// // timer_queue.hpp // ~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2008 Christopher M. Kohlhoff (chris at kohlhoff dot com) // // 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) // #ifndef ASIO_DETAIL_TIMER_QUEUE_HPP #define ASIO_DETAIL_TIMER_QUEUE_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include "asio/detail/push_options.hpp" #include "asio/detail/push_options.hpp" #include #include #include #include #include #include #include "asio/detail/pop_options.hpp" #include "asio/error.hpp" #include "asio/detail/hash_map.hpp" #include "asio/detail/noncopyable.hpp" #include "asio/detail/timer_queue_base.hpp" namespace asio { namespace detail { template class timer_queue : public timer_queue_base { public: // The time type. typedef typename Time_Traits::time_type time_type; // The duration type. typedef typename Time_Traits::duration_type duration_type; // Constructor. timer_queue() : timers_(), heap_(), cancelled_timers_(0), cleanup_timers_(0) { } // Add a new timer to the queue. Returns true if this is the timer that is // earliest in the queue, in which case the reactor's event demultiplexing // function call may need to be interrupted and restarted. template bool enqueue_timer(const time_type& time, Handler handler, void* token) { // Ensure that there is space for the timer in the heap. We reserve here so // that the push_back below will not throw due to a reallocation failure. heap_.reserve(heap_.size() + 1); // Create a new timer object. std::auto_ptr > new_timer( new timer(time, handler, token)); // Insert the new timer into the hash. typedef typename hash_map::iterator iterator; typedef typename hash_map::value_type value_type; std::pair result = timers_.insert(value_type(token, new_timer.get())); if (!result.second) { result.first->second->prev_ = new_timer.get(); new_timer->next_ = result.first->second; result.first->second = new_timer.get(); } // Put the timer at the correct position in the heap. new_timer->heap_index_ = heap_.size(); heap_.push_back(new_timer.get()); up_heap(heap_.size() - 1); bool is_first = (heap_[0] == new_timer.get()); // Ownership of the timer is transferred to the timer queue. new_timer.release(); return is_first; } // Whether there are no timers in the queue. virtual bool empty() const { return heap_.empty(); } // Get the time for the timer that is earliest in the queue. virtual boost::posix_time::time_duration wait_duration() const { return Time_Traits::to_posix_duration( Time_Traits::subtract(heap_[0]->time_, Time_Traits::now())); } // Dispatch the timers that are earlier than the specified time. virtual void dispatch_timers() { const time_type now = Time_Traits::now(); while (!heap_.empty() && !Time_Traits::less_than(now, heap_[0]->time_)) { timer_base* t = heap_[0]; remove_timer(t); t->prev_ = 0; t->next_ = cleanup_timers_; cleanup_timers_ = t; t->invoke(asio::error_code()); } } // Cancel the timers with the given token. Any timers pending for the token // will be notified that they have been cancelled next time // dispatch_cancellations is called. Returns the number of timers that were // cancelled. std::size_t cancel_timer(void* timer_token) { std::size_t num_cancelled = 0; typedef typename hash_map::iterator iterator; iterator it = timers_.find(timer_token); if (it != timers_.end()) { timer_base* t = it->second; while (t) { timer_base* next = t->next_; remove_timer(t); t->prev_ = 0; t->next_ = cancelled_timers_; cancelled_timers_ = t; t = next; ++num_cancelled; } } return num_cancelled; } // Dispatch any pending cancels for timers. virtual void dispatch_cancellations() { while (cancelled_timers_) { timer_base* this_timer = cancelled_timers_; cancelled_timers_ = this_timer->next_; this_timer->next_ = cleanup_timers_; cleanup_timers_ = this_timer; this_timer->invoke(asio::error::operation_aborted); } } // Destroy timers that are waiting to be cleaned up. virtual void cleanup_timers() { destroy_timer_list(cleanup_timers_); } // Destroy all timers. virtual void destroy_timers() { typename hash_map::iterator i = timers_.begin(); typename hash_map::iterator end = timers_.end(); while (i != end) { timer_base* t = i->second; typename hash_map::iterator old_i = i++; timers_.erase(old_i); destroy_timer_list(t); } heap_.clear(); timers_.clear(); destroy_timer_list(cancelled_timers_); destroy_timer_list(cleanup_timers_); } private: // Base class for timer operations. Function pointers are used instead of // virtual functions to avoid the associated overhead. class timer_base { public: // Perform the timer operation and then destroy. void invoke(const asio::error_code& result) { invoke_func_(this, result); } // Destroy the timer operation. void destroy() { destroy_func_(this); } protected: typedef void (*invoke_func_type)(timer_base*, const asio::error_code&); typedef void (*destroy_func_type)(timer_base*); // Constructor. timer_base(invoke_func_type invoke_func, destroy_func_type destroy_func, const time_type& time, void* token) : invoke_func_(invoke_func), destroy_func_(destroy_func), time_(time), token_(token), next_(0), prev_(0), heap_index_( std::numeric_limits::max BOOST_PREVENT_MACRO_SUBSTITUTION()) { } // Prevent deletion through this type. ~timer_base() { } private: friend class timer_queue; // The function to be called to dispatch the handler. invoke_func_type invoke_func_; // The function to be called to destroy the handler. destroy_func_type destroy_func_; // The time when the operation should fire. time_type time_; // The token associated with the timer. void* token_; // The next timer known to the queue. timer_base* next_; // The previous timer known to the queue. timer_base* prev_; // The index of the timer in the heap. size_t heap_index_; }; // Adaptor class template for using handlers in timers. template class timer : public timer_base { public: // Constructor. timer(const time_type& time, Handler handler, void* token) : timer_base(&timer::invoke_handler, &timer::destroy_handler, time, token), handler_(handler) { } // Invoke the handler and then destroy it. static void invoke_handler(timer_base* base, const asio::error_code& result) { static_cast*>(base)->handler_(result); } // Destroy the handler. static void destroy_handler(timer_base* base) { delete static_cast*>(base); } private: Handler handler_; }; // Move the item at the given index up the heap to its correct position. void up_heap(size_t index) { size_t parent = (index - 1) / 2; while (index > 0 && Time_Traits::less_than(heap_[index]->time_, heap_[parent]->time_)) { swap_heap(index, parent); index = parent; parent = (index - 1) / 2; } } // Move the item at the given index down the heap to its correct position. void down_heap(size_t index) { size_t child = index * 2 + 1; while (child < heap_.size()) { size_t min_child = (child + 1 == heap_.size() || Time_Traits::less_than( heap_[child]->time_, heap_[child + 1]->time_)) ? child : child + 1; if (Time_Traits::less_than(heap_[index]->time_, heap_[min_child]->time_)) break; swap_heap(index, min_child); index = min_child; child = index * 2 + 1; } } // Swap two entries in the heap. void swap_heap(size_t index1, size_t index2) { timer_base* tmp = heap_[index1]; heap_[index1] = heap_[index2]; heap_[index2] = tmp; heap_[index1]->heap_index_ = index1; heap_[index2]->heap_index_ = index2; } // Remove a timer from the heap and list of timers. void remove_timer(timer_base* t) { // Remove the timer from the heap. size_t index = t->heap_index_; if (!heap_.empty() && index < heap_.size()) { if (index == heap_.size() - 1) { heap_.pop_back(); } else { swap_heap(index, heap_.size() - 1); heap_.pop_back(); size_t parent = (index - 1) / 2; if (index > 0 && Time_Traits::less_than( heap_[index]->time_, heap_[parent]->time_)) up_heap(index); else down_heap(index); } } // Remove the timer from the hash. typedef typename hash_map::iterator iterator; iterator it = timers_.find(t->token_); if (it != timers_.end()) { if (it->second == t) it->second = t->next_; if (t->prev_) t->prev_->next_ = t->next_; if (t->next_) t->next_->prev_ = t->prev_; if (it->second == 0) timers_.erase(it); } } // Destroy all timers in a linked list. void destroy_timer_list(timer_base*& t) { while (t) { timer_base* next = t->next_; t->next_ = 0; t->destroy(); t = next; } } // A hash of timer token to linked lists of timers. hash_map timers_; // The heap of timers, with the earliest timer at the front. std::vector heap_; // The list of timers to be cancelled. timer_base* cancelled_timers_; // The list of timers to be destroyed. timer_base* cleanup_timers_; }; } // namespace detail } // namespace asio #include "asio/detail/pop_options.hpp" #endif // ASIO_DETAIL_TIMER_QUEUE_HPP