274 lines
10 KiB
C++
274 lines
10 KiB
C++
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//===- unittests/Analysis/CFGTest.cpp - CFG 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 "CFGBuildResult.h"
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#include "clang/AST/Decl.h"
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#include "clang/ASTMatchers/ASTMatchFinder.h"
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#include "clang/Analysis/AnalysisDeclContext.h"
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#include "clang/Analysis/CFG.h"
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#include "clang/Analysis/FlowSensitive/DataflowWorklist.h"
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#include "clang/Tooling/Tooling.h"
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#include "gtest/gtest.h"
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#include <algorithm>
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#include <string>
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#include <vector>
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namespace clang {
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namespace analysis {
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namespace {
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// Constructing a CFG for a range-based for over a dependent type fails (but
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// should not crash).
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TEST(CFG, RangeBasedForOverDependentType) {
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const char *Code = "class Foo;\n"
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"template <typename T>\n"
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"void f(const T &Range) {\n"
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" for (const Foo *TheFoo : Range) {\n"
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" }\n"
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"}\n";
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EXPECT_EQ(BuildResult::SawFunctionBody, BuildCFG(Code).getStatus());
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}
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TEST(CFG, StaticInitializerLastCondition) {
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const char *Code = "void f() {\n"
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" int i = 5 ;\n"
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" static int j = 3 ;\n"
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"}\n";
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CFG::BuildOptions Options;
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Options.AddStaticInitBranches = true;
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Options.setAllAlwaysAdd();
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BuildResult B = BuildCFG(Code, Options);
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EXPECT_EQ(BuildResult::BuiltCFG, B.getStatus());
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EXPECT_EQ(1u, B.getCFG()->getEntry().succ_size());
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CFGBlock *Block = *B.getCFG()->getEntry().succ_begin();
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EXPECT_TRUE(isa<DeclStmt>(Block->getTerminatorStmt()));
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EXPECT_EQ(nullptr, Block->getLastCondition());
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}
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// Constructing a CFG containing a delete expression on a dependent type should
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// not crash.
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TEST(CFG, DeleteExpressionOnDependentType) {
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const char *Code = "template<class T>\n"
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"void f(T t) {\n"
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" delete t;\n"
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"}\n";
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EXPECT_EQ(BuildResult::BuiltCFG, BuildCFG(Code).getStatus());
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}
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// Constructing a CFG on a function template with a variable of incomplete type
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// should not crash.
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TEST(CFG, VariableOfIncompleteType) {
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const char *Code = "template<class T> void f() {\n"
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" class Undefined;\n"
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" Undefined u;\n"
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"}\n";
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EXPECT_EQ(BuildResult::BuiltCFG, BuildCFG(Code).getStatus());
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}
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TEST(CFG, IsLinear) {
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auto expectLinear = [](bool IsLinear, const char *Code) {
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BuildResult B = BuildCFG(Code);
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EXPECT_EQ(BuildResult::BuiltCFG, B.getStatus());
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EXPECT_EQ(IsLinear, B.getCFG()->isLinear());
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};
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expectLinear(true, "void foo() {}");
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expectLinear(true, "void foo() { if (true) return; }");
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expectLinear(true, "void foo() { if constexpr (false); }");
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expectLinear(false, "void foo(bool coin) { if (coin) return; }");
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expectLinear(false, "void foo() { for(;;); }");
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expectLinear(false, "void foo() { do {} while (true); }");
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expectLinear(true, "void foo() { do {} while (false); }");
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expectLinear(true, "void foo() { foo(); }"); // Recursion is not our problem.
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}
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TEST(CFG, ElementRefIterator) {
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const char *Code = R"(void f() {
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int i;
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int j;
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i = 5;
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i = 6;
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j = 7;
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})";
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BuildResult B = BuildCFG(Code);
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EXPECT_EQ(BuildResult::BuiltCFG, B.getStatus());
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CFG *Cfg = B.getCFG();
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// [B2 (ENTRY)]
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// Succs (1): B1
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// [B1]
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// 1: int i;
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// 2: int j;
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// 3: i = 5
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// 4: i = 6
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// 5: j = 7
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// Preds (1): B2
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// Succs (1): B0
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// [B0 (EXIT)]
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// Preds (1): B1
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CFGBlock *MainBlock = *(Cfg->begin() + 1);
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constexpr CFGBlock::ref_iterator::difference_type MainBlockSize = 4;
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// The rest of this test looks totally insane, but there iterators are
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// templates under the hood, to it's important to instantiate everything for
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// proper converage.
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// Non-reverse, non-const version
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size_t Index = 0;
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for (CFGBlock::CFGElementRef ElementRef : MainBlock->refs()) {
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EXPECT_EQ(ElementRef.getParent(), MainBlock);
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EXPECT_EQ(ElementRef.getIndexInBlock(), Index);
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EXPECT_TRUE(ElementRef->getAs<CFGStmt>());
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EXPECT_TRUE((*ElementRef).getAs<CFGStmt>());
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EXPECT_EQ(ElementRef.getParent(), MainBlock);
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++Index;
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}
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EXPECT_TRUE(*MainBlock->ref_begin() < *(MainBlock->ref_begin() + 1));
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EXPECT_TRUE(*MainBlock->ref_begin() == *MainBlock->ref_begin());
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EXPECT_FALSE(*MainBlock->ref_begin() != *MainBlock->ref_begin());
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EXPECT_TRUE(MainBlock->ref_begin() < MainBlock->ref_begin() + 1);
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EXPECT_TRUE(MainBlock->ref_begin() == MainBlock->ref_begin());
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EXPECT_FALSE(MainBlock->ref_begin() != MainBlock->ref_begin());
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EXPECT_EQ(MainBlock->ref_end() - MainBlock->ref_begin(), MainBlockSize + 1);
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EXPECT_EQ(MainBlock->ref_end() - MainBlockSize - 1, MainBlock->ref_begin());
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EXPECT_EQ(MainBlock->ref_begin() + MainBlockSize + 1, MainBlock->ref_end());
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EXPECT_EQ(MainBlock->ref_begin()++, MainBlock->ref_begin());
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EXPECT_EQ(++(MainBlock->ref_begin()), MainBlock->ref_begin() + 1);
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// Non-reverse, non-const version
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const CFGBlock *CMainBlock = MainBlock;
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Index = 0;
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for (CFGBlock::ConstCFGElementRef ElementRef : CMainBlock->refs()) {
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EXPECT_EQ(ElementRef.getParent(), CMainBlock);
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EXPECT_EQ(ElementRef.getIndexInBlock(), Index);
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EXPECT_TRUE(ElementRef->getAs<CFGStmt>());
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EXPECT_TRUE((*ElementRef).getAs<CFGStmt>());
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EXPECT_EQ(ElementRef.getParent(), MainBlock);
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++Index;
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}
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EXPECT_TRUE(*CMainBlock->ref_begin() < *(CMainBlock->ref_begin() + 1));
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EXPECT_TRUE(*CMainBlock->ref_begin() == *CMainBlock->ref_begin());
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EXPECT_FALSE(*CMainBlock->ref_begin() != *CMainBlock->ref_begin());
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EXPECT_TRUE(CMainBlock->ref_begin() < CMainBlock->ref_begin() + 1);
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EXPECT_TRUE(CMainBlock->ref_begin() == CMainBlock->ref_begin());
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EXPECT_FALSE(CMainBlock->ref_begin() != CMainBlock->ref_begin());
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EXPECT_EQ(CMainBlock->ref_end() - CMainBlock->ref_begin(), MainBlockSize + 1);
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EXPECT_EQ(CMainBlock->ref_end() - MainBlockSize - 1, CMainBlock->ref_begin());
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EXPECT_EQ(CMainBlock->ref_begin() + MainBlockSize + 1, CMainBlock->ref_end());
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EXPECT_EQ(CMainBlock->ref_begin()++, CMainBlock->ref_begin());
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EXPECT_EQ(++(CMainBlock->ref_begin()), CMainBlock->ref_begin() + 1);
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// Reverse, non-const version
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Index = MainBlockSize;
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for (CFGBlock::CFGElementRef ElementRef : MainBlock->rrefs()) {
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llvm::errs() << Index << '\n';
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EXPECT_EQ(ElementRef.getParent(), MainBlock);
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EXPECT_EQ(ElementRef.getIndexInBlock(), Index);
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EXPECT_TRUE(ElementRef->getAs<CFGStmt>());
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EXPECT_TRUE((*ElementRef).getAs<CFGStmt>());
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EXPECT_EQ(ElementRef.getParent(), MainBlock);
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--Index;
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}
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EXPECT_FALSE(*MainBlock->rref_begin() < *(MainBlock->rref_begin() + 1));
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EXPECT_TRUE(*MainBlock->rref_begin() == *MainBlock->rref_begin());
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EXPECT_FALSE(*MainBlock->rref_begin() != *MainBlock->rref_begin());
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EXPECT_TRUE(MainBlock->rref_begin() < MainBlock->rref_begin() + 1);
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EXPECT_TRUE(MainBlock->rref_begin() == MainBlock->rref_begin());
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EXPECT_FALSE(MainBlock->rref_begin() != MainBlock->rref_begin());
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EXPECT_EQ(MainBlock->rref_end() - MainBlock->rref_begin(), MainBlockSize + 1);
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EXPECT_EQ(MainBlock->rref_end() - MainBlockSize - 1, MainBlock->rref_begin());
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EXPECT_EQ(MainBlock->rref_begin() + MainBlockSize + 1, MainBlock->rref_end());
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EXPECT_EQ(MainBlock->rref_begin()++, MainBlock->rref_begin());
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EXPECT_EQ(++(MainBlock->rref_begin()), MainBlock->rref_begin() + 1);
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// Reverse, const version
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Index = MainBlockSize;
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for (CFGBlock::ConstCFGElementRef ElementRef : CMainBlock->rrefs()) {
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EXPECT_EQ(ElementRef.getParent(), CMainBlock);
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EXPECT_EQ(ElementRef.getIndexInBlock(), Index);
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EXPECT_TRUE(ElementRef->getAs<CFGStmt>());
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EXPECT_TRUE((*ElementRef).getAs<CFGStmt>());
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EXPECT_EQ(ElementRef.getParent(), MainBlock);
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--Index;
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}
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EXPECT_FALSE(*CMainBlock->rref_begin() < *(CMainBlock->rref_begin() + 1));
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EXPECT_TRUE(*CMainBlock->rref_begin() == *CMainBlock->rref_begin());
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EXPECT_FALSE(*CMainBlock->rref_begin() != *CMainBlock->rref_begin());
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EXPECT_TRUE(CMainBlock->rref_begin() < CMainBlock->rref_begin() + 1);
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EXPECT_TRUE(CMainBlock->rref_begin() == CMainBlock->rref_begin());
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EXPECT_FALSE(CMainBlock->rref_begin() != CMainBlock->rref_begin());
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EXPECT_EQ(CMainBlock->rref_end() - CMainBlock->rref_begin(),
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MainBlockSize + 1);
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EXPECT_EQ(CMainBlock->rref_end() - MainBlockSize - 1,
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CMainBlock->rref_begin());
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EXPECT_EQ(CMainBlock->rref_begin() + MainBlockSize + 1,
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CMainBlock->rref_end());
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EXPECT_EQ(CMainBlock->rref_begin()++, CMainBlock->rref_begin());
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EXPECT_EQ(++(CMainBlock->rref_begin()), CMainBlock->rref_begin() + 1);
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}
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TEST(CFG, Worklists) {
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const char *Code = "int f(bool cond) {\n"
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" int a = 5;\n"
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" if (cond)\n"
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" a += 1;\n"
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" return a;\n"
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"}\n";
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BuildResult B = BuildCFG(Code);
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EXPECT_EQ(BuildResult::BuiltCFG, B.getStatus());
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const FunctionDecl *Func = B.getFunc();
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AnalysisDeclContext AC(nullptr, Func);
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auto *CFG = AC.getCFG();
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std::vector<const CFGBlock *> ReferenceOrder;
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for (const auto *B : *AC.getAnalysis<PostOrderCFGView>())
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ReferenceOrder.push_back(B);
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{
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ForwardDataflowWorklist ForwardWorklist(*CFG, AC);
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for (const auto *B : *CFG)
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ForwardWorklist.enqueueBlock(B);
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std::vector<const CFGBlock *> ForwardNodes;
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while (const CFGBlock *B = ForwardWorklist.dequeue())
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ForwardNodes.push_back(B);
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EXPECT_EQ(ForwardNodes.size(), ReferenceOrder.size());
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EXPECT_TRUE(std::equal(ReferenceOrder.begin(), ReferenceOrder.end(),
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ForwardNodes.begin()));
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}
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std::reverse(ReferenceOrder.begin(), ReferenceOrder.end());
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{
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BackwardDataflowWorklist BackwardWorklist(*CFG, AC);
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for (const auto *B : *CFG)
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BackwardWorklist.enqueueBlock(B);
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std::vector<const CFGBlock *> BackwardNodes;
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while (const CFGBlock *B = BackwardWorklist.dequeue())
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BackwardNodes.push_back(B);
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EXPECT_EQ(BackwardNodes.size(), ReferenceOrder.size());
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EXPECT_TRUE(std::equal(ReferenceOrder.begin(), ReferenceOrder.end(),
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BackwardNodes.begin()));
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}
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}
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} // namespace
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} // namespace analysis
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} // namespace clang
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