void PoldiAutoCorrelation5::logConfigurationInformation( boost::shared_ptr<PoldiDeadWireDecorator> cleanDetector, PoldiAbstractChopper_sptr chopper) { if (cleanDetector && chopper) { g_log.information() << "____________________________________________________ " << std::endl; g_log.information() << "_Poldi chopper conf ------------------------------ " << std::endl; g_log.information() << "_Poldi - Chopper speed: " << chopper->rotationSpeed() << " rpm" << std::endl; g_log.information() << "_Poldi - Number of slits: " << chopper->slitPositions().size() << std::endl; g_log.information() << "_Poldi - Cycle time: " << chopper->cycleTime() << " µs" << std::endl; g_log.information() << "_Poldi - Zero offset: " << chopper->zeroOffset() << " µs" << std::endl; g_log.information() << "_Poldi - Distance: " << chopper->distanceFromSample() << " mm" << std::endl; if (g_log.is(Poco::Message::PRIO_DEBUG)) { for (size_t i = 0; i < chopper->slitPositions().size(); ++i) { g_log.information() << "_Poldi - Slits: " << i << ": Position = " << chopper->slitPositions()[i] << "\t Time = " << chopper->slitTimes()[i] << " µs" << std::endl; } } g_log.information() << "_Poldi detector conf ------------------------------ " << std::endl; g_log.information() << "_Poldi - Element count: " << cleanDetector->elementCount() << std::endl; g_log.information() << "_Poldi - Central element: " << cleanDetector->centralElement() << std::endl; g_log.information() << "_Poldi - 2Theta(central): " << cleanDetector->twoTheta(199) / M_PI * 180.0 << "°" << std::endl; g_log.information() << "_Poldi - Distance(central): " << cleanDetector->distanceFromSample(199) << " mm" << std::endl; std::set<int> deadWires = cleanDetector->deadWires(); g_log.information() << "_Poldi - Number of dead wires: " << deadWires.size() << std::endl; g_log.information() << "_Poldi - Wire indices: "; for (std::set<int>::const_iterator dw = deadWires.begin(); dw != deadWires.end(); ++dw) { g_log.information() << *dw << " "; } g_log.information() << std::endl; } }
/** * Initializes chopper offsets and time transformer * * In this method, the instrument dependent parameter for the calculation are * setup, so that a PoldiTimeTransformer is available to transfer parameters to * the time domain using correct factors etc. * * @param poldiInstrument :: Valid PoldiInstrumentAdapter */ void PoldiSpectrumDomainFunction::initializeInstrumentParameters( const PoldiInstrumentAdapter_sptr &poldiInstrument) { m_timeTransformer = boost::make_shared<PoldiTimeTransformer>(poldiInstrument); m_chopperSlitOffsets = getChopperSlitOffsets(poldiInstrument->chopper()); if (!poldiInstrument) { throw std::runtime_error("No valid POLDI instrument."); } m_2dHelpers.clear(); PoldiAbstractDetector_sptr detector = poldiInstrument->detector(); PoldiAbstractChopper_sptr chopper = poldiInstrument->chopper(); std::pair<double, double> qLimits = detector->qLimits(1.1, 5.0); double dMin = Conversions::qToD(qLimits.second); double dMax = Conversions::dToQ(qLimits.first); for (int i = 0; i < static_cast<int>(detector->elementCount()); ++i) { double sinTheta = sin(detector->twoTheta(i) / 2.0); double distance = detector->distanceFromSample(i) + chopper->distanceFromSample(); double deltaD = Conversions::TOFtoD(m_deltaT, distance, sinTheta); Poldi2DHelper_sptr curr = boost::make_shared<Poldi2DHelper>(); curr->setChopperSlitOffsets(distance, sinTheta, deltaD, m_chopperSlitOffsets); curr->setDomain(dMin, dMax, deltaD); curr->deltaD = deltaD; curr->minTOFN = static_cast<int>( Conversions::dtoTOF(dMin, distance, sinTheta) / m_deltaT); curr->setFactors(m_timeTransformer, static_cast<size_t>(i)); m_2dHelpers.push_back(curr); } }