test/catch_multi_level_pointer.pass.cpp - platform/external/libcxxabi - Gitiles

 //===--------------------- catch_pointer_nullptr.cpp ----------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is dual licensed under the MIT and the University of Illinois Open
 // Source Licenses. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: libcxxabi-no-exceptions

 #include <cassert>
 #include <cstdlib>
 #include <iostream>

 // Roll our own assertion macro to get better error messages out of the tests.
 // In particular on systems that don't use __PRETTY_FUNCTION__ in assertions.
 #define my_assert(pred, msg) do_assert(pred, msg, __LINE__, __PRETTY_FUNCTION__)

 void do_assert(bool assert_passed, const char* msg, int line, const char* func) {
   if (assert_passed) return;
   std::cerr << __FILE__ << ":" << line << " " << func
             << ": Assertion Failed `" << msg << "'\n\n";
   std::abort();
 }

 struct A {};
 struct Base {};
 struct Derived : public Base {};

 template <class To>
 bool test_conversion(To) { return true; }

 template <class To>
 bool test_conversion(...) { return false; }

 template <class Pointer>
 struct CreatePointer {
   Pointer operator()() const {
       return (Pointer)0;
   }
 };

 template <class Tp>
 struct CreatePointer<Tp*> {
   Tp* operator()() const {
       return (Tp*)42;
   }
 };

 template <class Throw, class Catch>
 void catch_pointer_test() {
   Throw throw_ptr = CreatePointer<Throw>()();
   // Use the compiler to determine if the exception of type Throw can be
   // implicitly converted to type Catch.
   const bool can_convert = test_conversion<Catch>(throw_ptr);
   try {
     throw throw_ptr;
     assert(false);
   } catch (Catch catch_ptr) {
     Catch catch2 = CreatePointer<Catch>()();
     my_assert(can_convert, "non-convertible type incorrectly caught");
     my_assert(catch_ptr == catch2,
               "Thrown pointer does not match caught ptr");
   } catch (...) {
     my_assert(!can_convert, "convertible type incorrectly not caught");
   }
 }

 // Generate CV qualified pointer typedefs.
 template <class Tp, bool First = false>
 struct TestTypes {
   typedef Tp* Type;
   typedef Tp const* CType;
   typedef Tp volatile* VType;
   typedef Tp const volatile* CVType;
 };

 // Special case for cv-qualifying a pointer-to-member without adding an extra
 // pointer to it.
 template <class Member, class Class>
 struct TestTypes<Member Class::*, true> {
   typedef Member (Class::*Type);
   typedef const Member (Class::*CType);
   typedef volatile Member (Class::*VType);
   typedef const volatile Member (Class::*CVType);
 };

 template <class Throw, class Catch, int level, bool first = false>
 struct generate_tests_imp {
   typedef TestTypes<Throw, first> ThrowTypes;
   typedef TestTypes<Catch, first> CatchTypes;
   void operator()() {
       typedef typename ThrowTypes::Type Type;
       typedef typename ThrowTypes::CType CType;
       typedef typename ThrowTypes::VType VType;
       typedef typename ThrowTypes::CVType CVType;

       run_catch_tests<Type>();
       run_catch_tests<CType>();
       run_catch_tests<VType>();
       run_catch_tests<CVType>();
   }

   template <class ThrowTp>
   void run_catch_tests() {
       typedef typename CatchTypes::Type Type;
       typedef typename CatchTypes::CType CType;
       typedef typename CatchTypes::VType VType;
       typedef typename CatchTypes::CVType CVType;

       catch_pointer_test<ThrowTp, Type>();
       catch_pointer_test<ThrowTp, CType>();
       catch_pointer_test<ThrowTp, VType>();
       catch_pointer_test<ThrowTp, CVType>();

       generate_tests_imp<ThrowTp, Type, level-1>()();
       generate_tests_imp<ThrowTp, CType, level-1>()();
       generate_tests_imp<ThrowTp, VType, level-1>()();
       generate_tests_imp<ThrowTp, CVType, level-1>()();
   }
 };

 template <class Throw, class Catch, bool first>
 struct generate_tests_imp<Throw, Catch, 0, first> {
   void operator()() {
       catch_pointer_test<Throw, Catch>();
   }
 };

 template <class Throw, class Catch, int level>
 struct generate_tests : generate_tests_imp<Throw, Catch, level, true> {};

 int main()
 {
   generate_tests<int, int, 3>()();
   generate_tests<Base, Derived, 2>()();
   generate_tests<Derived, Base, 2>()();
   generate_tests<int, void, 2>()();
   generate_tests<void, int, 2>()();

   generate_tests<int A::*, int A::*, 3>()();
   generate_tests<int A::*, void, 2>()();
   generate_tests<void, int A::*, 2>()();
 }
	//===--------------------- catch_pointer_nullptr.cpp ----------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is dual licensed under the MIT and the University of Illinois Open
	// Source Licenses. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	// UNSUPPORTED: libcxxabi-no-exceptions

	#include <cassert>
	#include <cstdlib>
	#include <iostream>

	// Roll our own assertion macro to get better error messages out of the tests.
	// In particular on systems that don't use __PRETTY_FUNCTION__ in assertions.
	#define my_assert(pred, msg) do_assert(pred, msg, __LINE__, __PRETTY_FUNCTION__)

	void do_assert(bool assert_passed, const char* msg, int line, const char* func) {
	if (assert_passed) return;
	std::cerr << __FILE__ << ":" << line << " " << func
	<< ": Assertion Failed `" << msg << "'\n\n";
	std::abort();
	}

	struct A {};
	struct Base {};
	struct Derived : public Base {};

	template <class To>
	bool test_conversion(To) { return true; }

	template <class To>
	bool test_conversion(...) { return false; }

	template <class Pointer>
	struct CreatePointer {
	Pointer operator()() const {
	return (Pointer)0;
	}
	};

	template <class Tp>
	struct CreatePointer<Tp*> {
	Tp* operator()() const {
	return (Tp*)42;
	}
	};

	template <class Throw, class Catch>
	void catch_pointer_test() {
	Throw throw_ptr = CreatePointer<Throw>()();
	// Use the compiler to determine if the exception of type Throw can be
	// implicitly converted to type Catch.
	const bool can_convert = test_conversion<Catch>(throw_ptr);
	try {
	throw throw_ptr;
	assert(false);
	} catch (Catch catch_ptr) {
	Catch catch2 = CreatePointer<Catch>()();
	my_assert(can_convert, "non-convertible type incorrectly caught");
	my_assert(catch_ptr == catch2,
	"Thrown pointer does not match caught ptr");
	} catch (...) {
	my_assert(!can_convert, "convertible type incorrectly not caught");
	}
	}

	// Generate CV qualified pointer typedefs.
	template <class Tp, bool First = false>
	struct TestTypes {
	typedef Tp* Type;
	typedef Tp const* CType;
	typedef Tp volatile* VType;
	typedef Tp const volatile* CVType;
	};

	// Special case for cv-qualifying a pointer-to-member without adding an extra
	// pointer to it.
	template <class Member, class Class>
	struct TestTypes<Member Class::*, true> {
	typedef Member (Class::*Type);
	typedef const Member (Class::*CType);
	typedef volatile Member (Class::*VType);
	typedef const volatile Member (Class::*CVType);
	};

	template <class Throw, class Catch, int level, bool first = false>
	struct generate_tests_imp {
	typedef TestTypes<Throw, first> ThrowTypes;
	typedef TestTypes<Catch, first> CatchTypes;
	void operator()() {
	typedef typename ThrowTypes::Type Type;
	typedef typename ThrowTypes::CType CType;
	typedef typename ThrowTypes::VType VType;
	typedef typename ThrowTypes::CVType CVType;

	run_catch_tests<Type>();
	run_catch_tests<CType>();
	run_catch_tests<VType>();
	run_catch_tests<CVType>();
	}

	template <class ThrowTp>
	void run_catch_tests() {
	typedef typename CatchTypes::Type Type;
	typedef typename CatchTypes::CType CType;
	typedef typename CatchTypes::VType VType;
	typedef typename CatchTypes::CVType CVType;

	catch_pointer_test<ThrowTp, Type>();
	catch_pointer_test<ThrowTp, CType>();
	catch_pointer_test<ThrowTp, VType>();
	catch_pointer_test<ThrowTp, CVType>();

	generate_tests_imp<ThrowTp, Type, level-1>()();
	generate_tests_imp<ThrowTp, CType, level-1>()();
	generate_tests_imp<ThrowTp, VType, level-1>()();
	generate_tests_imp<ThrowTp, CVType, level-1>()();
	}
	};

	template <class Throw, class Catch, bool first>
	struct generate_tests_imp<Throw, Catch, 0, first> {
	void operator()() {
	catch_pointer_test<Throw, Catch>();
	}
	};

	template <class Throw, class Catch, int level>
	struct generate_tests : generate_tests_imp<Throw, Catch, level, true> {};

	int main()
	{
	generate_tests<int, int, 3>()();
	generate_tests<Base, Derived, 2>()();
	generate_tests<Derived, Base, 2>()();
	generate_tests<int, void, 2>()();
	generate_tests<void, int, 2>()();

	generate_tests<int A::, int A::, 3>()();
	generate_tests<int A::*, void, 2>()();
	generate_tests<void, int A::*, 2>()();
	}