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Merge pull request #11138 from JosJuice/jit64-quiet-nans
Jit64: Turn SNaN into QNaN in HandleNaNs
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commit
cd1f89a02b
@ -116,13 +116,17 @@ void Jit64::HandleNaNs(UGeckoInstruction inst, X64Reg xmm, X64Reg clobber)
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if (std::find(inputs.begin(), inputs.end(), i) == inputs.end())
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if (std::find(inputs.begin(), inputs.end(), i) == inputs.end())
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inputs.push_back(i);
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inputs.push_back(i);
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}
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}
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if (inst.OPCD != 4)
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if (inst.OPCD != 4)
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{
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{
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// not paired-single
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// not paired-single
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UCOMISD(xmm, R(xmm));
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UCOMISD(xmm, R(xmm));
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FixupBranch handle_nan = J_CC(CC_P, true);
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FixupBranch handle_nan = J_CC(CC_P, true);
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SwitchToFarCode();
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SwitchToFarCode();
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SetJumpTarget(handle_nan);
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SetJumpTarget(handle_nan);
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// If any inputs are NaNs, pick the first NaN of them
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std::vector<FixupBranch> fixups;
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std::vector<FixupBranch> fixups;
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for (u32 x : inputs)
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for (u32 x : inputs)
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{
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{
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@ -132,9 +136,15 @@ void Jit64::HandleNaNs(UGeckoInstruction inst, X64Reg xmm, X64Reg clobber)
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UCOMISD(xmm, R(xmm));
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UCOMISD(xmm, R(xmm));
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fixups.push_back(J_CC(CC_P));
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fixups.push_back(J_CC(CC_P));
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}
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}
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MOVDDUP(xmm, MConst(psGeneratedQNaN));
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// Otherwise, pick the PPC default NaN (will be finished below)
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XORPD(xmm, R(xmm));
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// Turn SNaNs into QNaNs (or finish writing the PPC default NaN)
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for (FixupBranch fixup : fixups)
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for (FixupBranch fixup : fixups)
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SetJumpTarget(fixup);
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SetJumpTarget(fixup);
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ORPD(xmm, MConst(psGeneratedQNaN));
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FixupBranch done = J(true);
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FixupBranch done = J(true);
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SwitchToNearCode();
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SwitchToNearCode();
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SetJumpTarget(done);
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SetJumpTarget(done);
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@ -142,7 +152,9 @@ void Jit64::HandleNaNs(UGeckoInstruction inst, X64Reg xmm, X64Reg clobber)
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else
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else
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{
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{
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// paired-single
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// paired-single
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std::reverse(inputs.begin(), inputs.end());
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std::reverse(inputs.begin(), inputs.end());
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if (cpu_info.bSSE4_1)
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if (cpu_info.bSSE4_1)
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{
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{
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avx_op(&XEmitter::VCMPPD, &XEmitter::CMPPD, clobber, R(xmm), R(xmm), CMP_UNORD);
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avx_op(&XEmitter::VCMPPD, &XEmitter::CMPPD, clobber, R(xmm), R(xmm), CMP_UNORD);
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@ -150,8 +162,12 @@ void Jit64::HandleNaNs(UGeckoInstruction inst, X64Reg xmm, X64Reg clobber)
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FixupBranch handle_nan = J_CC(CC_NZ, true);
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FixupBranch handle_nan = J_CC(CC_NZ, true);
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SwitchToFarCode();
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SwitchToFarCode();
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SetJumpTarget(handle_nan);
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SetJumpTarget(handle_nan);
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// Replace NaNs with PPC default NaN
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ASSERT_MSG(DYNA_REC, clobber == XMM0, "BLENDVPD implicitly uses XMM0");
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ASSERT_MSG(DYNA_REC, clobber == XMM0, "BLENDVPD implicitly uses XMM0");
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BLENDVPD(xmm, MConst(psGeneratedQNaN));
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BLENDVPD(xmm, MConst(psGeneratedQNaN));
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// If any inputs are NaNs, use those instead
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for (u32 x : inputs)
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for (u32 x : inputs)
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{
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{
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RCOpArg Rx = fpr.Use(x, RCMode::Read);
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RCOpArg Rx = fpr.Use(x, RCMode::Read);
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@ -159,13 +175,11 @@ void Jit64::HandleNaNs(UGeckoInstruction inst, X64Reg xmm, X64Reg clobber)
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avx_op(&XEmitter::VCMPPD, &XEmitter::CMPPD, clobber, Rx, Rx, CMP_UNORD);
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avx_op(&XEmitter::VCMPPD, &XEmitter::CMPPD, clobber, Rx, Rx, CMP_UNORD);
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BLENDVPD(xmm, Rx);
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BLENDVPD(xmm, Rx);
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}
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}
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FixupBranch done = J(true);
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SwitchToNearCode();
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SetJumpTarget(done);
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}
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}
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else
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else
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{
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{
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// SSE2 fallback
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// SSE2 fallback
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RCX64Reg tmp = fpr.Scratch();
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RCX64Reg tmp = fpr.Scratch();
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RegCache::Realize(tmp);
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RegCache::Realize(tmp);
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MOVAPD(clobber, R(xmm));
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MOVAPD(clobber, R(xmm));
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@ -175,11 +189,15 @@ void Jit64::HandleNaNs(UGeckoInstruction inst, X64Reg xmm, X64Reg clobber)
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FixupBranch handle_nan = J_CC(CC_NZ, true);
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FixupBranch handle_nan = J_CC(CC_NZ, true);
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SwitchToFarCode();
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SwitchToFarCode();
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SetJumpTarget(handle_nan);
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SetJumpTarget(handle_nan);
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// Replace NaNs with PPC default NaN
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MOVAPD(tmp, R(clobber));
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MOVAPD(tmp, R(clobber));
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ANDNPD(clobber, R(xmm));
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ANDNPD(clobber, R(xmm));
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ANDPD(tmp, MConst(psGeneratedQNaN));
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ANDPD(tmp, MConst(psGeneratedQNaN));
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ORPD(tmp, R(clobber));
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ORPD(tmp, R(clobber));
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MOVAPD(xmm, tmp);
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MOVAPD(xmm, tmp);
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// If any inputs are NaNs, use those instead
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for (u32 x : inputs)
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for (u32 x : inputs)
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{
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{
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RCOpArg Rx = fpr.Use(x, RCMode::Read);
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RCOpArg Rx = fpr.Use(x, RCMode::Read);
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@ -191,11 +209,17 @@ void Jit64::HandleNaNs(UGeckoInstruction inst, X64Reg xmm, X64Reg clobber)
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ANDPD(xmm, tmp);
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ANDPD(xmm, tmp);
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ORPD(xmm, R(clobber));
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ORPD(xmm, R(clobber));
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}
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}
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}
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// Turn SNaNs into QNaNs
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avx_op(&XEmitter::VCMPPD, &XEmitter::CMPPD, clobber, R(xmm), R(xmm), CMP_UNORD);
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ANDPD(clobber, MConst(psGeneratedQNaN));
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ORPD(xmm, R(clobber));
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FixupBranch done = J(true);
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FixupBranch done = J(true);
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SwitchToNearCode();
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SwitchToNearCode();
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SetJumpTarget(done);
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SetJumpTarget(done);
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}
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}
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}
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}
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}
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void Jit64::fp_arith(UGeckoInstruction inst)
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void Jit64::fp_arith(UGeckoInstruction inst)
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