//===- ValueTrackingTest.cpp - ValueTracking tests ------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/Analysis/ValueTracking.h" #include "llvm/AsmParser/Parser.h" #include "llvm/IR/Function.h" #include "llvm/IR/InstIterator.h" #include "llvm/IR/LLVMContext.h" #include "llvm/IR/Module.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/SourceMgr.h" #include "llvm/Support/KnownBits.h" #include "gtest/gtest.h" using namespace llvm; namespace { class MatchSelectPatternTest : public testing::Test { protected: void parseAssembly(const char *Assembly) { SMDiagnostic Error; M = parseAssemblyString(Assembly, Error, Context); std::string errMsg; raw_string_ostream os(errMsg); Error.print("", os); // A failure here means that the test itself is buggy. if (!M) report_fatal_error(os.str()); Function *F = M->getFunction("test"); if (F == nullptr) report_fatal_error("Test must have a function named @test"); A = nullptr; for (inst_iterator I = inst_begin(F), E = inst_end(F); I != E; ++I) { if (I->hasName()) { if (I->getName() == "A") A = &*I; } } if (A == nullptr) report_fatal_error("@test must have an instruction %A"); } void expectPattern(const SelectPatternResult &P) { Value *LHS, *RHS; Instruction::CastOps CastOp; SelectPatternResult R = matchSelectPattern(A, LHS, RHS, &CastOp); EXPECT_EQ(P.Flavor, R.Flavor); EXPECT_EQ(P.NaNBehavior, R.NaNBehavior); EXPECT_EQ(P.Ordered, R.Ordered); } LLVMContext Context; std::unique_ptr M; Instruction *A, *B; }; } TEST_F(MatchSelectPatternTest, SimpleFMin) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp ult float %a, 5.0\n" " %A = select i1 %1, float %a, float 5.0\n" " ret float %A\n" "}\n"); expectPattern({SPF_FMINNUM, SPNB_RETURNS_NAN, false}); } TEST_F(MatchSelectPatternTest, SimpleFMax) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp ogt float %a, 5.0\n" " %A = select i1 %1, float %a, float 5.0\n" " ret float %A\n" "}\n"); expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, true}); } TEST_F(MatchSelectPatternTest, SwappedFMax) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp olt float 5.0, %a\n" " %A = select i1 %1, float %a, float 5.0\n" " ret float %A\n" "}\n"); expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, false}); } TEST_F(MatchSelectPatternTest, SwappedFMax2) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp olt float %a, 5.0\n" " %A = select i1 %1, float 5.0, float %a\n" " ret float %A\n" "}\n"); expectPattern({SPF_FMAXNUM, SPNB_RETURNS_NAN, false}); } TEST_F(MatchSelectPatternTest, SwappedFMax3) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp ult float %a, 5.0\n" " %A = select i1 %1, float 5.0, float %a\n" " ret float %A\n" "}\n"); expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, true}); } TEST_F(MatchSelectPatternTest, FastFMin) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp nnan olt float %a, 5.0\n" " %A = select i1 %1, float %a, float 5.0\n" " ret float %A\n" "}\n"); expectPattern({SPF_FMINNUM, SPNB_RETURNS_ANY, false}); } TEST_F(MatchSelectPatternTest, FMinConstantZero) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp ole float %a, 0.0\n" " %A = select i1 %1, float %a, float 0.0\n" " ret float %A\n" "}\n"); // This shouldn't be matched, as %a could be -0.0. expectPattern({SPF_UNKNOWN, SPNB_NA, false}); } TEST_F(MatchSelectPatternTest, FMinConstantZeroNsz) { parseAssembly( "define float @test(float %a) {\n" " %1 = fcmp nsz ole float %a, 0.0\n" " %A = select i1 %1, float %a, float 0.0\n" " ret float %A\n" "}\n"); // But this should be, because we've ignored signed zeroes. expectPattern({SPF_FMINNUM, SPNB_RETURNS_OTHER, true}); } TEST_F(MatchSelectPatternTest, DoubleCastU) { parseAssembly( "define i32 @test(i8 %a, i8 %b) {\n" " %1 = icmp ult i8 %a, %b\n" " %2 = zext i8 %a to i32\n" " %3 = zext i8 %b to i32\n" " %A = select i1 %1, i32 %2, i32 %3\n" " ret i32 %A\n" "}\n"); // We should be able to look through the situation where we cast both operands // to the select. expectPattern({SPF_UMIN, SPNB_NA, false}); } TEST_F(MatchSelectPatternTest, DoubleCastS) { parseAssembly( "define i32 @test(i8 %a, i8 %b) {\n" " %1 = icmp slt i8 %a, %b\n" " %2 = sext i8 %a to i32\n" " %3 = sext i8 %b to i32\n" " %A = select i1 %1, i32 %2, i32 %3\n" " ret i32 %A\n" "}\n"); // We should be able to look through the situation where we cast both operands // to the select. expectPattern({SPF_SMIN, SPNB_NA, false}); } TEST_F(MatchSelectPatternTest, DoubleCastBad) { parseAssembly( "define i32 @test(i8 %a, i8 %b) {\n" " %1 = icmp ult i8 %a, %b\n" " %2 = zext i8 %a to i32\n" " %3 = sext i8 %b to i32\n" " %A = select i1 %1, i32 %2, i32 %3\n" " ret i32 %A\n" "}\n"); // The cast types here aren't the same, so we cannot match an UMIN. expectPattern({SPF_UNKNOWN, SPNB_NA, false}); } TEST(ValueTracking, GuaranteedToTransferExecutionToSuccessor) { StringRef Assembly = "declare void @nounwind_readonly(i32*) nounwind readonly " "declare void @nounwind_argmemonly(i32*) nounwind argmemonly " "declare void @throws_but_readonly(i32*) readonly " "declare void @throws_but_argmemonly(i32*) argmemonly " " " "declare void @unknown(i32*) " " " "define void @f(i32* %p) { " " call void @nounwind_readonly(i32* %p) " " call void @nounwind_argmemonly(i32* %p) " " call void @throws_but_readonly(i32* %p) " " call void @throws_but_argmemonly(i32* %p) " " call void @unknown(i32* %p) nounwind readonly " " call void @unknown(i32* %p) nounwind argmemonly " " call void @unknown(i32* %p) readonly " " call void @unknown(i32* %p) argmemonly " " ret void " "} "; LLVMContext Context; SMDiagnostic Error; auto M = parseAssemblyString(Assembly, Error, Context); assert(M && "Bad assembly?"); auto *F = M->getFunction("f"); assert(F && "Bad assembly?"); auto &BB = F->getEntryBlock(); bool ExpectedAnswers[] = { true, // call void @nounwind_readonly(i32* %p) true, // call void @nounwind_argmemonly(i32* %p) false, // call void @throws_but_readonly(i32* %p) false, // call void @throws_but_argmemonly(i32* %p) true, // call void @unknown(i32* %p) nounwind readonly true, // call void @unknown(i32* %p) nounwind argmemonly false, // call void @unknown(i32* %p) readonly false, // call void @unknown(i32* %p) argmemonly false, // ret void }; int Index = 0; for (auto &I : BB) { EXPECT_EQ(isGuaranteedToTransferExecutionToSuccessor(&I), ExpectedAnswers[Index]) << "Incorrect answer at instruction " << Index << " = " << I; Index++; } } TEST(ValueTracking, ComputeNumSignBits_PR32045) { StringRef Assembly = "define i32 @f(i32 %a) { " " %val = ashr i32 %a, -1 " " ret i32 %val " "} "; LLVMContext Context; SMDiagnostic Error; auto M = parseAssemblyString(Assembly, Error, Context); assert(M && "Bad assembly?"); auto *F = M->getFunction("f"); assert(F && "Bad assembly?"); auto *RVal = cast(F->getEntryBlock().getTerminator())->getOperand(0); EXPECT_EQ(ComputeNumSignBits(RVal, M->getDataLayout()), 1u); } TEST(ValueTracking, ComputeKnownBits) { StringRef Assembly = "define i32 @f(i32 %a, i32 %b) { " " %ash = mul i32 %a, 8 " " %aad = add i32 %ash, 7 " " %aan = and i32 %aad, 4095 " " %bsh = shl i32 %b, 4 " " %bad = or i32 %bsh, 6 " " %ban = and i32 %bad, 4095 " " %mul = mul i32 %aan, %ban " " ret i32 %mul " "} "; LLVMContext Context; SMDiagnostic Error; auto M = parseAssemblyString(Assembly, Error, Context); assert(M && "Bad assembly?"); auto *F = M->getFunction("f"); assert(F && "Bad assembly?"); auto *RVal = cast(F->getEntryBlock().getTerminator())->getOperand(0); auto Known = computeKnownBits(RVal, M->getDataLayout()); ASSERT_FALSE(Known.hasConflict()); EXPECT_EQ(Known.One.getZExtValue(), 10u); EXPECT_EQ(Known.Zero.getZExtValue(), 4278190085u); } TEST(ValueTracking, ComputeKnownMulBits) { StringRef Assembly = "define i32 @f(i32 %a, i32 %b) { " " %aa = shl i32 %a, 5 " " %bb = shl i32 %b, 5 " " %aaa = or i32 %aa, 24 " " %bbb = or i32 %bb, 28 " " %mul = mul i32 %aaa, %bbb " " ret i32 %mul " "} "; LLVMContext Context; SMDiagnostic Error; auto M = parseAssemblyString(Assembly, Error, Context); assert(M && "Bad assembly?"); auto *F = M->getFunction("f"); assert(F && "Bad assembly?"); auto *RVal = cast(F->getEntryBlock().getTerminator())->getOperand(0); auto Known = computeKnownBits(RVal, M->getDataLayout()); ASSERT_FALSE(Known.hasConflict()); EXPECT_EQ(Known.One.getZExtValue(), 32u); EXPECT_EQ(Known.Zero.getZExtValue(), 95u); }