ecl_nnc_geometry_type * ecl_nnc_geometry_alloc( const ecl_grid_type * grid ) { ecl_nnc_geometry_type * nnc_geo = (ecl_nnc_geometry_type*)util_malloc( sizeof * nnc_geo ); UTIL_TYPE_ID_INIT( nnc_geo , ECL_NNC_GEOMETRY_TYPE_ID ); nnc_geo->data = struct_vector_alloc( sizeof( struct ecl_nnc_pair_struct )); ecl_nnc_geometry_add_pairs( nnc_geo , grid ); for (int lgr_index = 0; lgr_index < ecl_grid_get_num_lgr(grid); lgr_index++) { ecl_grid_type * igrid = ecl_grid_iget_lgr( grid , lgr_index ); ecl_nnc_geometry_add_pairs( nnc_geo, igrid ); } struct_vector_sort( nnc_geo->data , ecl_nnc_cmp ); return nnc_geo; }
int ecl_nnc_export( const ecl_grid_type * grid , const ecl_file_type * init_file , ecl_nnc_type * nnc_data) { int nnc_index = 0; int total_valid_trans = 0; total_valid_trans = ecl_nnc_export__( grid , 0 , init_file , nnc_data , &nnc_index ); { int lgr_index; for (lgr_index = 0; lgr_index < ecl_grid_get_num_lgr(grid); lgr_index++) { ecl_grid_type * igrid = ecl_grid_iget_lgr( grid , lgr_index ); total_valid_trans += ecl_nnc_export__( igrid , lgr_index , init_file , nnc_data , &nnc_index ); } } nnc_index = ecl_nnc_export_get_size( grid ); ecl_nnc_sort( nnc_data , nnc_index ); return total_valid_trans; }
//-------------------------------------------------------------------------------------------------- /// Read geometry from file given by name into given reservoir object //-------------------------------------------------------------------------------------------------- bool RifReaderEclipseOutput::transferGeometry(const ecl_grid_type* mainEclGrid, RigReservoir* reservoir) { CVF_ASSERT(reservoir); if (!mainEclGrid) { // Some error return false; } RigMainGrid* mainGrid = reservoir->mainGrid(); { cvf::Vec3st gridPointDim(0,0,0); gridPointDim.x() = ecl_grid_get_nx(mainEclGrid) + 1; gridPointDim.y() = ecl_grid_get_ny(mainEclGrid) + 1; gridPointDim.z() = ecl_grid_get_nz(mainEclGrid) + 1; mainGrid->setGridPointDimensions(gridPointDim); } // Get and set grid and lgr metadata size_t totalCellCount = static_cast<size_t>(ecl_grid_get_global_size(mainEclGrid)); int numLGRs = ecl_grid_get_num_lgr(mainEclGrid); int lgrIdx; for (lgrIdx = 0; lgrIdx < numLGRs; ++lgrIdx) { ecl_grid_type* localEclGrid = ecl_grid_iget_lgr(mainEclGrid, lgrIdx); std::string lgrName = ecl_grid_get_name(localEclGrid); cvf::Vec3st gridPointDim(0,0,0); gridPointDim.x() = ecl_grid_get_nx(localEclGrid) + 1; gridPointDim.y() = ecl_grid_get_ny(localEclGrid) + 1; gridPointDim.z() = ecl_grid_get_nz(localEclGrid) + 1; RigLocalGrid* localGrid = new RigLocalGrid(mainGrid); mainGrid->addLocalGrid(localGrid); localGrid->setIndexToStartOfCells(totalCellCount); localGrid->setGridName(lgrName); localGrid->setGridPointDimensions(gridPointDim); totalCellCount += ecl_grid_get_global_size(localEclGrid); } // Reserve room for the cells and nodes and fill them with data mainGrid->cells().reserve(totalCellCount); mainGrid->nodes().reserve(8*totalCellCount); caf::ProgressInfo progInfo(3 + numLGRs, ""); progInfo.setProgressDescription("Main Grid"); progInfo.setNextProgressIncrement(3); transferGridCellData(mainGrid, mainGrid, mainEclGrid, 0, 0); progInfo.setProgress(3); size_t globalMatrixActiveSize = ecl_grid_get_nactive(mainEclGrid); size_t globalFractureActiveSize = ecl_grid_get_nactive_fracture(mainEclGrid); mainGrid->setMatrixModelActiveCellCount(globalMatrixActiveSize); mainGrid->setFractureModelActiveCellCount(globalFractureActiveSize); for (lgrIdx = 0; lgrIdx < numLGRs; ++lgrIdx) { progInfo.setProgressDescription("LGR number " + QString::number(lgrIdx+1)); ecl_grid_type* localEclGrid = ecl_grid_iget_lgr(mainEclGrid, lgrIdx); RigLocalGrid* localGrid = static_cast<RigLocalGrid*>(mainGrid->gridByIndex(lgrIdx+1)); transferGridCellData(mainGrid, localGrid, localEclGrid, globalMatrixActiveSize, globalFractureActiveSize); int activeCellCount = ecl_grid_get_nactive(localEclGrid); localGrid->setMatrixModelActiveCellCount(activeCellCount); globalMatrixActiveSize += activeCellCount; activeCellCount = ecl_grid_get_nactive_fracture(localEclGrid); localGrid->setFractureModelActiveCellCount(activeCellCount); globalFractureActiveSize += activeCellCount; progInfo.setProgress(3 + lgrIdx); } mainGrid->setGlobalMatrixModelActiveCellCount(globalMatrixActiveSize); mainGrid->setGlobalFractureModelActiveCellCount(globalFractureActiveSize); return true; }