void populate( SignalObserver::Observer_var& observer ) {
SignalObserver::Description_var topLevelDesc = observer->getDescription();
std::string topLevelName = topLevelDesc->trace_display_name.in();
//traceBox_->addItem( QString::fromStdString( topLevelName ) );
//todo: set name on MainWindow's traceBox_
SignalObserver::Observers_var children = observer->getSiblings();
for ( CORBA::ULong i = 0; i < children->length(); ++i ) {
SignalObserver::Description_var secondLevelDesc = children[i]->getDescription();
CORBA::String_var secondLevelName = children[i]->getDescription()->trace_display_name.in();
//traceBox_->addItem( QString( " %1" ).arg( secondLevelName.in() ) );
}
}
void
orb_i::handle_update_data( unsigned long objId, long pos )
{
ACE_UNUSED_ARG( pos );
try {
std::lock_guard< std::mutex > lock( task_->mutex_ );
if ( observerMap_.find( objId ) == observerMap_.end() ) {
SignalObserver::Observer_var tgt = observer_->findObserver( objId, true );
if ( CORBA::is_nil( tgt.in() ) )
return;
CORBA::String_var name = tgt->dataInterpreterClsid();
if ( auto spectrometer = adcontrols::MassSpectrometerBroker::make_massspectrometer( name.in() )) {
SignalObserver::Description_var desc = tgt->getDescription();
observerMap_[ objId ] = std::make_tuple( tgt, desc, adportable::utf::to_wstring( name.in() ), false, spectrometer );
npos_map_[ objId ] = pos;
} else {
ADTRACE() << "receive data from unavilable spectrometer: " << name.in();
return;
}
}
} catch ( ... ) {
ADDEBUG() << boost::current_exception_diagnostic_information();
}
try {
long& npos = npos_map_[ objId ];
if ( pos < npos )
return;
auto it = observerMap_.find( objId );
SignalObserver::Observer_ptr tgt = std::get<0>( it->second ).in();
SignalObserver::Description_var& desc = std::get<1>( it->second );
auto spectrometer = std::get<4>( it->second );
CORBA::String_var name = tgt->dataInterpreterClsid();
auto interpreter = adcontrols::DataInterpreterBroker::make_datainterpreter( name.in() );
if ( !interpreter )
return;
const adcontrols::DataInterpreter& dataInterpreter = *interpreter; //spectrometer->getDataInterpreter();
if ( desc->trace_method == SignalObserver::eTRACE_SPECTRA ) {
// ADDEBUG() << "handle_updae_data( " << objId << ", " << pos << ") npos=" << npos;
if ( !std::get<3>( it->second ) )
std::get<3>( it->second ) = readCalibrations( it->second );
try {
SignalObserver::DataReadBuffer_var rb;
while ( tgt->readData( npos, rb ) && npos <= pos ) {
ADDEBUG() << "\treadData( " << npos << " ) " << rb->pos;
++npos;
impl_->readMassSpectra( rb, *spectrometer, dataInterpreter, objId );
}
emit onUpdateUIData( objId, pos );
} catch ( CORBA::Exception& ex ) {
ADTRACE() << "handle_update_data got an corba exception: " << ex._info().c_str();
} catch ( ... ) {
ADTRACE() << boost::current_exception_diagnostic_information();
}
} else if ( desc->trace_method == SignalObserver::eTRACE_TRACE ) {
try {
SignalObserver::DataReadBuffer_var rb;
while ( tgt->readData( npos, rb ) ) {
npos = rb->pos + rb->ndata;
impl_->readTrace( desc, rb, dataInterpreter, objId );
emit onUpdateUIData( objId, pos );
return;
}
} catch ( CORBA::Exception& ex ) {
ADTRACE() << "handle_update_data got an corba exception: " << ex._info().c_str();
}
}
} catch ( ... ) {
ADDEBUG() << boost::current_exception_diagnostic_information();
}
}