double EstimateResolutionDiffraction::getWavelength() {
double wavelength = getProperty("Wavelength");
if (!isEmpty(wavelength)) {
return wavelength;
}
Property *cwlproperty = m_inputWS->run().getProperty("LambdaRequest");
if (!cwlproperty)
throw runtime_error(
"Unable to locate property LambdaRequest as central wavelength. ");
TimeSeriesProperty<double> *cwltimeseries =
dynamic_cast<TimeSeriesProperty<double> *>(cwlproperty);
if (!cwltimeseries)
throw runtime_error(
"LambdaReqeust is not a TimeSeriesProperty in double. ");
string unit = cwltimeseries->units();
if (unit.compare("Angstrom") != 0) {
throw runtime_error("Unit is not recognized: " + unit);
}
return cwltimeseries->timeAverageValue();
}
void EstimatePDDetectorResolution::retrieveInstrumentParameters()
{
#if 0
// Call SolidAngle to get solid angles for all detectors
Algorithm_sptr calsolidangle = createChildAlgorithm("SolidAngle", -1, -1, true);
calsolidangle->initialize();
calsolidangle->setProperty("InputWorkspace", m_inputWS);
calsolidangle->execute();
if (!calsolidangle->isExecuted())
throw runtime_error("Unable to run solid angle. ");
m_solidangleWS = calsolidangle->getProperty("OutputWorkspace");
if (!m_solidangleWS)
throw runtime_error("Unable to get solid angle workspace from SolidAngle(). ");
size_t numspec = m_solidangleWS->getNumberHistograms();
for (size_t i = 0; i < numspec; ++i)
g_log.debug() << "[DB]: " << m_solidangleWS->readY(i)[0] << "\n";
#endif
// Calculate centre neutron velocity
Property* cwlproperty = m_inputWS->run().getProperty("LambdaRequest");
if (!cwlproperty)
throw runtime_error("Unable to locate property LambdaRequest as central wavelength. ");
TimeSeriesProperty<double>* cwltimeseries = dynamic_cast<TimeSeriesProperty<double>* >(cwlproperty);
if (!cwltimeseries)
throw runtime_error("LambdaReqeust is not a TimeSeriesProperty in double. ");
if (cwltimeseries->size() != 1)
throw runtime_error("LambdaRequest should contain 1 and only 1 entry. ");
double centrewavelength = cwltimeseries->nthValue(0);
string unit = cwltimeseries->units();
if (unit.compare("Angstrom") == 0)
centrewavelength *= 1.0E-10;
else
throw runtime_error("Unit is not recognized");
m_centreVelocity = PhysicalConstants::h/PhysicalConstants::NeutronMass/centrewavelength;
g_log.notice() << "Centre wavelength = " << centrewavelength << ", Centre neutron velocity = " << m_centreVelocity << "\n";
// Calcualte L1 sample to source
Instrument_const_sptr instrument = m_inputWS->getInstrument();
V3D samplepos = instrument->getSample()->getPos();
V3D sourcepos = instrument->getSource()->getPos();
m_L1 = samplepos.distance(sourcepos);
g_log.notice() << "L1 = " << m_L1 << "\n";
return;
}
