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231 lines
6.8 KiB
C++
231 lines
6.8 KiB
C++
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/*
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* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "webrtc/system_wrappers/interface/timestamp_extrapolator.h"
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#include <algorithm>
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namespace webrtc {
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TimestampExtrapolator::TimestampExtrapolator(int64_t start_ms)
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: _rwLock(RWLockWrapper::CreateRWLock()),
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_startMs(0),
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_firstTimestamp(0),
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_wrapArounds(0),
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_prevUnwrappedTimestamp(-1),
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_prevWrapTimestamp(-1),
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_lambda(1),
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_firstAfterReset(true),
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_packetCount(0),
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_startUpFilterDelayInPackets(2),
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_detectorAccumulatorPos(0),
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_detectorAccumulatorNeg(0),
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_alarmThreshold(60e3),
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_accDrift(6600), // in timestamp ticks, i.e. 15 ms
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_accMaxError(7000),
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_P11(1e10) {
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Reset(start_ms);
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}
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TimestampExtrapolator::~TimestampExtrapolator()
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{
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delete _rwLock;
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}
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void TimestampExtrapolator::Reset(int64_t start_ms)
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{
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WriteLockScoped wl(*_rwLock);
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_startMs = start_ms;
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_prevMs = _startMs;
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_firstTimestamp = 0;
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_w[0] = 90.0;
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_w[1] = 0;
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_P[0][0] = 1;
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_P[1][1] = _P11;
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_P[0][1] = _P[1][0] = 0;
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_firstAfterReset = true;
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_prevUnwrappedTimestamp = -1;
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_prevWrapTimestamp = -1;
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_wrapArounds = 0;
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_packetCount = 0;
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_detectorAccumulatorPos = 0;
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_detectorAccumulatorNeg = 0;
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}
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void
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TimestampExtrapolator::Update(int64_t tMs, uint32_t ts90khz)
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{
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_rwLock->AcquireLockExclusive();
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if (tMs - _prevMs > 10e3)
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{
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// Ten seconds without a complete frame.
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// Reset the extrapolator
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_rwLock->ReleaseLockExclusive();
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Reset(tMs);
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_rwLock->AcquireLockExclusive();
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}
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else
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{
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_prevMs = tMs;
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}
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// Remove offset to prevent badly scaled matrices
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tMs -= _startMs;
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CheckForWrapArounds(ts90khz);
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int64_t unwrapped_ts90khz = static_cast<int64_t>(ts90khz) +
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_wrapArounds * ((static_cast<int64_t>(1) << 32) - 1);
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if (_prevUnwrappedTimestamp >= 0 &&
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unwrapped_ts90khz < _prevUnwrappedTimestamp)
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{
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// Drop reordered frames.
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_rwLock->ReleaseLockExclusive();
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return;
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}
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if (_firstAfterReset)
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{
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// Make an initial guess of the offset,
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// should be almost correct since tMs - _startMs
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// should about zero at this time.
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_w[1] = -_w[0] * tMs;
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_firstTimestamp = unwrapped_ts90khz;
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_firstAfterReset = false;
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}
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double residual =
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(static_cast<double>(unwrapped_ts90khz) - _firstTimestamp) -
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static_cast<double>(tMs) * _w[0] - _w[1];
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if (DelayChangeDetection(residual) &&
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_packetCount >= _startUpFilterDelayInPackets)
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{
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// A sudden change of average network delay has been detected.
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// Force the filter to adjust its offset parameter by changing
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// the offset uncertainty. Don't do this during startup.
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_P[1][1] = _P11;
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}
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//T = [t(k) 1]';
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//that = T'*w;
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//K = P*T/(lambda + T'*P*T);
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double K[2];
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K[0] = _P[0][0] * tMs + _P[0][1];
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K[1] = _P[1][0] * tMs + _P[1][1];
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double TPT = _lambda + tMs * K[0] + K[1];
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K[0] /= TPT;
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K[1] /= TPT;
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//w = w + K*(ts(k) - that);
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_w[0] = _w[0] + K[0] * residual;
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_w[1] = _w[1] + K[1] * residual;
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//P = 1/lambda*(P - K*T'*P);
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double p00 = 1 / _lambda * (_P[0][0] - (K[0] * tMs * _P[0][0] + K[0] * _P[1][0]));
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double p01 = 1 / _lambda * (_P[0][1] - (K[0] * tMs * _P[0][1] + K[0] * _P[1][1]));
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_P[1][0] = 1 / _lambda * (_P[1][0] - (K[1] * tMs * _P[0][0] + K[1] * _P[1][0]));
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_P[1][1] = 1 / _lambda * (_P[1][1] - (K[1] * tMs * _P[0][1] + K[1] * _P[1][1]));
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_P[0][0] = p00;
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_P[0][1] = p01;
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_prevUnwrappedTimestamp = unwrapped_ts90khz;
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if (_packetCount < _startUpFilterDelayInPackets)
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{
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_packetCount++;
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}
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_rwLock->ReleaseLockExclusive();
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}
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int64_t
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TimestampExtrapolator::ExtrapolateLocalTime(uint32_t timestamp90khz)
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{
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ReadLockScoped rl(*_rwLock);
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int64_t localTimeMs = 0;
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CheckForWrapArounds(timestamp90khz);
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double unwrapped_ts90khz = static_cast<double>(timestamp90khz) +
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_wrapArounds * ((static_cast<int64_t>(1) << 32) - 1);
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if (_packetCount == 0)
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{
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localTimeMs = -1;
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}
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else if (_packetCount < _startUpFilterDelayInPackets)
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{
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localTimeMs = _prevMs + static_cast<int64_t>(
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static_cast<double>(unwrapped_ts90khz - _prevUnwrappedTimestamp) /
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90.0 + 0.5);
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}
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else
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{
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if (_w[0] < 1e-3)
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{
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localTimeMs = _startMs;
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}
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else
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{
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double timestampDiff = unwrapped_ts90khz -
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static_cast<double>(_firstTimestamp);
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localTimeMs = static_cast<int64_t>(
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static_cast<double>(_startMs) + (timestampDiff - _w[1]) /
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_w[0] + 0.5);
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}
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}
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return localTimeMs;
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}
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// Investigates if the timestamp clock has overflowed since the last timestamp and
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// keeps track of the number of wrap arounds since reset.
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void
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TimestampExtrapolator::CheckForWrapArounds(uint32_t ts90khz)
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{
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if (_prevWrapTimestamp == -1)
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{
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_prevWrapTimestamp = ts90khz;
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return;
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}
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if (ts90khz < _prevWrapTimestamp)
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{
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// This difference will probably be less than -2^31 if we have had a wrap around
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// (e.g. timestamp = 1, _previousTimestamp = 2^32 - 1). Since it is casted to a Word32,
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// it should be positive.
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if (static_cast<int32_t>(ts90khz - _prevWrapTimestamp) > 0)
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{
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// Forward wrap around
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_wrapArounds++;
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}
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}
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// This difference will probably be less than -2^31 if we have had a backward wrap around.
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// Since it is casted to a Word32, it should be positive.
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else if (static_cast<int32_t>(_prevWrapTimestamp - ts90khz) > 0)
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{
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// Backward wrap around
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_wrapArounds--;
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}
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_prevWrapTimestamp = ts90khz;
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}
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bool
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TimestampExtrapolator::DelayChangeDetection(double error)
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{
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// CUSUM detection of sudden delay changes
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error = (error > 0) ? std::min(error, _accMaxError) :
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std::max(error, -_accMaxError);
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_detectorAccumulatorPos =
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std::max(_detectorAccumulatorPos + error - _accDrift, (double)0);
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_detectorAccumulatorNeg =
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std::min(_detectorAccumulatorNeg + error + _accDrift, (double)0);
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if (_detectorAccumulatorPos > _alarmThreshold || _detectorAccumulatorNeg < -_alarmThreshold)
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{
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// Alarm
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_detectorAccumulatorPos = _detectorAccumulatorNeg = 0;
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return true;
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}
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return false;
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}
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}
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