示例#1
0
void Jit::Comp_mxc1(MIPSOpcode op) {
	CONDITIONAL_DISABLE(FPU_XFER);

	int fs = _FS;
	MIPSGPReg rt = _RT;

	switch ((op >> 21) & 0x1f) {
	case 0: // R(rt) = FI(fs); break; //mfc1
		if (rt == MIPS_REG_ZERO)
			return;
		gpr.MapReg(rt, false, true);
		// If fs is not mapped, most likely it's being abandoned.
		// Just load from memory in that case.
		if (fpr.R(fs).IsSimpleReg()) {
			MOVD_xmm(gpr.R(rt), fpr.RX(fs));
		} else {
			MOV(32, gpr.R(rt), fpr.R(fs));
		}
		break;

	case 2: // R(rt) = currentMIPS->ReadFCR(fs); break; //cfc1
		if (rt == MIPS_REG_ZERO)
			return;
		if (fs == 31) {
			bool wasImm = gpr.IsImm(MIPS_REG_FPCOND);
			if (!wasImm) {
				gpr.Lock(rt, MIPS_REG_FPCOND);
				gpr.MapReg(MIPS_REG_FPCOND, true, false);
			}
			gpr.MapReg(rt, false, true);
			MOV(32, gpr.R(rt), MIPSSTATE_VAR(fcr31));
			if (wasImm) {
				if (gpr.GetImm(MIPS_REG_FPCOND) & 1) {
					OR(32, gpr.R(rt), Imm32(1 << 23));
				} else {
					AND(32, gpr.R(rt), Imm32(~(1 << 23)));
				}
			} else {
				AND(32, gpr.R(rt), Imm32(~(1 << 23)));
				MOV(32, R(TEMPREG), gpr.R(MIPS_REG_FPCOND));
				AND(32, R(TEMPREG), Imm32(1));
				SHL(32, R(TEMPREG), Imm8(23));
				OR(32, gpr.R(rt), R(TEMPREG));
			}
			gpr.UnlockAll();
		} else if (fs == 0) {
			gpr.SetImm(rt, MIPSState::FCR0_VALUE);
		} else {
			Comp_Generic(op);
		}
		return;

	case 4: //FI(fs) = R(rt);	break; //mtc1
		fpr.MapReg(fs, false, true);
		if (gpr.IsImm(rt) && gpr.GetImm(rt) == 0) {
			XORPS(fpr.RX(fs), fpr.R(fs));
		} else {
			gpr.KillImmediate(rt, true, false);
			MOVD_xmm(fpr.RX(fs), gpr.R(rt));
		}
		return;

	case 6: //currentMIPS->WriteFCR(fs, R(rt)); break; //ctc1
		if (fs == 31) {
			// Must clear before setting, since ApplyRoundingMode() assumes it was cleared.
			RestoreRoundingMode();
			if (gpr.IsImm(rt)) {
				gpr.SetImm(MIPS_REG_FPCOND, (gpr.GetImm(rt) >> 23) & 1);
				MOV(32, MIPSSTATE_VAR(fcr31), Imm32(gpr.GetImm(rt) & 0x0181FFFF));
				if ((gpr.GetImm(rt) & 0x1000003) == 0) {
					// Default nearest / no-flush mode, just leave it cleared.
				} else {
					UpdateRoundingMode(gpr.GetImm(rt));
					ApplyRoundingMode();
				}
			} else {
示例#2
0
void Jit::Comp_FPU2op(MIPSOpcode op) {
	CONDITIONAL_DISABLE;
	
	int fs = _FS;
	int fd = _FD;

	switch (op & 0x3f) 
	{
	case 5:	//F(fd)	= fabsf(F(fs)); break; //abs
		fpr.SpillLock(fd, fs);
		fpr.MapReg(fd, fd == fs, true);
		MOVSS(fpr.RX(fd), fpr.R(fs));
		PAND(fpr.RX(fd), M(ssNoSignMask));
		break;

	case 6:	//F(fd)	= F(fs);				break; //mov
		if (fd != fs) {
			fpr.SpillLock(fd, fs);
			fpr.MapReg(fd, fd == fs, true);
			MOVSS(fpr.RX(fd), fpr.R(fs));
		}
		break;

	case 7:	//F(fd)	= -F(fs);			 break; //neg
		fpr.SpillLock(fd, fs);
		fpr.MapReg(fd, fd == fs, true);
		MOVSS(fpr.RX(fd), fpr.R(fs));
		PXOR(fpr.RX(fd), M(ssSignBits2));
		break;


	case 4:	//F(fd)	= sqrtf(F(fs)); break; //sqrt
		fpr.SpillLock(fd, fs); // this probably works, just badly tested
		fpr.MapReg(fd, fd == fs, true);
		SQRTSS(fpr.RX(fd), fpr.R(fs));
		break;

	case 13: //FsI(fd) = F(fs)>=0 ? (int)floorf(F(fs)) : (int)ceilf(F(fs)); break;//trunc.w.s
		{
			fpr.SpillLock(fs, fd);
			fpr.StoreFromRegister(fd);
			CVTTSS2SI(EAX, fpr.R(fs));

			// Did we get an indefinite integer value?
			CMP(32, R(EAX), Imm32(0x80000000));
			FixupBranch skip = J_CC(CC_NE);
			MOVSS(XMM0, fpr.R(fs));
			XORPS(XMM1, R(XMM1));
			CMPSS(XMM0, R(XMM1), CMP_LT);

			// At this point, -inf = 0xffffffff, inf/nan = 0x00000000.
			// We want -inf to be 0x80000000 inf/nan to be 0x7fffffff, so we flip those bits.
			MOVD_xmm(R(EAX), XMM0);
			XOR(32, R(EAX), Imm32(0x7fffffff));

			SetJumpTarget(skip);
			MOV(32, fpr.R(fd), R(EAX));
		}
		break;

	case 32: //F(fd)	= (float)FsI(fs);			break; //cvt.s.w
		// Store to memory so we can read it as an integer value.
		fpr.StoreFromRegister(fs);
		CVTSI2SS(XMM0, fpr.R(fs));
		MOVSS(fpr.R(fd), XMM0);
		break;

	case 12: //FsI(fd) = (int)floorf(F(fs)+0.5f); break; //round.w.s
	case 14: //FsI(fd) = (int)ceilf (F(fs)); break; //ceil.w.s
	case 15: //FsI(fd) = (int)floorf(F(fs)); break; //floor.w.s
	case 36: //FsI(fd) = (int)	F(fs);			 break; //cvt.w.s
	default:
		DISABLE;
		return;
	}
	fpr.ReleaseSpillLocks();
}
示例#3
0
void Jit::Comp_FPU2op(MIPSOpcode op) {
	CONDITIONAL_DISABLE(FPU);
	
	int fs = _FS;
	int fd = _FD;

	auto execRounding = [&](void (XEmitter::*conv)(X64Reg, OpArg), int setMXCSR) {
		fpr.SpillLock(fd, fs);
		fpr.MapReg(fd, fs == fd, true);

		// Small optimization: 0 is our default mode anyway.
		if (setMXCSR == 0 && !js.hasSetRounding) {
			setMXCSR = -1;
		}
		if (setMXCSR != -1) {
			STMXCSR(MIPSSTATE_VAR(mxcsrTemp));
			MOV(32, R(TEMPREG), MIPSSTATE_VAR(mxcsrTemp));
			AND(32, R(TEMPREG), Imm32(~(3 << 13)));
			OR(32, R(TEMPREG), Imm32(setMXCSR << 13));
			MOV(32, MIPSSTATE_VAR(temp), R(TEMPREG));
			LDMXCSR(MIPSSTATE_VAR(temp));
		}

		(this->*conv)(TEMPREG, fpr.R(fs));

		// Did we get an indefinite integer value?
		CMP(32, R(TEMPREG), Imm32(0x80000000));
		FixupBranch skip = J_CC(CC_NE);
		if (fd != fs) {
			CopyFPReg(fpr.RX(fd), fpr.R(fs));
		}
		XORPS(XMM1, R(XMM1));
		CMPSS(fpr.RX(fd), R(XMM1), CMP_LT);

		// At this point, -inf = 0xffffffff, inf/nan = 0x00000000.
		// We want -inf to be 0x80000000 inf/nan to be 0x7fffffff, so we flip those bits.
		MOVD_xmm(R(TEMPREG), fpr.RX(fd));
		XOR(32, R(TEMPREG), Imm32(0x7fffffff));

		SetJumpTarget(skip);
		MOVD_xmm(fpr.RX(fd), R(TEMPREG));

		if (setMXCSR != -1) {
			LDMXCSR(MIPSSTATE_VAR(mxcsrTemp));
		}
	};

	switch (op & 0x3f) {
	case 5:	//F(fd)	= fabsf(F(fs)); break; //abs
		fpr.SpillLock(fd, fs);
		fpr.MapReg(fd, fd == fs, true);
		MOV(PTRBITS, R(TEMPREG), ImmPtr(&ssNoSignMask[0]));
		if (fd != fs && fpr.IsMapped(fs)) {
			MOVAPS(fpr.RX(fd), MatR(TEMPREG));
			ANDPS(fpr.RX(fd), fpr.R(fs));
		} else {
			if (fd != fs) {
				MOVSS(fpr.RX(fd), fpr.R(fs));
			}
			ANDPS(fpr.RX(fd), MatR(TEMPREG));
		}
		break;

	case 6:	//F(fd)	= F(fs);				break; //mov
		if (fd != fs) {
			fpr.SpillLock(fd, fs);
			fpr.MapReg(fd, fd == fs, true);
			CopyFPReg(fpr.RX(fd), fpr.R(fs));
		}
		break;

	case 7:	//F(fd)	= -F(fs);			 break; //neg
		fpr.SpillLock(fd, fs);
		fpr.MapReg(fd, fd == fs, true);
		MOV(PTRBITS, R(TEMPREG), ImmPtr(&ssSignBits2[0]));
		if (fd != fs && fpr.IsMapped(fs)) {
			MOVAPS(fpr.RX(fd), MatR(TEMPREG));
			XORPS(fpr.RX(fd), fpr.R(fs));
		} else {
			if (fd != fs) {
				MOVSS(fpr.RX(fd), fpr.R(fs));
			}
			XORPS(fpr.RX(fd), MatR(TEMPREG));
		}
		break;

	case 4:	//F(fd)	= sqrtf(F(fs)); break; //sqrt
		fpr.SpillLock(fd, fs);
		fpr.MapReg(fd, fd == fs, true);
		SQRTSS(fpr.RX(fd), fpr.R(fs));
		break;

	case 13: //FsI(fd) = F(fs)>=0 ? (int)floorf(F(fs)) : (int)ceilf(F(fs)); break; //trunc.w.s
		execRounding(&XEmitter::CVTTSS2SI, -1);
		break;

	case 32: //F(fd)	= (float)FsI(fs);			break; //cvt.s.w
		fpr.SpillLock(fd, fs);
		fpr.MapReg(fd, fs == fd, true);
		if (fpr.IsMapped(fs)) {
			CVTDQ2PS(fpr.RX(fd), fpr.R(fs));
		} else {
			// If fs was fd, we'd be in the case above since we mapped fd.
			MOVSS(fpr.RX(fd), fpr.R(fs));
			CVTDQ2PS(fpr.RX(fd), fpr.R(fd));
		}
		break;

	case 36: //FsI(fd) = (int)	F(fs);			 break; //cvt.w.s
		// Uses the current rounding mode.
		execRounding(&XEmitter::CVTSS2SI, -1);
		break;

	case 12: //FsI(fd) = (int)floorf(F(fs)+0.5f); break; //round.w.s
		execRounding(&XEmitter::CVTSS2SI, 0);
		break;
	case 14: //FsI(fd) = (int)ceilf (F(fs)); break; //ceil.w.s
		execRounding(&XEmitter::CVTSS2SI, 2);
		break;
	case 15: //FsI(fd) = (int)floorf(F(fs)); break; //floor.w.s
		execRounding(&XEmitter::CVTSS2SI, 1);
		break;
	default:
		DISABLE;
		return;
	}
	fpr.ReleaseSpillLocks();
}