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05294a4e68
Count iterations of zero-trip loops and assert the count is zero, rather than asserting inside the loop. Unreachable functions should use llvm_unreachable. Remove tautological 'if' statements, even when they're following a pattern of checks. Found by the Rotten Green Tests project.
282 lines
9.6 KiB
C++
282 lines
9.6 KiB
C++
//===- llvm/unittest/IR/BasicBlockTest.cpp - BasicBlock unit tests --------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/IR/BasicBlock.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/AsmParser/Parser.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/Module.h"
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#include "llvm/IR/NoFolder.h"
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#include "llvm/IR/Verifier.h"
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#include "llvm/Support/SourceMgr.h"
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#include "gmock/gmock-matchers.h"
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#include "gtest/gtest.h"
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#include <memory>
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namespace llvm {
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namespace {
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TEST(BasicBlockTest, PhiRange) {
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LLVMContext Context;
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// Create the main block.
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std::unique_ptr<BasicBlock> BB(BasicBlock::Create(Context));
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// Create some predecessors of it.
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std::unique_ptr<BasicBlock> BB1(BasicBlock::Create(Context));
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BranchInst::Create(BB.get(), BB1.get());
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std::unique_ptr<BasicBlock> BB2(BasicBlock::Create(Context));
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BranchInst::Create(BB.get(), BB2.get());
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// Make sure this doesn't crash if there are no phis.
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int PhiCount = 0;
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for (auto &PN : BB->phis()) {
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(void)PN;
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PhiCount++;
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}
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ASSERT_EQ(PhiCount, 0) << "empty block should have no phis";
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// Make it a cycle.
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auto *BI = BranchInst::Create(BB.get(), BB.get());
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// Now insert some PHI nodes.
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auto *Int32Ty = Type::getInt32Ty(Context);
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auto *P1 = PHINode::Create(Int32Ty, /*NumReservedValues*/ 3, "phi.1", BI);
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auto *P2 = PHINode::Create(Int32Ty, /*NumReservedValues*/ 3, "phi.2", BI);
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auto *P3 = PHINode::Create(Int32Ty, /*NumReservedValues*/ 3, "phi.3", BI);
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// Some non-PHI nodes.
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auto *Sum = BinaryOperator::CreateAdd(P1, P2, "sum", BI);
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// Now wire up the incoming values that are interesting.
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P1->addIncoming(P2, BB.get());
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P2->addIncoming(P1, BB.get());
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P3->addIncoming(Sum, BB.get());
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// Finally, let's iterate them, which is the thing we're trying to test.
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// We'll use this to wire up the rest of the incoming values.
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for (auto &PN : BB->phis()) {
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PN.addIncoming(UndefValue::get(Int32Ty), BB1.get());
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PN.addIncoming(UndefValue::get(Int32Ty), BB2.get());
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}
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// Test that we can use const iterators and generally that the iterators
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// behave like iterators.
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BasicBlock::const_phi_iterator CI;
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CI = BB->phis().begin();
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EXPECT_NE(CI, BB->phis().end());
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// Test that filtering iterators work with basic blocks.
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auto isPhi = [](Instruction &I) { return isa<PHINode>(&I); };
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auto Phis = make_filter_range(*BB, isPhi);
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auto ReversedPhis = reverse(make_filter_range(*BB, isPhi));
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EXPECT_EQ(std::distance(Phis.begin(), Phis.end()), 3);
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EXPECT_EQ(&*Phis.begin(), P1);
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EXPECT_EQ(std::distance(ReversedPhis.begin(), ReversedPhis.end()), 3);
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EXPECT_EQ(&*ReversedPhis.begin(), P3);
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// And iterate a const range.
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for (const auto &PN : const_cast<const BasicBlock *>(BB.get())->phis()) {
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EXPECT_EQ(BB.get(), PN.getIncomingBlock(0));
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EXPECT_EQ(BB1.get(), PN.getIncomingBlock(1));
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EXPECT_EQ(BB2.get(), PN.getIncomingBlock(2));
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}
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}
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#define CHECK_ITERATORS(Range1, Range2) \
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EXPECT_EQ(std::distance(Range1.begin(), Range1.end()), \
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std::distance(Range2.begin(), Range2.end())); \
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for (auto Pair : zip(Range1, Range2)) \
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EXPECT_EQ(&std::get<0>(Pair), std::get<1>(Pair));
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TEST(BasicBlockTest, TestInstructionsWithoutDebug) {
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LLVMContext Ctx;
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Module *M = new Module("MyModule", Ctx);
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Type *ArgTy1[] = {Type::getInt32PtrTy(Ctx)};
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FunctionType *FT = FunctionType::get(Type::getVoidTy(Ctx), ArgTy1, false);
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Argument *V = new Argument(Type::getInt32Ty(Ctx));
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Function *F = Function::Create(FT, Function::ExternalLinkage, "", M);
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Function *DbgAddr = Intrinsic::getDeclaration(M, Intrinsic::dbg_addr);
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Function *DbgDeclare = Intrinsic::getDeclaration(M, Intrinsic::dbg_declare);
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Function *DbgValue = Intrinsic::getDeclaration(M, Intrinsic::dbg_value);
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Value *DIV = MetadataAsValue::get(Ctx, (Metadata *)nullptr);
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SmallVector<Value *, 3> Args = {DIV, DIV, DIV};
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BasicBlock *BB1 = BasicBlock::Create(Ctx, "", F);
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const BasicBlock *BBConst = BB1;
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IRBuilder<> Builder1(BB1);
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AllocaInst *Var = Builder1.CreateAlloca(Builder1.getInt8Ty());
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Builder1.CreateCall(DbgValue, Args);
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Instruction *AddInst = cast<Instruction>(Builder1.CreateAdd(V, V));
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Instruction *MulInst = cast<Instruction>(Builder1.CreateMul(AddInst, V));
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Builder1.CreateCall(DbgDeclare, Args);
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Instruction *SubInst = cast<Instruction>(Builder1.CreateSub(MulInst, V));
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Builder1.CreateCall(DbgAddr, Args);
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SmallVector<Instruction *, 4> Exp = {Var, AddInst, MulInst, SubInst};
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CHECK_ITERATORS(BB1->instructionsWithoutDebug(), Exp);
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CHECK_ITERATORS(BBConst->instructionsWithoutDebug(), Exp);
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EXPECT_EQ(static_cast<size_t>(BB1->sizeWithoutDebug()), Exp.size());
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EXPECT_EQ(static_cast<size_t>(BBConst->sizeWithoutDebug()), Exp.size());
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delete M;
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delete V;
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}
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TEST(BasicBlockTest, ComesBefore) {
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const char *ModuleString = R"(define i32 @f(i32 %x) {
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%add = add i32 %x, 42
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ret i32 %add
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})";
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LLVMContext Ctx;
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SMDiagnostic Err;
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auto M = parseAssemblyString(ModuleString, Err, Ctx);
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ASSERT_TRUE(M.get());
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Function *F = M->getFunction("f");
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BasicBlock &BB = F->front();
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BasicBlock::iterator I = BB.begin();
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Instruction *Add = &*I++;
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Instruction *Ret = &*I++;
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// Intentionally duplicated to verify cached and uncached are the same.
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EXPECT_FALSE(BB.isInstrOrderValid());
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EXPECT_FALSE(Add->comesBefore(Add));
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EXPECT_TRUE(BB.isInstrOrderValid());
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EXPECT_FALSE(Add->comesBefore(Add));
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BB.invalidateOrders();
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EXPECT_FALSE(BB.isInstrOrderValid());
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EXPECT_TRUE(Add->comesBefore(Ret));
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EXPECT_TRUE(BB.isInstrOrderValid());
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EXPECT_TRUE(Add->comesBefore(Ret));
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BB.invalidateOrders();
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EXPECT_FALSE(Ret->comesBefore(Add));
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EXPECT_FALSE(Ret->comesBefore(Add));
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BB.invalidateOrders();
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EXPECT_FALSE(Ret->comesBefore(Ret));
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EXPECT_FALSE(Ret->comesBefore(Ret));
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}
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TEST(BasicBlockTest, EmptyPhi) {
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LLVMContext Ctx;
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Module *M = new Module("MyModule", Ctx);
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FunctionType *FT = FunctionType::get(Type::getVoidTy(Ctx), {}, false);
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Function *F = Function::Create(FT, Function::ExternalLinkage, "", M);
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BasicBlock *BB1 = BasicBlock::Create(Ctx, "", F);
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ReturnInst::Create(Ctx, BB1);
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Type *Ty = Type::getInt32PtrTy(Ctx);
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BasicBlock *BB2 = BasicBlock::Create(Ctx, "", F);
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PHINode::Create(Ty, 0, "", BB2);
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ReturnInst::Create(Ctx, BB2);
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EXPECT_FALSE(verifyModule(*M, &errs()));
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}
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class InstrOrderInvalidationTest : public ::testing::Test {
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protected:
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void SetUp() override {
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M.reset(new Module("MyModule", Ctx));
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Nop = Intrinsic::getDeclaration(M.get(), Intrinsic::donothing);
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FunctionType *FT = FunctionType::get(Type::getVoidTy(Ctx), {}, false);
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Function *F = Function::Create(FT, Function::ExternalLinkage, "foo", *M);
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BB = BasicBlock::Create(Ctx, "entry", F);
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IRBuilder<> Builder(BB);
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I1 = Builder.CreateCall(Nop);
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I2 = Builder.CreateCall(Nop);
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I3 = Builder.CreateCall(Nop);
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Ret = Builder.CreateRetVoid();
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}
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LLVMContext Ctx;
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std::unique_ptr<Module> M;
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Function *Nop = nullptr;
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BasicBlock *BB = nullptr;
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Instruction *I1 = nullptr;
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Instruction *I2 = nullptr;
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Instruction *I3 = nullptr;
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Instruction *Ret = nullptr;
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};
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TEST_F(InstrOrderInvalidationTest, InsertInvalidation) {
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EXPECT_FALSE(BB->isInstrOrderValid());
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EXPECT_TRUE(I1->comesBefore(I2));
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EXPECT_TRUE(BB->isInstrOrderValid());
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EXPECT_TRUE(I2->comesBefore(I3));
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EXPECT_TRUE(I3->comesBefore(Ret));
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EXPECT_TRUE(BB->isInstrOrderValid());
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// Invalidate orders.
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IRBuilder<> Builder(BB, I2->getIterator());
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Instruction *I1a = Builder.CreateCall(Nop);
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EXPECT_FALSE(BB->isInstrOrderValid());
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EXPECT_TRUE(I1->comesBefore(I1a));
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EXPECT_TRUE(BB->isInstrOrderValid());
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EXPECT_TRUE(I1a->comesBefore(I2));
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EXPECT_TRUE(I2->comesBefore(I3));
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EXPECT_TRUE(I3->comesBefore(Ret));
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EXPECT_TRUE(BB->isInstrOrderValid());
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}
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TEST_F(InstrOrderInvalidationTest, SpliceInvalidation) {
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EXPECT_TRUE(I1->comesBefore(I2));
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EXPECT_TRUE(I2->comesBefore(I3));
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EXPECT_TRUE(I3->comesBefore(Ret));
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EXPECT_TRUE(BB->isInstrOrderValid());
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// Use Instruction::moveBefore, which uses splice.
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I2->moveBefore(I1);
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EXPECT_FALSE(BB->isInstrOrderValid());
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EXPECT_TRUE(I2->comesBefore(I1));
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EXPECT_TRUE(I1->comesBefore(I3));
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EXPECT_TRUE(I3->comesBefore(Ret));
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EXPECT_TRUE(BB->isInstrOrderValid());
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}
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TEST_F(InstrOrderInvalidationTest, RemoveNoInvalidation) {
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// Cache the instruction order.
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EXPECT_FALSE(BB->isInstrOrderValid());
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EXPECT_TRUE(I1->comesBefore(I2));
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EXPECT_TRUE(BB->isInstrOrderValid());
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// Removing does not invalidate instruction order.
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I2->removeFromParent();
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I2->deleteValue();
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I2 = nullptr;
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EXPECT_TRUE(BB->isInstrOrderValid());
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EXPECT_TRUE(I1->comesBefore(I3));
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EXPECT_EQ(std::next(I1->getIterator()), I3->getIterator());
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}
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TEST_F(InstrOrderInvalidationTest, EraseNoInvalidation) {
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// Cache the instruction order.
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EXPECT_FALSE(BB->isInstrOrderValid());
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EXPECT_TRUE(I1->comesBefore(I2));
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EXPECT_TRUE(BB->isInstrOrderValid());
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// Removing does not invalidate instruction order.
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I2->eraseFromParent();
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I2 = nullptr;
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EXPECT_TRUE(BB->isInstrOrderValid());
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EXPECT_TRUE(I1->comesBefore(I3));
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EXPECT_EQ(std::next(I1->getIterator()), I3->getIterator());
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}
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} // End anonymous namespace.
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} // End llvm namespace.
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