vamp-build-and-test: DEPENDENCIES/generic/include/boost/asio/detail/timer

annotate DEPENDENCIES/generic/include/boost/asio/detail/timer_queue.hpp @ 125:34e428693f5d vext

Vext -> Repoint

author	Chris Cannam
date	Thu, 14 Jun 2018 11:15:39 +0100
parents	c530137014c0
children

rev	line source
Chris@16	1 //
Chris@16	2 // detail/timer_queue.hpp
Chris@16	3 // ~~~~~~~~~~~~~~~~~~~~~~
Chris@16	4 //
Chris@101	5 // Copyright (c) 2003-2015 Christopher M. Kohlhoff (chris at kohlhoff dot com)
Chris@16	6 //
Chris@16	7 // Distributed under the Boost Software License, Version 1.0. (See accompanying
Chris@16	8 // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
Chris@16	9 //
Chris@16	10
Chris@16	11 #ifndef BOOST_ASIO_DETAIL_TIMER_QUEUE_HPP
Chris@16	12 #define BOOST_ASIO_DETAIL_TIMER_QUEUE_HPP
Chris@16	13
Chris@16	14 #if defined(_MSC_VER) && (_MSC_VER >= 1200)
Chris@16	15 # pragma once
Chris@16	16 #endif // defined(_MSC_VER) && (_MSC_VER >= 1200)
Chris@16	17
Chris@16	18 #include <boost/asio/detail/config.hpp>
Chris@16	19 #include <cstddef>
Chris@16	20 #include <vector>
Chris@16	21 #include <boost/asio/detail/cstdint.hpp>
Chris@16	22 #include <boost/asio/detail/date_time_fwd.hpp>
Chris@16	23 #include <boost/asio/detail/limits.hpp>
Chris@16	24 #include <boost/asio/detail/op_queue.hpp>
Chris@16	25 #include <boost/asio/detail/timer_queue_base.hpp>
Chris@16	26 #include <boost/asio/detail/wait_op.hpp>
Chris@16	27 #include <boost/asio/error.hpp>
Chris@16	28
Chris@16	29 #include <boost/asio/detail/push_options.hpp>
Chris@16	30
Chris@16	31 namespace boost {
Chris@16	32 namespace asio {
Chris@16	33 namespace detail {
Chris@16	34
Chris@16	35 template <typename Time_Traits>
Chris@16	36 class timer_queue
Chris@16	37 : public timer_queue_base
Chris@16	38 {
Chris@16	39 public:
Chris@16	40 // The time type.
Chris@16	41 typedef typename Time_Traits::time_type time_type;
Chris@16	42
Chris@16	43 // The duration type.
Chris@16	44 typedef typename Time_Traits::duration_type duration_type;
Chris@16	45
Chris@16	46 // Per-timer data.
Chris@16	47 class per_timer_data
Chris@16	48 {
Chris@16	49 public:
Chris@16	50 per_timer_data() : next_(0), prev_(0) {}
Chris@16	51
Chris@16	52 private:
Chris@16	53 friend class timer_queue;
Chris@16	54
Chris@16	55 // The operations waiting on the timer.
Chris@16	56 op_queue<wait_op> op_queue_;
Chris@16	57
Chris@16	58 // The index of the timer in the heap.
Chris@16	59 std::size_t heap_index_;
Chris@16	60
Chris@16	61 // Pointers to adjacent timers in a linked list.
Chris@16	62 per_timer_data* next_;
Chris@16	63 per_timer_data* prev_;
Chris@16	64 };
Chris@16	65
Chris@16	66 // Constructor.
Chris@16	67 timer_queue()
Chris@16	68 : timers_(),
Chris@16	69 heap_()
Chris@16	70 {
Chris@16	71 }
Chris@16	72
Chris@16	73 // Add a new timer to the queue. Returns true if this is the timer that is
Chris@16	74 // earliest in the queue, in which case the reactor's event demultiplexing
Chris@16	75 // function call may need to be interrupted and restarted.
Chris@16	76 bool enqueue_timer(const time_type& time, per_timer_data& timer, wait_op* op)
Chris@16	77 {
Chris@16	78 // Enqueue the timer object.
Chris@16	79 if (timer.prev_ == 0 && &timer != timers_)
Chris@16	80 {
Chris@16	81 if (this->is_positive_infinity(time))
Chris@16	82 {
Chris@16	83 // No heap entry is required for timers that never expire.
Chris@16	84 timer.heap_index_ = (std::numeric_limits<std::size_t>::max)();
Chris@16	85 }
Chris@16	86 else
Chris@16	87 {
Chris@16	88 // Put the new timer at the correct position in the heap. This is done
Chris@16	89 // first since push_back() can throw due to allocation failure.
Chris@16	90 timer.heap_index_ = heap_.size();
Chris@16	91 heap_entry entry = { time, &timer };
Chris@16	92 heap_.push_back(entry);
Chris@16	93 up_heap(heap_.size() - 1);
Chris@16	94 }
Chris@16	95
Chris@16	96 // Insert the new timer into the linked list of active timers.
Chris@16	97 timer.next_ = timers_;
Chris@16	98 timer.prev_ = 0;
Chris@16	99 if (timers_)
Chris@16	100 timers_->prev_ = &timer;
Chris@16	101 timers_ = &timer;
Chris@16	102 }
Chris@16	103
Chris@16	104 // Enqueue the individual timer operation.
Chris@16	105 timer.op_queue_.push(op);
Chris@16	106
Chris@16	107 // Interrupt reactor only if newly added timer is first to expire.
Chris@16	108 return timer.heap_index_ == 0 && timer.op_queue_.front() == op;
Chris@16	109 }
Chris@16	110
Chris@16	111 // Whether there are no timers in the queue.
Chris@16	112 virtual bool empty() const
Chris@16	113 {
Chris@16	114 return timers_ == 0;
Chris@16	115 }
Chris@16	116
Chris@16	117 // Get the time for the timer that is earliest in the queue.
Chris@16	118 virtual long wait_duration_msec(long max_duration) const
Chris@16	119 {
Chris@16	120 if (heap_.empty())
Chris@16	121 return max_duration;
Chris@16	122
Chris@16	123 return this->to_msec(
Chris@16	124 Time_Traits::to_posix_duration(
Chris@16	125 Time_Traits::subtract(heap_[0].time_, Time_Traits::now())),
Chris@16	126 max_duration);
Chris@16	127 }
Chris@16	128
Chris@16	129 // Get the time for the timer that is earliest in the queue.
Chris@16	130 virtual long wait_duration_usec(long max_duration) const
Chris@16	131 {
Chris@16	132 if (heap_.empty())
Chris@16	133 return max_duration;
Chris@16	134
Chris@16	135 return this->to_usec(
Chris@16	136 Time_Traits::to_posix_duration(
Chris@16	137 Time_Traits::subtract(heap_[0].time_, Time_Traits::now())),
Chris@16	138 max_duration);
Chris@16	139 }
Chris@16	140
Chris@16	141 // Dequeue all timers not later than the current time.
Chris@16	142 virtual void get_ready_timers(op_queue<operation>& ops)
Chris@16	143 {
Chris@16	144 if (!heap_.empty())
Chris@16	145 {
Chris@16	146 const time_type now = Time_Traits::now();
Chris@16	147 while (!heap_.empty() && !Time_Traits::less_than(now, heap_[0].time_))
Chris@16	148 {
Chris@16	149 per_timer_data* timer = heap_[0].timer_;
Chris@16	150 ops.push(timer->op_queue_);
Chris@16	151 remove_timer(*timer);
Chris@16	152 }
Chris@16	153 }
Chris@16	154 }
Chris@16	155
Chris@16	156 // Dequeue all timers.
Chris@16	157 virtual void get_all_timers(op_queue<operation>& ops)
Chris@16	158 {
Chris@16	159 while (timers_)
Chris@16	160 {
Chris@16	161 per_timer_data* timer = timers_;
Chris@16	162 timers_ = timers_->next_;
Chris@16	163 ops.push(timer->op_queue_);
Chris@16	164 timer->next_ = 0;
Chris@16	165 timer->prev_ = 0;
Chris@16	166 }
Chris@16	167
Chris@16	168 heap_.clear();
Chris@16	169 }
Chris@16	170
Chris@16	171 // Cancel and dequeue operations for the given timer.
Chris@16	172 std::size_t cancel_timer(per_timer_data& timer, op_queue<operation>& ops,
Chris@16	173 std::size_t max_cancelled = (std::numeric_limits<std::size_t>::max)())
Chris@16	174 {
Chris@16	175 std::size_t num_cancelled = 0;
Chris@16	176 if (timer.prev_ != 0 \|\| &timer == timers_)
Chris@16	177 {
Chris@16	178 while (wait_op* op = (num_cancelled != max_cancelled)
Chris@16	179 ? timer.op_queue_.front() : 0)
Chris@16	180 {
Chris@16	181 op->ec_ = boost::asio::error::operation_aborted;
Chris@16	182 timer.op_queue_.pop();
Chris@16	183 ops.push(op);
Chris@16	184 ++num_cancelled;
Chris@16	185 }
Chris@16	186 if (timer.op_queue_.empty())
Chris@16	187 remove_timer(timer);
Chris@16	188 }
Chris@16	189 return num_cancelled;
Chris@16	190 }
Chris@16	191
Chris@16	192 private:
Chris@16	193 // Move the item at the given index up the heap to its correct position.
Chris@16	194 void up_heap(std::size_t index)
Chris@16	195 {
Chris@101	196 while (index > 0)
Chris@16	197 {
Chris@101	198 std::size_t parent = (index - 1) / 2;
Chris@101	199 if (!Time_Traits::less_than(heap_[index].time_, heap_[parent].time_))
Chris@101	200 break;
Chris@16	201 swap_heap(index, parent);
Chris@16	202 index = parent;
Chris@16	203 }
Chris@16	204 }
Chris@16	205
Chris@16	206 // Move the item at the given index down the heap to its correct position.
Chris@16	207 void down_heap(std::size_t index)
Chris@16	208 {
Chris@16	209 std::size_t child = index * 2 + 1;
Chris@16	210 while (child < heap_.size())
Chris@16	211 {
Chris@16	212 std::size_t min_child = (child + 1 == heap_.size()
Chris@16	213 \|\| Time_Traits::less_than(
Chris@16	214 heap_[child].time_, heap_[child + 1].time_))
Chris@16	215 ? child : child + 1;
Chris@16	216 if (Time_Traits::less_than(heap_[index].time_, heap_[min_child].time_))
Chris@16	217 break;
Chris@16	218 swap_heap(index, min_child);
Chris@16	219 index = min_child;
Chris@16	220 child = index * 2 + 1;
Chris@16	221 }
Chris@16	222 }
Chris@16	223
Chris@16	224 // Swap two entries in the heap.
Chris@16	225 void swap_heap(std::size_t index1, std::size_t index2)
Chris@16	226 {
Chris@16	227 heap_entry tmp = heap_[index1];
Chris@16	228 heap_[index1] = heap_[index2];
Chris@16	229 heap_[index2] = tmp;
Chris@16	230 heap_[index1].timer_->heap_index_ = index1;
Chris@16	231 heap_[index2].timer_->heap_index_ = index2;
Chris@16	232 }
Chris@16	233
Chris@16	234 // Remove a timer from the heap and list of timers.
Chris@16	235 void remove_timer(per_timer_data& timer)
Chris@16	236 {
Chris@16	237 // Remove the timer from the heap.
Chris@16	238 std::size_t index = timer.heap_index_;
Chris@16	239 if (!heap_.empty() && index < heap_.size())
Chris@16	240 {
Chris@16	241 if (index == heap_.size() - 1)
Chris@16	242 {
Chris@16	243 heap_.pop_back();
Chris@16	244 }
Chris@16	245 else
Chris@16	246 {
Chris@16	247 swap_heap(index, heap_.size() - 1);
Chris@16	248 heap_.pop_back();
Chris@16	249 if (index > 0 && Time_Traits::less_than(
Chris@101	250 heap_[index].time_, heap_[(index - 1) / 2].time_))
Chris@16	251 up_heap(index);
Chris@16	252 else
Chris@16	253 down_heap(index);
Chris@16	254 }
Chris@16	255 }
Chris@16	256
Chris@16	257 // Remove the timer from the linked list of active timers.
Chris@16	258 if (timers_ == &timer)
Chris@16	259 timers_ = timer.next_;
Chris@16	260 if (timer.prev_)
Chris@16	261 timer.prev_->next_ = timer.next_;
Chris@16	262 if (timer.next_)
Chris@16	263 timer.next_->prev_= timer.prev_;
Chris@16	264 timer.next_ = 0;
Chris@16	265 timer.prev_ = 0;
Chris@16	266 }
Chris@16	267
Chris@16	268 // Determine if the specified absolute time is positive infinity.
Chris@16	269 template <typename Time_Type>
Chris@16	270 static bool is_positive_infinity(const Time_Type&)
Chris@16	271 {
Chris@16	272 return false;
Chris@16	273 }
Chris@16	274
Chris@16	275 // Determine if the specified absolute time is positive infinity.
Chris@16	276 template <typename T, typename TimeSystem>
Chris@16	277 static bool is_positive_infinity(
Chris@16	278 const boost::date_time::base_time<T, TimeSystem>& time)
Chris@16	279 {
Chris@16	280 return time.is_pos_infinity();
Chris@16	281 }
Chris@16	282
Chris@16	283 // Helper function to convert a duration into milliseconds.
Chris@16	284 template <typename Duration>
Chris@16	285 long to_msec(const Duration& d, long max_duration) const
Chris@16	286 {
Chris@16	287 if (d.ticks() <= 0)
Chris@16	288 return 0;
Chris@16	289 int64_t msec = d.total_milliseconds();
Chris@16	290 if (msec == 0)
Chris@16	291 return 1;
Chris@16	292 if (msec > max_duration)
Chris@16	293 return max_duration;
Chris@16	294 return static_cast<long>(msec);
Chris@16	295 }
Chris@16	296
Chris@16	297 // Helper function to convert a duration into microseconds.
Chris@16	298 template <typename Duration>
Chris@16	299 long to_usec(const Duration& d, long max_duration) const
Chris@16	300 {
Chris@16	301 if (d.ticks() <= 0)
Chris@16	302 return 0;
Chris@16	303 int64_t usec = d.total_microseconds();
Chris@16	304 if (usec == 0)
Chris@16	305 return 1;
Chris@16	306 if (usec > max_duration)
Chris@16	307 return max_duration;
Chris@16	308 return static_cast<long>(usec);
Chris@16	309 }
Chris@16	310
Chris@16	311 // The head of a linked list of all active timers.
Chris@16	312 per_timer_data* timers_;
Chris@16	313
Chris@16	314 struct heap_entry
Chris@16	315 {
Chris@16	316 // The time when the timer should fire.
Chris@16	317 time_type time_;
Chris@16	318
Chris@16	319 // The associated timer with enqueued operations.
Chris@16	320 per_timer_data* timer_;
Chris@16	321 };
Chris@16	322
Chris@16	323 // The heap of timers, with the earliest timer at the front.
Chris@16	324 std::vector<heap_entry> heap_;
Chris@16	325 };
Chris@16	326
Chris@16	327 } // namespace detail
Chris@16	328 } // namespace asio
Chris@16	329 } // namespace boost
Chris@16	330
Chris@16	331 #include <boost/asio/detail/pop_options.hpp>
Chris@16	332
Chris@16	333 #endif // BOOST_ASIO_DETAIL_TIMER_QUEUE_HPP

Mercurial > hg > vamp-build-and-test

annotate DEPENDENCIES/generic/include/boost/asio/detail/timer_queue.hpp @ 125:34e428693f5d vext