#include #include #include #include #include namespace { class MessageQueue : public sigc::trackable { public: MessageQueue(); ~MessageQueue(); void producer(); void consumer(); private: Glib::Mutex mutex_; Glib::Cond cond_push_; Glib::Cond cond_pop_; std::queue queue_; }; MessageQueue::MessageQueue() {} MessageQueue::~MessageQueue() {} void MessageQueue::producer() { Glib::Rand rand (1234); for(int i = 0; i < 200; ++i) { { Glib::Mutex::Lock lock (mutex_); while(queue_.size() >= 64) cond_pop_.wait(mutex_); queue_.push(i); std::cout << '*'; std::cout.flush(); cond_push_.signal(); } if(rand.get_bool()) continue; Glib::usleep(rand.get_int_range(0, 100000)); } } void MessageQueue::consumer() { Glib::Rand rand (4567); for(;;) { { Glib::Mutex::Lock lock (mutex_); while(queue_.empty()) cond_push_.wait(mutex_); const int i = queue_.front(); queue_.pop(); std::cout << "\x08 \x08"; std::cout.flush(); cond_pop_.signal(); if(i >= 199) break; } if(rand.get_bool()) continue; Glib::usleep(rand.get_int_range(10000, 200000)); } } } int main(int, char**) { Glib::thread_init(); MessageQueue queue; Glib::Thread *const producer = Glib::Thread::create( sigc::mem_fun(queue, &MessageQueue::producer), true); Glib::Thread *const consumer = Glib::Thread::create( sigc::mem_fun(queue, &MessageQueue::consumer), true); producer->join(); consumer->join(); std::cout << std::endl; return 0; }