faux-folly/folly/test/ScopeGuardTest.cpp - nest-cam/4320010/faux-folly - Git at Google

 /*
  * Copyright 2015 Facebook, Inc.
  *
  * 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
  *
  *   http://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 <folly/ScopeGuard.h>
 #include <folly/Portability.h>

 #include <gflags/gflags.h>
 #include <gtest/gtest.h>
 #include <glog/logging.h>

 #include <functional>
 #include <stdexcept>

 using folly::ScopeGuard;
 using folly::makeGuard;
 using std::vector;

 double returnsDouble() {
   return 0.0;
 }

 class MyFunctor {
  public:
   explicit MyFunctor(int* ptr) : ptr_(ptr) {}

   void operator()() {
     ++*ptr_;
   }

  private:
   int* ptr_;
 };

 TEST(ScopeGuard, DifferentWaysToBind) {
   {
     // There is implicit conversion from func pointer
     // double (*)() to function<void()>.
     ScopeGuard g = makeGuard(returnsDouble);
   }

   vector<int> v;
   void (vector<int>::*push_back)(int const&) = &vector<int>::push_back;

   v.push_back(1);
   {
     // binding to member function.
     ScopeGuard g = makeGuard(std::bind(&vector<int>::pop_back, &v));
   }
   EXPECT_EQ(0, v.size());

   {
     // bind member function with args. v is passed-by-value!
     ScopeGuard g = makeGuard(std::bind(push_back, v, 2));
   }
   EXPECT_EQ(0, v.size()); // push_back happened on a copy of v... fail!

   // pass in an argument by pointer so to avoid copy.
   {
     ScopeGuard g = makeGuard(std::bind(push_back, &v, 4));
   }
   EXPECT_EQ(1, v.size());

   {
     // pass in an argument by reference so to avoid copy.
     ScopeGuard g = makeGuard(std::bind(push_back, std::ref(v), 4));
   }
   EXPECT_EQ(2, v.size());

   // lambda with a reference to v
   {
     ScopeGuard g = makeGuard([&] { v.push_back(5); });
   }
   EXPECT_EQ(3, v.size());

   // lambda with a copy of v
   {
     ScopeGuard g = makeGuard([v] () mutable { v.push_back(6); });
   }
   EXPECT_EQ(3, v.size());

   // functor object
   int n = 0;
   {
     MyFunctor f(&n);
     ScopeGuard g = makeGuard(f);
   }
   EXPECT_EQ(1, n);

   // temporary functor object
   n = 0;
   {
     ScopeGuard g = makeGuard(MyFunctor(&n));
   }
   EXPECT_EQ(1, n);

   // Use auto instead of ScopeGuard
   n = 2;
   {
     auto g = makeGuard(MyFunctor(&n));
   }
   EXPECT_EQ(3, n);

   // Use const auto& instead of ScopeGuard
   n = 10;
   {
     const auto& g = makeGuard(MyFunctor(&n));
   }
   EXPECT_EQ(11, n);
 }

 TEST(ScopeGuard, GuardException) {
   EXPECT_DEATH({
     ScopeGuard g = makeGuard([&] {
       throw std::runtime_error("destructors should never throw!");
     });
   },
   "destructors should never throw!"
   );
 }

 /**
  * Add an integer to a vector iff it was inserted into the
  * db successfuly. Here is a schematic of how you would accomplish
  * this with scope guard.
  */
 void testUndoAction(bool failure) {
   vector<int64_t> v;
   { // defines a "mini" scope

     // be optimistic and insert this into memory
     v.push_back(1);

     // The guard is triggered to undo the insertion unless dismiss() is called.
     ScopeGuard guard = makeGuard([&] { v.pop_back(); });

     // Do some action; Use the failure argument to pretend
     // if it failed or succeeded.

     // if there was no failure, dismiss the undo guard action.
     if (!failure) {
       guard.dismiss();
     }
   } // all stack allocated in the mini-scope will be destroyed here.

   if (failure) {
     EXPECT_EQ(0, v.size()); // the action failed => undo insertion
   } else {
     EXPECT_EQ(1, v.size()); // the action succeeded => keep insertion
   }
 }

 TEST(ScopeGuard, UndoAction) {
   testUndoAction(true);
   testUndoAction(false);
 }

 /**
  * Sometimes in a try catch block we want to execute a piece of code
  * regardless if an exception happened or not. For example, you want
  * to close a db connection regardless if an exception was thrown during
  * insertion. In Java and other languages there is a finally clause that
  * helps accomplish this:
  *
  *   try {
  *     dbConn.doInsert(sql);
  *   } catch (const DbException& dbe) {
  *     dbConn.recordFailure(dbe);
  *   } catch (const CriticalException& e) {
  *     throw e; // re-throw the exception
  *   } finally {
  *     dbConn.closeConnection(); // executes no matter what!
  *   }
  *
  * We can approximate this behavior in C++ with ScopeGuard.
  */
 enum class ErrorBehavior {
   SUCCESS,
   HANDLED_ERROR,
   UNHANDLED_ERROR,
 };

 void testFinally(ErrorBehavior error) {
   bool cleanupOccurred = false;

   try {
     ScopeGuard guard = makeGuard([&] { cleanupOccurred = true; });

     try {
       if (error == ErrorBehavior::HANDLED_ERROR) {
         throw std::runtime_error("throwing an expected error");
       } else if (error == ErrorBehavior::UNHANDLED_ERROR) {
         throw "never throw raw strings";
       }
     } catch (const std::runtime_error&) {
     }
   } catch (...) {
     // Outer catch to swallow the error for the UNHANDLED_ERROR behavior
   }

   EXPECT_TRUE(cleanupOccurred);
 }

 TEST(ScopeGuard, TryCatchFinally) {
   testFinally(ErrorBehavior::SUCCESS);
   testFinally(ErrorBehavior::HANDLED_ERROR);
   testFinally(ErrorBehavior::UNHANDLED_ERROR);
 }

 TEST(ScopeGuard, TEST_SCOPE_EXIT) {
   int x = 0;
   {
     SCOPE_EXIT { ++x; };
     EXPECT_EQ(0, x);
   }
   EXPECT_EQ(1, x);
 }

 class Foo {
 public:
   Foo() {}
   ~Foo() {
     try {
       auto e = std::current_exception();
       int test = 0;
       {
         SCOPE_EXIT { ++test; };
         EXPECT_EQ(0, test);
       }
       EXPECT_EQ(1, test);
     } catch (const std::exception& ex) {
       LOG(FATAL) << "Unexpected exception: " << ex.what();
     }
   }
 };

 TEST(ScopeGuard, TEST_SCOPE_FAILURE2) {
   try {
     Foo f;
     throw std::runtime_error("test");
   } catch (...) {
   }
 }

 void testScopeFailAndScopeSuccess(ErrorBehavior error, bool expectFail) {
   bool scopeFailExecuted = false;
   bool scopeSuccessExecuted = false;

   try {
     SCOPE_FAIL { scopeFailExecuted = true; };
     SCOPE_SUCCESS { scopeSuccessExecuted = true; };

     try {
       if (error == ErrorBehavior::HANDLED_ERROR) {
         throw std::runtime_error("throwing an expected error");
       } else if (error == ErrorBehavior::UNHANDLED_ERROR) {
         throw "never throw raw strings";
       }
     } catch (const std::runtime_error&) {
     }
   } catch (...) {
     // Outer catch to swallow the error for the UNHANDLED_ERROR behavior
   }

   EXPECT_EQ(expectFail, scopeFailExecuted);
   EXPECT_EQ(!expectFail, scopeSuccessExecuted);
 }

 TEST(ScopeGuard, TEST_SCOPE_FAIL_AND_SCOPE_SUCCESS) {
   testScopeFailAndScopeSuccess(ErrorBehavior::SUCCESS, false);
   testScopeFailAndScopeSuccess(ErrorBehavior::HANDLED_ERROR, false);
   testScopeFailAndScopeSuccess(ErrorBehavior::UNHANDLED_ERROR, true);
 }

 TEST(ScopeGuard, TEST_SCOPE_SUCCESS_THROW) {
   auto lambda = []() {
     SCOPE_SUCCESS { throw std::runtime_error("ehm"); };
   };
   EXPECT_THROW(lambda(), std::runtime_error);
 }

 int main(int argc, char** argv) {
   testing::InitGoogleTest(&argc, argv);
   gflags::ParseCommandLineFlags(&argc, &argv, true);
   return RUN_ALL_TESTS();
 }
	/*
	* Copyright 2015 Facebook, Inc.
	*
	* 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
	*
	* http://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 <folly/ScopeGuard.h>
	#include <folly/Portability.h>

	#include <gflags/gflags.h>
	#include <gtest/gtest.h>
	#include <glog/logging.h>

	#include <functional>
	#include <stdexcept>

	using folly::ScopeGuard;
	using folly::makeGuard;
	using std::vector;

	double returnsDouble() {
	return 0.0;
	}

	class MyFunctor {
	public:
	explicit MyFunctor(int* ptr) : ptr_(ptr) {}

	void operator()() {
	++*ptr_;
	}

	private:
	int* ptr_;
	};

	TEST(ScopeGuard, DifferentWaysToBind) {
	{
	// There is implicit conversion from func pointer
	// double (*)() to function<void()>.
	ScopeGuard g = makeGuard(returnsDouble);
	}

	vector<int> v;
	void (vector<int>::*push_back)(int const&) = &vector<int>::push_back;

	v.push_back(1);
	{
	// binding to member function.
	ScopeGuard g = makeGuard(std::bind(&vector<int>::pop_back, &v));
	}
	EXPECT_EQ(0, v.size());

	{
	// bind member function with args. v is passed-by-value!
	ScopeGuard g = makeGuard(std::bind(push_back, v, 2));
	}
	EXPECT_EQ(0, v.size()); // push_back happened on a copy of v... fail!

	// pass in an argument by pointer so to avoid copy.
	{
	ScopeGuard g = makeGuard(std::bind(push_back, &v, 4));
	}
	EXPECT_EQ(1, v.size());

	{
	// pass in an argument by reference so to avoid copy.
	ScopeGuard g = makeGuard(std::bind(push_back, std::ref(v), 4));
	}
	EXPECT_EQ(2, v.size());

	// lambda with a reference to v
	{
	ScopeGuard g = makeGuard([&] { v.push_back(5); });
	}
	EXPECT_EQ(3, v.size());

	// lambda with a copy of v
	{
	ScopeGuard g = makeGuard([v] () mutable { v.push_back(6); });
	}
	EXPECT_EQ(3, v.size());

	// functor object
	int n = 0;
	{
	MyFunctor f(&n);
	ScopeGuard g = makeGuard(f);
	}
	EXPECT_EQ(1, n);

	// temporary functor object
	n = 0;
	{
	ScopeGuard g = makeGuard(MyFunctor(&n));
	}
	EXPECT_EQ(1, n);

	// Use auto instead of ScopeGuard
	n = 2;
	{
	auto g = makeGuard(MyFunctor(&n));
	}
	EXPECT_EQ(3, n);

	// Use const auto& instead of ScopeGuard
	n = 10;
	{
	const auto& g = makeGuard(MyFunctor(&n));
	}
	EXPECT_EQ(11, n);
	}

	TEST(ScopeGuard, GuardException) {
	EXPECT_DEATH({
	ScopeGuard g = makeGuard([&] {
	throw std::runtime_error("destructors should never throw!");
	});
	},
	"destructors should never throw!"
	);
	}

	/**
	* Add an integer to a vector iff it was inserted into the
	* db successfuly. Here is a schematic of how you would accomplish
	* this with scope guard.
	*/
	void testUndoAction(bool failure) {
	vector<int64_t> v;
	{ // defines a "mini" scope

	// be optimistic and insert this into memory
	v.push_back(1);

	// The guard is triggered to undo the insertion unless dismiss() is called.
	ScopeGuard guard = makeGuard([&] { v.pop_back(); });

	// Do some action; Use the failure argument to pretend
	// if it failed or succeeded.

	// if there was no failure, dismiss the undo guard action.
	if (!failure) {
	guard.dismiss();
	}
	} // all stack allocated in the mini-scope will be destroyed here.

	if (failure) {
	EXPECT_EQ(0, v.size()); // the action failed => undo insertion
	} else {
	EXPECT_EQ(1, v.size()); // the action succeeded => keep insertion
	}
	}

	TEST(ScopeGuard, UndoAction) {
	testUndoAction(true);
	testUndoAction(false);
	}

	/**
	* Sometimes in a try catch block we want to execute a piece of code
	* regardless if an exception happened or not. For example, you want
	* to close a db connection regardless if an exception was thrown during
	* insertion. In Java and other languages there is a finally clause that
	* helps accomplish this:
	*
	* try {
	* dbConn.doInsert(sql);
	* } catch (const DbException& dbe) {
	* dbConn.recordFailure(dbe);
	* } catch (const CriticalException& e) {
	* throw e; // re-throw the exception
	* } finally {
	* dbConn.closeConnection(); // executes no matter what!
	* }
	*
	* We can approximate this behavior in C++ with ScopeGuard.
	*/
	enum class ErrorBehavior {
	SUCCESS,
	HANDLED_ERROR,
	UNHANDLED_ERROR,
	};

	void testFinally(ErrorBehavior error) {
	bool cleanupOccurred = false;

	try {
	ScopeGuard guard = makeGuard([&] { cleanupOccurred = true; });

	try {
	if (error == ErrorBehavior::HANDLED_ERROR) {
	throw std::runtime_error("throwing an expected error");
	} else if (error == ErrorBehavior::UNHANDLED_ERROR) {
	throw "never throw raw strings";
	}
	} catch (const std::runtime_error&) {
	}
	} catch (...) {
	// Outer catch to swallow the error for the UNHANDLED_ERROR behavior
	}

	EXPECT_TRUE(cleanupOccurred);
	}

	TEST(ScopeGuard, TryCatchFinally) {
	testFinally(ErrorBehavior::SUCCESS);
	testFinally(ErrorBehavior::HANDLED_ERROR);
	testFinally(ErrorBehavior::UNHANDLED_ERROR);
	}

	TEST(ScopeGuard, TEST_SCOPE_EXIT) {
	int x = 0;
	{
	SCOPE_EXIT { ++x; };
	EXPECT_EQ(0, x);
	}
	EXPECT_EQ(1, x);
	}

	class Foo {
	public:
	Foo() {}
	~Foo() {
	try {
	auto e = std::current_exception();
	int test = 0;
	{
	SCOPE_EXIT { ++test; };
	EXPECT_EQ(0, test);
	}
	EXPECT_EQ(1, test);
	} catch (const std::exception& ex) {
	LOG(FATAL) << "Unexpected exception: " << ex.what();
	}
	}
	};

	TEST(ScopeGuard, TEST_SCOPE_FAILURE2) {
	try {
	Foo f;
	throw std::runtime_error("test");
	} catch (...) {
	}
	}

	void testScopeFailAndScopeSuccess(ErrorBehavior error, bool expectFail) {
	bool scopeFailExecuted = false;
	bool scopeSuccessExecuted = false;

	try {
	SCOPE_FAIL { scopeFailExecuted = true; };
	SCOPE_SUCCESS { scopeSuccessExecuted = true; };

	try {
	if (error == ErrorBehavior::HANDLED_ERROR) {
	throw std::runtime_error("throwing an expected error");
	} else if (error == ErrorBehavior::UNHANDLED_ERROR) {
	throw "never throw raw strings";
	}
	} catch (const std::runtime_error&) {
	}
	} catch (...) {
	// Outer catch to swallow the error for the UNHANDLED_ERROR behavior
	}

	EXPECT_EQ(expectFail, scopeFailExecuted);
	EXPECT_EQ(!expectFail, scopeSuccessExecuted);
	}

	TEST(ScopeGuard, TEST_SCOPE_FAIL_AND_SCOPE_SUCCESS) {
	testScopeFailAndScopeSuccess(ErrorBehavior::SUCCESS, false);
	testScopeFailAndScopeSuccess(ErrorBehavior::HANDLED_ERROR, false);
	testScopeFailAndScopeSuccess(ErrorBehavior::UNHANDLED_ERROR, true);
	}

	TEST(ScopeGuard, TEST_SCOPE_SUCCESS_THROW) {
	auto lambda = []() {
	SCOPE_SUCCESS { throw std::runtime_error("ehm"); };
	};
	EXPECT_THROW(lambda(), std::runtime_error);
	}

	int main(int argc, char** argv) {
	testing::InitGoogleTest(&argc, argv);
	gflags::ParseCommandLineFlags(&argc, &argv, true);
	return RUN_ALL_TESTS();
	}