/* * Copyright (c) 2011 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. */ #include "webrtc/base/checks.h" #include "webrtc/modules/video_processing/include/video_processing.h" #include "webrtc/modules/video_processing/video_decimator.h" #include "webrtc/system_wrappers/include/tick_util.h" #define VD_MIN(a, b) ((a) < (b)) ? (a) : (b) namespace webrtc { VPMVideoDecimator::VPMVideoDecimator() { Reset(); } VPMVideoDecimator::~VPMVideoDecimator() {} void VPMVideoDecimator::Reset() { overshoot_modifier_ = 0; drop_count_ = 0; keep_count_ = 0; target_frame_rate_ = 30; incoming_frame_rate_ = 0.0f; memset(incoming_frame_times_, 0, sizeof(incoming_frame_times_)); enable_temporal_decimation_ = true; } void VPMVideoDecimator::EnableTemporalDecimation(bool enable) { enable_temporal_decimation_ = enable; } void VPMVideoDecimator::SetTargetFramerate(int frame_rate) { RTC_DCHECK(frame_rate); target_frame_rate_ = frame_rate; } bool VPMVideoDecimator::DropFrame() { if (!enable_temporal_decimation_) return false; if (incoming_frame_rate_ <= 0) return false; const uint32_t incomingframe_rate = static_cast(incoming_frame_rate_ + 0.5f); if (target_frame_rate_ == 0) return true; bool drop = false; if (incomingframe_rate > target_frame_rate_) { int32_t overshoot = overshoot_modifier_ + (incomingframe_rate - target_frame_rate_); if (overshoot < 0) { overshoot = 0; overshoot_modifier_ = 0; } if (overshoot && 2 * overshoot < (int32_t)incomingframe_rate) { if (drop_count_) { // Just got here so drop to be sure. drop_count_ = 0; return true; } const uint32_t dropVar = incomingframe_rate / overshoot; if (keep_count_ >= dropVar) { drop = true; overshoot_modifier_ = -((int32_t)incomingframe_rate % overshoot) / 3; keep_count_ = 1; } else { keep_count_++; } } else { keep_count_ = 0; const uint32_t dropVar = overshoot / target_frame_rate_; if (drop_count_ < dropVar) { drop = true; drop_count_++; } else { overshoot_modifier_ = overshoot % target_frame_rate_; drop = false; drop_count_ = 0; } } } return drop; } uint32_t VPMVideoDecimator::GetDecimatedFrameRate() { ProcessIncomingframe_rate(TickTime::MillisecondTimestamp()); if (!enable_temporal_decimation_) { return static_cast(incoming_frame_rate_ + 0.5f); } return VD_MIN(target_frame_rate_, static_cast(incoming_frame_rate_ + 0.5f)); } uint32_t VPMVideoDecimator::Inputframe_rate() { ProcessIncomingframe_rate(TickTime::MillisecondTimestamp()); return static_cast(incoming_frame_rate_ + 0.5f); } void VPMVideoDecimator::UpdateIncomingframe_rate() { int64_t now = TickTime::MillisecondTimestamp(); if (incoming_frame_times_[0] == 0) { // First no shift. } else { // Shift. for (int i = kFrameCountHistory_size - 2; i >= 0; i--) { incoming_frame_times_[i + 1] = incoming_frame_times_[i]; } } incoming_frame_times_[0] = now; ProcessIncomingframe_rate(now); } void VPMVideoDecimator::ProcessIncomingframe_rate(int64_t now) { int32_t num = 0; int32_t nrOfFrames = 0; for (num = 1; num < (kFrameCountHistory_size - 1); num++) { // Don't use data older than 2sec. if (incoming_frame_times_[num] <= 0 || now - incoming_frame_times_[num] > kFrameHistoryWindowMs) { break; } else { nrOfFrames++; } } if (num > 1) { int64_t diff = now - incoming_frame_times_[num - 1]; incoming_frame_rate_ = 1.0; if (diff > 0) { incoming_frame_rate_ = nrOfFrames * 1000.0f / static_cast(diff); } } else { incoming_frame_rate_ = static_cast(nrOfFrames); } } } // namespace webrtc