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[ValueTracking] Use m_LogicalAnd/Or to look into conditions
This patch updates isImpliedCondition/isKnownNonZero to look into select form of and/or as well. See llvm.org/pr48353 and D93065 for more context Reviewed By: nikic Differential Revision: https://reviews.llvm.org/D93845
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@ -2131,11 +2131,10 @@ static bool isKnownNonNullFromDominatingCondition(const Value *V,
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// correct to assume that all conditions of AND are met in true branch.
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// correct to assume that all conditions of AND are met in true branch.
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// TODO: Support similar logic of OR and EQ predicate?
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// TODO: Support similar logic of OR and EQ predicate?
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if (NonNullIfTrue)
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if (NonNullIfTrue)
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if (auto *BO = dyn_cast<BinaryOperator>(Curr))
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if (match(Curr, m_LogicalAnd(m_Value(), m_Value()))) {
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if (BO->getOpcode() == Instruction::And) {
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for (auto *CurrU : Curr->users())
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for (auto *BOU : BO->users())
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if (Visited.insert(CurrU).second)
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if (Visited.insert(BOU).second)
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WorkList.push_back(CurrU);
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WorkList.push_back(BOU);
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continue;
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continue;
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}
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}
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@ -6156,25 +6155,25 @@ static Optional<bool> isImpliedCondICmps(const ICmpInst *LHS,
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/// Return true if LHS implies RHS is true. Return false if LHS implies RHS is
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/// Return true if LHS implies RHS is true. Return false if LHS implies RHS is
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/// false. Otherwise, return None if we can't infer anything. We expect the
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/// false. Otherwise, return None if we can't infer anything. We expect the
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/// RHS to be an icmp and the LHS to be an 'and' or an 'or' instruction.
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/// RHS to be an icmp and the LHS to be an 'and', 'or', or a 'select' instruction.
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static Optional<bool>
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static Optional<bool>
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isImpliedCondAndOr(const BinaryOperator *LHS, CmpInst::Predicate RHSPred,
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isImpliedCondAndOr(const Instruction *LHS, CmpInst::Predicate RHSPred,
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const Value *RHSOp0, const Value *RHSOp1,
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const Value *RHSOp0, const Value *RHSOp1,
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const DataLayout &DL, bool LHSIsTrue, unsigned Depth) {
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const DataLayout &DL, bool LHSIsTrue, unsigned Depth) {
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// The LHS must be an 'or' or an 'and' instruction.
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// The LHS must be an 'or', 'and', or a 'select' instruction.
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assert((LHS->getOpcode() == Instruction::And ||
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assert((LHS->getOpcode() == Instruction::And ||
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LHS->getOpcode() == Instruction::Or) &&
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LHS->getOpcode() == Instruction::Or ||
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"Expected LHS to be 'and' or 'or'.");
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LHS->getOpcode() == Instruction::Select) &&
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"Expected LHS to be 'and', 'or', or 'select'.");
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assert(Depth <= MaxAnalysisRecursionDepth && "Hit recursion limit");
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assert(Depth <= MaxAnalysisRecursionDepth && "Hit recursion limit");
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// If the result of an 'or' is false, then we know both legs of the 'or' are
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// If the result of an 'or' is false, then we know both legs of the 'or' are
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// false. Similarly, if the result of an 'and' is true, then we know both
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// false. Similarly, if the result of an 'and' is true, then we know both
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// legs of the 'and' are true.
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// legs of the 'and' are true.
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Value *ALHS, *ARHS;
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const Value *ALHS, *ARHS;
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if ((!LHSIsTrue && match(LHS, m_Or(m_Value(ALHS), m_Value(ARHS)))) ||
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if ((!LHSIsTrue && match(LHS, m_LogicalOr(m_Value(ALHS), m_Value(ARHS)))) ||
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(LHSIsTrue && match(LHS, m_And(m_Value(ALHS), m_Value(ARHS))))) {
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(LHSIsTrue && match(LHS, m_LogicalAnd(m_Value(ALHS), m_Value(ARHS))))) {
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// FIXME: Make this non-recursion.
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// FIXME: Make this non-recursion.
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if (Optional<bool> Implication = isImpliedCondition(
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if (Optional<bool> Implication = isImpliedCondition(
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ALHS, RHSPred, RHSOp0, RHSOp1, DL, LHSIsTrue, Depth + 1))
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ALHS, RHSPred, RHSOp0, RHSOp1, DL, LHSIsTrue, Depth + 1))
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@ -6215,13 +6214,14 @@ llvm::isImpliedCondition(const Value *LHS, CmpInst::Predicate RHSPred,
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return isImpliedCondICmps(LHSCmp, RHSPred, RHSOp0, RHSOp1, DL, LHSIsTrue,
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return isImpliedCondICmps(LHSCmp, RHSPred, RHSOp0, RHSOp1, DL, LHSIsTrue,
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Depth);
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Depth);
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/// The LHS should be an 'or' or an 'and' instruction. We expect the RHS to
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/// The LHS should be an 'or', 'and', or a 'select' instruction. We expect
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/// be / an icmp. FIXME: Add support for and/or on the RHS.
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/// the RHS to be an icmp.
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const BinaryOperator *LHSBO = dyn_cast<BinaryOperator>(LHS);
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/// FIXME: Add support for and/or/select on the RHS.
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if (LHSBO) {
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if (const Instruction *LHSI = dyn_cast<Instruction>(LHS)) {
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if ((LHSBO->getOpcode() == Instruction::And ||
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if ((LHSI->getOpcode() == Instruction::And ||
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LHSBO->getOpcode() == Instruction::Or))
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LHSI->getOpcode() == Instruction::Or ||
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return isImpliedCondAndOr(LHSBO, RHSPred, RHSOp0, RHSOp1, DL, LHSIsTrue,
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LHSI->getOpcode() == Instruction::Select))
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return isImpliedCondAndOr(LHSI, RHSPred, RHSOp0, RHSOp1, DL, LHSIsTrue,
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Depth);
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Depth);
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}
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}
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return None;
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return None;
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@ -1033,6 +1033,30 @@ TEST_F(ValueTrackingTest, KnownNonZeroFromDomCond) {
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EXPECT_EQ(isKnownNonZero(A, DL, 0, &AC, CxtI2, &DT), false);
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EXPECT_EQ(isKnownNonZero(A, DL, 0, &AC, CxtI2, &DT), false);
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}
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}
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TEST_F(ValueTrackingTest, KnownNonZeroFromDomCond2) {
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parseAssembly(R"(
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declare i8* @f_i8()
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define void @test(i1 %c) {
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%A = call i8* @f_i8()
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%B = call i8* @f_i8()
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%c1 = icmp ne i8* %A, null
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%cond = select i1 %c, i1 %c1, i1 false
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br i1 %cond, label %T, label %Q
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T:
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%CxtI = add i32 0, 0
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ret void
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Q:
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%CxtI2 = add i32 0, 0
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ret void
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}
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)");
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AssumptionCache AC(*F);
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DominatorTree DT(*F);
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DataLayout DL = M->getDataLayout();
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EXPECT_EQ(isKnownNonZero(A, DL, 0, &AC, CxtI, &DT), true);
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EXPECT_EQ(isKnownNonZero(A, DL, 0, &AC, CxtI2, &DT), false);
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}
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TEST_F(ValueTrackingTest, IsImpliedConditionAnd) {
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TEST_F(ValueTrackingTest, IsImpliedConditionAnd) {
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parseAssembly(R"(
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parseAssembly(R"(
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define void @test(i32 %x, i32 %y) {
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define void @test(i32 %x, i32 %y) {
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@ -1052,6 +1076,25 @@ TEST_F(ValueTrackingTest, IsImpliedConditionAnd) {
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EXPECT_EQ(isImpliedCondition(A, A4, DL), None);
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EXPECT_EQ(isImpliedCondition(A, A4, DL), None);
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}
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}
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TEST_F(ValueTrackingTest, IsImpliedConditionAnd2) {
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parseAssembly(R"(
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define void @test(i32 %x, i32 %y) {
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%c1 = icmp ult i32 %x, 10
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%c2 = icmp ult i32 %y, 15
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%A = select i1 %c1, i1 %c2, i1 false
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; x < 10 /\ y < 15
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%A2 = icmp ult i32 %x, 20
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%A3 = icmp uge i32 %y, 20
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%A4 = icmp ult i32 %x, 5
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ret void
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}
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)");
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DataLayout DL = M->getDataLayout();
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EXPECT_EQ(isImpliedCondition(A, A2, DL), true);
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EXPECT_EQ(isImpliedCondition(A, A3, DL), false);
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EXPECT_EQ(isImpliedCondition(A, A4, DL), None);
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}
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TEST_F(ValueTrackingTest, IsImpliedConditionOr) {
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TEST_F(ValueTrackingTest, IsImpliedConditionOr) {
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parseAssembly(R"(
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parseAssembly(R"(
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define void @test(i32 %x, i32 %y) {
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define void @test(i32 %x, i32 %y) {
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@ -1071,6 +1114,25 @@ TEST_F(ValueTrackingTest, IsImpliedConditionOr) {
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EXPECT_EQ(isImpliedCondition(A, A4, DL, false), None);
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EXPECT_EQ(isImpliedCondition(A, A4, DL, false), None);
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}
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}
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TEST_F(ValueTrackingTest, IsImpliedConditionOr2) {
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parseAssembly(R"(
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define void @test(i32 %x, i32 %y) {
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%c1 = icmp ult i32 %x, 10
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%c2 = icmp ult i32 %y, 15
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%A = select i1 %c1, i1 true, i1 %c2 ; negated
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; x >= 10 /\ y >= 15
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%A2 = icmp ult i32 %x, 5
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%A3 = icmp uge i32 %y, 10
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%A4 = icmp ult i32 %x, 15
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ret void
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}
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)");
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DataLayout DL = M->getDataLayout();
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EXPECT_EQ(isImpliedCondition(A, A2, DL, false), false);
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EXPECT_EQ(isImpliedCondition(A, A3, DL, false), true);
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EXPECT_EQ(isImpliedCondition(A, A4, DL, false), None);
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}
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TEST_F(ComputeKnownBitsTest, KnownNonZeroShift) {
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TEST_F(ComputeKnownBitsTest, KnownNonZeroShift) {
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// %q is known nonzero without known bits.
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// %q is known nonzero without known bits.
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// Because %q is nonzero, %A[0] is known to be zero.
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// Because %q is nonzero, %A[0] is known to be zero.
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