static well_node_type * well_node_alloc( well_state_type * well_state) { well_node_type * node = util_malloc( sizeof * node ); UTIL_TYPE_ID_INIT( node , WELL_NODE_TYPE_ID ); node->report_nr = well_state_get_report_nr( well_state ); node->sim_time = well_state_get_sim_time( well_state ); node->well_state = well_state; return node; }
//-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RifReaderEclipseOutput::readWellCells(RigReservoir* reservoir) { CVF_ASSERT(reservoir); if (m_dynamicResultsAccess.isNull()) return; well_info_type* ert_well_info = well_info_alloc(NULL); if (!ert_well_info) return; m_dynamicResultsAccess->readWellData(ert_well_info); RigMainGrid* mainGrid = reservoir->mainGrid(); std::vector<RigGridBase*> grids; reservoir->allGrids(&grids); cvf::Collection<RigWellResults> wells; caf::ProgressInfo progress(well_info_get_num_wells(ert_well_info), ""); int wellIdx; for (wellIdx = 0; wellIdx < well_info_get_num_wells(ert_well_info); wellIdx++) { const char* wellName = well_info_iget_well_name(ert_well_info, wellIdx); CVF_ASSERT(wellName); cvf::ref<RigWellResults> wellResults = new RigWellResults; wellResults->m_wellName = wellName; well_ts_type* ert_well_time_series = well_info_get_ts(ert_well_info , wellName); int timeStepCount = well_ts_get_size(ert_well_time_series); wellResults->m_wellCellsTimeSteps.resize(timeStepCount); int timeIdx; for (timeIdx = 0; timeIdx < timeStepCount; timeIdx++) { well_state_type* ert_well_state = well_ts_iget_state(ert_well_time_series, timeIdx); RigWellResultFrame& wellResFrame = wellResults->m_wellCellsTimeSteps[timeIdx]; // Build timestamp for well // Also see RifEclipseOutputFileAccess::timeStepsText for accessing time_t structures { time_t stepTime = well_state_get_sim_time(ert_well_state); wellResFrame.m_timestamp = QDateTime::fromTime_t(stepTime); } // Production type well_type_enum ert_well_type = well_state_get_type(ert_well_state); if (ert_well_type == PRODUCER) { wellResFrame.m_productionType = RigWellResultFrame::PRODUCER; } else if (ert_well_type == WATER_INJECTOR) { wellResFrame.m_productionType = RigWellResultFrame::WATER_INJECTOR; } else if (ert_well_type == GAS_INJECTOR) { wellResFrame.m_productionType = RigWellResultFrame::GAS_INJECTOR; } else if (ert_well_type == OIL_INJECTOR) { wellResFrame.m_productionType = RigWellResultFrame::OIL_INJECTOR; } else { wellResFrame.m_productionType = RigWellResultFrame::UNDEFINED_PRODUCTION_TYPE; } wellResFrame.m_isOpen = well_state_is_open( ert_well_state ); // Loop over all the grids in the model. If we have connections in one, we will discard // the maingrid connections as they are "duplicates" bool hasWellConnectionsInLGR = false; for (size_t gridNr = 1; gridNr < grids.size(); ++gridNr) { int branchCount = well_state_iget_lgr_num_branches(ert_well_state, static_cast<int>(gridNr)); if (branchCount > 0) { hasWellConnectionsInLGR = true; break; } } size_t gridNr = hasWellConnectionsInLGR ? 1 : 0; for (; gridNr < grids.size(); ++gridNr) { // Wellhead. If several grids have a wellhead definition for this well, we use tha last one. (Possibly the innermost LGR) const well_conn_type* ert_wellhead = well_state_iget_wellhead(ert_well_state, static_cast<int>(gridNr)); if (ert_wellhead) { int cellI = well_conn_get_i( ert_wellhead ); int cellJ = well_conn_get_j( ert_wellhead ); int cellK = CVF_MAX(0, well_conn_get_k(ert_wellhead)); // Why this ? // If a well is defined in fracture region, the K-value is from (cellCountK - 1) -> cellCountK*2 - 1 // Adjust K so index is always in valid grid region if (cellK >= grids[gridNr]->cellCountK()) { cellK -= static_cast<int>(grids[gridNr]->cellCountK()); } wellResFrame.m_wellHead.m_gridCellIndex = grids[gridNr]->cellIndexFromIJK(cellI, cellJ, cellK); wellResFrame.m_wellHead.m_gridIndex = gridNr; } int branchCount = well_state_iget_lgr_num_branches(ert_well_state, static_cast<int>(gridNr)); if (branchCount > 0) { if (static_cast<int>(wellResFrame.m_wellResultBranches.size()) < branchCount) wellResFrame.m_wellResultBranches.resize(branchCount); for (int branchIdx = 0; branchIdx < branchCount; ++branchIdx ) { // Connections int connectionCount = well_state_iget_num_lgr_connections(ert_well_state, static_cast<int>(gridNr), branchIdx); if (connectionCount > 0) { RigWellResultBranch& wellSegment = wellResFrame.m_wellResultBranches[branchIdx]; // Is this completely right? Is the branch index actually the same between lgrs ? wellSegment.m_branchNumber = branchIdx; size_t existingConnCount = wellSegment.m_wellCells.size(); wellSegment.m_wellCells.resize(existingConnCount + connectionCount); int connIdx; for (connIdx = 0; connIdx < connectionCount; connIdx++) { const well_conn_type* ert_connection = well_state_iget_lgr_connections( ert_well_state, static_cast<int>(gridNr), branchIdx)[connIdx]; CVF_ASSERT(ert_connection); RigWellResultCell& data = wellSegment.m_wellCells[existingConnCount + connIdx]; data.m_gridIndex = gridNr; { int cellI = well_conn_get_i( ert_connection ); int cellJ = well_conn_get_j( ert_connection ); int cellK = well_conn_get_k( ert_connection ); bool open = well_conn_open( ert_connection ); int branch = well_conn_get_branch( ert_connection ); int segment = well_conn_get_segment( ert_connection ); // If a well is defined in fracture region, the K-value is from (cellCountK - 1) -> cellCountK*2 - 1 // Adjust K so index is always in valid grid region if (cellK >= grids[gridNr]->cellCountK()) { cellK -= static_cast<int>(grids[gridNr]->cellCountK()); } data.m_gridCellIndex = grids[gridNr]->cellIndexFromIJK(cellI , cellJ , cellK); data.m_isOpen = open; data.m_branchId = branch; data.m_segmentId = segment; } } } } } } } wellResults->computeMappingFromResultTimeIndicesToWellTimeIndices(m_timeSteps); wells.push_back(wellResults.p()); progress.incrementProgress(); } well_info_free(ert_well_info); reservoir->setWellResults(wells); }