Now
bigtime_t Now();
fDefaultChunkSizeParamChangeTime = TimeSource()->Now();
fDefaultBitRateParamChangeTime = TimeSource()->Now();
fDefaultBufferPeriodParamChangeTime = TimeSource()->Now();
delay = start_time - TimeSource()->Now();
start_time - TimeSource()->Now());
delay = start_time - TimeSource()->Now();
- TimeSource()->Now());
bigtime_t now = TimeSource()->Now();
SetParameterValue(parameterID, TimeSource()->Now(), data, size);
bigtime_t now = TimeSource()->Now();
h->start_time = TimeSource()->Now();
fLastLateNotification = TimeSource()->Now() + howMuch;
*last_change = TimeSource()->Now(); // XXX we could do better
NotifyLateProducer(source, variation, TimeSource()->Now());
fTimeSource->Now(), fDownstreamLatency);
const bigtime_t start = fTimeSource->Now();
"frames %ld to %ld and %ld to %ld\n", fCore->fTimeSource->Now(),
"frames %ld to %ld\n", fCore->fTimeSource->Now(), start,
SetParameterValue(parameterID, TimeSource()->Now(), data, size);
bigtime_t now = TimeSource()->Now();
SetParameterValue(parameterID, TimeSource()->Now(), data, size);
header->start_time = TimeSource()->Now();
performance_time, TimeSource()->Now()));
mFreqLastChanged = TimeSource()->Now();
mGainLastChanged = TimeSource()->Now();
mWaveLastChanged = TimeSource()->Now();
bigtime_t now = TimeSource()->Now();
EventQueue()->FlushEvents(TimeSource()->Now(),
media_timed_event event(TimeSource()->Now() + 5000000,
|| ((TimeSource()->Now() >
&& (TimeSource()->Now() <
bigtime_t when = m_timeSourceObj->Now() + offset;
tpStart = m_timeSourceObj->Now() + offset;
if(m_timeSourceObj->Now() >= m_cycleDeadline) {
if(m_timeSourceObj->Now() >= m_cycleDeadline + endDelta) {
bigtime_t tpTarget = ts->Now() + m_positionUpdatePeriod;
bigtime_t now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
bigtime_t now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
performance_time, TimeSource()->Now()));
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
logMsg.now = TimeSource()->Now();
bigtime_t now = TimeSource()->Now();
r->StartNode(mConnection.consumer, ts->Now());
r->StartNode(mConnection.producer, ts->Now() + latency);
bigtime_t now = TimeSource()->Now();
TimeSource()->Now(), SchedulingLatency());
bigtime_t start_time = ts->Now() + 50000;
source->Now() + latency);
TimeSource()->Now());
perfTime = TimeSource()->Now();
fOutputNode, fNode->TimeSource()->Now());
fPlayerNode->TimeSource()->Now() + Latency() + 5000);
return fPlayerNode->TimeSource()->Now();
remoteNode, fNode->TimeSource()->Now());
fNode->Node(), fNode->TimeSource()->Now());
fNode->Node(), fNode->TimeSource()->Now());
start_at = ts->Now() + 50000;
TimeSource()->Now() / 1E6,lateness / 1E6);
buffer->Header()->start_time = TimeSource()->Now() + DELAY / 2;