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@ -40,16 +40,16 @@ public:
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* Class that manages stack timers. It allows creation of unique_timers, with different ids. Each unique_timer duration,
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* and callback can be set via the set(...) method. A timer can be started/stopped via run()/stop() methods.
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* Internal Data structures:
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* - The timer objects are stored in a deque via push_back() to keep pointer/reference consistency. The timer index
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* in the deque matches the timer id field.
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* This deque will only grow in size. Erased timers are just tagged in deque as empty, and can be reused for the
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* - timer_list - std::deque that stores timer objects via push_back() to keep pointer/reference validity.
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* The timer index in the timer_list matches the timer object id field.
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* This deque will only grow in size. Erased timers are just tagged in the deque as empty, and can be reused for the
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* creation of new timers. To avoid unnecessary runtime allocations, the user can set an initial capacity.
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* - A free_list std::vector is used as a stack (LIFO) to keep track of the empty timers and speed up timer creation.
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* - free_list - intrusive forward linked list to keep track of the empty timers and speed up new timer creation.
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* - A large circular vector of size WHEEL_SIZE which works as a time wheel, storing and circularly indexing the
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* currently running timers by their respective timeout value.
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* For a number of running timers N, and uniform distribution of timeout values, the step_all() complexity
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* should be O(N/WHEEL_SIZE). Thus, the performance should improve with a larger WHEEL_SIZE, at the expense of more
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* wasted memory.
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* used memory.
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*/
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class timer_handler
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{
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@ -61,7 +61,7 @@ class timer_handler
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constexpr static size_t WHEEL_SIZE = 1U << WHEEL_SHIFT;
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constexpr static size_t WHEEL_MASK = WHEEL_SIZE - 1U;
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struct timer_impl : public intrusive_double_linked_list_element<> {
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struct timer_impl : public intrusive_double_linked_list_element<>, public intrusive_forward_list_element<> {
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timer_handler& parent;
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const uint32_t id;
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tic_diff_t duration = INVALID_TIME_DIFF;
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@ -192,12 +192,14 @@ public:
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{
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time_wheel.resize(WHEEL_SIZE);
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// Pre-reserve timers
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free_list.reserve(capacity);
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while (timer_list.size() < capacity) {
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timer_list.emplace_back(*this, timer_list.size());
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free_list.push_back(&timer_list.back());
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}
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std::reverse(free_list.begin(), free_list.end()); // reverse to keep clear tid allocation for tests
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// push to free list in reverse order to keep ascending ids
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for (auto it = timer_list.rbegin(); it != timer_list.rend(); ++it) {
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free_list.push_front(&(*it));
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}
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nof_free_timers = timer_list.size();
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}
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void step_all()
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@ -241,7 +243,7 @@ public:
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uint32_t nof_timers() const
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{
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std::lock_guard<std::mutex> lock(mutex);
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return timer_list.size() - free_list.size();
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return timer_list.size() - nof_free_timers;
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}
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uint32_t nof_running_timers() const
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@ -269,9 +271,10 @@ private:
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std::lock_guard<std::mutex> lock(mutex);
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timer_impl* t;
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if (not free_list.empty()) {
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t = free_list.back();
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t = &free_list.front();
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srsran_assert(t->is_empty(), "Invalid timer id=%d state", t->id);
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free_list.pop_back();
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free_list.pop_front();
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nof_free_timers--;
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} else {
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// Need to increase deque
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timer_list.emplace_back(*this, timer_list.size());
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@ -293,7 +296,8 @@ private:
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timer.duration = INVALID_TIME_DIFF;
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timer.timeout = 0;
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timer.callback = srsran::move_callback<void(uint32_t)>();
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free_list.push_back(&timer);
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free_list.push_front(&timer);
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nof_free_timers++;
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// leave id unchanged.
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}
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@ -331,10 +335,10 @@ private:
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}
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tic_t cur_time = 0;
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size_t nof_timers_running_ = 0;
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size_t nof_timers_running_ = 0, nof_free_timers = 0;
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// using a deque to maintain reference validity on emplace_back. Also, this deque will only grow.
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std::deque<timer_impl> timer_list;
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std::vector<timer_impl*> free_list;
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srsran::intrusive_forward_list<timer_impl> free_list;
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std::vector<srsran::intrusive_double_linked_list<timer_impl> > time_wheel;
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mutable std::mutex mutex; // Protect priority queue
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};
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