Exemplo n.º 1
0
bool CDVDClock::Update(double clock, double absolute, double limit, const char* log)
{
  CExclusiveLock lock(m_critSection);
  double was_absolute = SystemToAbsolute(m_startClock);
  double was_clock    = m_iDisc + absolute - was_absolute;
  lock.Leave();

  double error = std::abs(clock - was_clock);

  // skip minor updates while speed adjust is active
  // -> adjusting buffer levels
  if (m_speedAdjust != 0 && error < DVD_MSEC_TO_TIME(100))
  {
    return false;
  }
  else if (error > limit)
  {
    Discontinuity(clock, absolute);

    CLog::Log(LOGDEBUG, "CDVDClock::Discontinuity - %s - was:%f, should be:%f, error:%f"
                      , log
                      , was_clock
                      , clock
                      , clock - was_clock);
    return true;
  }
  else
    return false;
}
Exemplo n.º 2
0
// Returns the current absolute clock in units of DVD_TIME_BASE (usually microseconds).
double OMXClock::GetAbsoluteClock(bool interpolated /*= true*/)
{
  Lock();
  CheckSystemClock();
  double current = GetTime();
  UnLock();
  return SystemToAbsolute(current);
}
Exemplo n.º 3
0
// Returns the current absolute clock in units of DVD_TIME_BASE (usually microseconds).
double CDVDClock::GetAbsoluteClock(bool interpolated /*= true*/)
{
  CSingleLock lock(m_systemsection);

  int64_t current;
  current = m_videoRefClock->GetTime(interpolated);

  return SystemToAbsolute(current);
}
Exemplo n.º 4
0
double OMXClock::GetAbsoluteClock(bool interpolated /*= true*/)
{
  Lock();
  CheckSystemClock();

  int64_t current;
  current = g_VideoReferenceClock.GetTime(interpolated);

  UnLock();
  return SystemToAbsolute(current);
}
Exemplo n.º 5
0
double OMXClock::GetClock(double& absolute, bool interpolated /*= true*/)
{
  int64_t current = GetTime(interpolated);

  Lock();
  CheckSystemClock();
  absolute = SystemToAbsolute(current);
  UnLock();

  return SystemToPlaying(current);
}
Exemplo n.º 6
0
double CDVDClock::GetClock(double& absolute, bool interpolated /*= true*/)
{
  int64_t current = g_VideoReferenceClock.GetTime(interpolated);
  {
    CSingleLock lock(m_systemsection);
    CheckSystemClock();
    absolute = SystemToAbsolute(current);
  }

  return GetClock(interpolated);
}
Exemplo n.º 7
0
double CDVDClock::GetClock(double& absolute, bool interpolated /*= true*/)
{
  int64_t current = m_videoRefClock->GetTime(interpolated);

  CSingleLock lock(m_systemsection);
  absolute = SystemToAbsolute(current);

  m_systemAdjust += m_speedAdjust * (current - m_lastSystemTime);
  m_lastSystemTime = current;

  return SystemToPlaying(current);
}
Exemplo n.º 8
0
// Returns the current absolute clock in units of DVD_TIME_BASE (usually microseconds).
double CDVDClock::GetAbsoluteClock(bool interpolated /*= true*/)
{
  CSingleLock lock(m_systemsection);
  CheckSystemClock();

  int64_t current;
  current = g_VideoReferenceClock.GetTime(interpolated);

#if _DEBUG
  if (interpolated) //only compare interpolated time, clock might go backwards otherwise
  {
    static int64_t old;
    if(old > current)
      CLog::Log(LOGWARNING, "CurrentHostCounter() moving backwords by %"PRId64" ticks with freq of %"PRId64, old - current, m_systemFrequency);
    old = current;
  }
#endif

  return SystemToAbsolute(current);
}
Exemplo n.º 9
0
bool CDVDClock::Update(double clock, double absolute, double limit, const char* log)
{
  CExclusiveLock lock(m_critSection);
  double was_absolute = SystemToAbsolute(m_startClock);
  double was_clock    = m_iDisc + absolute - was_absolute;
  lock.Leave();
  if(std::abs(clock - was_clock) > limit)
  {
    Discontinuity(clock, absolute);

    CLog::Log(LOGDEBUG, "CDVDClock::Discontinuity - %s - was:%f, should be:%f, error:%f"
                      , log
                      , was_clock
                      , clock
                      , clock - was_clock);
    return true;
  }
  else
    return false;
}