void SampleProcessor::populate_calibration( SignalObserver::Observer * parent ) { SignalObserver::Observers_var vec = parent->getSiblings(); if ( ( vec.ptr() != 0 ) && ( vec->length() > 0 ) ) { for ( CORBA::ULong i = 0; i < vec->length(); ++i ) { SignalObserver::Observer_ptr observer = vec[ i ]; unsigned long objId = observer->objId(); CORBA::WString_var dataClass; SignalObserver::octet_array_var data; CORBA::ULong idx = 0; while ( observer->readCalibration( idx++, data, dataClass ) ) { adfs::stmt sql( fs_->db() ); sql.prepare( "INSERT INTO Calibration VALUES(:objid,:dataClass,:data,0)" ); sql.bind( 1 ) = objId; sql.bind( 2 ) = std::wstring( dataClass.in() ); sql.bind( 3 ) = adfs::blob( data->length(), reinterpret_cast< const int8_t *>( data->get_buffer() ) ); if ( sql.step() == adfs::sqlite_done ) sql.commit(); else sql.reset(); } } for ( CORBA::ULong i = 0; i < vec->length(); ++i ) populate_calibration( vec[ i ] ); } }
void SampleProcessor::populate_descriptions( signalobserver::Observer * parent ) { #if 0 SignalObserver::Observers_var vec = parent->getSiblings(); unsigned long pobjId = parent->objId(); if ( ( vec.ptr() != 0 ) && ( vec->length() > 0 ) ) { for ( CORBA::ULong i = 0; i < vec->length(); ++i ) { SignalObserver::Observer_ptr observer = vec[ i ]; unsigned long objId = observer->objId(); CORBA::WString_var clsid = observer->dataInterpreterClsid(); SignalObserver::Description_var desc = observer->getDescription(); CORBA::WString_var trace_id = desc->trace_id.in(); CORBA::WString_var trace_display_name = desc->trace_display_name.in(); CORBA::WString_var axis_x_label = desc->axis_x_label.in(); CORBA::WString_var axis_y_label = desc->axis_y_label.in(); adutils::AcquiredConf::insert( fs_->db() , objId , pobjId , std::wstring( clsid.in() ) , uint64_t( desc->trace_method ) , uint64_t( desc->spectrometer ) , std::wstring( trace_id.in() ) , std::wstring( trace_display_name.in() ) , std::wstring( axis_x_label.in() ) , std::wstring( axis_y_label.in() ) , uint64_t( desc->axis_x_decimals ) , uint64_t( desc->axis_y_decimals ) ); } for ( CORBA::ULong i = 0; i < vec->length(); ++i ) populate_descriptions( vec[ i ] ); } #endif }
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::actionSnapshot() { if ( CORBA::is_nil( observer_ ) ) return; SignalObserver::Observers_var siblings = observer_->getSiblings(); for ( CORBA::ULong i = 0; i < siblings->length(); ++i ) { SignalObserver::Description_var desc = siblings[i]->getDescription(); if ( desc->trace_method == SignalObserver::eTRACE_SPECTRA ) { CORBA::ULongLong first, second; siblings[i]->uptime_range( first, second ); double m1 = double(second) / 60.0e6; double m0 = double(second - 1000) / 60.0e6; // 1s before // pThis_->selectRange( m0, m1, 0, 0 ); } } }
void orb_i::actionConnect() { if ( CORBA::is_nil( session_.in() ) ) { Broker::Manager_var broker = OrbConnection::instance()->brokerManager(); if ( ! CORBA::is_nil( broker ) ) { using namespace acewrapper::constants; CORBA::Object_var obj = broker->find_object( adcontroller::manager::_name() ); ::ControlServer::Manager_var manager = ::ControlServer::Manager::_narrow( obj ); if ( !CORBA::is_nil( manager ) ) { session_ = manager->getSession( "acquire" ); if ( !CORBA::is_nil( session_.in() ) ) { receiver_i_.reset( new receiver_i ); receiver_i_->assign_message( [this] ( ::Receiver::eINSTEVENT code, uint32_t value ){ emit onReceiverMessage( static_cast<unsigned long>(code), value ); }); receiver_i_->assign_log( [this] ( const ::EventLog::LogMessage& log ){ handle_receiver_log( log ); } ); receiver_i_->assign_shutdown( [this](){ handle_receiver_shutdown(); } ); receiver_i_->assign_debug_print( [this]( int32_t pri, int32_t cat, std::string text ){ handle_receiver_debug_print( pri, cat, text ); } ); connect( this, &orb_i::onReceiverMessage, this, &orb_i::handle_controller_message ); if ( session_->connect( receiver_i_->_this(), "acquire" ) ) { MainWindow::instance()->handleInstState( adicontroller::Instrument::eStandBy ); } if ( session_->status() <= ControlServer::eConfigured ) session_->initialize(); // Master signal observer observer_ = session_->getObserver(); if ( !CORBA::is_nil( observer_.in() ) ) { if ( !sink_ ) { sink_.reset( new adinterface::ObserverEvents_i ); sink_->assignConfigChanged( [=] ( uint32_t oid, SignalObserver::eConfigStatus st ){ handle_observer_config_changed( oid, st ); } ); sink_->assignUpdateData( [=] ( uint32_t oid, int32_t pos ){ handle_observer_update_data( oid, pos ); } ); sink_->assignMethodChanged( [=] ( uint32_t oid, int32_t pos ){ handle_observer_method_changed( oid, pos ); } ); sink_->assignEvent( [=] ( uint32_t oid, int32_t pos, int32_t ev ){ handle_observer_event( oid, pos, ev ); } ); observer_->connect( sink_->_this(), SignalObserver::Frequent, "acquireplugin" ); } // connect to 1st layer siblings ( := top shadow(cache) observer for each instrument ) SignalObserver::Observers_var siblings = observer_->getSiblings(); size_t nsize = siblings->length(); for ( CORBA::ULong i = 0; i < nsize; ++i ) { SignalObserver::Observer_var var = SignalObserver::Observer::_duplicate( siblings[ i ] ); impl_->populate( var ); } } } document::instance()->actionInitRun(); } } } if ( ! CORBA::is_nil( session_ ) ) { MainWindow::instance()->handleInstState( adicontroller::Instrument::eStandBy ); document::instance()->fsmStop(); } }