boost_1_45_0/libs/interprocess/test/mutex_test_template.hpp - nest-learning-thermostat/5.1.7/boost - Git at Google

 //////////////////////////////////////////////////////////////////////////////
 //
 // (C) Copyright Ion Gaztanaga 2004-2009. Distributed under the Boost
 // Software License, Version 1.0. (See accompanying file
 // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
 //
 // See http://www.boost.org/libs/interprocess for documentation.
 //
 //////////////////////////////////////////////////////////////////////////////
 // Copyright (C) 2001-2003
 // William E. Kempf
 //
 // Permission to use, copy, modify, distribute and sell this software
 // and its documentation for any purpose is hereby granted without fee,
 // provided that the above copyright notice appear in all copies and
 // that both that copyright notice and this permission notice appear
 // in supporting documentation.  William E. Kempf makes no representations
 // about the suitability of this software for any purpose.
 // It is provided "as is" without express or implied warranty.

 #ifndef BOOST_INTERPROCESS_TEST_MUTEX_TEST_TEMPLATE_HEADER
 #define BOOST_INTERPROCESS_TEST_MUTEX_TEST_TEMPLATE_HEADER

 #include <boost/interprocess/detail/config_begin.hpp>
 #include <boost/interprocess/exceptions.hpp>
 #include "boost_interprocess_check.hpp"
 #include "util.hpp"
 #include <boost/thread/thread.hpp>
 #include <iostream>
 #include <boost/interprocess/sync/scoped_lock.hpp>
 #include <boost/date_time/posix_time/posix_time_types.hpp>

 namespace boost { namespace interprocess { namespace test {

 template <typename M>
 struct test_lock
 {
    typedef M mutex_type;
    typedef boost::interprocess::scoped_lock<mutex_type> lock_type;


    void operator()()
    {
       mutex_type interprocess_mutex;

       // Test the lock's constructors.
       {
          lock_type lock(interprocess_mutex, boost::interprocess::defer_lock);
          BOOST_INTERPROCES_CHECK(!lock);
       }
       lock_type lock(interprocess_mutex);
       BOOST_INTERPROCES_CHECK(lock ? true : false);

       // Test the lock and unlock methods.
       lock.unlock();
       BOOST_INTERPROCES_CHECK(!lock);
       lock.lock();
       BOOST_INTERPROCES_CHECK(lock ? true : false);
    }
 };

 template <typename M>
 struct test_trylock
 {
    typedef M mutex_type;
    typedef boost::interprocess::scoped_lock<mutex_type> try_to_lock_type;

    void operator()()
    {
       mutex_type interprocess_mutex;

       // Test the lock's constructors.
       {
          try_to_lock_type lock(interprocess_mutex, boost::interprocess::try_to_lock);
          BOOST_INTERPROCES_CHECK(lock ? true : false);
       }
       {
          try_to_lock_type lock(interprocess_mutex, boost::interprocess::defer_lock);
          BOOST_INTERPROCES_CHECK(!lock);
       }
       try_to_lock_type lock(interprocess_mutex);
       BOOST_INTERPROCES_CHECK(lock ? true : false);

       // Test the lock, unlock and trylock methods.
       lock.unlock();
       BOOST_INTERPROCES_CHECK(!lock);
       lock.lock();
       BOOST_INTERPROCES_CHECK(lock ? true : false);
       lock.unlock();
       BOOST_INTERPROCES_CHECK(!lock);
       BOOST_INTERPROCES_CHECK(lock.try_lock());
       BOOST_INTERPROCES_CHECK(lock ? true : false);
    }
 };

 template <typename M>
 struct test_timedlock
 {
    typedef M mutex_type;
    typedef boost::interprocess::scoped_lock<mutex_type> timed_lock_type;

    void operator()()
    {
       mutex_type interprocess_mutex;

       // Test the lock's constructors.
       {
          // Construct and initialize an ptime for a fast time out.
          boost::posix_time::ptime pt = delay(1*BaseSeconds, 0);

          timed_lock_type lock(interprocess_mutex, pt);
          BOOST_INTERPROCES_CHECK(lock ? true : false);
       }
       {
          timed_lock_type lock(interprocess_mutex, boost::interprocess::defer_lock);
          BOOST_INTERPROCES_CHECK(!lock);
       }
       timed_lock_type lock(interprocess_mutex);
       BOOST_INTERPROCES_CHECK(lock ? true : false);

       // Test the lock, unlock and timedlock methods.
       lock.unlock();
       BOOST_INTERPROCES_CHECK(!lock);
       lock.lock();
       BOOST_INTERPROCES_CHECK(lock ? true : false);
       lock.unlock();
       BOOST_INTERPROCES_CHECK(!lock);
       boost::posix_time::ptime pt = delay(3*BaseSeconds, 0);
       BOOST_INTERPROCES_CHECK(lock.timed_lock(pt));
       BOOST_INTERPROCES_CHECK(lock ? true : false);
    }
 };

 template <typename M>
 struct test_recursive_lock
 {
    typedef M mutex_type;
    typedef boost::interprocess::scoped_lock<mutex_type> lock_type;

    void operator()()
    {
       mutex_type mx;
       {
          lock_type lock1(mx);
          lock_type lock2(mx);
       }
       {
          lock_type lock1(mx, defer_lock);
          lock_type lock2(mx, defer_lock);
       }
       {
          lock_type lock1(mx, try_to_lock);
          lock_type lock2(mx, try_to_lock);
       }
       {
          //This should always lock
          boost::posix_time::ptime pt = delay(2*BaseSeconds);
          lock_type lock1(mx, pt);
          lock_type lock2(mx, pt);
       }
    }
 };

 // plain_exclusive exercises the "infinite" lock for each
 //   read_write_mutex type.

 template<typename M>
 void lock_and_sleep(void *arg, M &sm)
 {
    data<M> *pdata = static_cast<data<M>*>(arg);
    boost::interprocess::scoped_lock<M> l(sm);
    if(pdata->m_secs){
       boost::thread::sleep(xsecs(pdata->m_secs));
    }
    else{
       boost::thread::sleep(xsecs(2*BaseSeconds));
    }

    ++shared_val;
    pdata->m_value = shared_val;
 }

 template<typename M>
 void try_lock_and_sleep(void *arg, M &sm)
 {
    data<M> *pdata = static_cast<data<M>*>(arg);
    boost::interprocess::scoped_lock<M> l(sm, boost::interprocess::defer_lock);
    if (l.try_lock()){
       boost::thread::sleep(xsecs(2*BaseSeconds));
       ++shared_val;
       pdata->m_value = shared_val;
    }
 }

 template<typename M>
 void timed_lock_and_sleep(void *arg, M &sm)
 {
    data<M> *pdata = static_cast<data<M>*>(arg);
    boost::posix_time::ptime pt(delay(pdata->m_secs));
    boost::interprocess::scoped_lock<M>
       l (sm, boost::interprocess::defer_lock);
    if (l.timed_lock(pt)){
       boost::thread::sleep(xsecs(2*BaseSeconds));
       ++shared_val;
       pdata->m_value = shared_val;
    }
 }

 template<bool SameObject, typename M>
 void test_mutex_lock()
 {
    shared_val = 0;

    M m1, m2;
    M *pm1, *pm2;

    if(SameObject){
       pm1 = pm2 = &m1;
    }
    else{
       pm1 = &m1;
       pm2 = &m2;
    }

    data<M> d1(1);
    data<M> d2(2);

    // Locker one launches, holds the lock for 2*BaseSeconds seconds.
    boost::thread tm1(thread_adapter<M>(&lock_and_sleep, &d1, *pm1));

    //Wait 1*BaseSeconds
    boost::thread::sleep(xsecs(1*BaseSeconds));

    // Locker two launches, but it won't hold the lock for 2*BaseSeconds seconds.
    boost::thread tm2(thread_adapter<M>(&lock_and_sleep, &d2, *pm2));

    //Wait completion
    tm1.join();
    boost::thread::sleep(xsecs(1*BaseSeconds));
    tm2.join();

    assert(d1.m_value == 1);
    assert(d2.m_value == 2);
 }

 template<bool SameObject, typename M>
 void test_mutex_try_lock()
 {
    shared_val = 0;

    M m1, m2;
    M *pm1, *pm2;

    if(SameObject){
       pm1 = pm2 = &m1;
    }
    else{
       pm1 = &m1;
       pm2 = &m2;
    }

    data<M> d1(1);
    data<M> d2(2);

    // Locker one launches, holds the lock for 2*BaseSeconds seconds.
    boost::thread tm1(thread_adapter<M>(&try_lock_and_sleep, &d1, *pm1));

    //Wait 1*BaseSeconds
    boost::thread::sleep(xsecs(1*BaseSeconds));

    // Locker two launches, but it should fail acquiring the lock
    boost::thread tm2(thread_adapter<M>(&try_lock_and_sleep, &d2, *pm2));

    //Wait completion
    tm1.join();
    tm2.join();
    //Only the first should succeed locking
    assert(d1.m_value == 1);
    assert(d2.m_value == -1);
 }

 template<bool SameObject, typename M>
 void test_mutex_timed_lock()

 {
    shared_val = 0;

    M m1, m2;
    M *pm1, *pm2;

    if(SameObject){
       pm1 = pm2 = &m1;
    }
    else{
       pm1 = &m1;
       pm2 = &m2;
    }

    data<M> d1(1, 2*BaseSeconds);
    data<M> d2(2, 2*BaseSeconds);

    // Locker one launches, holds the lock for 2*BaseSeconds seconds.
    boost::thread tm1(thread_adapter<M>(&timed_lock_and_sleep, &d1, *pm1));

    //Wait 1*BaseSeconds
    boost::thread::sleep(xsecs(1*BaseSeconds));

    // Locker two launches, holds the lock for 2*BaseSeconds seconds.
    boost::thread tm2(thread_adapter<M>(&timed_lock_and_sleep, &d2, *pm2));

    //Wait completion
    tm1.join();
    tm2.join();

    //Both should succeed locking
    assert(d1.m_value == 1);
    assert(d2.m_value == 2);
 }

 template <typename M>
 inline void test_all_lock()
 {
    //Now generic interprocess_mutex tests
    std::cout << "test_lock<" << typeid(M).name() << ">" << std::endl;
    test_lock<M>()();
    std::cout << "test_trylock<" << typeid(M).name() << ">" << std::endl;
    test_trylock<M>()();
    std::cout << "test_timedlock<" << typeid(M).name() << ">" << std::endl;
    test_timedlock<M>()();
 }

 template <typename M>
 inline void test_all_recursive_lock()
 {
    //Now generic interprocess_mutex tests
    std::cout << "test_recursive_lock<" << typeid(M).name() << ">" << std::endl;
    test_recursive_lock<M>()();
 }

 template<bool SameObject, typename M>
 void test_all_mutex()
 {
    std::cout << "test_mutex_lock<" << typeid(M).name() << ">" << std::endl;
    test_mutex_lock<SameObject, M>();
    std::cout << "test_mutex_try_lock<" << typeid(M).name() << ">" << std::endl;
    test_mutex_try_lock<SameObject, M>();
    std::cout << "test_mutex_timed_lock<" << typeid(M).name() << ">" << std::endl;
    test_mutex_timed_lock<SameObject, M>();
 }

 }}}   //namespace boost { namespace interprocess { namespace test {

 #include <boost/interprocess/detail/config_end.hpp>

 #endif   //BOOST_INTERPROCESS_TEST_MUTEX_TEST_TEMPLATE_HEADER
	//////////////////////////////////////////////////////////////////////////////
	//
	// (C) Copyright Ion Gaztanaga 2004-2009. Distributed under the Boost
	// Software License, Version 1.0. (See accompanying file
	// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
	//
	// See http://www.boost.org/libs/interprocess for documentation.
	//
	//////////////////////////////////////////////////////////////////////////////
	// Copyright (C) 2001-2003
	// William E. Kempf
	//
	// Permission to use, copy, modify, distribute and sell this software
	// and its documentation for any purpose is hereby granted without fee,
	// provided that the above copyright notice appear in all copies and
	// that both that copyright notice and this permission notice appear
	// in supporting documentation. William E. Kempf makes no representations
	// about the suitability of this software for any purpose.
	// It is provided "as is" without express or implied warranty.

	#ifndef BOOST_INTERPROCESS_TEST_MUTEX_TEST_TEMPLATE_HEADER
	#define BOOST_INTERPROCESS_TEST_MUTEX_TEST_TEMPLATE_HEADER

	#include <boost/interprocess/detail/config_begin.hpp>
	#include <boost/interprocess/exceptions.hpp>
	#include "boost_interprocess_check.hpp"
	#include "util.hpp"
	#include <boost/thread/thread.hpp>
	#include <iostream>
	#include <boost/interprocess/sync/scoped_lock.hpp>
	#include <boost/date_time/posix_time/posix_time_types.hpp>

	namespace boost { namespace interprocess { namespace test {

	template <typename M>
	struct test_lock
	{
	typedef M mutex_type;
	typedef boost::interprocess::scoped_lock<mutex_type> lock_type;


	void operator()()
	{
	mutex_type interprocess_mutex;

	// Test the lock's constructors.
	{
	lock_type lock(interprocess_mutex, boost::interprocess::defer_lock);
	BOOST_INTERPROCES_CHECK(!lock);
	}
	lock_type lock(interprocess_mutex);
	BOOST_INTERPROCES_CHECK(lock ? true : false);

	// Test the lock and unlock methods.
	lock.unlock();
	BOOST_INTERPROCES_CHECK(!lock);
	lock.lock();
	BOOST_INTERPROCES_CHECK(lock ? true : false);
	}
	};

	template <typename M>
	struct test_trylock
	{
	typedef M mutex_type;
	typedef boost::interprocess::scoped_lock<mutex_type> try_to_lock_type;

	void operator()()
	{
	mutex_type interprocess_mutex;

	// Test the lock's constructors.
	{
	try_to_lock_type lock(interprocess_mutex, boost::interprocess::try_to_lock);
	BOOST_INTERPROCES_CHECK(lock ? true : false);
	}
	{
	try_to_lock_type lock(interprocess_mutex, boost::interprocess::defer_lock);
	BOOST_INTERPROCES_CHECK(!lock);
	}
	try_to_lock_type lock(interprocess_mutex);
	BOOST_INTERPROCES_CHECK(lock ? true : false);

	// Test the lock, unlock and trylock methods.
	lock.unlock();
	BOOST_INTERPROCES_CHECK(!lock);
	lock.lock();
	BOOST_INTERPROCES_CHECK(lock ? true : false);
	lock.unlock();
	BOOST_INTERPROCES_CHECK(!lock);
	BOOST_INTERPROCES_CHECK(lock.try_lock());
	BOOST_INTERPROCES_CHECK(lock ? true : false);
	}
	};

	template <typename M>
	struct test_timedlock
	{
	typedef M mutex_type;
	typedef boost::interprocess::scoped_lock<mutex_type> timed_lock_type;

	void operator()()
	{
	mutex_type interprocess_mutex;

	// Test the lock's constructors.
	{
	// Construct and initialize an ptime for a fast time out.
	boost::posix_time::ptime pt = delay(1*BaseSeconds, 0);

	timed_lock_type lock(interprocess_mutex, pt);
	BOOST_INTERPROCES_CHECK(lock ? true : false);
	}
	{
	timed_lock_type lock(interprocess_mutex, boost::interprocess::defer_lock);
	BOOST_INTERPROCES_CHECK(!lock);
	}
	timed_lock_type lock(interprocess_mutex);
	BOOST_INTERPROCES_CHECK(lock ? true : false);

	// Test the lock, unlock and timedlock methods.
	lock.unlock();
	BOOST_INTERPROCES_CHECK(!lock);
	lock.lock();
	BOOST_INTERPROCES_CHECK(lock ? true : false);
	lock.unlock();
	BOOST_INTERPROCES_CHECK(!lock);
	boost::posix_time::ptime pt = delay(3*BaseSeconds, 0);
	BOOST_INTERPROCES_CHECK(lock.timed_lock(pt));
	BOOST_INTERPROCES_CHECK(lock ? true : false);
	}
	};

	template <typename M>
	struct test_recursive_lock
	{
	typedef M mutex_type;
	typedef boost::interprocess::scoped_lock<mutex_type> lock_type;

	void operator()()
	{
	mutex_type mx;
	{
	lock_type lock1(mx);
	lock_type lock2(mx);
	}
	{
	lock_type lock1(mx, defer_lock);
	lock_type lock2(mx, defer_lock);
	}
	{
	lock_type lock1(mx, try_to_lock);
	lock_type lock2(mx, try_to_lock);
	}
	{
	//This should always lock
	boost::posix_time::ptime pt = delay(2*BaseSeconds);
	lock_type lock1(mx, pt);
	lock_type lock2(mx, pt);
	}
	}
	};

	// plain_exclusive exercises the "infinite" lock for each
	// read_write_mutex type.

	template<typename M>
	void lock_and_sleep(void *arg, M &sm)
	{
	data<M> pdata = static_cast<data<M>>(arg);
	boost::interprocess::scoped_lock<M> l(sm);
	if(pdata->m_secs){
	boost::thread::sleep(xsecs(pdata->m_secs));
	}
	else{
	boost::thread::sleep(xsecs(2*BaseSeconds));
	}

	++shared_val;
	pdata->m_value = shared_val;
	}

	template<typename M>
	void try_lock_and_sleep(void *arg, M &sm)
	{
	data<M> pdata = static_cast<data<M>>(arg);
	boost::interprocess::scoped_lock<M> l(sm, boost::interprocess::defer_lock);
	if (l.try_lock()){
	boost::thread::sleep(xsecs(2*BaseSeconds));
	++shared_val;
	pdata->m_value = shared_val;
	}
	}

	template<typename M>
	void timed_lock_and_sleep(void *arg, M &sm)
	{
	data<M> pdata = static_cast<data<M>>(arg);
	boost::posix_time::ptime pt(delay(pdata->m_secs));
	boost::interprocess::scoped_lock<M>
	l (sm, boost::interprocess::defer_lock);
	if (l.timed_lock(pt)){
	boost::thread::sleep(xsecs(2*BaseSeconds));
	++shared_val;
	pdata->m_value = shared_val;
	}
	}

	template<bool SameObject, typename M>
	void test_mutex_lock()
	{
	shared_val = 0;

	M m1, m2;
	M pm1, pm2;

	if(SameObject){
	pm1 = pm2 = &m1;
	}
	else{
	pm1 = &m1;
	pm2 = &m2;
	}

	data<M> d1(1);
	data<M> d2(2);

	// Locker one launches, holds the lock for 2*BaseSeconds seconds.
	boost::thread tm1(thread_adapter<M>(&lock_and_sleep, &d1, *pm1));

	//Wait 1*BaseSeconds
	boost::thread::sleep(xsecs(1*BaseSeconds));

	// Locker two launches, but it won't hold the lock for 2*BaseSeconds seconds.
	boost::thread tm2(thread_adapter<M>(&lock_and_sleep, &d2, *pm2));

	//Wait completion
	tm1.join();
	boost::thread::sleep(xsecs(1*BaseSeconds));
	tm2.join();

	assert(d1.m_value == 1);
	assert(d2.m_value == 2);
	}

	template<bool SameObject, typename M>
	void test_mutex_try_lock()
	{
	shared_val = 0;

	M m1, m2;
	M pm1, pm2;

	if(SameObject){
	pm1 = pm2 = &m1;
	}
	else{
	pm1 = &m1;
	pm2 = &m2;
	}

	data<M> d1(1);
	data<M> d2(2);

	// Locker one launches, holds the lock for 2*BaseSeconds seconds.
	boost::thread tm1(thread_adapter<M>(&try_lock_and_sleep, &d1, *pm1));

	//Wait 1*BaseSeconds
	boost::thread::sleep(xsecs(1*BaseSeconds));

	// Locker two launches, but it should fail acquiring the lock
	boost::thread tm2(thread_adapter<M>(&try_lock_and_sleep, &d2, *pm2));

	//Wait completion
	tm1.join();
	tm2.join();
	//Only the first should succeed locking
	assert(d1.m_value == 1);
	assert(d2.m_value == -1);
	}

	template<bool SameObject, typename M>
	void test_mutex_timed_lock()

	{
	shared_val = 0;

	M m1, m2;
	M pm1, pm2;

	if(SameObject){
	pm1 = pm2 = &m1;
	}
	else{
	pm1 = &m1;
	pm2 = &m2;
	}

	data<M> d1(1, 2*BaseSeconds);
	data<M> d2(2, 2*BaseSeconds);

	// Locker one launches, holds the lock for 2*BaseSeconds seconds.
	boost::thread tm1(thread_adapter<M>(&timed_lock_and_sleep, &d1, *pm1));

	//Wait 1*BaseSeconds
	boost::thread::sleep(xsecs(1*BaseSeconds));

	// Locker two launches, holds the lock for 2*BaseSeconds seconds.
	boost::thread tm2(thread_adapter<M>(&timed_lock_and_sleep, &d2, *pm2));

	//Wait completion
	tm1.join();
	tm2.join();

	//Both should succeed locking
	assert(d1.m_value == 1);
	assert(d2.m_value == 2);
	}

	template <typename M>
	inline void test_all_lock()
	{
	//Now generic interprocess_mutex tests
	std::cout << "test_lock<" << typeid(M).name() << ">" << std::endl;
	test_lock<M>()();
	std::cout << "test_trylock<" << typeid(M).name() << ">" << std::endl;
	test_trylock<M>()();
	std::cout << "test_timedlock<" << typeid(M).name() << ">" << std::endl;
	test_timedlock<M>()();
	}

	template <typename M>
	inline void test_all_recursive_lock()
	{
	//Now generic interprocess_mutex tests
	std::cout << "test_recursive_lock<" << typeid(M).name() << ">" << std::endl;
	test_recursive_lock<M>()();
	}

	template<bool SameObject, typename M>
	void test_all_mutex()
	{
	std::cout << "test_mutex_lock<" << typeid(M).name() << ">" << std::endl;
	test_mutex_lock<SameObject, M>();
	std::cout << "test_mutex_try_lock<" << typeid(M).name() << ">" << std::endl;
	test_mutex_try_lock<SameObject, M>();
	std::cout << "test_mutex_timed_lock<" << typeid(M).name() << ">" << std::endl;
	test_mutex_timed_lock<SameObject, M>();
	}

	}}} //namespace boost { namespace interprocess { namespace test {

	#include <boost/interprocess/detail/config_end.hpp>

	#endif //BOOST_INTERPROCESS_TEST_MUTEX_TEST_TEMPLATE_HEADER