/* * Copyright (c) 2017 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef RTC_BASE_NUMERICS_MOVING_MAX_COUNTER_H_ #define RTC_BASE_NUMERICS_MOVING_MAX_COUNTER_H_ #include #include #include #include #include "absl/types/optional.h" #include "rtc_base/checks.h" namespace rtc { // Implements moving max: can add samples to it and calculate maximum over some // fixed moving window. // // Window size is configured at constructor. // Samples can be added with `Add()` and max over current window is returned by // `MovingMax`. `current_time_ms` in successive calls to Add and MovingMax // should never decrease as if it's a wallclock time. template class MovingMaxCounter { public: explicit MovingMaxCounter(int64_t window_length_ms); MovingMaxCounter(const MovingMaxCounter&) = delete; MovingMaxCounter& operator=(const MovingMaxCounter&) = delete; // Advances the current time, and adds a new sample. The new current time must // be at least as large as the old current time. void Add(const T& sample, int64_t current_time_ms); // Advances the current time, and returns the maximum sample in the time // window ending at the current time. The new current time must be at least as // large as the old current time. absl::optional Max(int64_t current_time_ms); void Reset(); private: // Throws out obsolete samples. void RollWindow(int64_t new_time_ms); const int64_t window_length_ms_; // This deque stores (timestamp, sample) pairs in chronological order; new // pairs are only ever added at the end. However, because they can't affect // the Max() calculation, pairs older than window_length_ms_ are discarded, // and if an older pair has a sample that's smaller than that of a younger // pair, the older pair is discarded. As a result, the sequence of timestamps // is strictly increasing, and the sequence of samples is strictly decreasing. std::deque> samples_; #if RTC_DCHECK_IS_ON int64_t last_call_time_ms_ = std::numeric_limits::min(); #endif }; template MovingMaxCounter::MovingMaxCounter(int64_t window_length_ms) : window_length_ms_(window_length_ms) {} template void MovingMaxCounter::Add(const T& sample, int64_t current_time_ms) { RollWindow(current_time_ms); // Remove samples that will never be maximum in any window: newly added sample // will always be in all windows the previous samples are. Thus, smaller or // equal samples could be removed. This will maintain the invariant - deque // contains strictly decreasing sequence of values. while (!samples_.empty() && samples_.back().second <= sample) { samples_.pop_back(); } // Add the new sample but only if there's no existing sample at the same time. // Due to checks above, the already existing element will be larger, so the // new sample will never be the maximum in any window. if (samples_.empty() || samples_.back().first < current_time_ms) { samples_.emplace_back(std::make_pair(current_time_ms, sample)); } } template absl::optional MovingMaxCounter::Max(int64_t current_time_ms) { RollWindow(current_time_ms); absl::optional res; if (!samples_.empty()) { res.emplace(samples_.front().second); } return res; } template void MovingMaxCounter::Reset() { samples_.clear(); } template void MovingMaxCounter::RollWindow(int64_t new_time_ms) { #if RTC_DCHECK_IS_ON RTC_DCHECK_GE(new_time_ms, last_call_time_ms_); last_call_time_ms_ = new_time_ms; #endif const int64_t window_begin_ms = new_time_ms - window_length_ms_; auto it = samples_.begin(); while (it != samples_.end() && it->first < window_begin_ms) { ++it; } samples_.erase(samples_.begin(), it); } } // namespace rtc #endif // RTC_BASE_NUMERICS_MOVING_MAX_COUNTER_H_