/** function extracts the coordinates from additional workspace properties and
*places them to proper position within
* the vector of MD coordinates for the particular workspace.
*
* @param inWS2D -- input workspace
* @param dimPropertyNames -- names of properties which should be treated as
*dimensions
* @param AddCoord --
*
* @return AddCoord -- vector of additional coordinates (derived from WS
*properties) for current multidimensional event
*/
void MDWSDescription::fillAddProperties(
Mantid::API::MatrixWorkspace_const_sptr inWS2D,
const std::vector<std::string> &dimPropertyNames,
std::vector<coord_t> &AddCoord) {
size_t nDimPropNames = dimPropertyNames.size();
if (AddCoord.size() != nDimPropNames)
AddCoord.resize(nDimPropNames);
for (size_t i = 0; i < nDimPropNames; i++) {
// HACK: A METHOD, Which converts TSP into value, correspondent to time
// scale of matrix workspace has to be developed and deployed!
Kernel::Property *pProperty =
(inWS2D->run().getProperty(dimPropertyNames[i]));
Kernel::TimeSeriesProperty<double> *run_property =
dynamic_cast<Kernel::TimeSeriesProperty<double> *>(pProperty);
if (run_property) {
AddCoord[i] = coord_t(run_property->firstValue());
} else {
// e.g Ei can be a property and dimension
Kernel::PropertyWithValue<double> *proc_property =
dynamic_cast<Kernel::PropertyWithValue<double> *>(pProperty);
if (!proc_property) {
std::string ERR =
" Can not interpret property, used as dimension.\n Property: " +
dimPropertyNames[i] + " is neither a time series (run) property "
"nor a property with value<double>";
throw(std::invalid_argument(ERR));
}
AddCoord[i] = coord_t(*(proc_property));
}
}
}
std::tuple<double, double, double> EnggDiffFittingModel::getDifcDifaTzero(
Mantid::API::MatrixWorkspace_const_sptr ws) {
const auto run = ws->run();
const auto difc = run.getPropertyValueAsType<double>("difc");
const auto difa = run.getPropertyValueAsType<double>("difa");
const auto tzero = run.getPropertyValueAsType<double>("tzero");
return std::tuple<double, double, double>(difc, difa, tzero);
}
/**The method responsible for analyzing input workspace parameters and
*preprocessing detectors positions into reciprocal space
*
* @param InWS2D -- input Matrix workspace with defined instrument
* @param dEModeRequested -- energy conversion mode (direct/indirect/elastic)
* @param updateMasks -- if full detector positions calculations or just update
*masking requested
* @param OutWSName -- the name for the preprocessed detectors workspace to
*have in the analysis data service
*
* @return shared pointer to the workspace with preprocessed detectors
*information.
*/
DataObjects::TableWorkspace_const_sptr
ConvertToMDParent::preprocessDetectorsPositions(
const Mantid::API::MatrixWorkspace_const_sptr &InWS2D,
const std::string &dEModeRequested, bool updateMasks,
const std::string &OutWSName) {
DataObjects::TableWorkspace_sptr TargTableWS;
Kernel::DeltaEMode::Type Emode;
// Do we need to reuse output workspace
bool storeInDataService(true);
std::string tOutWSName(OutWSName);
if (tOutWSName == "-" ||
tOutWSName.empty()) // TargTableWS is recalculated each time;
{
storeInDataService = false;
tOutWSName = "ServiceTableWS"; // TODO: should be hidden?
} else {
storeInDataService = true;
}
// if output workspace exists in dataservice, we may try to use it
if (storeInDataService &&
API::AnalysisDataService::Instance().doesExist(tOutWSName)) {
TargTableWS = API::AnalysisDataService::Instance()
.retrieveWS<DataObjects::TableWorkspace>(tOutWSName);
// get number of all histograms (may be masked or invalid)
size_t nHist = InWS2D->getNumberHistograms();
size_t nDetMap = TargTableWS->rowCount();
if (nHist == nDetMap) {
// let's take at least some precaution to ensure that instrument have not
// changed
std::string currentWSInstrumentName = InWS2D->getInstrument()->getName();
std::string oldInstrName =
TargTableWS->getLogs()->getPropertyValueAsType<std::string>(
"InstrumentName");
if (oldInstrName == currentWSInstrumentName) {
// a direct mode instrument can be unchanged but incident energy can be
// different.
// It is cheap operation so we should always replace incident energy on
// the target workspace
bool hasEi = InWS2D->run().hasProperty("Ei");
bool hasEfix = InWS2D->run().hasProperty("eFixed");
if (hasEi || hasEfix) {
double Ei;
if (hasEi)
Ei = InWS2D->run().getPropertyValueAsType<double>("Ei");
if (hasEfix)
Ei = InWS2D->run().getPropertyValueAsType<double>("eFixed");
TargTableWS->logs()->addProperty<double>("Ei", Ei, true);
} else {
Emode = Kernel::DeltaEMode::fromString(dEModeRequested);
if (Emode == Kernel::DeltaEMode::Direct)
throw(std::invalid_argument(
"Input neutron's energy has to be present at the workspace as "
"Ei or eFixed number log in Direct inelastic mode"));
// if(Emode==Kernel::DeltaEMode::Indirect && !hasEfix)
// throw(std::invalid_argument("Input neutron's energy has to be
// present at the workspace as eFixed number log in Indirect
// inelastic mode"));
}
if (!updateMasks)
return TargTableWS;
// Target workspace with preprocessed detectors exists and seems is
// correct one.
// We still need to update masked detectors information
TargTableWS = this->runPreprocessDetectorsToMDChildUpdatingMasks(
InWS2D, tOutWSName, dEModeRequested, Emode);
return TargTableWS;
}
} else // there is a workspace in the data service with the same name but
// this ws is not suitable as target for this algorithm.
{ // Should delete this WS from the dataservice
API::AnalysisDataService::Instance().remove(tOutWSName);
}
}
// No result found in analysis data service or the result is unsatisfactory.
// Try to calculate target workspace.
TargTableWS = this->runPreprocessDetectorsToMDChildUpdatingMasks(
InWS2D, tOutWSName, dEModeRequested, Emode);
if (storeInDataService)
API::AnalysisDataService::Instance().addOrReplace(tOutWSName, TargTableWS);
// else
// TargTableWS->setName(OutWSName);
// check if we got what we wanted:
// in direct or indirect mode input ws has to have input energy
if (Emode == Kernel::DeltaEMode::Direct ||
Emode == Kernel::DeltaEMode::Indirect) {
double m_Ei = TargTableWS->getLogs()->getPropertyValueAsType<double>("Ei");
if (isNaN(m_Ei)) {
// Direct mode needs Ei
if (Emode == Kernel::DeltaEMode::Direct)
throw(std::invalid_argument(
"Input neutron's energy has to be defined in inelastic mode "));
// Do we have at least something for Indirect?
float *eFixed = TargTableWS->getColDataArray<float>("eFixed");
if (!eFixed)
throw(std::invalid_argument(
"Input neutron's energy has to be defined in inelastic mode "));
uint32_t NDetectors =
TargTableWS->getLogs()->getPropertyValueAsType<uint32_t>(
"ActualDetectorsNum");
for (uint32_t i = 0; i < NDetectors; i++)
if (isNaN(*(eFixed + i)))
throw(
std::invalid_argument("Undefined eFixed energy for detector N: " +
boost::lexical_cast<std::string>(i)));
}
}
return TargTableWS;
}