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//===- unittest/Tooling/ToolingTest.cpp - Tooling unit tests --------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "clang/AST/ASTConsumer.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/DeclGroup.h"
#include "clang/Frontend/ASTUnit.h"
#include "clang/Frontend/CompilerInstance.h"
#include "clang/Frontend/FrontendAction.h"
#include "clang/Frontend/FrontendActions.h"
#include "clang/Tooling/CompilationDatabase.h"
#include "clang/Tooling/Tooling.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/TargetRegistry.h"
#include "llvm/Support/TargetSelect.h"
#include "gtest/gtest.h"
#include <algorithm>
#include <string>
namespace clang {
namespace tooling {
namespace {
/// Takes an ast consumer and returns it from CreateASTConsumer. This only
/// works with single translation unit compilations.
class TestAction : public clang::ASTFrontendAction {
public:
/// Takes ownership of TestConsumer.
explicit TestAction(std::unique_ptr<clang::ASTConsumer> TestConsumer)
: TestConsumer(std::move(TestConsumer)) {}
protected:
std::unique_ptr<clang::ASTConsumer>
CreateASTConsumer(clang::CompilerInstance &compiler,
StringRef dummy) override {
/// TestConsumer will be deleted by the framework calling us.
return std::move(TestConsumer);
}
private:
std::unique_ptr<clang::ASTConsumer> TestConsumer;
};
class FindTopLevelDeclConsumer : public clang::ASTConsumer {
public:
explicit FindTopLevelDeclConsumer(bool *FoundTopLevelDecl)
: FoundTopLevelDecl(FoundTopLevelDecl) {}
bool HandleTopLevelDecl(clang::DeclGroupRef DeclGroup) override {
*FoundTopLevelDecl = true;
return true;
}
private:
bool * const FoundTopLevelDecl;
};
} // end namespace
TEST(runToolOnCode, FindsNoTopLevelDeclOnEmptyCode) {
bool FoundTopLevelDecl = false;
EXPECT_TRUE(
runToolOnCode(new TestAction(llvm::make_unique<FindTopLevelDeclConsumer>(
&FoundTopLevelDecl)),
""));
EXPECT_FALSE(FoundTopLevelDecl);
}
namespace {
class FindClassDeclXConsumer : public clang::ASTConsumer {
public:
FindClassDeclXConsumer(bool *FoundClassDeclX)
: FoundClassDeclX(FoundClassDeclX) {}
bool HandleTopLevelDecl(clang::DeclGroupRef GroupRef) override {
if (CXXRecordDecl* Record = dyn_cast<clang::CXXRecordDecl>(
*GroupRef.begin())) {
if (Record->getName() == "X") {
*FoundClassDeclX = true;
}
}
return true;
}
private:
bool *FoundClassDeclX;
};
bool FindClassDeclX(ASTUnit *AST) {
for (std::vector<Decl *>::iterator i = AST->top_level_begin(),
e = AST->top_level_end();
i != e; ++i) {
if (CXXRecordDecl* Record = dyn_cast<clang::CXXRecordDecl>(*i)) {
if (Record->getName() == "X") {
return true;
}
}
}
return false;
}
} // end namespace
TEST(runToolOnCode, FindsClassDecl) {
bool FoundClassDeclX = false;
EXPECT_TRUE(
runToolOnCode(new TestAction(llvm::make_unique<FindClassDeclXConsumer>(
&FoundClassDeclX)),
"class X;"));
EXPECT_TRUE(FoundClassDeclX);
FoundClassDeclX = false;
EXPECT_TRUE(
runToolOnCode(new TestAction(llvm::make_unique<FindClassDeclXConsumer>(
&FoundClassDeclX)),
"class Y;"));
EXPECT_FALSE(FoundClassDeclX);
}
TEST(buildASTFromCode, FindsClassDecl) {
std::unique_ptr<ASTUnit> AST = buildASTFromCode("class X;");
ASSERT_TRUE(AST.get());
EXPECT_TRUE(FindClassDeclX(AST.get()));
AST = buildASTFromCode("class Y;");
ASSERT_TRUE(AST.get());
EXPECT_FALSE(FindClassDeclX(AST.get()));
}
TEST(newFrontendActionFactory, CreatesFrontendActionFactoryFromType) {
std::unique_ptr<FrontendActionFactory> Factory(
newFrontendActionFactory<SyntaxOnlyAction>());
std::unique_ptr<FrontendAction> Action(Factory->create());
EXPECT_TRUE(Action.get() != nullptr);
}
struct IndependentFrontendActionCreator {
std::unique_ptr<ASTConsumer> newASTConsumer() {
return llvm::make_unique<FindTopLevelDeclConsumer>(nullptr);
}
};
TEST(newFrontendActionFactory, CreatesFrontendActionFactoryFromFactoryType) {
IndependentFrontendActionCreator Creator;
std::unique_ptr<FrontendActionFactory> Factory(
newFrontendActionFactory(&Creator));
std::unique_ptr<FrontendAction> Action(Factory->create());
EXPECT_TRUE(Action.get() != nullptr);
}
TEST(ToolInvocation, TestMapVirtualFile) {
llvm::IntrusiveRefCntPtr<vfs::OverlayFileSystem> OverlayFileSystem(
new vfs::OverlayFileSystem(vfs::getRealFileSystem()));
llvm::IntrusiveRefCntPtr<vfs::InMemoryFileSystem> InMemoryFileSystem(
new vfs::InMemoryFileSystem);
OverlayFileSystem->pushOverlay(InMemoryFileSystem);
llvm::IntrusiveRefCntPtr<FileManager> Files(
new FileManager(FileSystemOptions(), OverlayFileSystem));
std::vector<std::string> Args;
Args.push_back("tool-executable");
Args.push_back("-Idef");
Args.push_back("-fsyntax-only");
Args.push_back("test.cpp");
clang::tooling::ToolInvocation Invocation(Args, new SyntaxOnlyAction,
Files.get());
InMemoryFileSystem->addFile(
"test.cpp", 0, llvm::MemoryBuffer::getMemBuffer("#include <abc>\n"));
InMemoryFileSystem->addFile("def/abc", 0,
llvm::MemoryBuffer::getMemBuffer("\n"));
EXPECT_TRUE(Invocation.run());
}
TEST(ToolInvocation, TestVirtualModulesCompilation) {
// FIXME: Currently, this only tests that we don't exit with an error if a
// mapped module.map is found on the include path. In the future, expand this
// test to run a full modules enabled compilation, so we make sure we can
// rerun modules compilations with a virtual file system.
llvm::IntrusiveRefCntPtr<vfs::OverlayFileSystem> OverlayFileSystem(
new vfs::OverlayFileSystem(vfs::getRealFileSystem()));
llvm::IntrusiveRefCntPtr<vfs::InMemoryFileSystem> InMemoryFileSystem(
new vfs::InMemoryFileSystem);
OverlayFileSystem->pushOverlay(InMemoryFileSystem);
llvm::IntrusiveRefCntPtr<FileManager> Files(
new FileManager(FileSystemOptions(), OverlayFileSystem));
std::vector<std::string> Args;
Args.push_back("tool-executable");
Args.push_back("-Idef");
Args.push_back("-fsyntax-only");
Args.push_back("test.cpp");
clang::tooling::ToolInvocation Invocation(Args, new SyntaxOnlyAction,
Files.get());
InMemoryFileSystem->addFile(
"test.cpp", 0, llvm::MemoryBuffer::getMemBuffer("#include <abc>\n"));
InMemoryFileSystem->addFile("def/abc", 0,
llvm::MemoryBuffer::getMemBuffer("\n"));
// Add a module.map file in the include directory of our header, so we trigger
// the module.map header search logic.
InMemoryFileSystem->addFile("def/module.map", 0,
llvm::MemoryBuffer::getMemBuffer("\n"));
EXPECT_TRUE(Invocation.run());
}
struct VerifyEndCallback : public SourceFileCallbacks {
VerifyEndCallback() : BeginCalled(0), EndCalled(0), Matched(false) {}
bool handleBeginSource(CompilerInstance &CI) override {
++BeginCalled;
return true;
}
void handleEndSource() override { ++EndCalled; }
std::unique_ptr<ASTConsumer> newASTConsumer() {
return llvm::make_unique<FindTopLevelDeclConsumer>(&Matched);
}
unsigned BeginCalled;
unsigned EndCalled;
bool Matched;
};
#if !defined(_WIN32)
TEST(newFrontendActionFactory, InjectsSourceFileCallbacks) {
VerifyEndCallback EndCallback;
FixedCompilationDatabase Compilations("/", std::vector<std::string>());
std::vector<std::string> Sources;
Sources.push_back("/a.cc");
Sources.push_back("/b.cc");
ClangTool Tool(Compilations, Sources);
Tool.mapVirtualFile("/a.cc", "void a() {}");
Tool.mapVirtualFile("/b.cc", "void b() {}");
std::unique_ptr<FrontendActionFactory> Action(
newFrontendActionFactory(&EndCallback, &EndCallback));
Tool.run(Action.get());
EXPECT_TRUE(EndCallback.Matched);
EXPECT_EQ(2u, EndCallback.BeginCalled);
EXPECT_EQ(2u, EndCallback.EndCalled);
}
#endif
struct SkipBodyConsumer : public clang::ASTConsumer {
/// Skip the 'skipMe' function.
bool shouldSkipFunctionBody(Decl *D) override {
NamedDecl *F = dyn_cast<NamedDecl>(D);
return F && F->getNameAsString() == "skipMe";
}
};
struct SkipBodyAction : public clang::ASTFrontendAction {
std::unique_ptr<ASTConsumer> CreateASTConsumer(CompilerInstance &Compiler,
StringRef) override {
Compiler.getFrontendOpts().SkipFunctionBodies = true;
return llvm::make_unique<SkipBodyConsumer>();
}
};
TEST(runToolOnCode, TestSkipFunctionBody) {
std::vector<std::string> Args = {"-std=c++11"};
std::vector<std::string> Args2 = {"-fno-delayed-template-parsing"};
EXPECT_TRUE(runToolOnCode(new SkipBodyAction,
"int skipMe() { an_error_here }"));
EXPECT_FALSE(runToolOnCode(new SkipBodyAction,
"int skipMeNot() { an_error_here }"));
// Test constructors with initializers
EXPECT_TRUE(runToolOnCodeWithArgs(
new SkipBodyAction,
"struct skipMe { skipMe() : an_error() { more error } };", Args));
EXPECT_TRUE(runToolOnCodeWithArgs(
new SkipBodyAction, "struct skipMe { skipMe(); };"
"skipMe::skipMe() : an_error([](){;}) { more error }",
Args));
EXPECT_TRUE(runToolOnCodeWithArgs(
new SkipBodyAction, "struct skipMe { skipMe(); };"
"skipMe::skipMe() : an_error{[](){;}} { more error }",
Args));
EXPECT_TRUE(runToolOnCodeWithArgs(
new SkipBodyAction,
"struct skipMe { skipMe(); };"
"skipMe::skipMe() : a<b<c>(e)>>(), f{}, g() { error }",
Args));
EXPECT_TRUE(runToolOnCodeWithArgs(
new SkipBodyAction, "struct skipMe { skipMe() : bases()... { error } };",
Args));
EXPECT_FALSE(runToolOnCodeWithArgs(
new SkipBodyAction, "struct skipMeNot { skipMeNot() : an_error() { } };",
Args));
EXPECT_FALSE(runToolOnCodeWithArgs(new SkipBodyAction,
"struct skipMeNot { skipMeNot(); };"
"skipMeNot::skipMeNot() : an_error() { }",
Args));
// Try/catch
EXPECT_TRUE(runToolOnCode(
new SkipBodyAction,
"void skipMe() try { an_error() } catch(error) { error };"));
EXPECT_TRUE(runToolOnCode(
new SkipBodyAction,
"struct S { void skipMe() try { an_error() } catch(error) { error } };"));
EXPECT_TRUE(
runToolOnCode(new SkipBodyAction,
"void skipMe() try { an_error() } catch(error) { error; }"
"catch(error) { error } catch (error) { }"));
EXPECT_FALSE(runToolOnCode(
new SkipBodyAction,
"void skipMe() try something;")); // don't crash while parsing
// Template
EXPECT_TRUE(runToolOnCode(
new SkipBodyAction, "template<typename T> int skipMe() { an_error_here }"
"int x = skipMe<int>();"));
EXPECT_FALSE(runToolOnCodeWithArgs(
new SkipBodyAction,
"template<typename T> int skipMeNot() { an_error_here }", Args2));
}
TEST(runToolOnCodeWithArgs, TestNoDepFile) {
llvm::SmallString<32> DepFilePath;
ASSERT_FALSE(llvm::sys::fs::getPotentiallyUniqueTempFileName("depfile", "d",
DepFilePath));
std::vector<std::string> Args;
Args.push_back("-MMD");
Args.push_back("-MT");
Args.push_back(DepFilePath.str());
Args.push_back("-MF");
Args.push_back(DepFilePath.str());
EXPECT_TRUE(runToolOnCodeWithArgs(new SkipBodyAction, "", Args));
EXPECT_FALSE(llvm::sys::fs::exists(DepFilePath.str()));
EXPECT_FALSE(llvm::sys::fs::remove(DepFilePath.str()));
}
struct CheckColoredDiagnosticsAction : public clang::ASTFrontendAction {
CheckColoredDiagnosticsAction(bool ShouldShowColor)
: ShouldShowColor(ShouldShowColor) {}
std::unique_ptr<ASTConsumer> CreateASTConsumer(CompilerInstance &Compiler,
StringRef) override {
if (Compiler.getDiagnosticOpts().ShowColors != ShouldShowColor)
Compiler.getDiagnostics().Report(
Compiler.getDiagnostics().getCustomDiagID(
DiagnosticsEngine::Fatal,
"getDiagnosticOpts().ShowColors != ShouldShowColor"));
return llvm::make_unique<ASTConsumer>();
}
private:
bool ShouldShowColor = true;
};
TEST(runToolOnCodeWithArgs, DiagnosticsColor) {
EXPECT_TRUE(runToolOnCodeWithArgs(new CheckColoredDiagnosticsAction(true), "",
{"-fcolor-diagnostics"}));
EXPECT_TRUE(runToolOnCodeWithArgs(new CheckColoredDiagnosticsAction(false),
"", {"-fno-color-diagnostics"}));
EXPECT_TRUE(
runToolOnCodeWithArgs(new CheckColoredDiagnosticsAction(true), "",
{"-fno-color-diagnostics", "-fcolor-diagnostics"}));
EXPECT_TRUE(
runToolOnCodeWithArgs(new CheckColoredDiagnosticsAction(false), "",
{"-fcolor-diagnostics", "-fno-color-diagnostics"}));
EXPECT_TRUE(runToolOnCodeWithArgs(
new CheckColoredDiagnosticsAction(true), "",
{"-fno-color-diagnostics", "-fdiagnostics-color=always"}));
// Check that this test would fail if ShowColors is not what it should.
EXPECT_FALSE(runToolOnCodeWithArgs(new CheckColoredDiagnosticsAction(false),
"", {"-fcolor-diagnostics"}));
}
TEST(ClangToolTest, ArgumentAdjusters) {
FixedCompilationDatabase Compilations("/", std::vector<std::string>());
ClangTool Tool(Compilations, std::vector<std::string>(1, "/a.cc"));
Tool.mapVirtualFile("/a.cc", "void a() {}");
std::unique_ptr<FrontendActionFactory> Action(
newFrontendActionFactory<SyntaxOnlyAction>());
bool Found = false;
bool Ran = false;
ArgumentsAdjuster CheckSyntaxOnlyAdjuster =
[&Found, &Ran](const CommandLineArguments &Args, StringRef /*unused*/) {
Ran = true;
if (std::find(Args.begin(), Args.end(), "-fsyntax-only") != Args.end())
Found = true;
return Args;
};
Tool.appendArgumentsAdjuster(CheckSyntaxOnlyAdjuster);
Tool.run(Action.get());
EXPECT_TRUE(Ran);
EXPECT_TRUE(Found);
Ran = Found = false;
Tool.clearArgumentsAdjusters();
Tool.appendArgumentsAdjuster(CheckSyntaxOnlyAdjuster);
Tool.appendArgumentsAdjuster(getClangSyntaxOnlyAdjuster());
Tool.run(Action.get());
EXPECT_TRUE(Ran);
EXPECT_FALSE(Found);
}
TEST(ClangToolTest, BaseVirtualFileSystemUsage) {
FixedCompilationDatabase Compilations("/", std::vector<std::string>());
llvm::IntrusiveRefCntPtr<vfs::OverlayFileSystem> OverlayFileSystem(
new vfs::OverlayFileSystem(vfs::getRealFileSystem()));
llvm::IntrusiveRefCntPtr<vfs::InMemoryFileSystem> InMemoryFileSystem(
new vfs::InMemoryFileSystem);
OverlayFileSystem->pushOverlay(InMemoryFileSystem);
InMemoryFileSystem->addFile(
"a.cpp", 0, llvm::MemoryBuffer::getMemBuffer("int main() {}"));
ClangTool Tool(Compilations, std::vector<std::string>(1, "a.cpp"),
std::make_shared<PCHContainerOperations>(), OverlayFileSystem);
std::unique_ptr<FrontendActionFactory> Action(
newFrontendActionFactory<SyntaxOnlyAction>());
EXPECT_EQ(0, Tool.run(Action.get()));
}
// Check getClangStripDependencyFileAdjuster doesn't strip args after -MD/-MMD.
TEST(ClangToolTest, StripDependencyFileAdjuster) {
FixedCompilationDatabase Compilations("/", {"-MD", "-c", "-MMD", "-w"});
ClangTool Tool(Compilations, std::vector<std::string>(1, "/a.cc"));
Tool.mapVirtualFile("/a.cc", "void a() {}");
std::unique_ptr<FrontendActionFactory> Action(
newFrontendActionFactory<SyntaxOnlyAction>());
CommandLineArguments FinalArgs;
ArgumentsAdjuster CheckFlagsAdjuster =
[&FinalArgs](const CommandLineArguments &Args, StringRef /*unused*/) {
FinalArgs = Args;
return Args;
};
Tool.clearArgumentsAdjusters();
Tool.appendArgumentsAdjuster(getClangStripDependencyFileAdjuster());
Tool.appendArgumentsAdjuster(CheckFlagsAdjuster);
Tool.run(Action.get());
auto HasFlag = [&FinalArgs](const std::string &Flag) {
return std::find(FinalArgs.begin(), FinalArgs.end(), Flag) !=
FinalArgs.end();
};
EXPECT_FALSE(HasFlag("-MD"));
EXPECT_FALSE(HasFlag("-MMD"));
EXPECT_TRUE(HasFlag("-c"));
EXPECT_TRUE(HasFlag("-w"));
}
namespace {
/// Find a target name such that looking for it in TargetRegistry by that name
/// returns the same target. We expect that there is at least one target
/// configured with this property.
std::string getAnyTarget() {
llvm::InitializeAllTargets();
for (const auto &Target : llvm::TargetRegistry::targets()) {
std::string Error;
StringRef TargetName(Target.getName());
if (TargetName == "x86-64")
TargetName = "x86_64";
if (llvm::TargetRegistry::lookupTarget(TargetName, Error) == &Target) {
return TargetName;
}
}
return "";
}
}
TEST(addTargetAndModeForProgramName, AddsTargetAndMode) {
std::string Target = getAnyTarget();
ASSERT_FALSE(Target.empty());
std::vector<std::string> Args = {"clang", "-foo"};
addTargetAndModeForProgramName(Args, "");
EXPECT_EQ((std::vector<std::string>{"clang", "-foo"}), Args);
addTargetAndModeForProgramName(Args, Target + "-g++");
EXPECT_EQ((std::vector<std::string>{"clang", "-target", Target,
"--driver-mode=g++", "-foo"}),
Args);
}
TEST(addTargetAndModeForProgramName, PathIgnored) {
std::string Target = getAnyTarget();
ASSERT_FALSE(Target.empty());
SmallString<32> ToolPath;
llvm::sys::path::append(ToolPath, "foo", "bar", Target + "-g++");
std::vector<std::string> Args = {"clang", "-foo"};
addTargetAndModeForProgramName(Args, ToolPath);
EXPECT_EQ((std::vector<std::string>{"clang", "-target", Target,
"--driver-mode=g++", "-foo"}),
Args);
}
TEST(addTargetAndModeForProgramName, IgnoresExistingTarget) {
std::string Target = getAnyTarget();
ASSERT_FALSE(Target.empty());
std::vector<std::string> Args = {"clang", "-foo", "-target", "something"};
addTargetAndModeForProgramName(Args, Target + "-g++");
EXPECT_EQ((std::vector<std::string>{"clang", "--driver-mode=g++", "-foo",
"-target", "something"}),
Args);
std::vector<std::string> ArgsAlt = {"clang", "-foo", "-target=something"};
addTargetAndModeForProgramName(ArgsAlt, Target + "-g++");
EXPECT_EQ((std::vector<std::string>{"clang", "--driver-mode=g++", "-foo",
"-target=something"}),
ArgsAlt);
}
TEST(addTargetAndModeForProgramName, IgnoresExistingMode) {
std::string Target = getAnyTarget();
ASSERT_FALSE(Target.empty());
std::vector<std::string> Args = {"clang", "-foo", "--driver-mode=abc"};
addTargetAndModeForProgramName(Args, Target + "-g++");
EXPECT_EQ((std::vector<std::string>{"clang", "-target", Target, "-foo",
"--driver-mode=abc"}),
Args);
std::vector<std::string> ArgsAlt = {"clang", "-foo", "--driver-mode", "abc"};
addTargetAndModeForProgramName(ArgsAlt, Target + "-g++");
EXPECT_EQ((std::vector<std::string>{"clang", "-target", Target, "-foo",
"--driver-mode", "abc"}),
ArgsAlt);
}
#ifndef _WIN32
TEST(ClangToolTest, BuildASTs) {
FixedCompilationDatabase Compilations("/", std::vector<std::string>());
std::vector<std::string> Sources;
Sources.push_back("/a.cc");
Sources.push_back("/b.cc");
ClangTool Tool(Compilations, Sources);
Tool.mapVirtualFile("/a.cc", "void a() {}");
Tool.mapVirtualFile("/b.cc", "void b() {}");
std::vector<std::unique_ptr<ASTUnit>> ASTs;
EXPECT_EQ(0, Tool.buildASTs(ASTs));
EXPECT_EQ(2u, ASTs.size());
}
struct TestDiagnosticConsumer : public DiagnosticConsumer {
TestDiagnosticConsumer() : NumDiagnosticsSeen(0) {}
void HandleDiagnostic(DiagnosticsEngine::Level DiagLevel,
const Diagnostic &Info) override {
++NumDiagnosticsSeen;
}
unsigned NumDiagnosticsSeen;
};
TEST(ClangToolTest, InjectDiagnosticConsumer) {
FixedCompilationDatabase Compilations("/", std::vector<std::string>());
ClangTool Tool(Compilations, std::vector<std::string>(1, "/a.cc"));
Tool.mapVirtualFile("/a.cc", "int x = undeclared;");
TestDiagnosticConsumer Consumer;
Tool.setDiagnosticConsumer(&Consumer);
std::unique_ptr<FrontendActionFactory> Action(
newFrontendActionFactory<SyntaxOnlyAction>());
Tool.run(Action.get());
EXPECT_EQ(1u, Consumer.NumDiagnosticsSeen);
}
TEST(ClangToolTest, InjectDiagnosticConsumerInBuildASTs) {
FixedCompilationDatabase Compilations("/", std::vector<std::string>());
ClangTool Tool(Compilations, std::vector<std::string>(1, "/a.cc"));
Tool.mapVirtualFile("/a.cc", "int x = undeclared;");
TestDiagnosticConsumer Consumer;
Tool.setDiagnosticConsumer(&Consumer);
std::vector<std::unique_ptr<ASTUnit>> ASTs;
Tool.buildASTs(ASTs);
EXPECT_EQ(1u, ASTs.size());
EXPECT_EQ(1u, Consumer.NumDiagnosticsSeen);
}
#endif
TEST(runToolOnCode, TestResetDiagnostics) {
// This is a tool that resets the diagnostic during the compilation.
struct ResetDiagnosticAction : public clang::ASTFrontendAction {
std::unique_ptr<ASTConsumer> CreateASTConsumer(CompilerInstance &Compiler,
StringRef) override {
struct Consumer : public clang::ASTConsumer {
bool HandleTopLevelDecl(clang::DeclGroupRef D) override {
auto &Diags = (*D.begin())->getASTContext().getDiagnostics();
// Ignore any error
Diags.Reset();
// Disable warnings because computing the CFG might crash.
Diags.setIgnoreAllWarnings(true);
return true;
}
};
return llvm::make_unique<Consumer>();
}
};
// Should not crash
EXPECT_FALSE(
runToolOnCode(new ResetDiagnosticAction,
"struct Foo { Foo(int); ~Foo(); struct Fwd _fwd; };"
"void func() { long x; Foo f(x); }"));
}
} // end namespace tooling
} // end namespace clang