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teach MaskedValueIsZero how to analyze ADDE. This is
enough to teach it that ADDE(0,0) is known 0 except the low bit, for example. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@122191 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -1956,7 +1956,8 @@ void SelectionDAG::ComputeMaskedBits(SDValue Op, const APInt &Mask,
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}
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}
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// fall through
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case ISD::ADD: {
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case ISD::ADD:
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case ISD::ADDE: {
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// Output known-0 bits are known if clear or set in both the low clear bits
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// common to both LHS & RHS. For example, 8+(X<<3) is known to have the
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// low 3 bits clear.
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@ -1971,7 +1972,17 @@ void SelectionDAG::ComputeMaskedBits(SDValue Op, const APInt &Mask,
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KnownZeroOut = std::min(KnownZeroOut,
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KnownZero2.countTrailingOnes());
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KnownZero |= APInt::getLowBitsSet(BitWidth, KnownZeroOut);
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if (Op.getOpcode() == ISD::ADD) {
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KnownZero |= APInt::getLowBitsSet(BitWidth, KnownZeroOut);
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return;
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}
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// With ADDE, a carry bit may be added in, so we can only use this
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// information if we know (at least) that the low two bits are clear. We
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// then return to the caller that the low bit is unknown but that other bits
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// are known zero.
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if (KnownZeroOut >= 2) // ADDE
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KnownZero |= APInt::getBitsSet(BitWidth, 1, KnownZeroOut);
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return;
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}
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case ISD::SREM:
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