WSJT-X/boost/libs/circular_buffer/example/circular_buffer_bound_example.cpp

192 lines
4.9 KiB
C++

// Copyright 2003-2008 Jan Gaspar.
// Copyright 2013 Paul A. Bristow. Added some Quickbook snippet markers.
// Distributed under the Boost Software License, Version 1.0.
// (See the accompanying file LICENSE_1_0.txt
// or a copy at <http://www.boost.org/LICENSE_1_0.txt>.)
//[circular_buffer_bound_example_1
/*`
This example shows how the `circular_buffer` can be utilized
as an underlying container of the bounded buffer.
*/
#include <boost/circular_buffer.hpp>
#include <boost/thread/mutex.hpp>
#include <boost/thread/condition.hpp>
#include <boost/thread/thread.hpp>
#include <boost/call_traits.hpp>
#include <boost/bind.hpp>
#include <boost/timer/timer.hpp> // for auto_cpu_timer
template <class T>
class bounded_buffer
{
public:
typedef boost::circular_buffer<T> container_type;
typedef typename container_type::size_type size_type;
typedef typename container_type::value_type value_type;
typedef typename boost::call_traits<value_type>::param_type param_type;
explicit bounded_buffer(size_type capacity) : m_unread(0), m_container(capacity) {}
void push_front(typename boost::call_traits<value_type>::param_type item)
{ // `param_type` represents the "best" way to pass a parameter of type `value_type` to a method.
boost::mutex::scoped_lock lock(m_mutex);
m_not_full.wait(lock, boost::bind(&bounded_buffer<value_type>::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<value_type>::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;
}; //
//] [/circular_buffer_bound_example_1]
const unsigned long queue_size = 1000L;
const unsigned long total_elements = queue_size * 1000L;
//[circular_buffer_bound_example_2]
/*`To demonstrate, create two classes to exercise the buffer.
The producer class fills the buffer with elements.
The consumer class consumes the buffer contents.
*/
template<class Buffer>
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<class Buffer>
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);
}
}
};
/*`Create a first-int first-out test of the bound_buffer.
Include a call to boost::progress_timer
[@http://www.boost.org/doc/libs/1_53_0/libs/timer/doc/cpu_timers.html CPU timer]
*/
template<class Buffer>
void fifo_test(Buffer* buffer)
{
// Start of timing.
boost::timer::auto_cpu_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
}
// Construct the threads.
Consumer<Buffer> consumer(buffer);
Producer<Buffer> producer(buffer);
// Start the threads.
boost::thread consume(consumer);
boost::thread produce(producer);
// Wait for completion.
consume.join();
produce.join();
// End of timing.
// destructor of boost::timer::auto_cpu_timer will output the time to std::cout.
}
//] [/circular_buffer_bound_example_2]
int main()
{
//[circular_buffer_bound_example_3]
//`Construct a bounded_buffer to hold the chosen type, here int.
bounded_buffer<int> bb_int(queue_size);
std::cout << "Testing bounded_buffer<int> ";
//`Start the fifo test.
fifo_test(&bb_int);
//` destructor of boost::timer::auto_cpu_timer will output the time to std::cout
//] [/circular_buffer_bound_example_3]
return 0;
} // int main()
/*
//[circular_buffer_bound_output
Description: Autorun "J:\Cpp\Misc\Debug\circular_buffer_bound_example.exe"
Testing bounded_buffer<int> 15.010692s wall, 9.188459s user + 7.207246s system = 16.395705s CPU (109.2%)
//] [/circular_buffer_bound_output]
*/