clang/unittests/AST/ASTImporterFixtures.h - llvm-project - Git at Google

 //===- unittest/AST/ASTImporterFixtures.h - AST unit test support ---------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 /// \file
 /// Fixture classes for testing the ASTImporter.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_UNITTESTS_AST_IMPORTER_FIXTURES_H
 #define LLVM_CLANG_UNITTESTS_AST_IMPORTER_FIXTURES_H

 #include "gmock/gmock.h"

 #include "clang/AST/ASTImporter.h"
 #include "clang/AST/ASTImporterSharedState.h"
 #include "clang/Frontend/ASTUnit.h"
 #include "clang/Testing/CommandLineArgs.h"
 #include "llvm/Support/Error.h"
 #include "llvm/Support/ErrorHandling.h"

 #include "DeclMatcher.h"
 #include "MatchVerifier.h"

 #include <sstream>

 namespace clang {

 class ASTImporter;
 class ASTImporterSharedState;
 class ASTUnit;

 namespace ast_matchers {

 const StringRef DeclToImportID = "declToImport";
 const StringRef DeclToVerifyID = "declToVerify";

 // Creates a virtual file and assigns that to the context of given AST. If the
 // file already exists then the file will not be created again as a duplicate.
 void createVirtualFileIfNeeded(ASTUnit *ToAST, StringRef FileName,
                                std::unique_ptr<llvm::MemoryBuffer> &&Buffer);

 void createVirtualFileIfNeeded(ASTUnit *ToAST, StringRef FileName,
                                StringRef Code);

 // Common base for the different families of ASTImporter tests that are
 // parameterized on the compiler options which may result a different AST. E.g.
 // -fms-compatibility or -fdelayed-template-parsing.
 class CompilerOptionSpecificTest : public ::testing::Test {
 protected:
   // Return the extra arguments appended to runtime options at compilation.
   virtual std::vector<std::string> getExtraArgs() const { return {}; }

   // Returns the argument vector used for a specific language option, this set
   // can be tweaked by the test parameters.
   std::vector<std::string>
   getCommandLineArgsForLanguage(TestLanguage Lang) const {
     std::vector<std::string> Args = getCommandLineArgsForTesting(Lang);
     std::vector<std::string> ExtraArgs = getExtraArgs();
     for (const auto &Arg : ExtraArgs) {
       Args.push_back(Arg);
     }
     return Args;
   }
 };

 const auto DefaultTestArrayForRunOptions =
     std::array<std::vector<std::string>, 4>{
         {std::vector<std::string>(),
          std::vector<std::string>{"-fdelayed-template-parsing"},
          std::vector<std::string>{"-fms-compatibility"},
          std::vector<std::string>{"-fdelayed-template-parsing",
                                   "-fms-compatibility"}}};

 const auto DefaultTestValuesForRunOptions =
     ::testing::ValuesIn(DefaultTestArrayForRunOptions);

 // This class provides generic methods to write tests which can check internal
 // attributes of AST nodes like getPreviousDecl(), isVirtual(), etc. Also,
 // this fixture makes it possible to import from several "From" contexts.
 class ASTImporterTestBase : public CompilerOptionSpecificTest {

   const char *const InputFileName = "input.cc";
   const char *const OutputFileName = "output.cc";

 public:
   /// Allocates an ASTImporter (or one of its subclasses).
   typedef std::function<ASTImporter *(
       ASTContext &, FileManager &, ASTContext &, FileManager &, bool,
       const std::shared_ptr<ASTImporterSharedState> &SharedState)>
       ImporterConstructor;

   // ODR handling type for the AST importer.
   ASTImporter::ODRHandlingType ODRHandling;

   // The lambda that constructs the ASTImporter we use in this test.
   ImporterConstructor Creator;

 private:
   // Buffer for the To context, must live in the test scope.
   std::string ToCode;

   // Represents a "From" translation unit and holds an importer object which we
   // use to import from this translation unit.
   struct TU {
     // Buffer for the context, must live in the test scope.
     std::string Code;
     std::string FileName;
     std::unique_ptr<ASTUnit> Unit;
     TranslationUnitDecl *TUDecl = nullptr;
     std::unique_ptr<ASTImporter> Importer;
     ImporterConstructor Creator;
     ASTImporter::ODRHandlingType ODRHandling;

     TU(StringRef Code, StringRef FileName, std::vector<std::string> Args,
        ImporterConstructor C = ImporterConstructor(),
        ASTImporter::ODRHandlingType ODRHandling =
            ASTImporter::ODRHandlingType::Conservative);
     ~TU();

     void
     lazyInitImporter(const std::shared_ptr<ASTImporterSharedState> &SharedState,
                      ASTUnit *ToAST);
     Decl *import(const std::shared_ptr<ASTImporterSharedState> &SharedState,
                  ASTUnit *ToAST, Decl *FromDecl);
     llvm::Expected<Decl *>
     importOrError(const std::shared_ptr<ASTImporterSharedState> &SharedState,
                   ASTUnit *ToAST, Decl *FromDecl);
     QualType import(const std::shared_ptr<ASTImporterSharedState> &SharedState,
                     ASTUnit *ToAST, QualType FromType);
   };

   // We may have several From contexts and related translation units. In each
   // AST, the buffers for the source are handled via references and are set
   // during the creation of the AST. These references must point to a valid
   // buffer until the AST is alive. Thus, we must use a list in order to avoid
   // moving of the stored objects because that would mean breaking the
   // references in the AST. By using a vector a move could happen when the
   // vector is expanding, with the list we won't have these issues.
   std::list<TU> FromTUs;

   // Initialize the shared state if not initialized already.
   void lazyInitSharedState(TranslationUnitDecl *ToTU);

   void lazyInitToAST(TestLanguage ToLang, StringRef ToSrcCode,
                      StringRef FileName);

 protected:
   std::shared_ptr<ASTImporterSharedState> SharedStatePtr;

 public:
   // We may have several From context but only one To context.
   std::unique_ptr<ASTUnit> ToAST;

   // Returns with the TU associated with the given Decl.
   TU *findFromTU(Decl *From);

   // Creates an AST both for the From and To source code and imports the Decl
   // of the identifier into the To context.
   // Must not be called more than once within the same test.
   std::tuple<Decl *, Decl *>
   getImportedDecl(StringRef FromSrcCode, TestLanguage FromLang,
                   StringRef ToSrcCode, TestLanguage ToLang,
                   StringRef Identifier = DeclToImportID);

   // Creates a TU decl for the given source code which can be used as a From
   // context.  May be called several times in a given test (with different file
   // name).
   TranslationUnitDecl *getTuDecl(StringRef SrcCode, TestLanguage Lang,
                                  StringRef FileName = "input.cc");

   // Creates the To context with the given source code and returns the TU decl.
   TranslationUnitDecl *getToTuDecl(StringRef ToSrcCode, TestLanguage ToLang);

   // Import the given Decl into the ToCtx.
   // May be called several times in a given test.
   // The different instances of the param From may have different ASTContext.
   Decl *Import(Decl *From, TestLanguage ToLang);

   template <class DeclT> DeclT *Import(DeclT *From, TestLanguage Lang) {
     return cast_or_null<DeclT>(Import(cast<Decl>(From), Lang));
   }

   // Import the given Decl into the ToCtx.
   // Same as Import but returns the result of the import which can be an error.
   llvm::Expected<Decl *> importOrError(Decl *From, TestLanguage ToLang);

   QualType ImportType(QualType FromType, Decl *TUDecl, TestLanguage ToLang);

   ASTImporterTestBase()
       : ODRHandling(ASTImporter::ODRHandlingType::Conservative) {}
   ~ASTImporterTestBase();
 };

 class ASTImporterOptionSpecificTestBase
     : public ASTImporterTestBase,
       public ::testing::WithParamInterface<std::vector<std::string>> {
 protected:
   std::vector<std::string> getExtraArgs() const override { return GetParam(); }
 };

 // Base class for those tests which use the family of `testImport` functions.
 class TestImportBase
     : public CompilerOptionSpecificTest,
       public ::testing::WithParamInterface<std::vector<std::string>> {

   template <typename NodeType>
   llvm::Expected<NodeType> importNode(ASTUnit *From, ASTUnit *To,
                                       ASTImporter &Importer, NodeType Node) {
     ASTContext &ToCtx = To->getASTContext();

     // Add 'From' file to virtual file system so importer can 'find' it
     // while importing SourceLocations. It is safe to add same file multiple
     // times - it just isn't replaced.
     StringRef FromFileName = From->getMainFileName();
     createVirtualFileIfNeeded(To, FromFileName,
                               From->getBufferForFile(FromFileName));

     auto Imported = Importer.Import(Node);

     if (Imported) {
       // This should dump source locations and assert if some source locations
       // were not imported.
       SmallString<1024> ImportChecker;
       llvm::raw_svector_ostream ToNothing(ImportChecker);
       ToCtx.getTranslationUnitDecl()->print(ToNothing);

       // This traverses the AST to catch certain bugs like poorly or not
       // implemented subtrees.
       (*Imported)->dump(ToNothing);
     }

     return Imported;
   }

   template <typename NodeType>
   testing::AssertionResult
   testImport(const std::string &FromCode,
              const std::vector<std::string> &FromArgs,
              const std::string &ToCode, const std::vector<std::string> &ToArgs,
              MatchVerifier<NodeType> &Verifier,
              const internal::BindableMatcher<NodeType> &SearchMatcher,
              const internal::BindableMatcher<NodeType> &VerificationMatcher) {
     const char *const InputFileName = "input.cc";
     const char *const OutputFileName = "output.cc";

     std::unique_ptr<ASTUnit> FromAST = tooling::buildASTFromCodeWithArgs(
                                  FromCode, FromArgs, InputFileName),
                              ToAST = tooling::buildASTFromCodeWithArgs(
                                  ToCode, ToArgs, OutputFileName);

     ASTContext &FromCtx = FromAST->getASTContext(),
                &ToCtx = ToAST->getASTContext();

     ASTImporter Importer(ToCtx, ToAST->getFileManager(), FromCtx,
                          FromAST->getFileManager(), false);

     auto FoundNodes = match(SearchMatcher, FromCtx);
     if (FoundNodes.size() != 1)
       return testing::AssertionFailure()
              << "Multiple potential nodes were found!";

     auto ToImport = selectFirst<NodeType>(DeclToImportID, FoundNodes);
     if (!ToImport)
       return testing::AssertionFailure() << "Node type mismatch!";

     // The node being imported should match in the same way as
     // the result node.
     internal::BindableMatcher<NodeType> WrapperMatcher(VerificationMatcher);
     EXPECT_TRUE(Verifier.match(ToImport, WrapperMatcher));

     auto Imported = importNode(FromAST.get(), ToAST.get(), Importer, ToImport);
     if (!Imported) {
       std::string ErrorText;
       handleAllErrors(
           Imported.takeError(),
           [&ErrorText](const ImportError &Err) { ErrorText = Err.message(); });
       return testing::AssertionFailure()
              << "Import failed, error: \"" << ErrorText << "\"!";
     }

     return Verifier.match(*Imported, WrapperMatcher);
   }

   template <typename NodeType>
   testing::AssertionResult
   testImport(const std::string &FromCode,
              const std::vector<std::string> &FromArgs,
              const std::string &ToCode, const std::vector<std::string> &ToArgs,
              MatchVerifier<NodeType> &Verifier,
              const internal::BindableMatcher<NodeType> &VerificationMatcher) {
     return testImport(
         FromCode, FromArgs, ToCode, ToArgs, Verifier,
         translationUnitDecl(
             has(namedDecl(hasName(DeclToImportID)).bind(DeclToImportID))),
         VerificationMatcher);
   }

 protected:
   std::vector<std::string> getExtraArgs() const override { return GetParam(); }

 public:
   /// Test how AST node named "declToImport" located in the translation unit
   /// of "FromCode" virtual file is imported to "ToCode" virtual file.
   /// The verification is done by running AMatcher over the imported node.
   template <typename NodeType, typename MatcherType>
   void testImport(const std::string &FromCode, TestLanguage FromLang,
                   const std::string &ToCode, TestLanguage ToLang,
                   MatchVerifier<NodeType> &Verifier,
                   const MatcherType &AMatcher) {
     std::vector<std::string> FromArgs = getCommandLineArgsForLanguage(FromLang);
     std::vector<std::string> ToArgs = getCommandLineArgsForLanguage(ToLang);
     EXPECT_TRUE(
         testImport(FromCode, FromArgs, ToCode, ToArgs, Verifier, AMatcher));
   }

   struct ImportAction {
     StringRef FromFilename;
     StringRef ToFilename;
     // FIXME: Generalize this to support other node kinds.
     internal::BindableMatcher<Decl> ImportPredicate;

     ImportAction(StringRef FromFilename, StringRef ToFilename,
                  DeclarationMatcher ImportPredicate)
         : FromFilename(FromFilename), ToFilename(ToFilename),
           ImportPredicate(ImportPredicate) {}

     ImportAction(StringRef FromFilename, StringRef ToFilename,
                  const std::string &DeclName)
         : FromFilename(FromFilename), ToFilename(ToFilename),
           ImportPredicate(namedDecl(hasName(DeclName))) {}
   };

   using SingleASTUnit = std::unique_ptr<ASTUnit>;
   using AllASTUnits = llvm::StringMap<SingleASTUnit>;

   struct CodeEntry {
     std::string CodeSample;
     TestLanguage Lang;
   };

   using CodeFiles = llvm::StringMap<CodeEntry>;

   /// Builds an ASTUnit for one potential compile options set.
   SingleASTUnit createASTUnit(StringRef FileName, const CodeEntry &CE) const {
     std::vector<std::string> Args = getCommandLineArgsForLanguage(CE.Lang);
     auto AST = tooling::buildASTFromCodeWithArgs(CE.CodeSample, Args, FileName);
     EXPECT_TRUE(AST.get());
     return AST;
   }

   /// Test an arbitrary sequence of imports for a set of given in-memory files.
   /// The verification is done by running VerificationMatcher against a
   /// specified AST node inside of one of given files.
   /// \param CodeSamples Map whose key is the file name and the value is the
   /// file content.
   /// \param ImportActions Sequence of imports. Each import in sequence
   /// specifies "from file" and "to file" and a matcher that is used for
   /// searching a declaration for import in "from file".
   /// \param FileForFinalCheck Name of virtual file for which the final check is
   /// applied.
   /// \param FinalSelectPredicate Matcher that specifies the AST node in the
   /// FileForFinalCheck for which the verification will be done.
   /// \param VerificationMatcher Matcher that will be used for verification
   /// after all imports in sequence are done.
   void testImportSequence(const CodeFiles &CodeSamples,
                           const std::vector<ImportAction> &ImportActions,
                           StringRef FileForFinalCheck,
                           internal::BindableMatcher<Decl> FinalSelectPredicate,
                           internal::BindableMatcher<Decl> VerificationMatcher) {
     AllASTUnits AllASTs;
     using ImporterKey = std::pair<const ASTUnit *, const ASTUnit *>;
     llvm::DenseMap<ImporterKey, std::unique_ptr<ASTImporter>> Importers;

     auto GenASTsIfNeeded = [this, &AllASTs, &CodeSamples](StringRef Filename) {
       if (!AllASTs.count(Filename)) {
         auto Found = CodeSamples.find(Filename);
         assert(Found != CodeSamples.end() && "Wrong file for import!");
         AllASTs[Filename] = createASTUnit(Filename, Found->getValue());
       }
     };

     for (const ImportAction &Action : ImportActions) {
       StringRef FromFile = Action.FromFilename, ToFile = Action.ToFilename;
       GenASTsIfNeeded(FromFile);
       GenASTsIfNeeded(ToFile);

       ASTUnit *From = AllASTs[FromFile].get();
       ASTUnit *To = AllASTs[ToFile].get();

       // Create a new importer if needed.
       std::unique_ptr<ASTImporter> &ImporterRef = Importers[{From, To}];
       if (!ImporterRef)
         ImporterRef.reset(new ASTImporter(
             To->getASTContext(), To->getFileManager(), From->getASTContext(),
             From->getFileManager(), false));

       // Find the declaration and import it.
       auto FoundDecl = match(Action.ImportPredicate.bind(DeclToImportID),
                              From->getASTContext());
       EXPECT_TRUE(FoundDecl.size() == 1);
       const Decl *ToImport = selectFirst<Decl>(DeclToImportID, FoundDecl);
       auto Imported = importNode(From, To, *ImporterRef, ToImport);
       EXPECT_TRUE(static_cast<bool>(Imported));
       if (!Imported)
         llvm::consumeError(Imported.takeError());
     }

     // Find the declaration and import it.
     auto FoundDecl = match(FinalSelectPredicate.bind(DeclToVerifyID),
                            AllASTs[FileForFinalCheck]->getASTContext());
     EXPECT_TRUE(FoundDecl.size() == 1);
     const Decl *ToVerify = selectFirst<Decl>(DeclToVerifyID, FoundDecl);
     MatchVerifier<Decl> Verifier;
     EXPECT_TRUE(Verifier.match(
         ToVerify, internal::BindableMatcher<Decl>(VerificationMatcher)));
   }
 };

 template <typename T> RecordDecl *getRecordDecl(T *D) {
   auto *ET = cast<ElaboratedType>(D->getType().getTypePtr());
   return cast<RecordType>(ET->getNamedType().getTypePtr())->getDecl();
 }

 template <class T>
 ::testing::AssertionResult isSuccess(llvm::Expected<T> &ValOrErr) {
   if (ValOrErr)
     return ::testing::AssertionSuccess() << "Expected<> contains no error.";
   else
     return ::testing::AssertionFailure()
            << "Expected<> contains error: " << toString(ValOrErr.takeError());
 }

 template <class T>
 ::testing::AssertionResult isImportError(llvm::Expected<T> &ValOrErr,
                                          ImportError::ErrorKind Kind) {
   if (ValOrErr) {
     return ::testing::AssertionFailure() << "Expected<> is expected to contain "
                                             "error but does contain value \""
                                          << (*ValOrErr) << "\"";
   } else {
     std::ostringstream OS;
     bool Result = false;
     auto Err = llvm::handleErrors(
         ValOrErr.takeError(), [&OS, &Result, Kind](clang::ImportError &IE) {
           if (IE.Error == Kind) {
             Result = true;
             OS << "Expected<> contains an ImportError " << IE.toString();
           } else {
             OS << "Expected<> contains an ImportError " << IE.toString()
                << " instead of kind " << Kind;
           }
         });
     if (Err) {
       OS << "Expected<> contains unexpected error: "
          << toString(std::move(Err));
     }
     if (Result)
       return ::testing::AssertionSuccess() << OS.str();
     else
       return ::testing::AssertionFailure() << OS.str();
   }
 }

 } // end namespace ast_matchers
 } // end namespace clang

 #endif
	//===- unittest/AST/ASTImporterFixtures.h - AST unit test support ---------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	/// \file
	/// Fixture classes for testing the ASTImporter.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_UNITTESTS_AST_IMPORTER_FIXTURES_H
	#define LLVM_CLANG_UNITTESTS_AST_IMPORTER_FIXTURES_H

	#include "gmock/gmock.h"

	#include "clang/AST/ASTImporter.h"
	#include "clang/AST/ASTImporterSharedState.h"
	#include "clang/Frontend/ASTUnit.h"
	#include "clang/Testing/CommandLineArgs.h"
	#include "llvm/Support/Error.h"
	#include "llvm/Support/ErrorHandling.h"

	#include "DeclMatcher.h"
	#include "MatchVerifier.h"

	#include <sstream>

	namespace clang {

	class ASTImporter;
	class ASTImporterSharedState;
	class ASTUnit;

	namespace ast_matchers {

	const StringRef DeclToImportID = "declToImport";
	const StringRef DeclToVerifyID = "declToVerify";

	// Creates a virtual file and assigns that to the context of given AST. If the
	// file already exists then the file will not be created again as a duplicate.
	void createVirtualFileIfNeeded(ASTUnit *ToAST, StringRef FileName,
	std::unique_ptr<llvm::MemoryBuffer> &&Buffer);

	void createVirtualFileIfNeeded(ASTUnit *ToAST, StringRef FileName,
	StringRef Code);

	// Common base for the different families of ASTImporter tests that are
	// parameterized on the compiler options which may result a different AST. E.g.
	// -fms-compatibility or -fdelayed-template-parsing.
	class CompilerOptionSpecificTest : public ::testing::Test {
	protected:
	// Return the extra arguments appended to runtime options at compilation.
	virtual std::vector<std::string> getExtraArgs() const { return {}; }

	// Returns the argument vector used for a specific language option, this set
	// can be tweaked by the test parameters.
	std::vector<std::string>
	getCommandLineArgsForLanguage(TestLanguage Lang) const {
	std::vector<std::string> Args = getCommandLineArgsForTesting(Lang);
	std::vector<std::string> ExtraArgs = getExtraArgs();
	for (const auto &Arg : ExtraArgs) {
	Args.push_back(Arg);
	}
	return Args;
	}
	};

	const auto DefaultTestArrayForRunOptions =
	std::array<std::vector<std::string>, 4>{
	{std::vector<std::string>(),
	std::vector<std::string>{"-fdelayed-template-parsing"},
	std::vector<std::string>{"-fms-compatibility"},
	std::vector<std::string>{"-fdelayed-template-parsing",
	"-fms-compatibility"}}};

	const auto DefaultTestValuesForRunOptions =
	::testing::ValuesIn(DefaultTestArrayForRunOptions);

	// This class provides generic methods to write tests which can check internal
	// attributes of AST nodes like getPreviousDecl(), isVirtual(), etc. Also,
	// this fixture makes it possible to import from several "From" contexts.
	class ASTImporterTestBase : public CompilerOptionSpecificTest {

	const char *const InputFileName = "input.cc";
	const char *const OutputFileName = "output.cc";

	public:
	/// Allocates an ASTImporter (or one of its subclasses).
	typedef std::function<ASTImporter *(
	ASTContext &, FileManager &, ASTContext &, FileManager &, bool,
	const std::shared_ptr<ASTImporterSharedState> &SharedState)>
	ImporterConstructor;

	// ODR handling type for the AST importer.
	ASTImporter::ODRHandlingType ODRHandling;

	// The lambda that constructs the ASTImporter we use in this test.
	ImporterConstructor Creator;

	private:
	// Buffer for the To context, must live in the test scope.
	std::string ToCode;

	// Represents a "From" translation unit and holds an importer object which we
	// use to import from this translation unit.
	struct TU {
	// Buffer for the context, must live in the test scope.
	std::string Code;
	std::string FileName;
	std::unique_ptr<ASTUnit> Unit;
	TranslationUnitDecl *TUDecl = nullptr;
	std::unique_ptr<ASTImporter> Importer;
	ImporterConstructor Creator;
	ASTImporter::ODRHandlingType ODRHandling;

	TU(StringRef Code, StringRef FileName, std::vector<std::string> Args,
	ImporterConstructor C = ImporterConstructor(),
	ASTImporter::ODRHandlingType ODRHandling =
	ASTImporter::ODRHandlingType::Conservative);
	~TU();

	void
	lazyInitImporter(const std::shared_ptr<ASTImporterSharedState> &SharedState,
	ASTUnit *ToAST);
	Decl *import(const std::shared_ptr<ASTImporterSharedState> &SharedState,
	ASTUnit ToAST, Decl FromDecl);
	llvm::Expected<Decl *>
	importOrError(const std::shared_ptr<ASTImporterSharedState> &SharedState,
	ASTUnit ToAST, Decl FromDecl);
	QualType import(const std::shared_ptr<ASTImporterSharedState> &SharedState,
	ASTUnit *ToAST, QualType FromType);
	};

	// We may have several From contexts and related translation units. In each
	// AST, the buffers for the source are handled via references and are set
	// during the creation of the AST. These references must point to a valid
	// buffer until the AST is alive. Thus, we must use a list in order to avoid
	// moving of the stored objects because that would mean breaking the
	// references in the AST. By using a vector a move could happen when the
	// vector is expanding, with the list we won't have these issues.
	std::list<TU> FromTUs;

	// Initialize the shared state if not initialized already.
	void lazyInitSharedState(TranslationUnitDecl *ToTU);

	void lazyInitToAST(TestLanguage ToLang, StringRef ToSrcCode,
	StringRef FileName);

	protected:
	std::shared_ptr<ASTImporterSharedState> SharedStatePtr;

	public:
	// We may have several From context but only one To context.
	std::unique_ptr<ASTUnit> ToAST;

	// Returns with the TU associated with the given Decl.
	TU findFromTU(Decl From);

	// Creates an AST both for the From and To source code and imports the Decl
	// of the identifier into the To context.
	// Must not be called more than once within the same test.
	std::tuple<Decl , Decl >
	getImportedDecl(StringRef FromSrcCode, TestLanguage FromLang,
	StringRef ToSrcCode, TestLanguage ToLang,
	StringRef Identifier = DeclToImportID);

	// Creates a TU decl for the given source code which can be used as a From
	// context. May be called several times in a given test (with different file
	// name).
	TranslationUnitDecl *getTuDecl(StringRef SrcCode, TestLanguage Lang,
	StringRef FileName = "input.cc");

	// Creates the To context with the given source code and returns the TU decl.
	TranslationUnitDecl *getToTuDecl(StringRef ToSrcCode, TestLanguage ToLang);

	// Import the given Decl into the ToCtx.
	// May be called several times in a given test.
	// The different instances of the param From may have different ASTContext.
	Decl Import(Decl From, TestLanguage ToLang);

	template <class DeclT> DeclT Import(DeclT From, TestLanguage Lang) {
	return cast_or_null<DeclT>(Import(cast<Decl>(From), Lang));
	}

	// Import the given Decl into the ToCtx.
	// Same as Import but returns the result of the import which can be an error.
	llvm::Expected<Decl > importOrError(Decl From, TestLanguage ToLang);

	QualType ImportType(QualType FromType, Decl *TUDecl, TestLanguage ToLang);

	ASTImporterTestBase()
	: ODRHandling(ASTImporter::ODRHandlingType::Conservative) {}
	~ASTImporterTestBase();
	};

	class ASTImporterOptionSpecificTestBase
	: public ASTImporterTestBase,
	public ::testing::WithParamInterface<std::vector<std::string>> {
	protected:
	std::vector<std::string> getExtraArgs() const override { return GetParam(); }
	};

	// Base class for those tests which use the family of `testImport` functions.
	class TestImportBase
	: public CompilerOptionSpecificTest,
	public ::testing::WithParamInterface<std::vector<std::string>> {

	template <typename NodeType>
	llvm::Expected<NodeType> importNode(ASTUnit From, ASTUnit To,
	ASTImporter &Importer, NodeType Node) {
	ASTContext &ToCtx = To->getASTContext();

	// Add 'From' file to virtual file system so importer can 'find' it
	// while importing SourceLocations. It is safe to add same file multiple
	// times - it just isn't replaced.
	StringRef FromFileName = From->getMainFileName();
	createVirtualFileIfNeeded(To, FromFileName,
	From->getBufferForFile(FromFileName));

	auto Imported = Importer.Import(Node);

	if (Imported) {
	// This should dump source locations and assert if some source locations
	// were not imported.
	SmallString<1024> ImportChecker;
	llvm::raw_svector_ostream ToNothing(ImportChecker);
	ToCtx.getTranslationUnitDecl()->print(ToNothing);

	// This traverses the AST to catch certain bugs like poorly or not
	// implemented subtrees.
	(*Imported)->dump(ToNothing);
	}

	return Imported;
	}

	template <typename NodeType>
	testing::AssertionResult
	testImport(const std::string &FromCode,
	const std::vector<std::string> &FromArgs,
	const std::string &ToCode, const std::vector<std::string> &ToArgs,
	MatchVerifier<NodeType> &Verifier,
	const internal::BindableMatcher<NodeType> &SearchMatcher,
	const internal::BindableMatcher<NodeType> &VerificationMatcher) {
	const char *const InputFileName = "input.cc";
	const char *const OutputFileName = "output.cc";

	std::unique_ptr<ASTUnit> FromAST = tooling::buildASTFromCodeWithArgs(
	FromCode, FromArgs, InputFileName),
	ToAST = tooling::buildASTFromCodeWithArgs(
	ToCode, ToArgs, OutputFileName);

	ASTContext &FromCtx = FromAST->getASTContext(),
	&ToCtx = ToAST->getASTContext();

	ASTImporter Importer(ToCtx, ToAST->getFileManager(), FromCtx,
	FromAST->getFileManager(), false);

	auto FoundNodes = match(SearchMatcher, FromCtx);
	if (FoundNodes.size() != 1)
	return testing::AssertionFailure()
	<< "Multiple potential nodes were found!";

	auto ToImport = selectFirst<NodeType>(DeclToImportID, FoundNodes);
	if (!ToImport)
	return testing::AssertionFailure() << "Node type mismatch!";

	// The node being imported should match in the same way as
	// the result node.
	internal::BindableMatcher<NodeType> WrapperMatcher(VerificationMatcher);
	EXPECT_TRUE(Verifier.match(ToImport, WrapperMatcher));

	auto Imported = importNode(FromAST.get(), ToAST.get(), Importer, ToImport);
	if (!Imported) {
	std::string ErrorText;
	handleAllErrors(
	Imported.takeError(),
	[&ErrorText](const ImportError &Err) { ErrorText = Err.message(); });
	return testing::AssertionFailure()
	<< "Import failed, error: \"" << ErrorText << "\"!";
	}

	return Verifier.match(*Imported, WrapperMatcher);
	}

	template <typename NodeType>
	testing::AssertionResult
	testImport(const std::string &FromCode,
	const std::vector<std::string> &FromArgs,
	const std::string &ToCode, const std::vector<std::string> &ToArgs,
	MatchVerifier<NodeType> &Verifier,
	const internal::BindableMatcher<NodeType> &VerificationMatcher) {
	return testImport(
	FromCode, FromArgs, ToCode, ToArgs, Verifier,
	translationUnitDecl(
	has(namedDecl(hasName(DeclToImportID)).bind(DeclToImportID))),
	VerificationMatcher);
	}

	protected:
	std::vector<std::string> getExtraArgs() const override { return GetParam(); }

	public:
	/// Test how AST node named "declToImport" located in the translation unit
	/// of "FromCode" virtual file is imported to "ToCode" virtual file.
	/// The verification is done by running AMatcher over the imported node.
	template <typename NodeType, typename MatcherType>
	void testImport(const std::string &FromCode, TestLanguage FromLang,
	const std::string &ToCode, TestLanguage ToLang,
	MatchVerifier<NodeType> &Verifier,
	const MatcherType &AMatcher) {
	std::vector<std::string> FromArgs = getCommandLineArgsForLanguage(FromLang);
	std::vector<std::string> ToArgs = getCommandLineArgsForLanguage(ToLang);
	EXPECT_TRUE(
	testImport(FromCode, FromArgs, ToCode, ToArgs, Verifier, AMatcher));
	}

	struct ImportAction {
	StringRef FromFilename;
	StringRef ToFilename;
	// FIXME: Generalize this to support other node kinds.
	internal::BindableMatcher<Decl> ImportPredicate;

	ImportAction(StringRef FromFilename, StringRef ToFilename,
	DeclarationMatcher ImportPredicate)
	: FromFilename(FromFilename), ToFilename(ToFilename),
	ImportPredicate(ImportPredicate) {}

	ImportAction(StringRef FromFilename, StringRef ToFilename,
	const std::string &DeclName)
	: FromFilename(FromFilename), ToFilename(ToFilename),
	ImportPredicate(namedDecl(hasName(DeclName))) {}
	};

	using SingleASTUnit = std::unique_ptr<ASTUnit>;
	using AllASTUnits = llvm::StringMap<SingleASTUnit>;

	struct CodeEntry {
	std::string CodeSample;
	TestLanguage Lang;
	};

	using CodeFiles = llvm::StringMap<CodeEntry>;

	/// Builds an ASTUnit for one potential compile options set.
	SingleASTUnit createASTUnit(StringRef FileName, const CodeEntry &CE) const {
	std::vector<std::string> Args = getCommandLineArgsForLanguage(CE.Lang);
	auto AST = tooling::buildASTFromCodeWithArgs(CE.CodeSample, Args, FileName);
	EXPECT_TRUE(AST.get());
	return AST;
	}

	/// Test an arbitrary sequence of imports for a set of given in-memory files.
	/// The verification is done by running VerificationMatcher against a
	/// specified AST node inside of one of given files.
	/// \param CodeSamples Map whose key is the file name and the value is the
	/// file content.
	/// \param ImportActions Sequence of imports. Each import in sequence
	/// specifies "from file" and "to file" and a matcher that is used for
	/// searching a declaration for import in "from file".
	/// \param FileForFinalCheck Name of virtual file for which the final check is
	/// applied.
	/// \param FinalSelectPredicate Matcher that specifies the AST node in the
	/// FileForFinalCheck for which the verification will be done.
	/// \param VerificationMatcher Matcher that will be used for verification
	/// after all imports in sequence are done.
	void testImportSequence(const CodeFiles &CodeSamples,
	const std::vector<ImportAction> &ImportActions,
	StringRef FileForFinalCheck,
	internal::BindableMatcher<Decl> FinalSelectPredicate,
	internal::BindableMatcher<Decl> VerificationMatcher) {
	AllASTUnits AllASTs;
	using ImporterKey = std::pair<const ASTUnit , const ASTUnit >;
	llvm::DenseMap<ImporterKey, std::unique_ptr<ASTImporter>> Importers;

	auto GenASTsIfNeeded = [this, &AllASTs, &CodeSamples](StringRef Filename) {
	if (!AllASTs.count(Filename)) {
	auto Found = CodeSamples.find(Filename);
	assert(Found != CodeSamples.end() && "Wrong file for import!");
	AllASTs[Filename] = createASTUnit(Filename, Found->getValue());
	}
	};

	for (const ImportAction &Action : ImportActions) {
	StringRef FromFile = Action.FromFilename, ToFile = Action.ToFilename;
	GenASTsIfNeeded(FromFile);
	GenASTsIfNeeded(ToFile);

	ASTUnit *From = AllASTs[FromFile].get();
	ASTUnit *To = AllASTs[ToFile].get();

	// Create a new importer if needed.
	std::unique_ptr<ASTImporter> &ImporterRef = Importers[{From, To}];
	if (!ImporterRef)
	ImporterRef.reset(new ASTImporter(
	To->getASTContext(), To->getFileManager(), From->getASTContext(),
	From->getFileManager(), false));

	// Find the declaration and import it.
	auto FoundDecl = match(Action.ImportPredicate.bind(DeclToImportID),
	From->getASTContext());
	EXPECT_TRUE(FoundDecl.size() == 1);
	const Decl *ToImport = selectFirst<Decl>(DeclToImportID, FoundDecl);
	auto Imported = importNode(From, To, *ImporterRef, ToImport);
	EXPECT_TRUE(static_cast<bool>(Imported));
	if (!Imported)
	llvm::consumeError(Imported.takeError());
	}

	// Find the declaration and import it.
	auto FoundDecl = match(FinalSelectPredicate.bind(DeclToVerifyID),
	AllASTs[FileForFinalCheck]->getASTContext());
	EXPECT_TRUE(FoundDecl.size() == 1);
	const Decl *ToVerify = selectFirst<Decl>(DeclToVerifyID, FoundDecl);
	MatchVerifier<Decl> Verifier;
	EXPECT_TRUE(Verifier.match(
	ToVerify, internal::BindableMatcher<Decl>(VerificationMatcher)));
	}
	};

	template <typename T> RecordDecl getRecordDecl(T D) {
	auto *ET = cast<ElaboratedType>(D->getType().getTypePtr());
	return cast<RecordType>(ET->getNamedType().getTypePtr())->getDecl();
	}

	template <class T>
	::testing::AssertionResult isSuccess(llvm::Expected<T> &ValOrErr) {
	if (ValOrErr)
	return ::testing::AssertionSuccess() << "Expected<> contains no error.";
	else
	return ::testing::AssertionFailure()
	<< "Expected<> contains error: " << toString(ValOrErr.takeError());
	}

	template <class T>
	::testing::AssertionResult isImportError(llvm::Expected<T> &ValOrErr,
	ImportError::ErrorKind Kind) {
	if (ValOrErr) {
	return ::testing::AssertionFailure() << "Expected<> is expected to contain "
	"error but does contain value \""
	<< (*ValOrErr) << "\"";
	} else {
	std::ostringstream OS;
	bool Result = false;
	auto Err = llvm::handleErrors(
	ValOrErr.takeError(), [&OS, &Result, Kind](clang::ImportError &IE) {
	if (IE.Error == Kind) {
	Result = true;
	OS << "Expected<> contains an ImportError " << IE.toString();
	} else {
	OS << "Expected<> contains an ImportError " << IE.toString()
	<< " instead of kind " << Kind;
	}
	});
	if (Err) {
	OS << "Expected<> contains unexpected error: "
	<< toString(std::move(Err));
	}
	if (Result)
	return ::testing::AssertionSuccess() << OS.str();
	else
	return ::testing::AssertionFailure() << OS.str();
	}
	}

	} // end namespace ast_matchers
	} // end namespace clang

	#endif