test/CodeGenCXX/ps4-dllstorage-vtable-rtti.cpp - llvm-project/clang - Git at Google

 // For a class that has a vtable (and hence, also has a typeinfo symbol for
 // RTTI), if a user marks either:
 //
 //  (a) the entire class as dllexport (dllimport), or
 //  (b) all non-inline virtual methods of the class as dllexport (dllimport)
 //
 // then Clang must export the vtable and typeinfo symbol from the TU where they
 // are defined (the TU containing the definition of the Itanium C++ ABI "key
 // function"), and must import them in other modules where they are referenced.
 //
 // Conversely to point (b), if some (but not all) of the non-inline virtual
 // methods of a class are marked as dllexport (dllimport), then the vtable and
 // typeinfo symbols must not be exported (imported).  This will result in a
 // link-time failure when linking the importing module.  This link-time failure
 // is the desired behavior, because the Microsoft toolchain also gets a
 // link-time failure in these cases (and since __declspec(dllexport)
 // (__declspec(dllimport)) is a Microsoft extension, our intention is to mimic
 // that Microsoft behavior).
 //
 // Side note: It is within the bodies of constructors (and in some cases,
 // destructors) that the vtable is explicitly referenced.  In case (a) above,
 // where the entire class is exported (imported), then all constructors (among
 // other things) are exported (imported).  So for that situation, an importing
 // module for a well-formed program will not actually reference the vtable,
 // since constructor calls will all be to functions external to that module
 // (and imported into it, from the exporting module).  I.e., all vtable
 // references will be in that module where the constructor and destructor
 // bodies are, therefore, there will not be a need to import the vtable in
 // that case.
 //
 // This test contains 6 test classes:
 //   2 for point (a),
 //   2 for point (b),
 //   and 2 negative tests for the converse of point (b).
 //
 // The two tests for each of these points are one for importing, and one for
 // exporting.

 // RUN: %clang_cc1 -I%S -fdeclspec -triple x86_64-unknown-windows-itanium -emit-llvm -o - %s -fhalf-no-semantic-interposition | FileCheck %s -check-prefix=WI
 // RUN: %clang_cc1 -I%S -fdeclspec -triple x86_64-scei-windows-itanium -emit-llvm -o - %s -fhalf-no-semantic-interposition | FileCheck %s --check-prefixes=PS4,SCEI_WI
 // RUN: %clang_cc1 -I%S -fdeclspec -triple x86_64-scei-ps4 -emit-llvm -o - %s -fhalf-no-semantic-interposition | FileCheck %s --check-prefixes=PS4,SCEI_PS4

 #include <typeinfo>

 // Case (a) -- Import Aspect
 // The entire class is imported.  The typeinfo symbol must also be imported,
 // but the vtable will not be referenced, and so does not need to be imported
 // (as described in the "Side note", above).
 //
 // PS4-DAG: @_ZTI10FullImport = {{.*}}dllimport
 // WI-DAG: @_ZTI10FullImport = external dllimport constant i8*
 struct __declspec(dllimport) FullImport
 {
   virtual void getId() {}
   virtual void Bump();
   virtual void Decrement();
 };

 // 'FullImport::Bump()' is the key function, so the vtable and typeinfo symbol
 // of 'FullImport' will be defined in the TU that contains the definition of
 // 'Bump()' (and they must be exported from there).
 void FullImportTest()
 {
   typeid(FullImport).name();
 }

 ///////////////////////////////////////////////////////////////////

 // Case (a) -- Export Aspect
 // The entire class is exported.  The vtable and typeinfo symbols must also be
 // exported,
 //
 // PS4-DAG: @_ZTV10FullExport ={{.*}}dllexport
 // WI-DAG: @_ZTV10FullExport ={{.*}}dllexport
 // PS4-DAG: @_ZTI10FullExport ={{.*}}dllexport
 // WI-DAG: @_ZTI10FullExport = dso_local dllexport constant {
 struct __declspec(dllexport) FullExport // Easy case: Entire class is exported.
 {
   virtual void getId() {}
   virtual void Bump();
   virtual void Decrement();
 };

 // This is the key function of the class 'FullExport', so the vtable and
 // typeinfo symbols of 'FullExport' will be defined in this TU, and so they
 // must be exported from this TU.
 void FullExport::Bump()
 {
   typeid(FullExport).name();
 }

 ///////////////////////////////////////////////////////////////////

 // Case (b) -- Import Aspect
 // The class as a whole is not imported, but all non-inline virtual methods of
 // the class are, so the vtable and typeinfo symbol must be imported.
 //
 // PS4-DAG: @_ZTV9FooImport ={{.*}}dllimport
 // WI-DAG:  @_ZTV9FooImport = linkonce_odr dso_local unnamed_addr constant {
 // PS4-DAG: @_ZTI9FooImport ={{.*}}dllimport
 // WI-DAG:  @_ZTI9FooImport = linkonce_odr dso_local constant {


 struct FooImport
 {
   virtual void getId() const {}
   __declspec(dllimport) virtual void Bump();
   __declspec(dllimport) virtual void Decrement();
 };

 // 'FooImport::Bump()' is the key function, so the vtable and typeinfo symbol
 // of 'FooImport' will be defined in the TU that contains the definition of
 // 'Bump()' (and they must be exported from there).  Here, we will reference
 // the vtable and typeinfo symbol, so we must also import them.
 void importTest()
 {
   typeid(FooImport).name();
 }

 ///////////////////////////////////////////////////////////////////

 // Case (b) -- Export Aspect
 // The class as a whole is not exported, but all non-inline virtual methods of
 // the class are, so the vtable and typeinfo symbol must be exported.
 //
 // PS4-DAG: @_ZTV9FooExport ={{.*}}dllexport
 // WI-DAG:  @_ZTV9FooExport = dso_local unnamed_addr constant {
 // PS4-DAG: @_ZTI9FooExport ={{.*}}dllexport
 // WI-DAG:  @_ZTI9FooExport = dso_local constant {
 struct FooExport
 {
   virtual void getId() const {}
   __declspec(dllexport) virtual void Bump();
   __declspec(dllexport) virtual void Decrement();
 };

 // This is the key function of the class 'FooExport', so the vtable and
 // typeinfo symbol of 'FooExport' will be defined in this TU, and so they must
 // be exported from this TU.
 void FooExport::Bump()
 {
   FooImport f;
   typeid(FooExport).name();
 }

 ///////////////////////////////////////////////////////////////////

 // The tests below verify that the associated vtable and typeinfo symbols are
 // not imported/exported.  These are the converse of case (b).
 //
 // Note that ultimately, if the module doing the importing calls a constructor
 // of the class with the vtable, or makes a reference to the typeinfo symbol of
 // the class, then this will result in an unresolved reference (to the vtable
 // or typeinfo symbol) when linking the importing module, and thus a link-time
 // failure.
 //
 // Note that with the Microsoft toolchain there will also be a link-time
 // failure when linking the module doing the importing.  With the Microsoft
 // toolchain, it will be an unresolved reference to the method 'Decrement()'
 // of the approriate class, rather than to the vtable or typeinfo symbol of
 // the class, because Microsoft defines the vtable and typeinfo symbol (weakly)
 // everywhere they are used.

 // Converse of case (b) -- Import Aspect
 // The class as a whole is not imported, and not all non-inline virtual methods
 // are imported, so the vtable and typeinfo symbol are not to be imported.
 //
 // CHECK-PS4: @_ZTV11FooNoImport = external dso_local unnamed_addr constant {
 // CHECK-WI:  @_ZTV11FooNoImport = linkonce_odr dso_local unnamed_addr constant {
 // CHECK-PS4: @_ZTI11FooNoImport = external dso_local constant i8*{{$}}
 // CHECK-WI:  @_ZTI11FooNoImport = linkonce_odr dso_local constant {
 struct FooNoImport
 {
   virtual void getId() const {}
   __declspec(dllimport) virtual void Bump();
   virtual void Decrement();     // Not imported.
   int mCounter;
 };

 void importNegativeTest()
 {
   FooNoImport f;
   typeid(FooNoImport).name();
 }

 ///////////////////////////////////////////////////////////////////

 // Converse of case (b) -- Export Aspect
 // The class as a whole is not exported, and not all non-inline virtual methods
 // are exported, so the vtable and typeinfo symbol are not to be exported.
 //
 // SCEI_PS4-DAG: @_ZTV11FooNoImport = external unnamed_addr constant {
 // SCEI_WI-DAG:  @_ZTV11FooNoExport = dso_local unnamed_addr constant {

 // WI-DAG:       @_ZTV11FooNoExport = dso_local unnamed_addr constant {
 // SCEI_PS4-DAG: @_ZTI11FooNoExport = constant {
 // SCEI_WI-DAG:  @_ZTI11FooNoExport = dso_local constant {
 // WI-DAG:       @_ZTI11FooNoExport = dso_local constant {
 struct FooNoExport
 {
   virtual void getId() const {}
   __declspec(dllexport) virtual void Bump();
   virtual void Decrement(); // Not exported.
   int mCounter;
 };

 void FooNoExport::Bump()
 {
   typeid(FooNoExport).name();
 }
	// For a class that has a vtable (and hence, also has a typeinfo symbol for
	// RTTI), if a user marks either:
	//
	// (a) the entire class as dllexport (dllimport), or
	// (b) all non-inline virtual methods of the class as dllexport (dllimport)
	//
	// then Clang must export the vtable and typeinfo symbol from the TU where they
	// are defined (the TU containing the definition of the Itanium C++ ABI "key
	// function"), and must import them in other modules where they are referenced.
	//
	// Conversely to point (b), if some (but not all) of the non-inline virtual
	// methods of a class are marked as dllexport (dllimport), then the vtable and
	// typeinfo symbols must not be exported (imported). This will result in a
	// link-time failure when linking the importing module. This link-time failure
	// is the desired behavior, because the Microsoft toolchain also gets a
	// link-time failure in these cases (and since __declspec(dllexport)
	// (__declspec(dllimport)) is a Microsoft extension, our intention is to mimic
	// that Microsoft behavior).
	//
	// Side note: It is within the bodies of constructors (and in some cases,
	// destructors) that the vtable is explicitly referenced. In case (a) above,
	// where the entire class is exported (imported), then all constructors (among
	// other things) are exported (imported). So for that situation, an importing
	// module for a well-formed program will not actually reference the vtable,
	// since constructor calls will all be to functions external to that module
	// (and imported into it, from the exporting module). I.e., all vtable
	// references will be in that module where the constructor and destructor
	// bodies are, therefore, there will not be a need to import the vtable in
	// that case.
	//
	// This test contains 6 test classes:
	// 2 for point (a),
	// 2 for point (b),
	// and 2 negative tests for the converse of point (b).
	//
	// The two tests for each of these points are one for importing, and one for
	// exporting.

	// RUN: %clang_cc1 -I%S -fdeclspec -triple x86_64-unknown-windows-itanium -emit-llvm -o - %s -fhalf-no-semantic-interposition \| FileCheck %s -check-prefix=WI
	// RUN: %clang_cc1 -I%S -fdeclspec -triple x86_64-scei-windows-itanium -emit-llvm -o - %s -fhalf-no-semantic-interposition \| FileCheck %s --check-prefixes=PS4,SCEI_WI
	// RUN: %clang_cc1 -I%S -fdeclspec -triple x86_64-scei-ps4 -emit-llvm -o - %s -fhalf-no-semantic-interposition \| FileCheck %s --check-prefixes=PS4,SCEI_PS4

	#include <typeinfo>

	// Case (a) -- Import Aspect
	// The entire class is imported. The typeinfo symbol must also be imported,
	// but the vtable will not be referenced, and so does not need to be imported
	// (as described in the "Side note", above).
	//
	// PS4-DAG: @_ZTI10FullImport = {{.*}}dllimport
	// WI-DAG: @_ZTI10FullImport = external dllimport constant i8*
	struct __declspec(dllimport) FullImport
	{
	virtual void getId() {}
	virtual void Bump();
	virtual void Decrement();
	};

	// 'FullImport::Bump()' is the key function, so the vtable and typeinfo symbol
	// of 'FullImport' will be defined in the TU that contains the definition of
	// 'Bump()' (and they must be exported from there).
	void FullImportTest()
	{
	typeid(FullImport).name();
	}

	///////////////////////////////////////////////////////////////////

	// Case (a) -- Export Aspect
	// The entire class is exported. The vtable and typeinfo symbols must also be
	// exported,
	//
	// PS4-DAG: @_ZTV10FullExport ={{.*}}dllexport
	// WI-DAG: @_ZTV10FullExport ={{.*}}dllexport
	// PS4-DAG: @_ZTI10FullExport ={{.*}}dllexport
	// WI-DAG: @_ZTI10FullExport = dso_local dllexport constant {
	struct __declspec(dllexport) FullExport // Easy case: Entire class is exported.
	{
	virtual void getId() {}
	virtual void Bump();
	virtual void Decrement();
	};

	// This is the key function of the class 'FullExport', so the vtable and
	// typeinfo symbols of 'FullExport' will be defined in this TU, and so they
	// must be exported from this TU.
	void FullExport::Bump()
	{
	typeid(FullExport).name();
	}

	///////////////////////////////////////////////////////////////////

	// Case (b) -- Import Aspect
	// The class as a whole is not imported, but all non-inline virtual methods of
	// the class are, so the vtable and typeinfo symbol must be imported.
	//
	// PS4-DAG: @_ZTV9FooImport ={{.*}}dllimport
	// WI-DAG: @_ZTV9FooImport = linkonce_odr dso_local unnamed_addr constant {
	// PS4-DAG: @_ZTI9FooImport ={{.*}}dllimport
	// WI-DAG: @_ZTI9FooImport = linkonce_odr dso_local constant {


	struct FooImport
	{
	virtual void getId() const {}
	__declspec(dllimport) virtual void Bump();
	__declspec(dllimport) virtual void Decrement();
	};

	// 'FooImport::Bump()' is the key function, so the vtable and typeinfo symbol
	// of 'FooImport' will be defined in the TU that contains the definition of
	// 'Bump()' (and they must be exported from there). Here, we will reference
	// the vtable and typeinfo symbol, so we must also import them.
	void importTest()
	{
	typeid(FooImport).name();
	}

	///////////////////////////////////////////////////////////////////

	// Case (b) -- Export Aspect
	// The class as a whole is not exported, but all non-inline virtual methods of
	// the class are, so the vtable and typeinfo symbol must be exported.
	//
	// PS4-DAG: @_ZTV9FooExport ={{.*}}dllexport
	// WI-DAG: @_ZTV9FooExport = dso_local unnamed_addr constant {
	// PS4-DAG: @_ZTI9FooExport ={{.*}}dllexport
	// WI-DAG: @_ZTI9FooExport = dso_local constant {
	struct FooExport
	{
	virtual void getId() const {}
	__declspec(dllexport) virtual void Bump();
	__declspec(dllexport) virtual void Decrement();
	};

	// This is the key function of the class 'FooExport', so the vtable and
	// typeinfo symbol of 'FooExport' will be defined in this TU, and so they must
	// be exported from this TU.
	void FooExport::Bump()
	{
	FooImport f;
	typeid(FooExport).name();
	}

	///////////////////////////////////////////////////////////////////

	// The tests below verify that the associated vtable and typeinfo symbols are
	// not imported/exported. These are the converse of case (b).
	//
	// Note that ultimately, if the module doing the importing calls a constructor
	// of the class with the vtable, or makes a reference to the typeinfo symbol of
	// the class, then this will result in an unresolved reference (to the vtable
	// or typeinfo symbol) when linking the importing module, and thus a link-time
	// failure.
	//
	// Note that with the Microsoft toolchain there will also be a link-time
	// failure when linking the module doing the importing. With the Microsoft
	// toolchain, it will be an unresolved reference to the method 'Decrement()'
	// of the approriate class, rather than to the vtable or typeinfo symbol of
	// the class, because Microsoft defines the vtable and typeinfo symbol (weakly)
	// everywhere they are used.

	// Converse of case (b) -- Import Aspect
	// The class as a whole is not imported, and not all non-inline virtual methods
	// are imported, so the vtable and typeinfo symbol are not to be imported.
	//
	// CHECK-PS4: @_ZTV11FooNoImport = external dso_local unnamed_addr constant {
	// CHECK-WI: @_ZTV11FooNoImport = linkonce_odr dso_local unnamed_addr constant {
	// CHECK-PS4: @_ZTI11FooNoImport = external dso_local constant i8*{{$}}
	// CHECK-WI: @_ZTI11FooNoImport = linkonce_odr dso_local constant {
	struct FooNoImport
	{
	virtual void getId() const {}
	__declspec(dllimport) virtual void Bump();
	virtual void Decrement(); // Not imported.
	int mCounter;
	};

	void importNegativeTest()
	{
	FooNoImport f;
	typeid(FooNoImport).name();
	}

	///////////////////////////////////////////////////////////////////

	// Converse of case (b) -- Export Aspect
	// The class as a whole is not exported, and not all non-inline virtual methods
	// are exported, so the vtable and typeinfo symbol are not to be exported.
	//
	// SCEI_PS4-DAG: @_ZTV11FooNoImport = external unnamed_addr constant {
	// SCEI_WI-DAG: @_ZTV11FooNoExport = dso_local unnamed_addr constant {

	// WI-DAG: @_ZTV11FooNoExport = dso_local unnamed_addr constant {
	// SCEI_PS4-DAG: @_ZTI11FooNoExport = constant {
	// SCEI_WI-DAG: @_ZTI11FooNoExport = dso_local constant {
	// WI-DAG: @_ZTI11FooNoExport = dso_local constant {
	struct FooNoExport
	{
	virtual void getId() const {}
	__declspec(dllexport) virtual void Bump();
	virtual void Decrement(); // Not exported.
	int mCounter;
	};

	void FooNoExport::Bump()
	{
	typeid(FooNoExport).name();
	}