// Comparison of bounded buffers based on different containers. // Copyright (c) 2003-2008 Jan Gaspar // Copyright 2013 Paul A. Bristow. Added some Quickbook snippet markers. // Use, modification, and distribution is subject to 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) #include #include #include #include #include #include #include #include #include #include #include const unsigned long QUEUE_SIZE = 1000L; const unsigned long TOTAL_ELEMENTS = QUEUE_SIZE * 1000L; template class bounded_buffer { public: typedef boost::circular_buffer container_type; typedef typename container_type::size_type size_type; typedef typename container_type::value_type value_type; typedef typename boost::call_traits::param_type param_type; explicit bounded_buffer(size_type capacity) : m_unread(0), m_container(capacity) {} void push_front(param_type item) { boost::mutex::scoped_lock lock(m_mutex); m_not_full.wait(lock, boost::bind(&bounded_buffer::is_not_full, this)); m_container.push_front(item); ++m_unread; lock.unlock(); m_not_empty.notify_one(); } void pop_back(value_type* pItem) { boost::mutex::scoped_lock lock(m_mutex); m_not_empty.wait(lock, boost::bind(&bounded_buffer::is_not_empty, this)); *pItem = m_container[--m_unread]; lock.unlock(); m_not_full.notify_one(); } private: bounded_buffer(const bounded_buffer&); // Disabled copy constructor bounded_buffer& operator = (const bounded_buffer&); // Disabled assign operator bool is_not_empty() const { return m_unread > 0; } bool is_not_full() const { return m_unread < m_container.capacity(); } size_type m_unread; container_type m_container; boost::mutex m_mutex; boost::condition m_not_empty; boost::condition m_not_full; }; template class bounded_buffer_space_optimized { public: typedef boost::circular_buffer_space_optimized container_type; typedef typename container_type::size_type size_type; typedef typename container_type::value_type value_type; typedef typename boost::call_traits::param_type param_type; explicit bounded_buffer_space_optimized(size_type capacity) : m_container(capacity) {} void push_front(param_type item) { boost::mutex::scoped_lock lock(m_mutex); m_not_full.wait(lock, boost::bind(&bounded_buffer_space_optimized::is_not_full, this)); m_container.push_front(item); lock.unlock(); m_not_empty.notify_one(); } void pop_back(value_type* pItem) { boost::mutex::scoped_lock lock(m_mutex); m_not_empty.wait(lock, boost::bind(&bounded_buffer_space_optimized::is_not_empty, this)); *pItem = m_container.back(); m_container.pop_back(); lock.unlock(); m_not_full.notify_one(); } private: bounded_buffer_space_optimized(const bounded_buffer_space_optimized&); // Disabled copy constructor bounded_buffer_space_optimized& operator = (const bounded_buffer_space_optimized&); // Disabled assign operator bool is_not_empty() const { return m_container.size() > 0; } bool is_not_full() const { return m_container.size() < m_container.capacity(); } container_type m_container; boost::mutex m_mutex; boost::condition m_not_empty; boost::condition m_not_full; }; template class bounded_buffer_deque_based { public: typedef std::deque container_type; typedef typename container_type::size_type size_type; typedef typename container_type::value_type value_type; typedef typename boost::call_traits::param_type param_type; explicit bounded_buffer_deque_based(size_type capacity) : m_capacity(capacity) {} void push_front(param_type item) { boost::mutex::scoped_lock lock(m_mutex); m_not_full.wait(lock, boost::bind(&bounded_buffer_deque_based::is_not_full, this)); m_container.push_front(item); lock.unlock(); m_not_empty.notify_one(); } void pop_back(value_type* pItem) { boost::mutex::scoped_lock lock(m_mutex); m_not_empty.wait(lock, boost::bind(&bounded_buffer_deque_based::is_not_empty, this)); *pItem = m_container.back(); m_container.pop_back(); lock.unlock(); m_not_full.notify_one(); } private: bounded_buffer_deque_based(const bounded_buffer_deque_based&); // Disabled copy constructor bounded_buffer_deque_based& operator = (const bounded_buffer_deque_based&); // Disabled assign operator bool is_not_empty() const { return m_container.size() > 0; } bool is_not_full() const { return m_container.size() < m_capacity; } const size_type m_capacity; container_type m_container; boost::mutex m_mutex; boost::condition m_not_empty; boost::condition m_not_full; }; template class bounded_buffer_list_based { public: typedef std::list container_type; typedef typename container_type::size_type size_type; typedef typename container_type::value_type value_type; typedef typename boost::call_traits::param_type param_type; explicit bounded_buffer_list_based(size_type capacity) : m_capacity(capacity) {} void push_front(param_type item) { boost::mutex::scoped_lock lock(m_mutex); m_not_full.wait(lock, boost::bind(&bounded_buffer_list_based::is_not_full, this)); m_container.push_front(item); lock.unlock(); m_not_empty.notify_one(); } void pop_back(value_type* pItem) { boost::mutex::scoped_lock lock(m_mutex); m_not_empty.wait(lock, boost::bind(&bounded_buffer_list_based::is_not_empty, this)); *pItem = m_container.back(); m_container.pop_back(); lock.unlock(); m_not_full.notify_one(); } private: bounded_buffer_list_based(const bounded_buffer_list_based&); // Disabled copy constructor bounded_buffer_list_based& operator = (const bounded_buffer_list_based&); // Disabled assign operator bool is_not_empty() const { return m_container.size() > 0; } bool is_not_full() const { return m_container.size() < m_capacity; } const size_type m_capacity; container_type m_container; boost::mutex m_mutex; boost::condition m_not_empty; boost::condition m_not_full; }; template class Consumer { typedef typename Buffer::value_type value_type; Buffer* m_container; value_type m_item; public: Consumer(Buffer* buffer) : m_container(buffer) {} void operator()() { for (unsigned long i = 0L; i < TOTAL_ELEMENTS; ++i) { m_container->pop_back(&m_item); } } }; template class Producer { typedef typename Buffer::value_type value_type; Buffer* m_container; public: Producer(Buffer* buffer) : m_container(buffer) {} void operator()() { for (unsigned long i = 0L; i < TOTAL_ELEMENTS; ++i) { m_container->push_front(value_type()); } } }; template void fifo_test(Buffer* buffer) { // Start of measurement boost::progress_timer progress; // Initialize the buffer with some values before launching producer and consumer threads. for (unsigned long i = QUEUE_SIZE / 2L; i > 0; --i) { #if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x581)) buffer->push_front(Buffer::value_type()); #else buffer->push_front(BOOST_DEDUCED_TYPENAME Buffer::value_type()); #endif } Consumer consumer(buffer); Producer producer(buffer); // Start the threads. boost::thread consume(consumer); boost::thread produce(producer); // Wait for completion. consume.join(); produce.join(); // End of measurement } int main(int /*argc*/, char* /*argv*/[]) { bounded_buffer bb_int(QUEUE_SIZE); std::cout << "bounded_buffer "; fifo_test(&bb_int); bounded_buffer_space_optimized bb_space_optimized_int(QUEUE_SIZE); std::cout << "bounded_buffer_space_optimized "; fifo_test(&bb_space_optimized_int); bounded_buffer_deque_based bb_deque_based_int(QUEUE_SIZE); std::cout << "bounded_buffer_deque_based "; fifo_test(&bb_deque_based_int); bounded_buffer_list_based bb_list_based_int(QUEUE_SIZE); std::cout << "bounded_buffer_list_based "; fifo_test(&bb_list_based_int); bounded_buffer bb_string(QUEUE_SIZE); std::cout << "bounded_buffer "; fifo_test(&bb_string); bounded_buffer_space_optimized bb_space_optimized_string(QUEUE_SIZE); std::cout << "bounded_buffer_space_optimized "; fifo_test(&bb_space_optimized_string); bounded_buffer_deque_based bb_deque_based_string(QUEUE_SIZE); std::cout << "bounded_buffer_deque_based "; fifo_test(&bb_deque_based_string); bounded_buffer_list_based bb_list_based_string(QUEUE_SIZE); std::cout << "bounded_buffer_list_based "; fifo_test(&bb_list_based_string); return 0; } /* //[bounded_buffer_comparison_output Description: Autorun "J:\Cpp\Misc\Debug\bounded_buffer_comparison.exe" bounded_buffer 5.15 s bounded_buffer_space_optimized 5.71 s bounded_buffer_deque_based 15.57 s bounded_buffer_list_based 17.33 s bounded_buffer 24.49 s bounded_buffer_space_optimized 28.33 s bounded_buffer_deque_based 29.45 s bounded_buffer_list_based 31.29 s //] //[bounded_buffer_comparison_output] */