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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(ARM)
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#include <cmath>
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#include "Common/CPUDetect.h"
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#include "Common/Data/Convert/SmallDataConvert.h"
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#include "Common/Math/math_util.h"
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#include "Core/Compatibility.h"
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#include "Core/Config.h"
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#include "Core/MemMap.h"
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#include "Core/Reporting.h"
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#include "Core/System.h"
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#include "Core/MIPS/MIPS.h"
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#include "Core/MIPS/MIPSTables.h"
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#include "Core/MIPS/MIPSAnalyst.h"
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#include "Core/MIPS/MIPSCodeUtils.h"
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#include "Core/MIPS/ARM/ArmJit.h"
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#include "Core/MIPS/ARM/ArmRegCache.h"
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// Cool NEON references:
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// http://www.delmarnorth.com/microwave/requirements/neon-test-tutorial.pdf
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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 { fpr.ReleaseSpillLocksAndDiscardTemps(); 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 { fpr.ReleaseSpillLocksAndDiscardTemps(); Comp_Generic(op); return; }
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#define NEON_IF_AVAILABLE(func) { if (jo.useNEONVFPU) { func(op); return; } }
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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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namespace MIPSComp
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{
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	using namespace ArmGen;
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	using namespace ArmJitConstants;
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	// Vector regs can overlap in all sorts of swizzled ways.
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	// This does allow a single overlap in sregs[i].
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	static bool IsOverlapSafeAllowS(int dreg, int di, int sn, u8 sregs[], int tn = 0, u8 tregs[] = NULL)
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	{
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		for (int i = 0; i < sn; ++i)
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		{
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			if (sregs[i] == dreg && i != di)
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				return false;
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		}
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		for (int i = 0; i < tn; ++i)
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		{
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			if (tregs[i] == dreg)
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				return false;
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		}
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		// Hurray, no overlap, we can write directly.
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		return true;
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	}
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	static bool IsOverlapSafe(int dreg, int di, int sn, u8 sregs[], int tn = 0, u8 tregs[] = NULL)
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	{
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		return IsOverlapSafeAllowS(dreg, di, sn, sregs, tn, tregs) && sregs[di] != dreg;
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	}
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	void ArmJit::Comp_VPFX(MIPSOpcode op)
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	{
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		CONDITIONAL_DISABLE(VFPU_XFER);
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		int data = op & 0xFFFFF;
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		int regnum = (op >> 24) & 3;
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		switch (regnum) {
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		case 0:  // S
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			js.prefixS = data;
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			js.prefixSFlag = JitState::PREFIX_KNOWN_DIRTY;
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			break;
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		case 1:  // T
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			js.prefixT = data;
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			js.prefixTFlag = JitState::PREFIX_KNOWN_DIRTY;
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			break;
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		case 2:  // D
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			js.prefixD = data & 0x00000FFF;
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			js.prefixDFlag = JitState::PREFIX_KNOWN_DIRTY;
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			break;
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		default:
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			ERROR_LOG(Log::CPU, "VPFX - bad regnum %i : data=%08x", regnum, data);
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			break;
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		}
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	}
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	void ArmJit::ApplyPrefixST(u8 *vregs, u32 prefix, VectorSize sz) {
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		if (prefix == 0xE4)
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			return;
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		int n = GetNumVectorElements(sz);
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		u8 origV[4];
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		static const float constantArray[8] = {0.f, 1.f, 2.f, 0.5f, 3.f, 1.f/3.f, 0.25f, 1.f/6.f};
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		for (int i = 0; i < n; i++)
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			origV[i] = vregs[i];
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		for (int i = 0; i < n; i++) {
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			int regnum = (prefix >> (i*2)) & 3;
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			int abs    = (prefix >> (8+i)) & 1;
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			int negate = (prefix >> (16+i)) & 1;
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			int constants = (prefix >> (12+i)) & 1;
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			// Unchanged, hurray.
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			if (!constants && regnum == i && !abs && !negate)
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				continue;
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			// This puts the value into a temp reg, so we won't write the modified value back.
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			vregs[i] = fpr.GetTempV();
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			if (!constants) {
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				fpr.MapDirtyInV(vregs[i], origV[regnum]);
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				fpr.SpillLockV(vregs[i]);
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				// Prefix may say "z, z, z, z" but if this is a pair, we force to x.
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				// TODO: But some ops seem to use const 0 instead?
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				if (regnum >= n) {
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					WARN_LOG(Log::CPU, "JIT: Invalid VFPU swizzle: %08x : %d / %d at PC = %08x (%s)", prefix, regnum, n, GetCompilerPC(), MIPSDisasmAt(GetCompilerPC()).c_str());
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					regnum = 0;
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				}
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				if (abs) {
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					VABS(fpr.V(vregs[i]), fpr.V(origV[regnum]));
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					if (negate)
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						VNEG(fpr.V(vregs[i]), fpr.V(vregs[i]));
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				} else {
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					if (negate)
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						VNEG(fpr.V(vregs[i]), fpr.V(origV[regnum]));
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					else
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						VMOV(fpr.V(vregs[i]), fpr.V(origV[regnum]));
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				}
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			} else {
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				fpr.MapRegV(vregs[i], MAP_DIRTY | MAP_NOINIT);
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				fpr.SpillLockV(vregs[i]);
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				MOVI2F(fpr.V(vregs[i]), constantArray[regnum + (abs<<2)], SCRATCHREG1, negate != 0);
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			}
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		}
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	}
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	void ArmJit::GetVectorRegsPrefixD(u8 *regs, VectorSize sz, int vectorReg) {
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		_assert_(js.prefixDFlag & JitState::PREFIX_KNOWN);
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		GetVectorRegs(regs, sz, vectorReg);
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		if (js.prefixD == 0)
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			return;
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		int n = GetNumVectorElements(sz);
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		for (int i = 0; i < n; i++) {
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			// Hopefully this is rare, we'll just write it into a reg we drop.
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			if (js.VfpuWriteMask(i))
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				regs[i] = fpr.GetTempV();
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		}
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	}
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	void ArmJit::ApplyPrefixD(const u8 *vregs, VectorSize sz) {
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		_assert_(js.prefixDFlag & JitState::PREFIX_KNOWN);
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		if (!js.prefixD)
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			return;
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		int n = GetNumVectorElements(sz);
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		for (int i = 0; i < n; i++) 	{
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			if (js.VfpuWriteMask(i))
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				continue;
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			int sat = (js.prefixD >> (i * 2)) & 3;
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			if (sat == 1) {
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				// clamped = x < 0 ? (x > 1 ? 1 : x) : x [0, 1]
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				fpr.MapRegV(vregs[i], MAP_DIRTY);
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				MOVI2F(S0, 0.0f, SCRATCHREG1);
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				MOVI2F(S1, 1.0f, SCRATCHREG1);
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				VCMP(fpr.V(vregs[i]), S0);
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				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
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				SetCC(CC_LS);
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				VMOV(fpr.V(vregs[i]), S0);
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				SetCC(CC_AL);
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				VCMP(fpr.V(vregs[i]), S1);
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				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
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				SetCC(CC_GT);
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				VMOV(fpr.V(vregs[i]), S1);
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				SetCC(CC_AL);
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			} else if (sat == 3) {
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				// clamped = x < -1 ? (x > 1 ? 1 : x) : x [-1, 1]
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				fpr.MapRegV(vregs[i], MAP_DIRTY);
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				MOVI2F(S0, -1.0f, SCRATCHREG1);
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				MOVI2F(S1, 1.0f, SCRATCHREG1);
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				VCMP(fpr.V(vregs[i]), S0);
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				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
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				SetCC(CC_LO);
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				VMOV(fpr.V(vregs[i]), S0);
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				SetCC(CC_AL);
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				VCMP(fpr.V(vregs[i]), S1);
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				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
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				SetCC(CC_GT);
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				VMOV(fpr.V(vregs[i]), S1);
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				SetCC(CC_AL);
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			}
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		}
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	}
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	void ArmJit::Comp_SV(MIPSOpcode op) {
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		NEON_IF_AVAILABLE(CompNEON_SV);
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		CONDITIONAL_DISABLE(LSU_VFPU);
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		CheckMemoryBreakpoint();
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		s32 offset = (signed short)(op & 0xFFFC);
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		int vt = ((op >> 16) & 0x1f) | ((op & 3) << 5);
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		MIPSGPReg rs = _RS;
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		bool doCheck = false;
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		switch (op >> 26)
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		{
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		case 50: //lv.s  // VI(vt) = Memory::Read_U32(addr);
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			{
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				if (!gpr.IsImm(rs) && jo.cachePointers && g_Config.bFastMemory && (offset & 3) == 0 && offset < 0x400 && offset > -0x400) {
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					gpr.MapRegAsPointer(rs);
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					fpr.MapRegV(vt, MAP_NOINIT | MAP_DIRTY);
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					VLDR(fpr.V(vt), gpr.RPtr(rs), offset);
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					break;
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				}
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				// CC might be set by slow path below, so load regs first.
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				fpr.MapRegV(vt, MAP_DIRTY | MAP_NOINIT);
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				if (gpr.IsImm(rs)) {
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					u32 addr = (offset + gpr.GetImm(rs)) & 0x3FFFFFFF;
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					gpr.SetRegImm(R0, addr + (u32)Memory::base);
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				} else {
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					gpr.MapReg(rs);
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					if (g_Config.bFastMemory) {
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						SetR0ToEffectiveAddress(rs, offset);
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					} else {
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						SetCCAndR0ForSafeAddress(rs, offset, SCRATCHREG2);
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						doCheck = true;
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					}
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					ADD(R0, R0, MEMBASEREG);
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				}
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#ifdef __ARM_ARCH_7S__
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				FixupBranch skip;
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				if (doCheck) {
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					skip = B_CC(CC_EQ);
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				}
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				VLDR(fpr.V(vt), R0, 0);
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				if (doCheck) {
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					SetJumpTarget(skip);
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					SetCC(CC_AL);
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				}
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#else
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				VLDR(fpr.V(vt), R0, 0);
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				if (doCheck) {
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					SetCC(CC_EQ);
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					MOVI2F(fpr.V(vt), 0.0f, SCRATCHREG1);
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					SetCC(CC_AL);
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				}
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#endif
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			}
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			break;
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		case 58: //sv.s   // Memory::Write_U32(VI(vt), addr);
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			{
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				if (!gpr.IsImm(rs) && jo.cachePointers && g_Config.bFastMemory && (offset & 3) == 0 && offset < 0x400 && offset > -0x400) {
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					gpr.MapRegAsPointer(rs);
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					fpr.MapRegV(vt, 0);
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					VSTR(fpr.V(vt), gpr.RPtr(rs), offset);
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					break;
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				}
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				// CC might be set by slow path below, so load regs first.
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				fpr.MapRegV(vt);
297
				if (gpr.IsImm(rs)) {
298
					u32 addr = (offset + gpr.GetImm(rs)) & 0x3FFFFFFF;
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					gpr.SetRegImm(R0, addr + (u32)Memory::base);
300
				} else {
301
					gpr.MapReg(rs);
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					if (g_Config.bFastMemory) {
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						SetR0ToEffectiveAddress(rs, offset);
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					} else {
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						SetCCAndR0ForSafeAddress(rs, offset, SCRATCHREG2);
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						doCheck = true;
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					}
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					ADD(R0, R0, MEMBASEREG);
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				}
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#ifdef __ARM_ARCH_7S__
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				FixupBranch skip;
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				if (doCheck) {
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					skip = B_CC(CC_EQ);
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				}
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				VSTR(fpr.V(vt), R0, 0);
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				if (doCheck) {
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					SetJumpTarget(skip);
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					SetCC(CC_AL);
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				}
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#else
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				VSTR(fpr.V(vt), R0, 0);
322
				if (doCheck) {
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					SetCC(CC_AL);
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				}
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#endif
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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 ArmJit::Comp_SVQ(MIPSOpcode op)
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	{
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		NEON_IF_AVAILABLE(CompNEON_SVQ);
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		CONDITIONAL_DISABLE(LSU_VFPU);
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		CheckMemoryBreakpoint();
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341
		int imm = (signed short)(op&0xFFFC);
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		int vt = (((op >> 16) & 0x1f)) | ((op&1) << 5);
343
		MIPSGPReg rs = _RS;
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345
		bool doCheck = false;
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		switch (op >> 26)
347
		{
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		case 54: //lv.q
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			{
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				// CC might be set by slow path below, so load regs first.
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				u8 vregs[4];
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				GetVectorRegs(vregs, V_Quad, vt);
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				fpr.MapRegsAndSpillLockV(vregs, V_Quad, MAP_DIRTY | MAP_NOINIT);
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355
				if (gpr.IsImm(rs)) {
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					u32 addr = (imm + gpr.GetImm(rs)) & 0x3FFFFFFF;
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					gpr.SetRegImm(R0, addr + (u32)Memory::base);
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				} else {
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					gpr.MapReg(rs);
360
					if (g_Config.bFastMemory) {
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						SetR0ToEffectiveAddress(rs, imm);
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					} else {
363
						SetCCAndR0ForSafeAddress(rs, imm, SCRATCHREG2);
364
						doCheck = true;
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					}
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					ADD(R0, R0, MEMBASEREG);
367
				}
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#ifdef __ARM_ARCH_7S__
370
				FixupBranch skip;
371
				if (doCheck) {
372
					skip = B_CC(CC_EQ);
373
				}
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375
				bool consecutive = true;
376
				for (int i = 0; i < 3 && consecutive; i++)
377
					if ((fpr.V(vregs[i]) + 1) != fpr.V(vregs[i+1]))
378
						consecutive = false;
379
				if (consecutive) {
380
					VLDMIA(R0, false, fpr.V(vregs[0]), 4);
381
				} else {
382
					for (int i = 0; i < 4; i++)
383
						VLDR(fpr.V(vregs[i]), R0, i * 4);
384
				}
385

386
				if (doCheck) {
387
					SetJumpTarget(skip);
388
					SetCC(CC_AL);
389
				}
390
#else
391
				bool consecutive = true;
392
				for (int i = 0; i < 3 && consecutive; i++)
393
					if ((fpr.V(vregs[i]) + 1) != fpr.V(vregs[i+1]))
394
						consecutive = false;
395
				if (consecutive) {
396
					VLDMIA(R0, false, fpr.V(vregs[0]), 4);
397
				} else {
398
					for (int i = 0; i < 4; i++)
399
						VLDR(fpr.V(vregs[i]), R0, i * 4);
400
				}
401

402
				if (doCheck) {
403
					SetCC(CC_EQ);
404
					MOVI2R(SCRATCHREG1, 0);
405
					for (int i = 0; i < 4; i++)
406
						VMOV(fpr.V(vregs[i]), SCRATCHREG1);
407
					SetCC(CC_AL);
408
				}
409
#endif
410
			}
411
			break;
412

413
		case 62: //sv.q
414
			{
415
				// CC might be set by slow path below, so load regs first.
416
				u8 vregs[4];
417
				GetVectorRegs(vregs, V_Quad, vt);
418
				fpr.MapRegsAndSpillLockV(vregs, V_Quad, 0);
419

420
				if (gpr.IsImm(rs)) {
421
					u32 addr = (imm + gpr.GetImm(rs)) & 0x3FFFFFFF;
422
					gpr.SetRegImm(R0, addr + (u32)Memory::base);
423
				} else {
424
					gpr.MapReg(rs);
425
					if (g_Config.bFastMemory) {
426
						SetR0ToEffectiveAddress(rs, imm);
427
					} else {
428
						SetCCAndR0ForSafeAddress(rs, imm, SCRATCHREG2);
429
						doCheck = true;
430
					}
431
					ADD(R0, R0, MEMBASEREG);
432
				}
433

434
#ifdef __ARM_ARCH_7S__
435
				FixupBranch skip;
436
				if (doCheck) {
437
					skip = B_CC(CC_EQ);
438
				}
439

440
				bool consecutive = true;
441
				for (int i = 0; i < 3 && consecutive; i++)
442
					if ((fpr.V(vregs[i]) + 1) != fpr.V(vregs[i+1]))
443
						consecutive = false;
444
				if (consecutive) {
445
					VSTMIA(R0, false, fpr.V(vregs[0]), 4);
446
				} else {
447
					for (int i = 0; i < 4; i++)
448
						VSTR(fpr.V(vregs[i]), R0, i * 4);
449
				}
450

451
				if (doCheck) {
452
					SetJumpTarget(skip);
453
					SetCC(CC_AL);
454
				}
455
#else
456
				bool consecutive = true;
457
				for (int i = 0; i < 3 && consecutive; i++)
458
					if ((fpr.V(vregs[i]) + 1) != fpr.V(vregs[i+1]))
459
						consecutive = false;
460
				if (consecutive) {
461
					VSTMIA(R0, false, fpr.V(vregs[0]), 4);
462
				} else {
463
					for (int i = 0; i < 4; i++)
464
						VSTR(fpr.V(vregs[i]), R0, i * 4);
465
				}
466

467
				if (doCheck) {
468
					SetCC(CC_AL);
469
				}
470
#endif
471
			}
472
			break;
473

474
		default:
475
			DISABLE;
476
			break;
477
		}
478
		fpr.ReleaseSpillLocksAndDiscardTemps();
479
	}
480

481
	void ArmJit::Comp_VVectorInit(MIPSOpcode op)
482
	{
483
		NEON_IF_AVAILABLE(CompNEON_VVectorInit);
484
		CONDITIONAL_DISABLE(VFPU_XFER);
485
		// WARNING: No prefix support!
486
		if (js.HasUnknownPrefix()) {
487
			DISABLE;
488
		}
489

490
		switch ((op >> 16) & 0xF)
491
		{
492
		case 6: // v=zeros; break;  //vzero
493
			MOVI2F(S0, 0.0f, SCRATCHREG1);
494
			break;
495
		case 7: // v=ones; break;   //vone
496
			MOVI2F(S0, 1.0f, SCRATCHREG1);
497
			break;
498
		default:
499
			DISABLE;
500
			break;
501
		}
502

503
		VectorSize sz = GetVecSize(op);
504
		int n = GetNumVectorElements(sz);
505

506
		u8 dregs[4];
507
		GetVectorRegsPrefixD(dregs, sz, _VD);
508
		fpr.MapRegsAndSpillLockV(dregs, sz, MAP_NOINIT | MAP_DIRTY);
509

510
		for (int i = 0; i < n; ++i)
511
			VMOV(fpr.V(dregs[i]), S0);
512

513
		ApplyPrefixD(dregs, sz);
514

515
		fpr.ReleaseSpillLocksAndDiscardTemps();
516
	}
517

518
	void ArmJit::Comp_VIdt(MIPSOpcode op) {
519
		NEON_IF_AVAILABLE(CompNEON_VIdt);
520

521
		CONDITIONAL_DISABLE(VFPU_XFER);
522
		if (js.HasUnknownPrefix()) {
523
			DISABLE;
524
		}
525

526
		int vd = _VD;
527
		VectorSize sz = GetVecSize(op);
528
		int n = GetNumVectorElements(sz);
529
		MOVI2F(S0, 0.0f, SCRATCHREG1);
530
		MOVI2F(S1, 1.0f, SCRATCHREG1);
531
		u8 dregs[4];
532
		GetVectorRegsPrefixD(dregs, sz, _VD);
533
		fpr.MapRegsAndSpillLockV(dregs, sz, MAP_NOINIT | MAP_DIRTY);
534
		switch (sz)
535
		{
536
		case V_Pair:
537
			VMOV(fpr.V(dregs[0]), (vd&1)==0 ? S1 : S0);
538
			VMOV(fpr.V(dregs[1]), (vd&1)==1 ? S1 : S0);
539
			break;
540
		case V_Quad:
541
			VMOV(fpr.V(dregs[0]), (vd&3)==0 ? S1 : S0);
542
			VMOV(fpr.V(dregs[1]), (vd&3)==1 ? S1 : S0);
543
			VMOV(fpr.V(dregs[2]), (vd&3)==2 ? S1 : S0);
544
			VMOV(fpr.V(dregs[3]), (vd&3)==3 ? S1 : S0);
545
			break;
546
		default:
547
			_dbg_assert_msg_(false,"Trying to interpret instruction that can't be interpreted");
548
			break;
549
		}
550
		
551
		ApplyPrefixD(dregs, sz);
552

553
		fpr.ReleaseSpillLocksAndDiscardTemps();
554
	}
555

556
	void ArmJit::Comp_VMatrixInit(MIPSOpcode op)
557
	{
558
		NEON_IF_AVAILABLE(CompNEON_VMatrixInit);
559
		CONDITIONAL_DISABLE(VFPU_XFER);
560
		if (js.HasUnknownPrefix()) {
561
			// Don't think matrix init ops care about prefixes.
562
			// DISABLE;
563
		}
564

565
		MatrixSize sz = GetMtxSize(op);
566
		int n = GetMatrixSide(sz);
567

568
		u8 dregs[16];
569
		GetMatrixRegs(dregs, sz, _VD);
570

571
		switch ((op >> 16) & 0xF) {
572
		case 3: // vmidt
573
			MOVI2F(S0, 0.0f, SCRATCHREG1);
574
			MOVI2F(S1, 1.0f, SCRATCHREG1);
575
			for (int a = 0; a < n; a++) {
576
				for (int b = 0; b < n; b++) {
577
					fpr.MapRegV(dregs[a * 4 + b], MAP_DIRTY | MAP_NOINIT);
578
					VMOV(fpr.V(dregs[a * 4 + b]), a == b ? S1 : S0);
579
				}
580
			}
581
			break;
582
		case 6: // vmzero
583
			MOVI2F(S0, 0.0f, SCRATCHREG1);
584
			for (int a = 0; a < n; a++) {
585
				for (int b = 0; b < n; b++) {
586
					fpr.MapRegV(dregs[a * 4 + b], MAP_DIRTY | MAP_NOINIT);
587
					VMOV(fpr.V(dregs[a * 4 + b]), S0);
588
				}
589
			}
590
			break;
591
		case 7: // vmone
592
			MOVI2F(S1, 1.0f, SCRATCHREG1);
593
			for (int a = 0; a < n; a++) {
594
				for (int b = 0; b < n; b++) {
595
					fpr.MapRegV(dregs[a * 4 + b], MAP_DIRTY | MAP_NOINIT);
596
					VMOV(fpr.V(dregs[a * 4 + b]), S1);
597
				}
598
			}
599
			break;
600
		}
601

602
		fpr.ReleaseSpillLocksAndDiscardTemps();
603
	}
604

605
	void ArmJit::Comp_VHdp(MIPSOpcode op) {
606
		NEON_IF_AVAILABLE(CompNEON_VHdp);
607
		CONDITIONAL_DISABLE(VFPU_VEC);
608
		if (js.HasUnknownPrefix()) {
609
			DISABLE;
610
		}
611

612
		int vd = _VD;
613
		int vs = _VS;
614
		int vt = _VT;
615
		VectorSize sz = GetVecSize(op);
616

617
		// TODO: Force read one of them into regs? probably not.
618
		u8 sregs[4], tregs[4], dregs[1];
619
		GetVectorRegsPrefixS(sregs, sz, vs);
620
		GetVectorRegsPrefixT(tregs, sz, vt);
621
		GetVectorRegsPrefixD(dregs, V_Single, vd);
622

623
		// TODO: applyprefixST here somehow (shuffle, etc...)
624
		fpr.MapRegsAndSpillLockV(sregs, sz, 0);
625
		fpr.MapRegsAndSpillLockV(tregs, sz, 0);
626
		VMUL(S0, fpr.V(sregs[0]), fpr.V(tregs[0]));
627

628
		int n = GetNumVectorElements(sz);
629
		for (int i = 1; i < n; i++) {
630
			// sum += s[i]*t[i];
631
			if (i == n - 1) {
632
				VADD(S0, S0, fpr.V(tregs[i]));
633
			} else {
634
				VMLA(S0, fpr.V(sregs[i]), fpr.V(tregs[i]));
635
			}
636
		}
637
		fpr.ReleaseSpillLocksAndDiscardTemps();
638

639
		fpr.MapRegV(dregs[0], MAP_NOINIT | MAP_DIRTY);
640

641
		VMOV(fpr.V(dregs[0]), S0);
642
		ApplyPrefixD(dregs, V_Single);
643
		fpr.ReleaseSpillLocksAndDiscardTemps();
644
	}
645

646
	alignas(16) static const float vavg_table[4] = { 1.0f, 1.0f / 2.0f, 1.0f / 3.0f, 1.0f / 4.0f };
647

648
	void ArmJit::Comp_Vhoriz(MIPSOpcode op) {
649
		NEON_IF_AVAILABLE(CompNEON_Vhoriz);
650
		CONDITIONAL_DISABLE(VFPU_VEC);
651
		if (js.HasUnknownPrefix()) {
652
			DISABLE;
653
		}
654

655
		int vd = _VD;
656
		int vs = _VS;
657
		int vt = _VT;
658
		VectorSize sz = GetVecSize(op);
659

660
		// TODO: Force read one of them into regs? probably not.
661
		u8 sregs[4], dregs[1];
662
		GetVectorRegsPrefixS(sregs, sz, vs);
663
		GetVectorRegsPrefixD(dregs, V_Single, vd);
664

665
		// TODO: applyprefixST here somehow (shuffle, etc...)
666
		fpr.MapRegsAndSpillLockV(sregs, sz, 0);
667

668
		int n = GetNumVectorElements(sz);
669

670
		bool is_vavg = ((op >> 16) & 0x1f) == 7;
671
		if (is_vavg) {
672
			MOVI2F(S1, vavg_table[n - 1], R0);
673
		}
674
		// Have to start at +0.000 for the correct sign.
675
		MOVI2F(S0, 0.0f, SCRATCHREG1);
676
		for (int i = 0; i < n; i++) {
677
			// sum += s[i];
678
			VADD(S0, S0, fpr.V(sregs[i]));
679
		}
680

681
		fpr.MapRegV(dregs[0], MAP_NOINIT | MAP_DIRTY);
682
		if (is_vavg) {
683
			VMUL(fpr.V(dregs[0]), S0, S1);
684
		} else {
685
			VMOV(fpr.V(dregs[0]), S0);
686
		}
687
		ApplyPrefixD(dregs, V_Single);
688
		fpr.ReleaseSpillLocksAndDiscardTemps();
689
	}
690

691
	void ArmJit::Comp_VDot(MIPSOpcode op) {
692
		NEON_IF_AVAILABLE(CompNEON_VDot);
693
		CONDITIONAL_DISABLE(VFPU_VEC);
694
		if (js.HasUnknownPrefix()) {
695
			DISABLE;
696
		}
697

698
		int vd = _VD;
699
		int vs = _VS;
700
		int vt = _VT;
701
		VectorSize sz = GetVecSize(op);
702

703
		// TODO: Force read one of them into regs? probably not.
704
		u8 sregs[4], tregs[4], dregs[1];
705
		GetVectorRegsPrefixS(sregs, sz, vs);
706
		GetVectorRegsPrefixT(tregs, sz, vt);
707
		GetVectorRegsPrefixD(dregs, V_Single, vd);
708

709
		// TODO: applyprefixST here somehow (shuffle, etc...)
710
		fpr.MapRegsAndSpillLockV(sregs, sz, 0);
711
		fpr.MapRegsAndSpillLockV(tregs, sz, 0);
712
		VMUL(S0, fpr.V(sregs[0]), fpr.V(tregs[0]));
713

714
		int n = GetNumVectorElements(sz);
715
		for (int i = 1; i < n; i++) {
716
			// sum += s[i]*t[i];
717
			VMLA(S0, fpr.V(sregs[i]), fpr.V(tregs[i]));
718
		}
719
		fpr.ReleaseSpillLocksAndDiscardTemps();
720

721
		fpr.MapRegV(dregs[0], MAP_NOINIT | MAP_DIRTY);
722

723
		VMOV(fpr.V(dregs[0]), S0);
724
		ApplyPrefixD(dregs, V_Single);
725
		fpr.ReleaseSpillLocksAndDiscardTemps();
726
	}
727

728
	void ArmJit::Comp_VecDo3(MIPSOpcode op) {
729
		NEON_IF_AVAILABLE(CompNEON_VecDo3);
730
		CONDITIONAL_DISABLE(VFPU_VEC);
731
		if (js.HasUnknownPrefix()) {
732
			DISABLE;
733
		}
734

735
		int vd = _VD;
736
		int vs = _VS;
737
		int vt = _VT;
738

739
		VectorSize sz = GetVecSize(op);
740
		int n = GetNumVectorElements(sz);
741

742
		u8 sregs[4], tregs[4], dregs[4];
743
		GetVectorRegsPrefixS(sregs, sz, _VS);
744
		GetVectorRegsPrefixT(tregs, sz, _VT);
745
		GetVectorRegsPrefixD(dregs, sz, _VD);
746

747
		MIPSReg tempregs[4];
748
		for (int i = 0; i < n; i++) {
749
			if (!IsOverlapSafe(dregs[i], i, n, sregs, n, tregs)) {
750
				tempregs[i] = fpr.GetTempV();
751
			} else {
752
				tempregs[i] = dregs[i];
753
			}
754
		}
755

756
		// Map first, then work. This will allow us to use VLDMIA more often
757
		// (when we add the appropriate map function) and the instruction ordering
758
		// will improve.
759
		// Note that mapping like this (instead of first all sregs, first all tregs etc)
760
		// reduces the amount of continuous registers a lot :(
761
		for (int i = 0; i < n; i++) {
762
			fpr.MapDirtyInInV(tempregs[i], sregs[i], tregs[i]);
763
			fpr.SpillLockV(tempregs[i]);
764
			fpr.SpillLockV(sregs[i]);
765
			fpr.SpillLockV(tregs[i]);
766
		}
767
		
768
		for (int i = 0; i < n; i++) {
769
			switch (op >> 26) {
770
			case 24: //VFPU0
771
				switch ((op >> 23)&7) {
772
				case 0: // d[i] = s[i] + t[i]; break; //vadd
773
					VADD(fpr.V(tempregs[i]), fpr.V(sregs[i]), fpr.V(tregs[i]));
774
					break;
775
				case 1: // d[i] = s[i] - t[i]; break; //vsub
776
					VSUB(fpr.V(tempregs[i]), fpr.V(sregs[i]), fpr.V(tregs[i]));
777
					break;
778
				case 7: // d[i] = s[i] / t[i]; break; //vdiv
779
					VDIV(fpr.V(tempregs[i]), fpr.V(sregs[i]), fpr.V(tregs[i]));
780
					break;
781
				default:
782
					DISABLE;
783
				}
784
				break;
785
			case 25: //VFPU1
786
				switch ((op >> 23) & 7) {
787
				case 0: // d[i] = s[i] * t[i]; break; //vmul
788
					VMUL(fpr.V(tempregs[i]), fpr.V(sregs[i]), fpr.V(tregs[i]));
789
					break;
790
				default:
791
					DISABLE;
792
				}
793
				break;
794
				// Unfortunately there is no VMIN/VMAX on ARM without NEON.
795
			case 27: //VFPU3
796
				switch ((op >> 23) & 7)	{
797
				case 2:  // vmin
798
				{
799
					VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
800
					VMRS_APSR();
801
					FixupBranch skipNAN = B_CC(CC_VC);
802
					VMOV(SCRATCHREG1, fpr.V(sregs[i]));
803
					VMOV(SCRATCHREG2, fpr.V(tregs[i]));
804
					// If both are negative, we reverse the comparison.  We want the highest mantissa then.
805
					// Also, between -NAN and -5.0, we want -NAN to be less.
806
					TST(SCRATCHREG1, SCRATCHREG2);
807
					FixupBranch cmpPositive = B_CC(CC_PL);
808
					CMP(SCRATCHREG2, SCRATCHREG1);
809
					FixupBranch skipPositive = B();
810
					SetJumpTarget(cmpPositive);
811
					CMP(SCRATCHREG1, SCRATCHREG2);
812
					SetJumpTarget(skipPositive);
813
					SetCC(CC_AL);
814
					SetJumpTarget(skipNAN);
815
					SetCC(CC_LT);
816
					VMOV(fpr.V(tempregs[i]), fpr.V(sregs[i]));
817
					SetCC(CC_GE);
818
					VMOV(fpr.V(tempregs[i]), fpr.V(tregs[i]));
819
					SetCC(CC_AL);
820
					break;
821
				}
822
				case 3:  // vmax
823
				{
824
					VCMP(fpr.V(tregs[i]), fpr.V(sregs[i]));
825
					VMRS_APSR();
826
					FixupBranch skipNAN = B_CC(CC_VC);
827
					VMOV(SCRATCHREG1, fpr.V(sregs[i]));
828
					VMOV(SCRATCHREG2, fpr.V(tregs[i]));
829
					// If both are negative, we reverse the comparison.  We want the lowest mantissa then.
830
					// Also, between -NAN and -5.0, we want -5.0 to be greater.
831
					TST(SCRATCHREG2, SCRATCHREG1);
832
					FixupBranch cmpPositive = B_CC(CC_PL);
833
					CMP(SCRATCHREG1, SCRATCHREG2);
834
					FixupBranch skipPositive = B();
835
					SetJumpTarget(cmpPositive);
836
					CMP(SCRATCHREG2, SCRATCHREG1);
837
					SetJumpTarget(skipPositive);
838
					SetCC(CC_AL);
839
					SetJumpTarget(skipNAN);
840
					SetCC(CC_LT);
841
					VMOV(fpr.V(tempregs[i]), fpr.V(sregs[i]));
842
					SetCC(CC_GE);
843
					VMOV(fpr.V(tempregs[i]), fpr.V(tregs[i]));
844
					SetCC(CC_AL);
845
					break;
846
				}
847
				case 6:  // vsge
848
					DISABLE;  // pending testing
849
					VCMP(fpr.V(tregs[i]), fpr.V(sregs[i]));
850
					VMRS_APSR();
851
					// Unordered is always 0.
852
					SetCC(CC_GE);
853
					MOVI2F(fpr.V(tempregs[i]), 1.0f, SCRATCHREG1);
854
					SetCC(CC_LT);
855
					MOVI2F(fpr.V(tempregs[i]), 0.0f, SCRATCHREG1);
856
					SetCC(CC_AL);
857
					break;
858
				case 7:  // vslt
859
					DISABLE;  // pending testing
860
					VCMP(fpr.V(tregs[i]), fpr.V(sregs[i]));
861
					VMRS_APSR();
862
					// Unordered is always 0.
863
					SetCC(CC_LO);
864
					MOVI2F(fpr.V(tempregs[i]), 1.0f, SCRATCHREG1);
865
					SetCC(CC_HS);
866
					MOVI2F(fpr.V(tempregs[i]), 0.0f, SCRATCHREG1);
867
					SetCC(CC_AL);
868
					break;
869
				}
870
				break;
871

872
			default:
873
				DISABLE;
874
			}
875
		}
876

877
		for (int i = 0; i < n; i++) {
878
			if (dregs[i] != tempregs[i]) {
879
				fpr.MapDirtyInV(dregs[i], tempregs[i]);
880
				VMOV(fpr.V(dregs[i]), fpr.V(tempregs[i]));
881
			}
882
		}
883
		ApplyPrefixD(dregs, sz);
884
		
885
		fpr.ReleaseSpillLocksAndDiscardTemps();
886
	}
887

888
	void ArmJit::Comp_VV2Op(MIPSOpcode op) {
889
		NEON_IF_AVAILABLE(CompNEON_VV2Op);
890
		CONDITIONAL_DISABLE(VFPU_VEC);
891
		if (js.HasUnknownPrefix()) {
892
			DISABLE;
893
		}
894

895
		// Pre-processing: Eliminate silly no-op VMOVs, common in Wipeout Pure
896
		if (((op >> 16) & 0x1f) == 0 && _VS == _VD && js.HasNoPrefix()) {
897
			return;
898
		}
899

900
		// Catch the disabled operations immediately so we don't map registers unnecessarily later.
901
		// Move these down to the big switch below as they are implemented.
902
		switch ((op >> 16) & 0x1f) {
903
		case 18: // d[i] = sinf((float)M_PI_2 * s[i]); break; //vsin
904
			DISABLE;
905
			break;
906
		case 19: // d[i] = cosf((float)M_PI_2 * s[i]); break; //vcos
907
			DISABLE;
908
			break;
909
		case 20: // d[i] = powf(2.0f, s[i]); break; //vexp2
910
			DISABLE;
911
			break;
912
		case 21: // d[i] = logf(s[i])/log(2.0f); break; //vlog2
913
			DISABLE;
914
			break;
915
		case 26: // d[i] = -sinf((float)M_PI_2 * s[i]); break; // vnsin
916
			DISABLE;
917
			break;
918
		case 28: // d[i] = 1.0f / expf(s[i] * (float)M_LOG2E); break; // vrexp2
919
			DISABLE;
920
			break;
921
		default:
922
			;
923
		}
924

925
		VectorSize sz = GetVecSize(op);
926
		int n = GetNumVectorElements(sz);
927

928
		u8 sregs[4], dregs[4];
929
		GetVectorRegsPrefixS(sregs, sz, _VS);
930
		GetVectorRegsPrefixD(dregs, sz, _VD);
931

932
		MIPSReg tempregs[4];
933
		for (int i = 0; i < n; ++i) {
934
			if (!IsOverlapSafe(dregs[i], i, n, sregs)) {
935
				tempregs[i] = fpr.GetTempV();
936
			} else {
937
				tempregs[i] = dregs[i];
938
			}
939
		}
940

941
		// Get some extra temps, used by vasin only. 
942
		ARMReg t2 = INVALID_REG, t3 = INVALID_REG, t4 = INVALID_REG;
943
		if (((op >> 16) & 0x1f) == 23) {
944
			// Only get here on vasin.
945
			int t[3] = { fpr.GetTempV(), fpr.GetTempV(), fpr.GetTempV() };
946
			fpr.MapRegV(t[0], MAP_NOINIT);
947
			fpr.MapRegV(t[1], MAP_NOINIT);
948
			fpr.MapRegV(t[2], MAP_NOINIT);
949
			t2 = fpr.V(t[0]);
950
			t3 = fpr.V(t[1]);
951
			t4 = fpr.V(t[2]);
952
		}
953

954
		// Pre map the registers to get better instruction ordering.
955
		// Note that mapping like this (instead of first all sregs, first all tempregs etc)
956
		// reduces the amount of continuous registers a lot :(
957
		for (int i = 0; i < n; i++) {
958
			fpr.MapDirtyInV(tempregs[i], sregs[i]);
959
			fpr.SpillLockV(tempregs[i]);
960
			fpr.SpillLockV(sregs[i]);
961
		}
962

963
		// Warning: sregs[i] and tempxregs[i] may be the same reg.
964
		// Helps for vmov, hurts for vrcp, etc.
965
		for (int i = 0; i < n; i++) {
966
			switch ((op >> 16) & 0x1f) {
967
			case 0: // d[i] = s[i]; break; //vmov
968
				// Probably for swizzle.
969
				VMOV(fpr.V(tempregs[i]), fpr.V(sregs[i]));
970
				break;
971
			case 1: // d[i] = fabsf(s[i]); break; //vabs
972
				VABS(fpr.V(tempregs[i]), fpr.V(sregs[i]));
973
				break;
974
			case 2: // d[i] = -s[i]; break; //vneg
975
				VNEG(fpr.V(tempregs[i]), fpr.V(sregs[i]));
976
				break;
977
			case 4: // if (s[i] < 0) d[i] = 0; else {if(s[i] > 1.0f) d[i] = 1.0f; else d[i] = s[i];} break;    // vsat0
978
				if (i == 0) {
979
					MOVI2F(S0, 0.0f, SCRATCHREG1);
980
					MOVI2F(S1, 1.0f, SCRATCHREG1);
981
				}
982
				VCMP(fpr.V(sregs[i]), S0);
983
				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
984
				VMOV(fpr.V(tempregs[i]), fpr.V(sregs[i]));
985
				SetCC(CC_LS);
986
				VMOV(fpr.V(tempregs[i]), S0);
987
				SetCC(CC_AL);
988
				VCMP(fpr.V(sregs[i]), S1);
989
				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
990
				SetCC(CC_GT);
991
				VMOV(fpr.V(tempregs[i]), S1);
992
				SetCC(CC_AL);
993
				break;
994
			case 5: // if (s[i] < -1.0f) d[i] = -1.0f; else {if(s[i] > 1.0f) d[i] = 1.0f; else d[i] = s[i];} break;  // vsat1
995
				if (i == 0) {
996
					MOVI2F(S0, -1.0f, SCRATCHREG1);
997
					MOVI2F(S1, 1.0f, SCRATCHREG1);
998
				}
999
				VCMP(fpr.V(sregs[i]), S0);
1000
				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
1001
				VMOV(fpr.V(tempregs[i]), fpr.V(sregs[i]));
1002
				SetCC(CC_LO);
1003
				VMOV(fpr.V(tempregs[i]), S0);
1004
				SetCC(CC_AL);
1005
				VCMP(fpr.V(sregs[i]), S1);
1006
				VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
1007
				SetCC(CC_GT);
1008
				VMOV(fpr.V(tempregs[i]), S1);
1009
				SetCC(CC_AL);
1010
				break;
1011
			case 16: // d[i] = 1.0f / s[i]; break; //vrcp
1012
				if (i == 0) {
1013
					MOVI2F(S0, 1.0f, SCRATCHREG1);
1014
				}
1015
				VDIV(fpr.V(tempregs[i]), S0, fpr.V(sregs[i]));
1016
				break;
1017
			case 17: // d[i] = 1.0f / sqrtf(s[i]); break; //vrsq
1018
				if (i == 0) {
1019
					MOVI2F(S0, 1.0f, SCRATCHREG1);
1020
				}
1021
				VSQRT(S1, fpr.V(sregs[i]));
1022
				VDIV(fpr.V(tempregs[i]), S0, S1);
1023
				break;
1024
			case 22: // d[i] = sqrtf(s[i]); break; //vsqrt
1025
				VSQRT(fpr.V(tempregs[i]), fpr.V(sregs[i]));
1026
				VABS(fpr.V(tempregs[i]), fpr.V(tempregs[i]));
1027
				break;
1028
			case 23: // d[i] = asinf(s[i] * (float)M_2_PI); break; //vasin
1029
				// Seems to work well enough but can disable if it becomes a problem.
1030
				// Should be easy enough to translate to NEON. There we can load all the constants
1031
				// in one go of course.
1032
				VCMP(fpr.V(sregs[i]));       // flags = sign(sregs[i])
1033
				VMRS_APSR();
1034
				MOVI2F(S0, 1.0f, SCRATCHREG1);
1035
				VABS(t4, fpr.V(sregs[i]));   // t4 = |sregs[i]|
1036
				VSUB(t3, S0, t4);
1037
				VSQRT(t3, t3);               // t3 = sqrt(1 - |sregs[i]|)
1038
				MOVI2F(S1, -0.0187293f, SCRATCHREG1);
1039
				MOVI2F(t2, 0.0742610f, SCRATCHREG1);
1040
				VMLA(t2, t4, S1);
1041
				MOVI2F(S1, -0.2121144f, SCRATCHREG1);
1042
				VMLA(S1, t4, t2);
1043
				MOVI2F(t2, 1.5707288f, SCRATCHREG1);
1044
				VMLA(t2, t4, S1);
1045
				MOVI2F(fpr.V(tempregs[i]), M_PI / 2, SCRATCHREG1);
1046
				VMLS(fpr.V(tempregs[i]), t2, t3);    // tr[i] = M_PI / 2 - t2 * t3
1047
				{
1048
					FixupBranch br = B_CC(CC_GE);
1049
					VNEG(fpr.V(tempregs[i]), fpr.V(tempregs[i]));
1050
					SetJumpTarget(br);
1051
				}
1052
				// Correction factor for PSP range. Could be baked into the calculation above?
1053
				MOVI2F(S1, 1.0f / (M_PI / 2), SCRATCHREG1);
1054
				VMUL(fpr.V(tempregs[i]), fpr.V(tempregs[i]), S1);
1055
				break;
1056
			case 24: // d[i] = -1.0f / s[i]; break; // vnrcp
1057
				if (i == 0) {
1058
					MOVI2F(S0, -1.0f, SCRATCHREG1);
1059
				}
1060
				VDIV(fpr.V(tempregs[i]), S0, fpr.V(sregs[i]));
1061
				break;
1062
			default:
1063
				ERROR_LOG(Log::JIT, "case missing in vfpu vv2op");
1064
				DISABLE;
1065
				break;
1066
			}
1067
		}
1068

1069
		for (int i = 0; i < n; ++i) {
1070
			if (dregs[i] != tempregs[i]) {
1071
				fpr.MapDirtyInV(dregs[i], tempregs[i]);
1072
				VMOV(fpr.V(dregs[i]), fpr.V(tempregs[i]));
1073
			}
1074
		}
1075

1076
		ApplyPrefixD(dregs, sz);
1077

1078
		fpr.ReleaseSpillLocksAndDiscardTemps();
1079
	}
1080

1081
	void ArmJit::Comp_Vi2f(MIPSOpcode op) {
1082
		NEON_IF_AVAILABLE(CompNEON_Vi2f);
1083
		CONDITIONAL_DISABLE(VFPU_VEC);
1084
		if (js.HasUnknownPrefix()) {
1085
			DISABLE;
1086
		}
1087

1088
		VectorSize sz = GetVecSize(op);
1089
		int n = GetNumVectorElements(sz);
1090

1091
		int imm = (op >> 16) & 0x1f;
1092
		const float mult = 1.0f / (float)(1UL << imm);
1093

1094
		u8 sregs[4], dregs[4];
1095
		GetVectorRegsPrefixS(sregs, sz, _VS);
1096
		GetVectorRegsPrefixD(dregs, sz, _VD);
1097

1098
		MIPSReg tempregs[4];
1099
		for (int i = 0; i < n; ++i) {
1100
			if (!IsOverlapSafe(dregs[i], i, n, sregs)) {
1101
				tempregs[i] = fpr.GetTempV();
1102
			} else {
1103
				tempregs[i] = dregs[i];
1104
			}
1105
		}
1106

1107
		if (mult != 1.0f)
1108
			MOVI2F(S0, mult, SCRATCHREG1);
1109

1110
		for (int i = 0; i < n; i++) {
1111
			fpr.MapDirtyInV(tempregs[i], sregs[i]);
1112
			VCVT(fpr.V(tempregs[i]), fpr.V(sregs[i]), TO_FLOAT | IS_SIGNED);
1113
			if (mult != 1.0f) 
1114
				VMUL(fpr.V(tempregs[i]), fpr.V(tempregs[i]), S0);
1115
		}
1116

1117
		for (int i = 0; i < n; ++i) {
1118
			if (dregs[i] != tempregs[i]) {
1119
				fpr.MapDirtyInV(dregs[i], tempregs[i]);
1120
				VMOV(fpr.V(dregs[i]), fpr.V(tempregs[i]));
1121
			}
1122
		}
1123

1124
		ApplyPrefixD(dregs, sz);
1125
		fpr.ReleaseSpillLocksAndDiscardTemps();
1126
	}
1127

1128
	void ArmJit::Comp_Vh2f(MIPSOpcode op) {
1129
		NEON_IF_AVAILABLE(CompNEON_Vh2f);
1130
		CONDITIONAL_DISABLE(VFPU_VEC);
1131
		if (js.HasUnknownPrefix()) {
1132
			DISABLE;
1133
		}
1134

1135
		// This multi-VCVT.F32.F16 is only available in the VFPv4 extension.
1136
		// The VFPv3 one is VCVTB, VCVTT which we don't yet have support for.
1137
		if (!(cpu_info.bHalf && cpu_info.bVFPv4)) {
1138
			// No hardware support for half-to-float, fallback to interpreter
1139
			// TODO: Translate the fast SSE solution to standard integer/VFP stuff
1140
			// for the weaker CPUs.
1141
			DISABLE;
1142
		}
1143

1144
		u8 sregs[4], dregs[4];
1145
		VectorSize sz = GetVecSize(op);
1146
		VectorSize outSz;
1147

1148
		switch (sz) {
1149
		case V_Single:
1150
			outSz = V_Pair;
1151
			break;
1152
		case V_Pair:
1153
			outSz = V_Quad;
1154
			break;
1155
		default:
1156
			DISABLE;
1157
		}
1158

1159
		int n = GetNumVectorElements(sz);
1160
		int nOut = n * 2;
1161
		GetVectorRegsPrefixS(sregs, sz, _VS);
1162
		GetVectorRegsPrefixD(dregs, outSz, _VD);
1163

1164
		static const ARMReg tmp[4] = { S0, S1, S2, S3 };
1165

1166
		for (int i = 0; i < n; i++) {
1167
			fpr.MapRegV(sregs[i], sz);
1168
			VMOV(tmp[i], fpr.V(sregs[i]));
1169
		}
1170

1171
		// This always converts four 16-bit floats in D0 to four 32-bit floats
1172
		// in Q0. If we are dealing with a pair here, we just ignore the upper two outputs.
1173
		// There are also a couple of other instructions that do it one at a time but doesn't
1174
		// seem worth the trouble.
1175
		VCVTF32F16(Q0, D0);
1176

1177
		for (int i = 0; i < nOut; i++) {
1178
			fpr.MapRegV(dregs[i], MAP_DIRTY | MAP_NOINIT);
1179
			VMOV(fpr.V(dregs[i]), tmp[i]);
1180
		}
1181

1182
		ApplyPrefixD(dregs, sz);
1183
		fpr.ReleaseSpillLocksAndDiscardTemps();
1184
	}
1185

1186
	void ArmJit::Comp_Vf2i(MIPSOpcode op) {
1187
		NEON_IF_AVAILABLE(CompNEON_Vf2i);
1188
		CONDITIONAL_DISABLE(VFPU_VEC);
1189

1190
		if (js.HasUnknownPrefix()) {
1191
			DISABLE;
1192
		}
1193
		DISABLE;
1194

1195
		VectorSize sz = GetVecSize(op);
1196
		int n = GetNumVectorElements(sz);
1197

1198
		int imm = (op >> 16) & 0x1f;
1199
		float mult = (float)(1ULL << imm);
1200

1201
		switch ((op >> 21) & 0x1f)
1202
		{
1203
		case 17:
1204
			break; //z - truncate. Easy to support.
1205
		case 16:
1206
		case 18:
1207
		case 19:
1208
			DISABLE;
1209
			break;
1210
		}
1211

1212
		u8 sregs[4], dregs[4];
1213
		GetVectorRegsPrefixS(sregs, sz, _VS);
1214
		GetVectorRegsPrefixD(dregs, sz, _VD);
1215

1216
		MIPSReg tempregs[4];
1217
		for (int i = 0; i < n; ++i) {
1218
			if (!IsOverlapSafe(dregs[i], i, n, sregs)) {
1219
				tempregs[i] = fpr.GetTempV();
1220
			} else {
1221
				tempregs[i] = dregs[i];
1222
			}
1223
		}
1224

1225
		if (mult != 1.0f)
1226
			MOVI2F(S1, mult, SCRATCHREG1);
1227

1228
		for (int i = 0; i < n; i++) {
1229
			fpr.MapDirtyInV(tempregs[i], sregs[i]);
1230
			switch ((op >> 21) & 0x1f) {
1231
			case 16: /* TODO */ break; //n
1232
			case 17:
1233
				if (mult != 1.0f) {
1234
					VMUL(S0, fpr.V(sregs[i]), S1);
1235
					VCVT(fpr.V(tempregs[i]), S0, TO_INT | ROUND_TO_ZERO);
1236
				} else {
1237
					VCVT(fpr.V(tempregs[i]), fpr.V(sregs[i]), TO_INT | ROUND_TO_ZERO);
1238
				}
1239
				break;
1240
			case 18: /* TODO */ break; //u
1241
			case 19: /* TODO */ break; //d
1242
			}
1243
		}
1244

1245
		for (int i = 0; i < n; ++i) {
1246
			if (dregs[i] != tempregs[i]) {
1247
				fpr.MapDirtyInV(dregs[i], tempregs[i]);
1248
				VMOV(fpr.V(dregs[i]), fpr.V(tempregs[i]));
1249
			}
1250
		}
1251

1252
		ApplyPrefixD(dregs, sz);
1253
		fpr.ReleaseSpillLocksAndDiscardTemps();
1254
	}
1255

1256
	void ArmJit::Comp_Mftv(MIPSOpcode op) {
1257
		NEON_IF_AVAILABLE(CompNEON_Mftv);
1258
		CONDITIONAL_DISABLE(VFPU_XFER);
1259

1260
		int imm = op & 0xFF;
1261
		MIPSGPReg rt = _RT;
1262
		switch ((op >> 21) & 0x1f) {
1263
		case 3: //mfv / mfvc
1264
			// rt = 0, imm = 255 appears to be used as a CPU interlock by some games.
1265
			if (rt != 0) {
1266
				if (imm < 128) {  //R(rt) = VI(imm);
1267
					fpr.MapRegV(imm, 0);
1268
					gpr.MapReg(rt, MAP_NOINIT | MAP_DIRTY);
1269
					VMOV(gpr.R(rt), fpr.V(imm));
1270
				} else if (imm < 128 + VFPU_CTRL_MAX) { //mtvc
1271
					if (imm - 128 == VFPU_CTRL_CC) {
1272
						if (gpr.IsImm(MIPS_REG_VFPUCC)) {
1273
							gpr.SetImm(rt, gpr.GetImm(MIPS_REG_VFPUCC));
1274
						} else {
1275
							gpr.MapDirtyIn(rt, MIPS_REG_VFPUCC);
1276
							MOV(gpr.R(rt), gpr.R(MIPS_REG_VFPUCC));
1277
						}
1278
					} else {
1279
						// In case we have a saved prefix.
1280
						FlushPrefixV();
1281
						gpr.MapReg(rt, MAP_NOINIT | MAP_DIRTY);
1282
						LDR(gpr.R(rt), CTXREG, offsetof(MIPSState, vfpuCtrl) + 4 * (imm - 128));
1283
					}
1284
				} else {
1285
					//ERROR - maybe need to make this value too an "interlock" value?
1286
					ERROR_LOG(Log::CPU, "mfv - invalid register %i", imm);
1287
				}
1288
			}
1289
			break;
1290

1291
		case 7: // mtv
1292
			if (imm < 128) {
1293
				gpr.MapReg(rt);
1294
				fpr.MapRegV(imm, MAP_DIRTY | MAP_NOINIT);
1295
				VMOV(fpr.V(imm), gpr.R(rt));
1296
			} else if (imm < 128 + VFPU_CTRL_MAX) { //mtvc //currentMIPS->vfpuCtrl[imm - 128] = R(rt);
1297
				if (imm - 128 == VFPU_CTRL_CC) {
1298
					if (gpr.IsImm(rt)) {
1299
						gpr.SetImm(MIPS_REG_VFPUCC, gpr.GetImm(rt));
1300
					} else {
1301
						gpr.MapDirtyIn(MIPS_REG_VFPUCC, rt);
1302
						MOV(gpr.R(MIPS_REG_VFPUCC), gpr.R(rt));
1303
					}
1304
				} else {
1305
					gpr.MapReg(rt);
1306
					STR(gpr.R(rt), CTXREG, offsetof(MIPSState, vfpuCtrl) + 4 * (imm - 128));
1307
				}
1308

1309
				// TODO: Optimization if rt is Imm?
1310
				// Set these BEFORE disable!
1311
				if (imm - 128 == VFPU_CTRL_SPREFIX) {
1312
					js.prefixSFlag = JitState::PREFIX_UNKNOWN;
1313
					js.blockWrotePrefixes = true;
1314
				} else if (imm - 128 == VFPU_CTRL_TPREFIX) {
1315
					js.prefixTFlag = JitState::PREFIX_UNKNOWN;
1316
					js.blockWrotePrefixes = true;
1317
				} else if (imm - 128 == VFPU_CTRL_DPREFIX) {
1318
					js.prefixDFlag = JitState::PREFIX_UNKNOWN;
1319
					js.blockWrotePrefixes = true;
1320
				}
1321
			} else {
1322
				//ERROR
1323
				_dbg_assert_msg_(false,"mtv - invalid register");
1324
			}
1325
			break;
1326

1327
		default:
1328
			DISABLE;
1329
		}
1330

1331
		fpr.ReleaseSpillLocksAndDiscardTemps();
1332
	}
1333

1334
	void ArmJit::Comp_Vmfvc(MIPSOpcode op) {
1335
		NEON_IF_AVAILABLE(CompNEON_Vmtvc);
1336
		CONDITIONAL_DISABLE(VFPU_XFER);
1337

1338
		int vd = _VD;
1339
		int imm = (op >> 8) & 0x7F;
1340
		if (imm < VFPU_CTRL_MAX) {
1341
			fpr.MapRegV(vd);
1342
			if (imm == VFPU_CTRL_CC) {
1343
				gpr.MapReg(MIPS_REG_VFPUCC, 0);
1344
				VMOV(fpr.V(vd), gpr.R(MIPS_REG_VFPUCC));
1345
			} else {
1346
				ADDI2R(SCRATCHREG1, CTXREG, offsetof(MIPSState, vfpuCtrl[0]) + imm * 4, SCRATCHREG2);
1347
				VLDR(fpr.V(vd), SCRATCHREG1, 0);
1348
			}
1349
			fpr.ReleaseSpillLocksAndDiscardTemps();
1350
		} else {
1351
			fpr.MapRegV(vd);
1352
			MOVI2F(fpr.V(vd), 0.0f, SCRATCHREG1);
1353
		}
1354
	}
1355

1356
	void ArmJit::Comp_Vmtvc(MIPSOpcode op) {
1357
		NEON_IF_AVAILABLE(CompNEON_Vmtvc);
1358
		CONDITIONAL_DISABLE(VFPU_XFER);
1359

1360
		int vs = _VS;
1361
		int imm = op & 0x7F;
1362
		if (imm < VFPU_CTRL_MAX) {
1363
			fpr.MapRegV(vs);
1364
			if (imm == VFPU_CTRL_CC) {
1365
				gpr.MapReg(MIPS_REG_VFPUCC, MAP_DIRTY | MAP_NOINIT);
1366
				VMOV(gpr.R(MIPS_REG_VFPUCC), fpr.V(vs));
1367
			} else {
1368
				ADDI2R(SCRATCHREG1, CTXREG, offsetof(MIPSState, vfpuCtrl[0]) + imm * 4, SCRATCHREG2);
1369
				VSTR(fpr.V(vs), SCRATCHREG1, 0);
1370
			}
1371
			fpr.ReleaseSpillLocksAndDiscardTemps();
1372

1373
			if (imm == VFPU_CTRL_SPREFIX) {
1374
				js.prefixSFlag = JitState::PREFIX_UNKNOWN;
1375
				js.blockWrotePrefixes = true;
1376
			} else if (imm == VFPU_CTRL_TPREFIX) {
1377
				js.prefixTFlag = JitState::PREFIX_UNKNOWN;
1378
				js.blockWrotePrefixes = true;
1379
			} else if (imm == VFPU_CTRL_DPREFIX) {
1380
				js.prefixDFlag = JitState::PREFIX_UNKNOWN;
1381
				js.blockWrotePrefixes = true;
1382
			}
1383
		}
1384
	}
1385

1386
	void ArmJit::Comp_Vmmov(MIPSOpcode op) {
1387
		NEON_IF_AVAILABLE(CompNEON_Vmmov);
1388
		CONDITIONAL_DISABLE(VFPU_MTX_VMMOV);
1389

1390
		// This probably ignores prefixes for all sane intents and purposes.
1391
		if (_VS == _VD) {
1392
			// A lot of these no-op matrix moves in Wipeout... Just drop the instruction entirely.
1393
			return;
1394
		}
1395

1396
		MatrixSize sz = GetMtxSize(op);
1397
		int n = GetMatrixSide(sz);
1398

1399
		u8 sregs[16], dregs[16];
1400
		GetMatrixRegs(sregs, sz, _VS);
1401
		GetMatrixRegs(dregs, sz, _VD);
1402

1403
		// Rough overlap check.
1404
		bool overlap = false;
1405
		if (GetMtx(_VS) == GetMtx(_VD)) {
1406
			// Potential overlap (guaranteed for 3x3 or more).
1407
			overlap = true;
1408
		}
1409

1410
		if (overlap) {
1411
			// Not so common, fallback.
1412
			DISABLE;
1413
		} else {
1414
			for (int a = 0; a < n; a++) {
1415
				for (int b = 0; b < n; b++) {
1416
					fpr.MapDirtyInV(dregs[a * 4 + b], sregs[a * 4 + b]);
1417
					VMOV(fpr.V(dregs[a * 4 + b]), fpr.V(sregs[a * 4 + b]));
1418
				}
1419
			}
1420
			fpr.ReleaseSpillLocksAndDiscardTemps();
1421
		}
1422
	}
1423

1424
	void ArmJit::Comp_VScl(MIPSOpcode op) {
1425
		NEON_IF_AVAILABLE(CompNEON_VScl);
1426
		CONDITIONAL_DISABLE(VFPU_VEC);
1427
		if (js.HasUnknownPrefix()) {
1428
			DISABLE;
1429
		}
1430

1431
		VectorSize sz = GetVecSize(op);
1432
		int n = GetNumVectorElements(sz);
1433

1434
		u8 sregs[4], dregs[4], treg;
1435
		GetVectorRegsPrefixS(sregs, sz, _VS);
1436
		// TODO: Prefixes seem strange...
1437
		GetVectorRegsPrefixT(&treg, V_Single, _VT);
1438
		GetVectorRegsPrefixD(dregs, sz, _VD);
1439

1440
		// Move to S0 early, so we don't have to worry about overlap with scale.
1441
		fpr.LoadToRegV(S0, treg);
1442

1443
		// For prefixes to work, we just have to ensure that none of the output registers spill
1444
		// and that there's no overlap.
1445
		MIPSReg tempregs[4];
1446
		for (int i = 0; i < n; ++i) {
1447
			if (!IsOverlapSafe(dregs[i], i, n, sregs)) {
1448
				// Need to use temp regs
1449
				tempregs[i] = fpr.GetTempV();
1450
			} else {
1451
				tempregs[i] = dregs[i];
1452
			}
1453
		}
1454

1455
		// The meat of the function!
1456
		for (int i = 0; i < n; i++) {
1457
			fpr.MapDirtyInV(tempregs[i], sregs[i]);
1458
			VMUL(fpr.V(tempregs[i]), fpr.V(sregs[i]), S0);
1459
		}
1460

1461
		for (int i = 0; i < n; i++) {
1462
			// All must be mapped for prefixes to work.
1463
			if (dregs[i] != tempregs[i]) {
1464
				fpr.MapDirtyInV(dregs[i], tempregs[i]);
1465
				VMOV(fpr.V(dregs[i]), fpr.V(tempregs[i]));
1466
			}
1467
		}
1468

1469
		ApplyPrefixD(dregs, sz);
1470

1471
		fpr.ReleaseSpillLocksAndDiscardTemps();
1472
	}
1473

1474
	void ArmJit::Comp_Vmmul(MIPSOpcode op) {
1475
		CONDITIONAL_DISABLE(VFPU_MTX_VMMUL);
1476
		if (!js.HasNoPrefix()) {
1477
			DISABLE;
1478
		}
1479
		NEON_IF_AVAILABLE(CompNEON_Vmmul);
1480

1481
		if (PSP_CoreParameter().compat.flags().MoreAccurateVMMUL) {
1482
			// Fall back to interpreter, which has the accurate implementation.
1483
			// Later we might do something more optimized here.
1484
			DISABLE;
1485
		}
1486

1487
		MatrixSize sz = GetMtxSize(op);
1488
		int n = GetMatrixSide(sz);
1489

1490
		u8 sregs[16], tregs[16], dregs[16];
1491
		GetMatrixRegs(sregs, sz, _VS);
1492
		GetMatrixRegs(tregs, sz, _VT);
1493
		GetMatrixRegs(dregs, sz, _VD);
1494

1495
		// Rough overlap check.
1496
		bool overlap = false;
1497
		if (GetMtx(_VS) == GetMtx(_VD) || GetMtx(_VT) == GetMtx(_VD)) {
1498
			// Potential overlap (guaranteed for 3x3 or more).
1499
			overlap = true;
1500
		}
1501

1502
		if (overlap) {
1503
			DISABLE;
1504
		} else {
1505
			for (int a = 0; a < n; a++) {
1506
				for (int b = 0; b < n; b++) {
1507
					fpr.MapInInV(sregs[b * 4], tregs[a * 4]);
1508
					VMUL(S0, fpr.V(sregs[b * 4]), fpr.V(tregs[a * 4]));
1509
					for (int c = 1; c < n; c++) {
1510
						fpr.MapInInV(sregs[b * 4 + c], tregs[a * 4 + c]);
1511
						VMLA(S0, fpr.V(sregs[b * 4 + c]), fpr.V(tregs[a * 4 + c]));
1512
					}
1513
					fpr.MapRegV(dregs[a * 4 + b], MAP_DIRTY | MAP_NOINIT);
1514
					VMOV(fpr.V(dregs[a * 4 + b]), S0);
1515
				}
1516
			}
1517
			fpr.ReleaseSpillLocksAndDiscardTemps();
1518
		}
1519
	}
1520

1521
	void ArmJit::Comp_Vmscl(MIPSOpcode op) {
1522
		NEON_IF_AVAILABLE(CompNEON_Vmscl);
1523
		DISABLE;
1524
	}
1525

1526
	void ArmJit::Comp_Vtfm(MIPSOpcode op) {
1527
		NEON_IF_AVAILABLE(CompNEON_Vtfm);
1528
		CONDITIONAL_DISABLE(VFPU_MTX_VTFM);
1529
		if (js.HasUnknownPrefix()) {
1530
			DISABLE;
1531
		}
1532

1533
		// TODO: This probably ignores prefixes?  Or maybe uses D?
1534
		
1535
		VectorSize sz = GetVecSize(op);
1536
		MatrixSize msz = GetMtxSize(op);
1537
		int n = GetNumVectorElements(sz);
1538
		int ins = (op >> 23) & 7;
1539

1540
		bool homogenous = false;
1541
		if (n == ins) {
1542
			n++;
1543
			sz = (VectorSize)((int)(sz) + 1);
1544
			msz = (MatrixSize)((int)(msz) + 1);
1545
			homogenous = true;
1546
		}
1547
		// Otherwise, n should already be ins + 1.
1548
		else if (n != ins + 1) {
1549
			DISABLE;
1550
		}
1551

1552
		u8 sregs[16], dregs[4], tregs[4];
1553
		GetMatrixRegs(sregs, msz, _VS);
1554
		GetVectorRegs(tregs, sz, _VT);
1555
		GetVectorRegs(dregs, sz, _VD);
1556

1557
		// TODO: test overlap, optimize.
1558
		int tempregs[4];
1559
		for (int i = 0; i < n; i++) {
1560
			fpr.MapInInV(sregs[i * 4], tregs[0]);
1561
			VMUL(S0, fpr.V(sregs[i * 4]), fpr.V(tregs[0]));
1562
			for (int k = 1; k < n; k++) {
1563
				if (!homogenous || k != n - 1) {
1564
					fpr.MapInInV(sregs[i * 4 + k], tregs[k]);
1565
					VMLA(S0, fpr.V(sregs[i * 4 + k]), fpr.V(tregs[k]));
1566
				} else {
1567
					fpr.MapRegV(sregs[i * 4 + k]);
1568
					VADD(S0, S0, fpr.V(sregs[i * 4 + k]));
1569
				}
1570
			}
1571

1572
			int temp = fpr.GetTempV();
1573
			fpr.MapRegV(temp, MAP_NOINIT | MAP_DIRTY);
1574
			fpr.SpillLockV(temp);
1575
			VMOV(fpr.V(temp), S0);
1576
			tempregs[i] = temp;
1577
		}
1578
		for (int i = 0; i < n; i++) {
1579
			u8 temp = tempregs[i];
1580
			fpr.MapRegV(dregs[i], MAP_NOINIT | MAP_DIRTY);
1581
			VMOV(fpr.V(dregs[i]), fpr.V(temp));
1582
		}
1583

1584
		fpr.ReleaseSpillLocksAndDiscardTemps();
1585
	}
1586

1587
	void ArmJit::Comp_VCrs(MIPSOpcode op) {
1588
		NEON_IF_AVAILABLE(CompNEON_VCrs);
1589
		DISABLE;
1590
	}
1591

1592
	void ArmJit::Comp_VDet(MIPSOpcode op) {
1593
		NEON_IF_AVAILABLE(CompNEON_VDet);
1594
		DISABLE;
1595
	}
1596

1597
	void ArmJit::Comp_Vi2x(MIPSOpcode op) {
1598
		NEON_IF_AVAILABLE(CompNEON_Vi2x);
1599
		CONDITIONAL_DISABLE(VFPU_VEC);
1600
		if (js.HasUnknownPrefix()) {
1601
			DISABLE;
1602
		}
1603

1604
		int bits = ((op >> 16) & 2) == 0 ? 8 : 16; // vi2uc/vi2c (0/1), vi2us/vi2s (2/3)
1605
		bool unsignedOp = ((op >> 16) & 1) == 0; // vi2uc (0), vi2us (2)
1606

1607
		if (unsignedOp) {
1608
			// Requires a tricky clamp operation that we can't do without more temps, see below
1609
			DISABLE;
1610
		}
1611

1612
		// These instructions pack pairs or quads of integers into 32 bits.
1613
		// The unsigned (u) versions skip the sign bit when packing.
1614
		VectorSize sz = GetVecSize(op);
1615
		VectorSize outsize;
1616
		if (bits == 8) {
1617
			outsize = V_Single;
1618
			if (sz != V_Quad) {
1619
				DISABLE;
1620
			}
1621
		} else {
1622
			switch (sz) {
1623
			case V_Pair:
1624
				outsize = V_Single;
1625
				break;
1626
			case V_Quad:
1627
				outsize = V_Pair;
1628
				break;
1629
			default:
1630
				DISABLE;
1631
			}
1632
		}
1633

1634
		u8 sregs[4], dregs[4];
1635
		GetVectorRegsPrefixS(sregs, sz, _VS);
1636
		GetVectorRegsPrefixD(dregs, outsize, _VD);
1637

1638
		// First, let's assemble the sregs into lanes of either D0 (pair) or Q0 (quad).
1639
		bool quad = sz == V_Quad;
1640
		fpr.MapRegsAndSpillLockV(sregs, sz, 0);
1641
		VMOV(S0, fpr.V(sregs[0]));
1642
		VMOV(S1, fpr.V(sregs[1]));
1643
		if (quad) {
1644
			VMOV(S2, fpr.V(sregs[2]));
1645
			VMOV(S3, fpr.V(sregs[3]));
1646
		}
1647

1648
		// TODO: For "u" type ops, we clamp to zero and shift off the sign bit first.
1649
		// Need some temp regs to do that efficiently, right?
1650

1651
		// At this point, we simply need to collect the high bits of each 32-bit lane into one register.
1652
		if (bits == 8) {
1653
			// Really want to do a VSHRN(..., 24) but that can't be encoded. So we synthesize it.
1654
			VSHR(I_32, Q0, Q0, 16);
1655
			VSHRN(I_32, D0, Q0, 8);
1656
			VMOVN(I_16, D0, Q0);
1657
		} else {
1658
			VSHRN(I_32, D0, Q0, 16);
1659
		}
1660

1661
		fpr.MapRegsAndSpillLockV(dregs, outsize, MAP_DIRTY|MAP_NOINIT);
1662
		VMOV(fpr.V(dregs[0]), S0);
1663
		if (outsize == V_Pair) {
1664
			VMOV(fpr.V(dregs[1]), S1);
1665
		}
1666

1667
		ApplyPrefixD(dregs, outsize);
1668
		fpr.ReleaseSpillLocksAndDiscardTemps();
1669
	}
1670

1671
	void ArmJit::Comp_Vx2i(MIPSOpcode op) {
1672
		NEON_IF_AVAILABLE(CompNEON_Vx2i);
1673
		CONDITIONAL_DISABLE(VFPU_VEC);
1674
		if (js.HasUnknownPrefix()) {
1675
			DISABLE;
1676
		}
1677

1678
		int bits = ((op >> 16) & 2) == 0 ? 8 : 16; // vuc2i/vc2i (0/1), vus2i/vs2i (2/3)
1679
		bool unsignedOp = ((op >> 16) & 1) == 0; // vuc2i (0), vus2i (2)
1680

1681
		if (bits == 8 && unsignedOp) {
1682
			// vuc2i is odd and needs temp registers for implementation.
1683
			DISABLE;
1684
		}
1685
		// vs2i or vus2i unpack pairs of 16-bit integers into 32-bit integers, with the values
1686
		// at the top.  vus2i shifts it an extra bit right afterward.
1687
		// vc2i and vuc2i unpack quads of 8-bit integers into 32-bit integers, with the values
1688
		// at the top too.  vuc2i is a bit special (see below.)
1689
		// Let's do this similarly as h2f - we do a solution that works for both singles and pairs
1690
		// then use it for both.
1691

1692
		VectorSize sz = GetVecSize(op);
1693
		VectorSize outsize;
1694
		if (bits == 8) {
1695
			outsize = V_Quad;
1696
		} else {
1697
			switch (sz) {
1698
			case V_Single:
1699
				outsize = V_Pair;
1700
				break;
1701
			case V_Pair:
1702
				outsize = V_Quad;
1703
				break;
1704
			default:
1705
				DISABLE;
1706
			}
1707
		}
1708

1709
		u8 sregs[4], dregs[4];
1710
		GetVectorRegsPrefixS(sregs, sz, _VS);
1711
		GetVectorRegsPrefixD(dregs, outsize, _VD);
1712

1713
		fpr.MapRegsAndSpillLockV(sregs, sz, 0);
1714
		if (sz == V_Single) {
1715
			VMOV(S0, fpr.V(sregs[0]));
1716
		} else if (sz == V_Pair) {
1717
			VMOV(S0, fpr.V(sregs[0]));
1718
			VMOV(S1, fpr.V(sregs[1]));
1719
		} else if (bits == 8) {
1720
			// For some reason, sz is quad on vc2i.
1721
			VMOV(S0, fpr.V(sregs[0]));
1722
		}
1723

1724

1725
		if (bits == 16) {
1726
			// Simply expand, to upper bits.
1727
			VSHLL(I_16, Q0, D0, 16);
1728
		} else if (bits == 8) {
1729
			if (unsignedOp) {
1730
				// vuc2i is a bit special.  It spreads out the bits like this:
1731
				// s[0] = 0xDDCCBBAA -> d[0] = (0xAAAAAAAA >> 1), d[1] = (0xBBBBBBBB >> 1), etc.
1732
				// TODO
1733
			} else {
1734
				VSHLL(I_8, Q0, D0, 8);
1735
				VSHLL(I_16, Q0, D0, 16);
1736
			}
1737
		}
1738

1739
		// At this point we have the regs in the 4 lanes.
1740
		// In the "u" mode, we need to shift it out of the sign bit.
1741
		if (unsignedOp) {
1742
			ArmGen::ARMReg reg = (outsize == V_Quad) ? Q0 : D0;
1743
			VSHR(I_32 | I_UNSIGNED, reg, reg, 1);
1744
		}
1745

1746
		fpr.MapRegsAndSpillLockV(dregs, outsize, MAP_NOINIT);
1747

1748
		VMOV(fpr.V(dregs[0]), S0);
1749
		VMOV(fpr.V(dregs[1]), S1);
1750
		if (outsize == V_Quad) {
1751
			VMOV(fpr.V(dregs[2]), S2);
1752
			VMOV(fpr.V(dregs[3]), S3);
1753
		}
1754

1755
		ApplyPrefixD(dregs, outsize);
1756
		fpr.ReleaseSpillLocksAndDiscardTemps();
1757
	}
1758

1759
	void ArmJit::Comp_VCrossQuat(MIPSOpcode op) {
1760
		NEON_IF_AVAILABLE(CompNEON_VCrossQuat);
1761
		// This op does not support prefixes anyway.
1762
		CONDITIONAL_DISABLE(VFPU_VEC);
1763
		if (js.HasUnknownPrefix())
1764
			DISABLE;
1765

1766
		VectorSize sz = GetVecSize(op);
1767
		int n = GetNumVectorElements(sz);
1768

1769
		u8 sregs[4], tregs[4], dregs[4];
1770
		GetVectorRegs(sregs, sz, _VS);
1771
		GetVectorRegs(tregs, sz, _VT);
1772
		GetVectorRegs(dregs, sz, _VD);
1773

1774
		// Map everything into registers.
1775
		fpr.MapRegsAndSpillLockV(sregs, sz, 0);
1776
		fpr.MapRegsAndSpillLockV(tregs, sz, 0);
1777

1778
		if (sz == V_Triple) {
1779
			MIPSReg temp3 = fpr.GetTempV();
1780
			fpr.MapRegV(temp3, MAP_DIRTY | MAP_NOINIT);
1781
			// Cross product vcrsp.t
1782

1783
			// Compute X
1784
			VMUL(S0, fpr.V(sregs[1]), fpr.V(tregs[2]));
1785
			VMLS(S0, fpr.V(sregs[2]), fpr.V(tregs[1]));
1786

1787
			// Compute Y
1788
			VMUL(S1, fpr.V(sregs[2]), fpr.V(tregs[0]));
1789
			VMLS(S1, fpr.V(sregs[0]), fpr.V(tregs[2]));
1790

1791
			// Compute Z
1792
			VMUL(fpr.V(temp3), fpr.V(sregs[0]), fpr.V(tregs[1]));
1793
			VMLS(fpr.V(temp3), fpr.V(sregs[1]), fpr.V(tregs[0]));
1794

1795
			fpr.MapRegsAndSpillLockV(dregs, sz, MAP_NOINIT);
1796
			VMOV(fpr.V(dregs[0]), S0);
1797
			VMOV(fpr.V(dregs[1]), S1);
1798
			VMOV(fpr.V(dregs[2]), fpr.V(temp3));
1799
		} else if (sz == V_Quad) {
1800
			MIPSReg temp3 = fpr.GetTempV();
1801
			MIPSReg temp4 = fpr.GetTempV();
1802
			fpr.MapRegV(temp3, MAP_DIRTY | MAP_NOINIT);
1803
			fpr.MapRegV(temp4, MAP_DIRTY | MAP_NOINIT);
1804

1805
			// Quaternion product  vqmul.q  untested
1806
			// d[0] = s[0] * t[3] + s[1] * t[2] - s[2] * t[1] + s[3] * t[0];
1807
			VMUL(S0, fpr.V(sregs[0]), fpr.V(tregs[3]));
1808
			VMLA(S0, fpr.V(sregs[1]), fpr.V(tregs[2]));
1809
			VMLS(S0, fpr.V(sregs[2]), fpr.V(tregs[1]));
1810
			VMLA(S0, fpr.V(sregs[3]), fpr.V(tregs[0]));
1811

1812
			//d[1] = -s[0] * t[2] + s[1] * t[3] + s[2] * t[0] + s[3] * t[1];
1813
			VNMUL(S1, fpr.V(sregs[0]), fpr.V(tregs[2]));
1814
			VMLA(S1, fpr.V(sregs[1]), fpr.V(tregs[3]));
1815
			VMLA(S1, fpr.V(sregs[2]), fpr.V(tregs[0]));
1816
			VMLA(S1, fpr.V(sregs[3]), fpr.V(tregs[1]));
1817

1818
			//d[2] = s[0] * t[1] - s[1] * t[0] + s[2] * t[3] + s[3] * t[2];
1819
			VMUL(fpr.V(temp3), fpr.V(sregs[0]), fpr.V(tregs[1]));
1820
			VMLS(fpr.V(temp3), fpr.V(sregs[1]), fpr.V(tregs[0]));
1821
			VMLA(fpr.V(temp3), fpr.V(sregs[2]), fpr.V(tregs[3]));
1822
			VMLA(fpr.V(temp3), fpr.V(sregs[3]), fpr.V(tregs[2]));
1823

1824
			//d[3] = -s[0] * t[0] - s[1] * t[1] - s[2] * t[2] + s[3] * t[3];
1825
			VNMUL(fpr.V(temp4), fpr.V(sregs[0]), fpr.V(tregs[0]));
1826
			VMLS(fpr.V(temp4), fpr.V(sregs[1]), fpr.V(tregs[1]));
1827
			VMLS(fpr.V(temp4), fpr.V(sregs[2]), fpr.V(tregs[2]));
1828
			VMLA(fpr.V(temp4), fpr.V(sregs[3]), fpr.V(tregs[3]));
1829

1830
			fpr.MapRegsAndSpillLockV(dregs, sz, MAP_NOINIT);
1831
			VMOV(fpr.V(dregs[0]), S0);
1832
			VMOV(fpr.V(dregs[1]), S1);
1833
			VMOV(fpr.V(dregs[2]), fpr.V(temp3));
1834
			VMOV(fpr.V(dregs[3]), fpr.V(temp4));
1835
		}
1836

1837
		fpr.ReleaseSpillLocksAndDiscardTemps();
1838
	}
1839

1840
	void ArmJit::Comp_Vcmp(MIPSOpcode op) {
1841
		NEON_IF_AVAILABLE(CompNEON_Vcmp);
1842
		CONDITIONAL_DISABLE(VFPU_COMP);
1843
		if (js.HasUnknownPrefix())
1844
			DISABLE;
1845

1846
		VectorSize sz = GetVecSize(op);
1847
		int n = GetNumVectorElements(sz);
1848

1849
		VCondition cond = (VCondition)(op & 0xF);
1850

1851
		u8 sregs[4], tregs[4];
1852
		GetVectorRegsPrefixS(sregs, sz, _VS);
1853
		GetVectorRegsPrefixT(tregs, sz, _VT);
1854

1855
		// Some, we just fall back to the interpreter.
1856
		// ES is just really equivalent to (value & 0x7F800000) == 0x7F800000.
1857

1858
		switch (cond) {
1859
		case VC_EI: // c = my_isinf(s[i]); break;
1860
		case VC_NI: // c = !my_isinf(s[i]); break;
1861
			DISABLE;
1862
		case VC_ES: // c = my_isnan(s[i]) || my_isinf(s[i]); break;   // Tekken Dark Resurrection
1863
		case VC_NS: // c = !my_isnan(s[i]) && !my_isinf(s[i]); break;
1864
		case VC_EN: // c = my_isnan(s[i]); break;
1865
		case VC_NN: // c = !my_isnan(s[i]); break;
1866
			if (_VS != _VT)
1867
				DISABLE;
1868
			break;
1869

1870
		case VC_EZ:
1871
		case VC_NZ:
1872
			break;
1873
		default:
1874
			;
1875
		}
1876

1877
		// First, let's get the trivial ones.
1878
		int affected_bits = (1 << 4) | (1 << 5);  // 4 and 5
1879

1880
		MOVI2R(SCRATCHREG1, 0);
1881
		for (int i = 0; i < n; ++i) {
1882
			// Let's only handle the easy ones, and fall back on the interpreter for the rest.
1883
			CCFlags flag = CC_AL;
1884
			switch (cond) {
1885
			case VC_FL: // c = 0;
1886
				break;
1887

1888
			case VC_TR: // c = 1
1889
				if (i == 0) {
1890
					if (n == 1) {
1891
						MOVI2R(SCRATCHREG1, 0x31);
1892
					} else {
1893
						MOVI2R(SCRATCHREG1, 1 << i);
1894
					}
1895
				} else {
1896
					ORR(SCRATCHREG1, SCRATCHREG1, 1 << i);
1897
				}
1898
				break;
1899

1900
			case VC_ES: // c = my_isnan(s[i]) || my_isinf(s[i]); break;   // Tekken Dark Resurrection
1901
			case VC_NS: // c = !(my_isnan(s[i]) || my_isinf(s[i])); break;
1902
				// For these, we use the integer ALU as there is no support on ARM for testing for INF.
1903
				// Testing for nan or inf is the same as testing for &= 0x7F800000 == 0x7F800000.
1904
				// We need an extra temporary register so we store away SCRATCHREG1.
1905
				STR(SCRATCHREG1, CTXREG, offsetof(MIPSState, temp));
1906
				fpr.MapRegV(sregs[i], 0);
1907
				MOVI2R(SCRATCHREG1, 0x7F800000);
1908
				VMOV(SCRATCHREG2, fpr.V(sregs[i]));
1909
				AND(SCRATCHREG2, SCRATCHREG2, SCRATCHREG1);
1910
				CMP(SCRATCHREG2, SCRATCHREG1);   // (SCRATCHREG2 & 0x7F800000) == 0x7F800000
1911
				flag = cond == VC_ES ? CC_EQ : CC_NEQ;
1912
				LDR(SCRATCHREG1, CTXREG, offsetof(MIPSState, temp));
1913
				break;
1914

1915
			case VC_EN: // c = my_isnan(s[i]); break;  // Tekken 6
1916
				// Should we involve T? Where I found this used, it compared a register with itself so should be fine.
1917
				fpr.MapInInV(sregs[i], tregs[i]);
1918
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1919
				VMRS_APSR();
1920
				flag = CC_VS;  // overflow = unordered : http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dui0204j/Chdhcfbc.html
1921
				break;
1922

1923
			case VC_NN: // c = !my_isnan(s[i]); break;
1924
				// Should we involve T? Where I found this used, it compared a register with itself so should be fine.
1925
				fpr.MapInInV(sregs[i], tregs[i]);
1926
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1927
				VMRS_APSR();
1928
				flag = CC_VC;  // !overflow = !unordered : http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dui0204j/Chdhcfbc.html
1929
				break;
1930

1931
			case VC_EQ: // c = s[i] == t[i]
1932
				fpr.MapInInV(sregs[i], tregs[i]);
1933
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1934
				VMRS_APSR();
1935
				flag = CC_EQ;
1936
				break;
1937

1938
			case VC_LT: // c = s[i] < t[i]
1939
				fpr.MapInInV(sregs[i], tregs[i]);
1940
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1941
				VMRS_APSR();
1942
				flag = CC_LO;
1943
				break;
1944

1945
			case VC_LE: // c = s[i] <= t[i]; 
1946
				fpr.MapInInV(sregs[i], tregs[i]);
1947
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1948
				VMRS_APSR();
1949
				flag = CC_LS;
1950
				break;
1951

1952
			case VC_NE: // c = s[i] != t[i]
1953
				fpr.MapInInV(sregs[i], tregs[i]);
1954
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1955
				VMRS_APSR();
1956
				flag = CC_NEQ;
1957
				break;
1958

1959
			case VC_GE: // c = s[i] >= t[i]
1960
				fpr.MapInInV(sregs[i], tregs[i]);
1961
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1962
				VMRS_APSR();
1963
				flag = CC_GE;
1964
				break;
1965

1966
			case VC_GT: // c = s[i] > t[i]
1967
				fpr.MapInInV(sregs[i], tregs[i]);
1968
				VCMP(fpr.V(sregs[i]), fpr.V(tregs[i]));
1969
				VMRS_APSR();
1970
				flag = CC_GT;
1971
				break;
1972

1973
			case VC_EZ: // c = s[i] == 0.0f || s[i] == -0.0f
1974
				fpr.MapRegV(sregs[i]);
1975
				VCMP(fpr.V(sregs[i])); // vcmp(sregs[i], #0.0)
1976
				VMRS_APSR();
1977
				flag = CC_EQ;
1978
				break;
1979

1980
			case VC_NZ: // c = s[i] != 0
1981
				fpr.MapRegV(sregs[i]);
1982
				VCMP(fpr.V(sregs[i])); // vcmp(sregs[i], #0.0)
1983
				VMRS_APSR();
1984
				flag = CC_NEQ;
1985
				break;
1986

1987
			default:
1988
				DISABLE;
1989
			}
1990
			if (flag != CC_AL) {
1991
				SetCC(flag);
1992
				if (i == 0) {
1993
					if (n == 1) {
1994
						MOVI2R(SCRATCHREG1, 0x31);
1995
					} else {
1996
						MOVI2R(SCRATCHREG1, 1);  // 1 << i, but i == 0
1997
					}
1998
				} else {
1999
					ORR(SCRATCHREG1, SCRATCHREG1, 1 << i);
2000
				}
2001
				SetCC(CC_AL);
2002
			}
2003

2004
			affected_bits |= 1 << i;
2005
		}
2006

2007
		// Aggregate the bits. Urgh, expensive. Can optimize for the case of one comparison, which is the most common
2008
		// after all.
2009
		if (n > 1) {
2010
			CMP(SCRATCHREG1, affected_bits & 0xF);
2011
			SetCC(CC_EQ);
2012
			ORR(SCRATCHREG1, SCRATCHREG1, 1 << 5);
2013
			SetCC(CC_AL);
2014

2015
			CMP(SCRATCHREG1, 0);
2016
			SetCC(CC_NEQ);
2017
			ORR(SCRATCHREG1, SCRATCHREG1, 1 << 4);
2018
			SetCC(CC_AL);
2019
		}
2020

2021
		gpr.MapReg(MIPS_REG_VFPUCC, MAP_DIRTY);
2022
		BIC(gpr.R(MIPS_REG_VFPUCC), gpr.R(MIPS_REG_VFPUCC), affected_bits);
2023
		ORR(gpr.R(MIPS_REG_VFPUCC), gpr.R(MIPS_REG_VFPUCC), SCRATCHREG1);
2024

2025
		fpr.ReleaseSpillLocksAndDiscardTemps();
2026
	}
2027

2028
	void ArmJit::Comp_Vcmov(MIPSOpcode op) {
2029
		NEON_IF_AVAILABLE(CompNEON_Vcmov);
2030
		CONDITIONAL_DISABLE(VFPU_COMP);
2031
		if (js.HasUnknownPrefix()) {
2032
			DISABLE;
2033
		}
2034

2035
		VectorSize sz = GetVecSize(op);
2036
		int n = GetNumVectorElements(sz);
2037

2038
		u8 sregs[4], dregs[4];
2039
		GetVectorRegsPrefixS(sregs, sz, _VS);
2040
		GetVectorRegsPrefixD(dregs, sz, _VD);
2041
		int tf = (op >> 19) & 1;
2042
		int imm3 = (op >> 16) & 7;
2043

2044
		for (int i = 0; i < n; ++i) {
2045
			// Simplification: Disable if overlap unsafe
2046
			if (!IsOverlapSafeAllowS(dregs[i], i, n, sregs)) {
2047
				DISABLE;
2048
			}
2049
		}
2050

2051
		if (imm3 < 6) {
2052
			// Test one bit of CC. This bit decides whether none or all subregisters are copied.
2053
			fpr.MapRegsAndSpillLockV(dregs, sz, MAP_DIRTY);
2054
			fpr.MapRegsAndSpillLockV(sregs, sz, 0);
2055
			gpr.MapReg(MIPS_REG_VFPUCC);
2056
			TST(gpr.R(MIPS_REG_VFPUCC), 1 << imm3);
2057
			SetCC(tf ? CC_EQ : CC_NEQ);
2058
			for (int i = 0; i < n; i++) {
2059
				VMOV(fpr.V(dregs[i]), fpr.V(sregs[i]));
2060
			}
2061
			SetCC(CC_AL);
2062
		} else {
2063
			// Look at the bottom four bits of CC to individually decide if the subregisters should be copied.
2064
			fpr.MapRegsAndSpillLockV(dregs, sz, MAP_DIRTY);
2065
			fpr.MapRegsAndSpillLockV(sregs, sz, 0);
2066
			gpr.MapReg(MIPS_REG_VFPUCC);
2067
			for (int i = 0; i < n; i++) {
2068
				TST(gpr.R(MIPS_REG_VFPUCC), 1 << i);
2069
				SetCC(tf ? CC_EQ : CC_NEQ);
2070
				VMOV(fpr.V(dregs[i]), fpr.V(sregs[i]));
2071
				SetCC(CC_AL);
2072
			}
2073
		}
2074

2075
		ApplyPrefixD(dregs, sz);
2076
		fpr.ReleaseSpillLocksAndDiscardTemps();
2077
	}
2078

2079
	void ArmJit::Comp_Viim(MIPSOpcode op) {
2080
		NEON_IF_AVAILABLE(CompNEON_Viim);
2081
		CONDITIONAL_DISABLE(VFPU_XFER);
2082
		if (js.HasUnknownPrefix()) {
2083
			DISABLE;
2084
		}
2085

2086
		u8 dreg;
2087
		GetVectorRegs(&dreg, V_Single, _VT);
2088

2089
		s32 imm = SignExtend16ToS32(op);
2090
		fpr.MapRegV(dreg, MAP_DIRTY | MAP_NOINIT);
2091
		MOVI2F(fpr.V(dreg), (float)imm, SCRATCHREG1);
2092

2093
		ApplyPrefixD(&dreg, V_Single);
2094
		fpr.ReleaseSpillLocksAndDiscardTemps();
2095
	}
2096

2097
	void ArmJit::Comp_Vfim(MIPSOpcode op) {
2098
		NEON_IF_AVAILABLE(CompNEON_Vfim);
2099
		CONDITIONAL_DISABLE(VFPU_XFER);
2100
		if (js.HasUnknownPrefix()) {
2101
			DISABLE;
2102
		}
2103

2104
		u8 dreg;
2105
		GetVectorRegs(&dreg, V_Single, _VT);
2106

2107
		FP16 half;
2108
		half.u = op & 0xFFFF;
2109
		FP32 fval = half_to_float_fast5(half);
2110
		fpr.MapRegV(dreg, MAP_DIRTY | MAP_NOINIT);
2111
		MOVI2F(fpr.V(dreg), fval.f, SCRATCHREG1);
2112

2113
		ApplyPrefixD(&dreg, V_Single);
2114
		fpr.ReleaseSpillLocksAndDiscardTemps();
2115
	}
2116

2117
	void ArmJit::Comp_Vcst(MIPSOpcode op) {
2118
		NEON_IF_AVAILABLE(CompNEON_Vcst);
2119
		CONDITIONAL_DISABLE(VFPU_XFER);
2120
		if (js.HasUnknownPrefix()) {
2121
			DISABLE;
2122
		}
2123

2124
		int conNum = (op >> 16) & 0x1f;
2125
		int vd = _VD;
2126

2127
		VectorSize sz = GetVecSize(op);
2128
		int n = GetNumVectorElements(sz);
2129

2130
		u8 dregs[4];
2131
		GetVectorRegsPrefixD(dregs, sz, _VD);
2132
		fpr.MapRegsAndSpillLockV(dregs, sz, MAP_NOINIT | MAP_DIRTY);
2133

2134
		gpr.SetRegImm(SCRATCHREG1, (u32)(void *)&cst_constants[conNum]);
2135
		VLDR(S0, SCRATCHREG1, 0);
2136
		for (int i = 0; i < n; ++i)
2137
			VMOV(fpr.V(dregs[i]), S0);
2138

2139
		ApplyPrefixD(dregs, sz);
2140
		fpr.ReleaseSpillLocksAndDiscardTemps();
2141
	}
2142

2143
	static double SinCos(float angle) {
2144
		union { struct { float sin; float cos; }; double out; } sincos;
2145
		vfpu_sincos(angle, sincos.sin, sincos.cos);
2146
		return sincos.out;
2147
	}
2148

2149
	static double SinCosNegSin(float angle) {
2150
		union { struct { float sin; float cos; }; double out; } sincos;
2151
		vfpu_sincos(angle, sincos.sin, sincos.cos);
2152
		sincos.sin = -sincos.sin;
2153
		return sincos.out;
2154
	}
2155

2156
	void ArmJit::CompVrotShuffle(u8 *dregs, int imm, VectorSize sz, bool negSin) {
2157
		int n = GetNumVectorElements(sz);
2158
		char what[4] = {'0', '0', '0', '0'};
2159
		if (((imm >> 2) & 3) == (imm & 3)) {
2160
			for (int i = 0; i < 4; i++)
2161
				what[i] = 'S';
2162
		}
2163
		what[(imm >> 2) & 3] = 'S';
2164
		what[imm & 3] = 'C';
2165

2166
		fpr.MapRegsAndSpillLockV(dregs, sz, MAP_DIRTY | MAP_NOINIT);
2167
		for (int i = 0; i < n; i++) {
2168
			switch (what[i]) {
2169
			case 'C': VMOV(fpr.V(dregs[i]), S1); break;
2170
			case 'S': if (negSin) VNEG(fpr.V(dregs[i]), S0); else VMOV(fpr.V(dregs[i]), S0); break;
2171
			case '0':
2172
				{
2173
					MOVI2F(fpr.V(dregs[i]), 0.0f, SCRATCHREG1);
2174
					break;
2175
				}
2176
			default:
2177
				ERROR_LOG(Log::JIT, "Bad what in vrot");
2178
				break;
2179
			}
2180
		}
2181
	}
2182

2183
	// Very heavily used by FF:CC. Should be replaced by a fast approximation instead of
2184
	// calling the math library.
2185
	// Apparently this may not work on hardfp. I don't think we have any platforms using this though.
2186
	void ArmJit::Comp_VRot(MIPSOpcode op) {
2187
		NEON_IF_AVAILABLE(CompNEON_VRot);
2188
		// VRot probably doesn't accept prefixes anyway.
2189
		CONDITIONAL_DISABLE(VFPU_VEC);
2190
		if (js.HasUnknownPrefix()) {
2191
			DISABLE;
2192
		}
2193

2194
#if PPSSPP_ARCH(ARM_HARDFP)
2195
		DISABLE;
2196
#endif
2197

2198
		int vd = _VD;
2199
		int vs = _VS;
2200

2201
		VectorSize sz = GetVecSize(op);
2202
		int n = GetNumVectorElements(sz);
2203

2204
		u8 dregs[4];
2205
		u8 dregs2[4];
2206

2207
		MIPSOpcode nextOp = GetOffsetInstruction(1);
2208
		int vd2 = -1;
2209
		int imm2 = -1;
2210
		if ((nextOp >> 26) == 60 && ((nextOp >> 21) & 0x1F) == 29 && _VS == MIPS_GET_VS(nextOp)) {
2211
			// Pair of vrot. Let's join them.
2212
			vd2 = MIPS_GET_VD(nextOp);
2213
			imm2 = (nextOp >> 16) & 0x1f;
2214
			// NOTICE_LOG(Log::JIT, "Joint VFPU at %08x", js.blockStart);
2215
		}
2216
		u8 sreg;
2217
		GetVectorRegs(dregs, sz, vd);
2218
		if (vd2 >= 0)
2219
			GetVectorRegs(dregs2, sz, vd2);
2220
		GetVectorRegs(&sreg, V_Single, vs);
2221

2222
		int imm = (op >> 16) & 0x1f;
2223

2224
		gpr.FlushBeforeCall();
2225
		fpr.FlushAll();
2226

2227
		bool negSin1 = (imm & 0x10) ? true : false;
2228

2229
		fpr.MapRegV(sreg);
2230
		// We should write a custom pure-asm function instead.
2231
#if defined(__ARM_PCS_VFP) // Hardfp
2232
		VMOV(S0, fpr.V(sreg));
2233
#else                      // Softfp
2234
		VMOV(R0, fpr.V(sreg));
2235
#endif
2236
		// FlushBeforeCall saves R1.
2237
		QuickCallFunction(R1, negSin1 ? (void *)&SinCosNegSin : (void *)&SinCos);
2238
#if !defined(__ARM_PCS_VFP)
2239
		// Returns D0 on hardfp and R0,R1 on softfp due to union joining the two floats
2240
		VMOV(D0, R0, R1);
2241
#endif
2242
		CompVrotShuffle(dregs, imm, sz, false);
2243
		if (vd2 != -1) {
2244
			// If the negsin setting differs between the two joint invocations, we need to flip the second one.
2245
			bool negSin2 = (imm2 & 0x10) ? true : false;
2246
			CompVrotShuffle(dregs2, imm2, sz, negSin1 != negSin2);
2247
			EatInstruction(nextOp);
2248
		}
2249

2250
		fpr.ReleaseSpillLocksAndDiscardTemps();
2251
	}
2252

2253
	void ArmJit::Comp_Vsgn(MIPSOpcode op) {
2254
		NEON_IF_AVAILABLE(CompNEON_Vsgn);
2255
		CONDITIONAL_DISABLE(VFPU_VEC);
2256
		if (js.HasUnknownPrefix()) {
2257
			DISABLE;
2258
		}
2259

2260
		VectorSize sz = GetVecSize(op);
2261
		int n = GetNumVectorElements(sz);
2262

2263
		u8 sregs[4], dregs[4];
2264
		GetVectorRegsPrefixS(sregs, sz, _VS);
2265
		GetVectorRegsPrefixD(dregs, sz, _VD);
2266

2267
		MIPSReg tempregs[4];
2268
		for (int i = 0; i < n; ++i) {
2269
			if (!IsOverlapSafe(dregs[i], i, n, sregs)) {
2270
				tempregs[i] = fpr.GetTempV();
2271
			} else {
2272
				tempregs[i] = dregs[i];
2273
			}
2274
		}
2275

2276
		for (int i = 0; i < n; ++i) {
2277
			fpr.MapDirtyInV(tempregs[i], sregs[i]);
2278
			VCMP(fpr.V(sregs[i])); // vcmp(sregs[i], #0.0)
2279
			VMOV(SCRATCHREG1, fpr.V(sregs[i]));
2280
			VMRS_APSR(); // Move FP flags from FPSCR to APSR (regular flags).
2281
			SetCC(CC_NEQ);
2282
			AND(SCRATCHREG1, SCRATCHREG1, AssumeMakeOperand2(0x80000000));
2283
			ORR(SCRATCHREG1, SCRATCHREG1, AssumeMakeOperand2(0x3F800000));
2284
			SetCC(CC_EQ);
2285
			MOV(SCRATCHREG1, AssumeMakeOperand2(0x0));
2286
			SetCC(CC_AL);
2287
			VMOV(fpr.V(tempregs[i]), SCRATCHREG1);
2288
		}
2289

2290
		for (int i = 0; i < n; ++i) {
2291
			if (dregs[i] != tempregs[i]) {
2292
				fpr.MapDirtyInV(dregs[i], tempregs[i]);
2293
				VMOV(fpr.V(dregs[i]), fpr.V(tempregs[i]));
2294
			}
2295
		}
2296

2297
		ApplyPrefixD(dregs, sz);
2298

2299
		fpr.ReleaseSpillLocksAndDiscardTemps();
2300
	}
2301

2302
	void ArmJit::Comp_Vocp(MIPSOpcode op) {
2303
		NEON_IF_AVAILABLE(CompNEON_Vocp);
2304
		CONDITIONAL_DISABLE(VFPU_VEC);
2305
		if (js.HasUnknownPrefix()) {
2306
			DISABLE;
2307
		}
2308

2309
		VectorSize sz = GetVecSize(op);
2310
		int n = GetNumVectorElements(sz);
2311

2312
		// This is a hack that modifies prefixes.  We eat them later, so just overwrite.
2313
		// S prefix forces the negate flags.
2314
		js.prefixS |= 0x000F0000;
2315
		// T prefix forces constants on and regnum to 1.
2316
		// That means negate still works, and abs activates a different constant.
2317
		js.prefixT = (js.prefixT & ~0x000000FF) | 0x00000055 | 0x0000F000;
2318

2319
		u8 sregs[4], tregs[4], dregs[4];
2320
		GetVectorRegsPrefixS(sregs, sz, _VS);
2321
		GetVectorRegsPrefixT(tregs, sz, _VS);
2322
		GetVectorRegsPrefixD(dregs, sz, _VD);
2323

2324
		MIPSReg tempregs[4];
2325
		for (int i = 0; i < n; ++i) {
2326
			if (!IsOverlapSafe(dregs[i], i, n, sregs)) {
2327
				tempregs[i] = fpr.GetTempV();
2328
			} else {
2329
				tempregs[i] = dregs[i];
2330
			}
2331
		}
2332

2333
		for (int i = 0; i < n; ++i) {
2334
			fpr.MapDirtyInInV(tempregs[i], sregs[i], tregs[i]);
2335
			VADD(fpr.V(tempregs[i]), fpr.V(tregs[i]), fpr.V(sregs[i]));
2336
		}
2337

2338
		for (int i = 0; i < n; ++i) {
2339
			if (dregs[i] != tempregs[i]) {
2340
				fpr.MapDirtyInV(dregs[i], tempregs[i]);
2341
				VMOV(fpr.V(dregs[i]), fpr.V(tempregs[i]));
2342
			}
2343
		}
2344

2345
		ApplyPrefixD(dregs, sz);
2346

2347
		fpr.ReleaseSpillLocksAndDiscardTemps();
2348
	}
2349

2350
	void ArmJit::Comp_ColorConv(MIPSOpcode op) {
2351
		DISABLE;
2352
	}
2353

2354
	void ArmJit::Comp_Vbfy(MIPSOpcode op) {
2355
		DISABLE;
2356
	}
2357
}
2358

2359
#endif // PPSSPP_ARCH(ARM)
2360

2361