StatsManager::~StatsManager() { s_bStatsManagerEnabled = false; m_quit = 1; m_statsPipeCondition.wakeAll(); wait(); qDebug() << "StatsManager shutdown report:"; qDebug() << "====================================="; for (QMap<QString, Stat>::const_iterator it = m_stats.begin(); it != m_stats.end(); ++it) { qDebug() << it.value(); } qDebug() << "====================================="; if (CmdlineArgs::Instance().getTimelineEnabled()) { writeTimeline(CmdlineArgs::Instance().getTimelinePath()); } }
StatsManager::~StatsManager() { s_bStatsManagerEnabled = false; m_quit = 1; m_statsPipeCondition.wakeAll(); wait(); qDebug() << "StatsManager shutdown report:"; qDebug() << "====================================="; qDebug() << "ALL STATS"; qDebug() << "====================================="; for (QMap<QString, Stat>::const_iterator it = m_stats.begin(); it != m_stats.end(); ++it) { qDebug() << it.value(); } if (!m_baseStats.isEmpty()) { qDebug() << "====================================="; qDebug() << "BASE STATS"; qDebug() << "====================================="; for (QMap<QString, Stat>::const_iterator it = m_baseStats.begin(); it != m_baseStats.end(); ++it) { qDebug() << it.value(); } } if (!m_experimentStats.isEmpty()) { qDebug() << "====================================="; qDebug() << "EXPERIMENT STATS"; qDebug() << "====================================="; for (QMap<QString, Stat>::const_iterator it = m_experimentStats.begin(); it != m_experimentStats.end(); ++it) { qDebug() << it.value(); } } qDebug() << "====================================="; if (CmdlineArgs::Instance().getTimelineEnabled()) { writeTimeline(CmdlineArgs::Instance().getTimelinePath()); } }
void distributionFunctionObject::write() { clearDistributions(); getDistribution(); if(writeTimeline() && startup_) { timelineFunctionObject::start(); } startup_=false; bool zeroDistribution=false; if( distScalar_.valid() && distScalar_->maxNrBins()<=0 ) { zeroDistribution=true; } if( distVector_.valid() && distVector_->maxNrBins()<=0 ) { zeroDistribution=true; } if( distTensor_.valid() && distTensor_->maxNrBins()<=0 ) { zeroDistribution=true; } if( distSymmTensor_.valid() && distSymmTensor_->maxNrBins()<=0 ) { zeroDistribution=true; } if( distSphericalTensor_.valid() && distSphericalTensor_->maxNrBins()<=0 ) { zeroDistribution=true; } if(zeroDistribution) { WarningIn("distributionFunctionObject::write") << "Distribution for " << name() << " has size 0. " << "Doing nothing" << endl; return; } if(Pstream::master()) { if(writeTimeline()) { writeATimeline(distScalar_); writeATimeline(distVector_); writeATimeline(distTensor_); writeATimeline(distSymmTensor_); writeATimeline(distSphericalTensor_); } if(writeDistribution()) { writeADistribution(distScalar_); writeADistribution(distVector_); writeADistribution(distTensor_); writeADistribution(distSymmTensor_); writeADistribution(distSphericalTensor_); } if(verbose()) { reportADistribution(distScalar_); reportADistribution(distVector_); reportADistribution(distTensor_); reportADistribution(distSymmTensor_); reportADistribution(distSphericalTensor_); } } }
void distributionFunctionObject::flush() { if(writeTimeline()) { timelineFunctionObject::flush(); } }