195 lines
6.4 KiB
C++
195 lines
6.4 KiB
C++
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//===- unittests/Analysis/CFGDominatorTree.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/Analysis/Analyses/Dominators.h"
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#include "gtest/gtest.h"
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namespace clang {
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namespace analysis {
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namespace {
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TEST(CFGDominatorTree, DomTree) {
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const char *Code = R"(enum Kind {
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A
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};
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void f() {
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switch(Kind{}) {
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case A:
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break;
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}
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})";
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BuildResult Result = BuildCFG(Code);
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EXPECT_EQ(BuildResult::BuiltCFG, Result.getStatus());
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// [B3 (ENTRY)] -> [B1] -> [B2] -> [B0 (EXIT)]
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// switch case A
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CFG *cfg = Result.getCFG();
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// Sanity checks.
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EXPECT_EQ(cfg->size(), 4u);
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CFGBlock *ExitBlock = *cfg->begin();
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EXPECT_EQ(ExitBlock, &cfg->getExit());
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CFGBlock *SwitchBlock = *(cfg->begin() + 1);
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CFGBlock *CaseABlock = *(cfg->begin() + 2);
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CFGBlock *EntryBlock = *(cfg->begin() + 3);
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EXPECT_EQ(EntryBlock, &cfg->getEntry());
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// Test the dominator tree.
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CFGDomTree Dom;
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Dom.buildDominatorTree(cfg);
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EXPECT_TRUE(Dom.dominates(ExitBlock, ExitBlock));
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EXPECT_FALSE(Dom.properlyDominates(ExitBlock, ExitBlock));
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EXPECT_TRUE(Dom.dominates(CaseABlock, ExitBlock));
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EXPECT_TRUE(Dom.dominates(SwitchBlock, ExitBlock));
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EXPECT_TRUE(Dom.dominates(EntryBlock, ExitBlock));
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EXPECT_TRUE(Dom.dominates(CaseABlock, CaseABlock));
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EXPECT_FALSE(Dom.properlyDominates(CaseABlock, CaseABlock));
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EXPECT_TRUE(Dom.dominates(SwitchBlock, CaseABlock));
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EXPECT_TRUE(Dom.dominates(EntryBlock, CaseABlock));
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EXPECT_TRUE(Dom.dominates(SwitchBlock, SwitchBlock));
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EXPECT_FALSE(Dom.properlyDominates(SwitchBlock, SwitchBlock));
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EXPECT_TRUE(Dom.dominates(EntryBlock, SwitchBlock));
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EXPECT_TRUE(Dom.dominates(EntryBlock, EntryBlock));
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EXPECT_FALSE(Dom.properlyDominates(EntryBlock, EntryBlock));
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// Test the post dominator tree.
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CFGPostDomTree PostDom;
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PostDom.buildDominatorTree(cfg);
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EXPECT_TRUE(PostDom.dominates(ExitBlock, EntryBlock));
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EXPECT_TRUE(PostDom.dominates(CaseABlock, EntryBlock));
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EXPECT_TRUE(PostDom.dominates(SwitchBlock, EntryBlock));
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EXPECT_TRUE(PostDom.dominates(EntryBlock, EntryBlock));
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EXPECT_FALSE(Dom.properlyDominates(EntryBlock, EntryBlock));
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EXPECT_TRUE(PostDom.dominates(ExitBlock, SwitchBlock));
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EXPECT_TRUE(PostDom.dominates(CaseABlock, SwitchBlock));
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EXPECT_TRUE(PostDom.dominates(SwitchBlock, SwitchBlock));
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EXPECT_FALSE(Dom.properlyDominates(SwitchBlock, SwitchBlock));
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EXPECT_TRUE(PostDom.dominates(ExitBlock, CaseABlock));
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EXPECT_TRUE(PostDom.dominates(CaseABlock, CaseABlock));
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EXPECT_FALSE(Dom.properlyDominates(CaseABlock, CaseABlock));
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EXPECT_TRUE(PostDom.dominates(ExitBlock, ExitBlock));
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EXPECT_FALSE(Dom.properlyDominates(ExitBlock, ExitBlock));
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// Tests for the post dominator tree's virtual root.
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EXPECT_TRUE(PostDom.dominates(nullptr, EntryBlock));
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EXPECT_TRUE(PostDom.dominates(nullptr, SwitchBlock));
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EXPECT_TRUE(PostDom.dominates(nullptr, CaseABlock));
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EXPECT_TRUE(PostDom.dominates(nullptr, ExitBlock));
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}
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TEST(CFGDominatorTree, ControlDependency) {
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const char *Code = R"(bool coin();
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void funcWithBranch() {
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int x = 0;
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if (coin()) {
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if (coin()) {
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x = 5;
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}
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int j = 10 / x;
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(void)j;
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}
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};)";
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BuildResult Result = BuildCFG(Code);
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EXPECT_EQ(BuildResult::BuiltCFG, Result.getStatus());
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// 1st if 2nd if
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// [B5 (ENTRY)] -> [B4] -> [B3] -> [B2] -> [B1] -> [B0 (EXIT)]
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// \ \ / /
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// \ -------------> /
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// ------------------------------>
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CFG *cfg = Result.getCFG();
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// Sanity checks.
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EXPECT_EQ(cfg->size(), 6u);
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CFGBlock *ExitBlock = *cfg->begin();
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EXPECT_EQ(ExitBlock, &cfg->getExit());
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CFGBlock *NullDerefBlock = *(cfg->begin() + 1);
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CFGBlock *SecondThenBlock = *(cfg->begin() + 2);
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CFGBlock *SecondIfBlock = *(cfg->begin() + 3);
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CFGBlock *FirstIfBlock = *(cfg->begin() + 4);
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CFGBlock *EntryBlock = *(cfg->begin() + 5);
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EXPECT_EQ(EntryBlock, &cfg->getEntry());
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ControlDependencyCalculator Control(cfg);
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EXPECT_TRUE(Control.isControlDependent(SecondThenBlock, SecondIfBlock));
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EXPECT_TRUE(Control.isControlDependent(SecondIfBlock, FirstIfBlock));
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EXPECT_FALSE(Control.isControlDependent(NullDerefBlock, SecondIfBlock));
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}
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TEST(CFGDominatorTree, ControlDependencyWithLoops) {
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const char *Code = R"(int test3() {
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int x,y,z;
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x = y = z = 1;
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if (x > 0) {
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while (x >= 0){
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while (y >= x) {
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x = x-1;
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y = y/2;
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}
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}
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}
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z = y;
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return 0;
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})";
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BuildResult Result = BuildCFG(Code);
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EXPECT_EQ(BuildResult::BuiltCFG, Result.getStatus());
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// <- [B2] <-
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// / \
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// [B8 (ENTRY)] -> [B7] -> [B6] ---> [B5] -> [B4] -> [B3]
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// \ | \ /
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// \ | <-------------
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// \ \
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// --------> [B1] -> [B0 (EXIT)]
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CFG *cfg = Result.getCFG();
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ControlDependencyCalculator Control(cfg);
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auto GetBlock = [cfg] (unsigned Index) -> CFGBlock * {
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assert(Index < cfg->size());
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return *(cfg->begin() + Index);
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};
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// While not immediately obvious, the second block in fact post dominates the
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// fifth, hence B5 is not a control dependency of 2.
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EXPECT_FALSE(Control.isControlDependent(GetBlock(5), GetBlock(2)));
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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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