void TransformMD::doTransform( typename Mantid::MDEvents::MDEventWorkspace<MDE, nd>::sptr ws) { std::vector<API::IMDNode *> boxes; // Get ALL the boxes, including MDGridBoxes. ws->getBox()->getBoxes(boxes, 1000, false); // If file backed, sort them first. if (ws->isFileBacked()) API::IMDNode::sortObjByID(boxes); PARALLEL_FOR_IF(!ws->isFileBacked()) for (int i = 0; i < int(boxes.size()); i++) { PARALLEL_START_INTERUPT_REGION MDBoxBase<MDE, nd> *box = dynamic_cast<MDBoxBase<MDE, nd> *>(boxes[i]); if (box) { box->transformDimensions(m_scaling, m_offset); } PARALLEL_END_INTERUPT_REGION } PARALLEL_CHECK_INTERUPT_REGION }
void QueryMDWorkspace::getBoxData(typename Mantid::MDEvents::MDEventWorkspace<MDE, nd>::sptr ws) { if (this->getPropertyValue("BoxDataTable").empty()) return; ITableWorkspace_sptr output = WorkspaceFactory::Instance().createTable(); output->addColumn("int", "RecursionDepth"); output->addColumn("int", "NumBoxes"); output->addColumn("int", "NumWithEvents"); output->addColumn("double", "PctWithEvents"); output->addColumn("int", "TotalEvents"); output->addColumn("double", "AvgEventsPer"); output->addColumn("double", "TotalWeight"); output->addColumn("double", "TotalSignal"); output->addColumn("double", "TotalErrorSquared"); for (size_t d=0; d<nd; d++) output->addColumn("double", "Dim" + Strings::toString(d)); size_t depth=ws->getBoxController()->getMaxDepth()+1; std::vector<int> NumBoxes(depth, 0); std::vector<int> NumWithEvents(depth, 0); std::vector<int> TotalEvents(depth, 0); std::vector<double> TotalWeight(depth, 0); std::vector<double> TotalSignal(depth, 0); std::vector<double> TotalErrorSquared(depth, 0); std::vector<std::vector<double> > Dims(depth, std::vector<double>(nd,0.0) ); std::vector<MDBoxBase<MDE,nd> *> boxes; ws->getBox()->getBoxes(boxes, depth, true); for (size_t i=0; i<boxes.size(); i++) { MDBoxBase<MDE,nd> * box = boxes[i]; size_t d = box->getDepth(); NumBoxes[d] += 1; if (box->getNPoints() > 0) NumWithEvents[d] += 1; TotalEvents[d] += static_cast<int>(box->getNPoints()); TotalWeight[d] += box->getTotalWeight(); TotalSignal[d] += box->getSignal(); TotalErrorSquared[d] += box->getErrorSquared(); for (size_t dim=0; dim<nd; dim++) Dims[d][dim] = double(box->getExtents(dim).getSize()); } int rowCounter = 0; for (size_t d=0; d<depth; d++) { int col = 0; output->appendRow(); output->cell<int>(rowCounter, col++) = int(d); output->cell<int>(rowCounter, col++) = NumBoxes[d]; output->cell<int>(rowCounter, col++) = NumWithEvents[d]; output->cell<double>(rowCounter, col++) = 100.0 * double(NumWithEvents[d]) / double(NumBoxes[d]); output->cell<int>(rowCounter, col++) = TotalEvents[d]; output->cell<double>(rowCounter, col++) = double(TotalEvents[d]) / double(NumBoxes[d]); output->cell<double>(rowCounter, col++) = TotalWeight[d]; output->cell<double>(rowCounter, col++) = TotalSignal[d]; output->cell<double>(rowCounter, col++) = TotalErrorSquared[d]; for (size_t dim=0; dim<nd; dim++) output->cell<double>(rowCounter, col++) = Dims[d][dim]; rowCounter++; } setProperty("BoxDataTable", output); }