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generalize the previous code to use the full generality of LEA
for i32/i64 expressions (we could also do i16 on cpus where i16 lea is fast, but I didn't add this). On the example, we now generate: _test: movl 4(%esp), %eax cmpl $42, (%eax) setl %al movzbl %al, %eax leal 4(%eax,%eax,8), %eax ret instead of: _test: movl 4(%esp), %eax cmpl $41, (%eax) movl $4, %ecx movl $13, %eax cmovg %ecx, %eax ret git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@66869 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -8188,25 +8188,26 @@ static SDValue PerformSELECTCombine(SDNode *N, SelectionDAG &DAG,
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// If this is a select between two integer constants, try to do some
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// optimizations.
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if (ConstantSDNode *LHSC = dyn_cast<ConstantSDNode>(LHS)) {
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if (ConstantSDNode *RHSC = dyn_cast<ConstantSDNode>(RHS))
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if (ConstantSDNode *TrueC = dyn_cast<ConstantSDNode>(LHS)) {
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if (ConstantSDNode *FalseC = dyn_cast<ConstantSDNode>(RHS))
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// Don't do this for crazy integer types.
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if (DAG.getTargetLoweringInfo().isTypeLegal(LHS.getValueType())) {
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// If this is efficiently invertible, canonicalize the LHSC/RHSC values
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// so that LHSC (the true value) is larger than RHSC (the false value).
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// so that TrueC (the true value) is larger than FalseC.
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bool NeedsCondInvert = false;
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if (LHSC->getAPIntValue().ult(RHSC->getAPIntValue()) &&
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if (TrueC->getAPIntValue().ult(FalseC->getAPIntValue()) &&
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// Efficiently invertible.
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(Cond.getOpcode() == ISD::SETCC || // setcc -> invertible.
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(Cond.getOpcode() == ISD::XOR && // xor(X, C) -> invertible.
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isa<ConstantSDNode>(Cond.getOperand(1))))) {
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NeedsCondInvert = true;
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std::swap(LHSC, RHSC);
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std::swap(TrueC, FalseC);
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}
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// Optimize C ? 8 : 0 -> zext(C) << 3. Likewise for any pow2/0.
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if (RHSC->getAPIntValue() == 0 && LHSC->getAPIntValue().isPowerOf2()) {
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if (FalseC->getAPIntValue() == 0 &&
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TrueC->getAPIntValue().isPowerOf2()) {
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if (NeedsCondInvert) // Invert the condition if needed.
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Cond = DAG.getNode(ISD::XOR, DL, Cond.getValueType(), Cond,
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DAG.getConstant(1, Cond.getValueType()));
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@ -8214,22 +8215,67 @@ static SDValue PerformSELECTCombine(SDNode *N, SelectionDAG &DAG,
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// Zero extend the condition if needed.
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Cond = DAG.getNode(ISD::ZERO_EXTEND, DL, LHS.getValueType(), Cond);
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unsigned ShAmt = LHSC->getAPIntValue().logBase2();
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unsigned ShAmt = TrueC->getAPIntValue().logBase2();
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return DAG.getNode(ISD::SHL, DL, LHS.getValueType(), Cond,
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DAG.getConstant(ShAmt, MVT::i8));
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}
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// Optimize Cond ? cst+1 : cst -> zext(setcc(C)+cst.
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if (RHSC->getAPIntValue()+1 == LHSC->getAPIntValue()) {
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if (FalseC->getAPIntValue()+1 == TrueC->getAPIntValue()) {
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if (NeedsCondInvert) // Invert the condition if needed.
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Cond = DAG.getNode(ISD::XOR, DL, Cond.getValueType(), Cond,
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DAG.getConstant(1, Cond.getValueType()));
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// Zero extend the condition if needed.
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Cond = DAG.getNode(ISD::ZERO_EXTEND, DL, RHSC->getValueType(0), Cond);
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Cond = DAG.getNode(ISD::ZERO_EXTEND, DL,
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FalseC->getValueType(0), Cond);
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return DAG.getNode(ISD::ADD, DL, Cond.getValueType(), Cond,
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SDValue(RHSC, 0));
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SDValue(FalseC, 0));
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}
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// Optimize cases that will turn into an LEA instruction. This requires
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// an i32 or i64 and an efficient multiplier (1, 2, 3, 4, 5, 8, 9).
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if (N->getValueType(0) == MVT::i32 || N->getValueType(0) == MVT::i64) {
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uint64_t Diff = TrueC->getZExtValue()-FalseC->getZExtValue();
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if (N->getValueType(0) == MVT::i32) Diff = (unsigned)Diff;
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bool isFastMultiplier = false;
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if (Diff < 10) {
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switch ((unsigned char)Diff) {
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default: break;
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case 1: // result = add base, cond
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case 2: // result = lea base( , cond*2)
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case 3: // result = lea base(cond, cond*2)
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case 4: // result = lea base( , cond*4)
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case 5: // result = lea base(cond, cond*4)
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case 8: // result = lea base( , cond*8)
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case 9: // result = lea base(cond, cond*8)
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isFastMultiplier = true;
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break;
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}
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}
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if (isFastMultiplier) {
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APInt Diff = TrueC->getAPIntValue()-FalseC->getAPIntValue();
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if (NeedsCondInvert) // Invert the condition if needed.
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Cond = DAG.getNode(ISD::XOR, DL, Cond.getValueType(), Cond,
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DAG.getConstant(1, Cond.getValueType()));
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// Zero extend the condition if needed.
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Cond = DAG.getNode(ISD::ZERO_EXTEND, DL, FalseC->getValueType(0),
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Cond);
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// Scale the condition by the difference.
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if (Diff != 1)
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Cond = DAG.getNode(ISD::MUL, DL, Cond.getValueType(), Cond,
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DAG.getConstant(Diff, Cond.getValueType()));
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// Add the base if non-zero.
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if (FalseC->getAPIntValue() != 0)
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Cond = DAG.getNode(ISD::ADD, DL, Cond.getValueType(), Cond,
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SDValue(FalseC, 0));
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return Cond;
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}
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}
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}
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}
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@ -8260,6 +8306,8 @@ static SDValue PerformCMOVCombine(SDNode *N, SelectionDAG &DAG,
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}
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// Optimize C ? 8 : 0 -> zext(setcc(C)) << 3. Likewise for any pow2/0.
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// This is efficient for any integer data type (including i8/i16) and
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// shift amount.
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if (FalseC->getAPIntValue() == 0 && TrueC->getAPIntValue().isPowerOf2()) {
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SDValue Cond = N->getOperand(3);
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Cond = DAG.getNode(X86ISD::SETCC, DL, MVT::i8,
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@ -8275,21 +8323,69 @@ static SDValue PerformCMOVCombine(SDNode *N, SelectionDAG &DAG,
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return DCI.CombineTo(N, Cond, SDValue());
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return Cond;
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}
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// Optimize Cond ? cst+1 : cst -> zext(setcc(C)+cst.
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// Optimize Cond ? cst+1 : cst -> zext(setcc(C)+cst. This is efficient
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// for any integer data type, including i8/i16.
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if (FalseC->getAPIntValue()+1 == TrueC->getAPIntValue()) {
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SDValue Cond = N->getOperand(3);
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Cond = DAG.getNode(X86ISD::SETCC, DL, MVT::i8,
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DAG.getConstant(CC, MVT::i8), Cond);
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// Zero extend the condition if needed.
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Cond = DAG.getNode(ISD::ZERO_EXTEND, DL, FalseC->getValueType(0), Cond);
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Cond = DAG.getNode(ISD::ZERO_EXTEND, DL,
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FalseC->getValueType(0), Cond);
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Cond = DAG.getNode(ISD::ADD, DL, Cond.getValueType(), Cond,
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SDValue(FalseC, 0));
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if (N->getNumValues() == 2) // Dead flag value?
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return DCI.CombineTo(N, Cond, SDValue());
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return Cond;
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}
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// Optimize cases that will turn into an LEA instruction. This requires
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// an i32 or i64 and an efficient multiplier (1, 2, 3, 4, 5, 8, 9).
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if (N->getValueType(0) == MVT::i32 || N->getValueType(0) == MVT::i64) {
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uint64_t Diff = TrueC->getZExtValue()-FalseC->getZExtValue();
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if (N->getValueType(0) == MVT::i32) Diff = (unsigned)Diff;
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bool isFastMultiplier = false;
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if (Diff < 10) {
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switch ((unsigned char)Diff) {
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default: break;
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case 1: // result = add base, cond
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case 2: // result = lea base( , cond*2)
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case 3: // result = lea base(cond, cond*2)
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case 4: // result = lea base( , cond*4)
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case 5: // result = lea base(cond, cond*4)
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case 8: // result = lea base( , cond*8)
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case 9: // result = lea base(cond, cond*8)
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isFastMultiplier = true;
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break;
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}
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}
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if (isFastMultiplier) {
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APInt Diff = TrueC->getAPIntValue()-FalseC->getAPIntValue();
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SDValue Cond = N->getOperand(3);
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Cond = DAG.getNode(X86ISD::SETCC, DL, MVT::i8,
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DAG.getConstant(CC, MVT::i8), Cond);
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// Zero extend the condition if needed.
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Cond = DAG.getNode(ISD::ZERO_EXTEND, DL, FalseC->getValueType(0),
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Cond);
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// Scale the condition by the difference.
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if (Diff != 1)
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Cond = DAG.getNode(ISD::MUL, DL, Cond.getValueType(), Cond,
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DAG.getConstant(Diff, Cond.getValueType()));
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// Add the base if non-zero.
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if (FalseC->getAPIntValue() != 0)
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Cond = DAG.getNode(ISD::ADD, DL, Cond.getValueType(), Cond,
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SDValue(FalseC, 0));
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if (N->getNumValues() == 2) // Dead flag value?
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return DCI.CombineTo(N, Cond, SDValue());
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return Cond;
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}
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}
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}
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}
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return SDValue();
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@ -12,3 +12,15 @@ entry:
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%iftmp.0.0 = select i1 %1, i32 -1, i32 -2 ; <i32> [#uses=1]
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ret i32 %iftmp.0.0
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}
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; setl %al
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; movzbl %al, %eax
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; leal 4(%eax,%eax,8), %eax
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define i32 @test2(i32* nocapture %P) nounwind readonly {
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entry:
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%0 = load i32* %P, align 4 ; <i32> [#uses=1]
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%1 = icmp sgt i32 %0, 41 ; <i1> [#uses=1]
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%iftmp.0.0 = select i1 %1, i32 4, i32 13 ; <i32> [#uses=1]
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ret i32 %iftmp.0.0
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}
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