absl/types/any_exception_safety_test.cc - external/github.com/abseil/abseil-cpp - Git at Google

 // Copyright 2017 The Abseil Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      https://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "absl/types/any.h"

 #include "absl/base/config.h"

 // This test is a no-op when absl::any is an alias for std::any and when
 // exceptions are not enabled.
 #if !defined(ABSL_USES_STD_ANY) && defined(ABSL_HAVE_EXCEPTIONS)

 #include <typeinfo>
 #include <vector>

 #include "gtest/gtest.h"
 #include "absl/base/internal/exception_safety_testing.h"

 using Thrower = testing::ThrowingValue<>;
 using NoThrowMoveThrower =
     testing::ThrowingValue<testing::TypeSpec::kNoThrowMove>;
 using ThrowerList = std::initializer_list<Thrower>;
 using ThrowerVec = std::vector<Thrower>;
 using ThrowingAlloc = testing::ThrowingAllocator<Thrower>;
 using ThrowingThrowerVec = std::vector<Thrower, ThrowingAlloc>;

 namespace {

 testing::AssertionResult AnyInvariants(absl::any* a) {
   using testing::AssertionFailure;
   using testing::AssertionSuccess;

   if (a->has_value()) {
     if (a->type() == typeid(void)) {
       return AssertionFailure()
              << "A non-empty any should not have type `void`";
     }
   } else {
     if (a->type() != typeid(void)) {
       return AssertionFailure()
              << "An empty any should have type void, but has type "
              << a->type().name();
     }
   }

   //  Make sure that reset() changes any to a valid state.
   a->reset();
   if (a->has_value()) {
     return AssertionFailure() << "A reset `any` should be valueless";
   }
   if (a->type() != typeid(void)) {
     return AssertionFailure() << "A reset `any` should have type() of `void`, "
                                  "but instead has type "
                               << a->type().name();
   }
   try {
     auto unused = absl::any_cast<Thrower>(*a);
     static_cast<void>(unused);
     return AssertionFailure()
            << "A reset `any` should not be able to be any_cast";
   } catch (const absl::bad_any_cast&) {
   } catch (...) {
     return AssertionFailure()
            << "Unexpected exception thrown from absl::any_cast";
   }
   return AssertionSuccess();
 }

 testing::AssertionResult AnyIsEmpty(absl::any* a) {
   if (!a->has_value()) {
     return testing::AssertionSuccess();
   }
   return testing::AssertionFailure()
          << "a should be empty, but instead has value "
          << absl::any_cast<Thrower>(*a).Get();
 }

 TEST(AnyExceptionSafety, Ctors) {
   Thrower val(1);
   testing::TestThrowingCtor<absl::any>(val);

   Thrower copy(val);
   testing::TestThrowingCtor<absl::any>(copy);

   testing::TestThrowingCtor<absl::any>(absl::in_place_type_t<Thrower>(), 1);

   testing::TestThrowingCtor<absl::any>(absl::in_place_type_t<ThrowerVec>(),
                                        ThrowerList{val});

   testing::TestThrowingCtor<absl::any,
                             absl::in_place_type_t<ThrowingThrowerVec>,
                             ThrowerList, ThrowingAlloc>(
       absl::in_place_type_t<ThrowingThrowerVec>(), {val}, ThrowingAlloc());
 }

 TEST(AnyExceptionSafety, Assignment) {
   auto original =
       absl::any(absl::in_place_type_t<Thrower>(), 1, testing::nothrow_ctor);
   auto any_is_strong = [original](absl::any* ap) {
     return testing::AssertionResult(ap->has_value() &&
                                     absl::any_cast<Thrower>(original) ==
                                         absl::any_cast<Thrower>(*ap));
   };
   auto any_strong_tester = testing::MakeExceptionSafetyTester()
                                .WithInitialValue(original)
                                .WithContracts(AnyInvariants, any_is_strong);

   Thrower val(2);
   absl::any any_val(val);
   NoThrowMoveThrower mv_val(2);

   auto assign_any = [&any_val](absl::any* ap) { *ap = any_val; };
   auto assign_val = [&val](absl::any* ap) { *ap = val; };
   auto move = [&val](absl::any* ap) { *ap = std::move(val); };
   auto move_movable = [&mv_val](absl::any* ap) { *ap = std::move(mv_val); };

   EXPECT_TRUE(any_strong_tester.Test(assign_any));
   EXPECT_TRUE(any_strong_tester.Test(assign_val));
   EXPECT_TRUE(any_strong_tester.Test(move));
   EXPECT_TRUE(any_strong_tester.Test(move_movable));

   auto empty_any_is_strong = [](absl::any* ap) {
     return testing::AssertionResult{!ap->has_value()};
   };
   auto strong_empty_any_tester =
       testing::MakeExceptionSafetyTester()
           .WithInitialValue(absl::any{})
           .WithContracts(AnyInvariants, empty_any_is_strong);

   EXPECT_TRUE(strong_empty_any_tester.Test(assign_any));
   EXPECT_TRUE(strong_empty_any_tester.Test(assign_val));
   EXPECT_TRUE(strong_empty_any_tester.Test(move));
 }

 TEST(AnyExceptionSafety, Emplace) {
   auto initial_val =
       absl::any{absl::in_place_type_t<Thrower>(), 1, testing::nothrow_ctor};
   auto one_tester = testing::MakeExceptionSafetyTester()
                         .WithInitialValue(initial_val)
                         .WithContracts(AnyInvariants, AnyIsEmpty);

   auto emp_thrower = [](absl::any* ap) { ap->emplace<Thrower>(2); };
   auto emp_throwervec = [](absl::any* ap) {
     std::initializer_list<Thrower> il{Thrower(2, testing::nothrow_ctor)};
     ap->emplace<ThrowerVec>(il);
   };
   auto emp_movethrower = [](absl::any* ap) {
     ap->emplace<NoThrowMoveThrower>(2);
   };

   EXPECT_TRUE(one_tester.Test(emp_thrower));
   EXPECT_TRUE(one_tester.Test(emp_throwervec));
   EXPECT_TRUE(one_tester.Test(emp_movethrower));

   auto empty_tester = one_tester.WithInitialValue(absl::any{});

   EXPECT_TRUE(empty_tester.Test(emp_thrower));
   EXPECT_TRUE(empty_tester.Test(emp_throwervec));
 }

 }  // namespace

 #endif  // #if !defined(ABSL_USES_STD_ANY) && defined(ABSL_HAVE_EXCEPTIONS)
	// Copyright 2017 The Abseil Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// https://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "absl/types/any.h"

	#include "absl/base/config.h"

	// This test is a no-op when absl::any is an alias for std::any and when
	// exceptions are not enabled.
	#if !defined(ABSL_USES_STD_ANY) && defined(ABSL_HAVE_EXCEPTIONS)

	#include <typeinfo>
	#include <vector>

	#include "gtest/gtest.h"
	#include "absl/base/internal/exception_safety_testing.h"

	using Thrower = testing::ThrowingValue<>;
	using NoThrowMoveThrower =
	testing::ThrowingValue<testing::TypeSpec::kNoThrowMove>;
	using ThrowerList = std::initializer_list<Thrower>;
	using ThrowerVec = std::vector<Thrower>;
	using ThrowingAlloc = testing::ThrowingAllocator<Thrower>;
	using ThrowingThrowerVec = std::vector<Thrower, ThrowingAlloc>;

	namespace {

	testing::AssertionResult AnyInvariants(absl::any* a) {
	using testing::AssertionFailure;
	using testing::AssertionSuccess;

	if (a->has_value()) {
	if (a->type() == typeid(void)) {
	return AssertionFailure()
	<< "A non-empty any should not have type `void`";
	}
	} else {
	if (a->type() != typeid(void)) {
	return AssertionFailure()
	<< "An empty any should have type void, but has type "
	<< a->type().name();
	}
	}

	// Make sure that reset() changes any to a valid state.
	a->reset();
	if (a->has_value()) {
	return AssertionFailure() << "A reset `any` should be valueless";
	}
	if (a->type() != typeid(void)) {
	return AssertionFailure() << "A reset `any` should have type() of `void`, "
	"but instead has type "
	<< a->type().name();
	}
	try {
	auto unused = absl::any_cast<Thrower>(*a);
	static_cast<void>(unused);
	return AssertionFailure()
	<< "A reset `any` should not be able to be any_cast";
	} catch (const absl::bad_any_cast&) {
	} catch (...) {
	return AssertionFailure()
	<< "Unexpected exception thrown from absl::any_cast";
	}
	return AssertionSuccess();
	}

	testing::AssertionResult AnyIsEmpty(absl::any* a) {
	if (!a->has_value()) {
	return testing::AssertionSuccess();
	}
	return testing::AssertionFailure()
	<< "a should be empty, but instead has value "
	<< absl::any_cast<Thrower>(*a).Get();
	}

	TEST(AnyExceptionSafety, Ctors) {
	Thrower val(1);
	testing::TestThrowingCtor<absl::any>(val);

	Thrower copy(val);
	testing::TestThrowingCtor<absl::any>(copy);

	testing::TestThrowingCtor<absl::any>(absl::in_place_type_t<Thrower>(), 1);

	testing::TestThrowingCtor<absl::any>(absl::in_place_type_t<ThrowerVec>(),
	ThrowerList{val});

	testing::TestThrowingCtor<absl::any,
	absl::in_place_type_t<ThrowingThrowerVec>,
	ThrowerList, ThrowingAlloc>(
	absl::in_place_type_t<ThrowingThrowerVec>(), {val}, ThrowingAlloc());
	}

	TEST(AnyExceptionSafety, Assignment) {
	auto original =
	absl::any(absl::in_place_type_t<Thrower>(), 1, testing::nothrow_ctor);
	auto any_is_strong = [original](absl::any* ap) {
	return testing::AssertionResult(ap->has_value() &&
	absl::any_cast<Thrower>(original) ==
	absl::any_cast<Thrower>(*ap));
	};
	auto any_strong_tester = testing::MakeExceptionSafetyTester()
	.WithInitialValue(original)
	.WithContracts(AnyInvariants, any_is_strong);

	Thrower val(2);
	absl::any any_val(val);
	NoThrowMoveThrower mv_val(2);

	auto assign_any = [&any_val](absl::any* ap) { *ap = any_val; };
	auto assign_val = [&val](absl::any* ap) { *ap = val; };
	auto move = [&val](absl::any* ap) { *ap = std::move(val); };
	auto move_movable = [&mv_val](absl::any* ap) { *ap = std::move(mv_val); };

	EXPECT_TRUE(any_strong_tester.Test(assign_any));
	EXPECT_TRUE(any_strong_tester.Test(assign_val));
	EXPECT_TRUE(any_strong_tester.Test(move));
	EXPECT_TRUE(any_strong_tester.Test(move_movable));

	auto empty_any_is_strong = [](absl::any* ap) {
	return testing::AssertionResult{!ap->has_value()};
	};
	auto strong_empty_any_tester =
	testing::MakeExceptionSafetyTester()
	.WithInitialValue(absl::any{})
	.WithContracts(AnyInvariants, empty_any_is_strong);

	EXPECT_TRUE(strong_empty_any_tester.Test(assign_any));
	EXPECT_TRUE(strong_empty_any_tester.Test(assign_val));
	EXPECT_TRUE(strong_empty_any_tester.Test(move));
	}

	TEST(AnyExceptionSafety, Emplace) {
	auto initial_val =
	absl::any{absl::in_place_type_t<Thrower>(), 1, testing::nothrow_ctor};
	auto one_tester = testing::MakeExceptionSafetyTester()
	.WithInitialValue(initial_val)
	.WithContracts(AnyInvariants, AnyIsEmpty);

	auto emp_thrower = [](absl::any* ap) { ap->emplace<Thrower>(2); };
	auto emp_throwervec = [](absl::any* ap) {
	std::initializer_list<Thrower> il{Thrower(2, testing::nothrow_ctor)};
	ap->emplace<ThrowerVec>(il);
	};
	auto emp_movethrower = [](absl::any* ap) {
	ap->emplace<NoThrowMoveThrower>(2);
	};

	EXPECT_TRUE(one_tester.Test(emp_thrower));
	EXPECT_TRUE(one_tester.Test(emp_throwervec));
	EXPECT_TRUE(one_tester.Test(emp_movethrower));

	auto empty_tester = one_tester.WithInitialValue(absl::any{});

	EXPECT_TRUE(empty_tester.Test(emp_thrower));
	EXPECT_TRUE(empty_tester.Test(emp_throwervec));
	}

	} // namespace

	#endif // #if !defined(ABSL_USES_STD_ANY) && defined(ABSL_HAVE_EXCEPTIONS)