SHL(32, R(EDX), R(CL));
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			AND(32, R(EAX), R(EDX));
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			break;
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		case 46: //swr
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			MOV(32, R(EDX), gpr.R(rt));
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			SHL(32, R(EDX), R(CL));
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			// EDX is already the target value to write, but may be overwritten below.  Save it.
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			PUSH(EDX);
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			break;
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		default:
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			_dbg_assert_msg_(false, "Unsupported left/right load/store instruction.");
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		}
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		// Flip ECX around from 3 bytes / 24 bits.
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		if (shiftReg == ECX)
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		{
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			MOV(32, R(EDX), Imm32(24));
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			SUB(32, R(EDX), R(ECX));
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			MOV(32, R(ECX), R(EDX));
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		}
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		else
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		{
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			MOV(32, R(ECX), Imm32(24));
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			SUB(32, R(ECX), R(shiftReg));
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		}
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		// Use the flipped shift (left on source, right on target) and write target.
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		switch (o)
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		{
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		case 34: //lwl
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			SHL(32, R(EAX), R(CL));
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			OR(32, gpr.R(rt), R(EAX));
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			break;
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		case 38: //lwr
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			MOV(32, R(EDX), Imm32(0xffffff00));
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			SHL(32, R(EDX), R(CL));
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			AND(32, gpr.R(rt), R(EDX));
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			OR(32, gpr.R(rt), R(EAX));
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			break;
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		case 42: //swl
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			MOV(32, R(EDX), gpr.R(rt));
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			SHR(32, R(EDX), R(CL));
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			OR(32, R(EDX), R(EAX));
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			break;
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		case 46: //swr
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			MOV(32, R(EDX), Imm32(0x00ffffff));
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			SHR(32, R(EDX), R(CL));
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			AND(32, R(EAX), R(EDX));
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			// This is the target value we saved earlier.
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			POP(EDX);
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			OR(32, R(EDX), R(EAX));
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			break;
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		default:
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			_dbg_assert_msg_(false, "Unsupported left/right load/store instruction.");
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		}
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	}
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	void Jit::Comp_ITypeMem(MIPSOpcode op)
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	{
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		CONDITIONAL_DISABLE(LSU);
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		int offset = _IMM16;
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		MIPSGPReg rs = _RS;
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		MIPSGPReg rt = _RT;
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		int o = op>>26;
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		if (((op >> 29) & 1) == 0 && rt == MIPS_REG_ZERO) {
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			// Don't load anything into $zr
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			return;
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		}
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		CheckMemoryBreakpoint(0, rs, offset);
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		switch (o)
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		{
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		case 37: //R(rt) = ReadMem16(addr); break; //lhu
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			CompITypeMemRead(op, 16, &XEmitter::MOVZX, safeMemFuncs.readU16);
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			break;
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		case 36: //R(rt) = ReadMem8 (addr); break; //lbu
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			CompITypeMemRead(op, 8, &XEmitter::MOVZX,  safeMemFuncs.readU8);
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			break;
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		case 35: //R(rt) = ReadMem32(addr); break; //lw
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			CompITypeMemRead(op, 32, &XEmitter::MOVZX, safeMemFuncs.readU32);
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			break;
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		case 32: //R(rt) = SignExtend8ToU32 (ReadMem8 (addr)); break; //lb
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			CompITypeMemRead(op, 8, &XEmitter::MOVSX, safeMemFuncs.readU8);
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			break;
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		case 33: //R(rt) = SignExtend16ToU32(ReadMem16(addr)); break; //lh
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			CompITypeMemRead(op, 16, &XEmitter::MOVSX, safeMemFuncs.readU16);
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			break;
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		case 40: //WriteMem8 (addr, R(rt)); break; //sb
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			CompITypeMemWrite(op, 8, safeMemFuncs.writeU8);
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			break;
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		case 41: //WriteMem16(addr, R(rt)); break; //sh
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			CompITypeMemWrite(op, 16, safeMemFuncs.writeU16);
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			break;
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		case 43: //WriteMem32(addr, R(rt)); break; //sw
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			CompITypeMemWrite(op, 32, safeMemFuncs.writeU32);
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			break;
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		case 34: //lwl
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			{
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				MIPSOpcode nextOp = GetOffsetInstruction(1);
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				// Looking for lwr rd, offset-3(rs) which makes a pair.
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				u32 desiredOp = ((op & 0xFFFF0000) + (4 << 26)) + (offset - 3);
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				if (!js.inDelaySlot && nextOp == desiredOp && !jo.Disabled(JitDisable::LSU_UNALIGNED))
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				{
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					CheckMemoryBreakpoint(1, rs, offset - 3);
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					EatInstruction(nextOp);
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					// nextOp has the correct address.
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					CompITypeMemRead(nextOp, 32, &XEmitter::MOVZX, safeMemFuncs.readU32);
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				}
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				else
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					CompITypeMemUnpairedLR(op, false);
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			}
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			break;
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		case 38: //lwr
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			{
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				MIPSOpcode nextOp = GetOffsetInstruction(1);
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				// Looking for lwl rd, offset+3(rs) which makes a pair.
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				u32 desiredOp = ((op & 0xFFFF0000) - (4 << 26)) + (offset + 3);
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				if (!js.inDelaySlot && nextOp == desiredOp && !jo.Disabled(JitDisable::LSU_UNALIGNED))
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				{
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					CheckMemoryBreakpoint(1, rs, offset + 3);
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					EatInstruction(nextOp);
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					// op has the correct address.
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					CompITypeMemRead(op, 32, &XEmitter::MOVZX, safeMemFuncs.readU32);
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				}
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				else
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					CompITypeMemUnpairedLR(op, false);
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			}
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			break;
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		case 42: //swl
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			{
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				MIPSOpcode nextOp = GetOffsetInstruction(1);
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				// Looking for swr rd, offset-3(rs) which makes a pair.
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				u32 desiredOp = ((op & 0xFFFF0000) + (4 << 26)) + (offset - 3);
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				if (!js.inDelaySlot && nextOp == desiredOp && !jo.Disabled(JitDisable::LSU_UNALIGNED))
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				{
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					CheckMemoryBreakpoint(1, rs, offset - 3);
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					EatInstruction(nextOp);
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					// nextOp has the correct address.
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					CompITypeMemWrite(nextOp, 32, safeMemFuncs.writeU32);
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				}
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				else
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					CompITypeMemUnpairedLR(op, true);
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			}
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			break;
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		case 46: //swr
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			{
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				MIPSOpcode nextOp = GetOffsetInstruction(1);
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				// Looking for swl rd, offset+3(rs) which makes a pair.
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				u32 desiredOp = ((op & 0xFFFF0000) - (4 << 26)) + (offset + 3);
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				if (!js.inDelaySlot && nextOp == desiredOp && !jo.Disabled(JitDisable::LSU_UNALIGNED))
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				{
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					CheckMemoryBreakpoint(1, rs, offset + 3);
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					EatInstruction(nextOp);
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					// op has the correct address.
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					CompITypeMemWrite(op, 32, safeMemFuncs.writeU32);
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				}
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				else
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					CompITypeMemUnpairedLR(op, true);
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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 Jit::Comp_StoreSync(MIPSOpcode op) {
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		CONDITIONAL_DISABLE(LSU);
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		int offset = _IMM16;
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		MIPSGPReg rt = _RT;
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		MIPSGPReg rs = _RS;
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		// Note: still does something even if loading to zero.
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		CheckMemoryBreakpoint(0, rs, offset);
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		FixupBranch skipStore;
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		FixupBranch finish;
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		switch (op >> 26) {
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		case 48: // ll
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			CompITypeMemRead(op, 32, &XEmitter::MOVZX, safeMemFuncs.readU32);
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			MOV(8, MDisp(X64JitConstants::CTXREG, -128 + offsetof(MIPSState, llBit)), Imm8(1));
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			break;
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		case 56: // sc
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			// Map before the jump in case any regs spill.  Unlock happens inside CompITypeMemWrite().
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			// This is not a very common op, but it's in jit so memory breakpoints can trip.
433
			gpr.Lock(rt, rs);
434
			gpr.MapReg(rt, true, true);
435
			gpr.MapReg(rs, true, false);
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437
			CMP(8, MDisp(X64JitConstants::CTXREG, -128 + offsetof(MIPSState, llBit)), Imm8(1));
438
			skipStore = J_CC(CC_NE);
439

440
			CompITypeMemWrite(op, 32, safeMemFuncs.writeU32, true);
441
			MOV(32, gpr.R(rt), Imm32(1));
442
			finish = J();
443

444
			SetJumpTarget(skipStore);
445
			MOV(32, gpr.R(rt), Imm32(0));
446
			SetJumpTarget(finish);
447
			break;
448

449
		default:
450
			INVALIDOP;
451
		}
452
	}
453

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	void Jit::Comp_Cache(MIPSOpcode op) {
455
		CONDITIONAL_DISABLE(LSU);
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457
		int func = (op >> 16) & 0x1F;
458

459
		// See Int_Cache for the definitions.
460
		switch (func) {
461
		case 24: break;
462
		case 25: break;
463
		case 27: break;
464
		case 30: break;
465
		default:
466
			// Fall back to the interpreter.
467
			DISABLE;
468
		}
469
	}
470
}
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#endif // PPSSPP_ARCH(X86) || PPSSPP_ARCH(AMD64)
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