Esempio n. 1
0
//--------------------------------------------------------------------------------------------------
/// 
//--------------------------------------------------------------------------------------------------
QList<caf::PdmOptionItemInfo> RimCellRangeFilter::calculateValueOptions(const caf::PdmFieldHandle* fieldNeedingOptions, bool * useOptionsOnly)
{
    QList<caf::PdmOptionItemInfo> options;

    if (useOptionsOnly) (*useOptionsOnly) = true;

    if (&gridIndex == fieldNeedingOptions)
    { 
        RigMainGrid * mainGrid = NULL;

        if (parentContainer() && parentContainer()->reservoirView() && parentContainer()->reservoirView()->eclipseCase() &&  parentContainer()->reservoirView()->eclipseCase()->reservoirData())
            mainGrid = parentContainer()->reservoirView()->eclipseCase()->reservoirData()->mainGrid();

        for (size_t gIdx = 0; gIdx < mainGrid->gridCount(); ++gIdx)
        {
            RigGridBase* grid = mainGrid->gridByIndex(gIdx);
            QString gridName;

            gridName += grid->gridName().c_str();
            if (gIdx == 0)
            {
                if (gridName.isEmpty())
                    gridName += "Main Grid";
                else
                    gridName += " (Main Grid)";
            }

            caf::PdmOptionItemInfo item(gridName, (int)gIdx);
            options.push_back(item);
        }
    }
    return options;
}
//--------------------------------------------------------------------------------------------------
/// 
//--------------------------------------------------------------------------------------------------
const cvf::StructGridInterface* RimCellRangeFilterCollection::gridByIndex(int gridIndex) const
{
    RigMainGrid* mnGrid = mainGrid();
    RigFemPartCollection* femPartColl = this->femPartColl();

    if (mnGrid)
    {
        RigGridBase* grid = NULL;

        grid = mnGrid->gridByIndex(gridIndex);

        CVF_ASSERT(grid);

        return grid;
    }
    else if (femPartColl)
    {
        if (gridIndex < femPartColl->partCount())
            return femPartColl->part(gridIndex)->structGrid();
        else 
            return NULL;
    }
    
    return NULL;
}
Esempio n. 3
0
//--------------------------------------------------------------------------------------------------
/// 
//--------------------------------------------------------------------------------------------------
RigGridBase* RimCellRangeFilter::selectedGrid()
{
    RigMainGrid* mainGrid = m_parentContainer->mainGrid();
    CVF_ASSERT(mainGrid);

    RigGridBase* grid = NULL;
    if (static_cast<size_t>(gridIndex()) >= mainGrid->gridCount())
    {
        gridIndex = 0;
    }

    grid = mainGrid->gridByIndex(gridIndex());
    CVF_ASSERT(grid);
    return grid;
}
//--------------------------------------------------------------------------------------------------
/// 
//--------------------------------------------------------------------------------------------------
QString RimCellRangeFilterCollection::gridName(int gridIndex) const
{
    RigMainGrid* mnGrid = mainGrid();
    RigFemPartCollection* femPartColl = this->femPartColl();

    if (mnGrid)
    {
        return mnGrid->gridByIndex(gridIndex)->gridName().c_str();
    }
    else if (femPartColl)
    {
        return QString::number(gridIndex);
    }

    return "";
}
//--------------------------------------------------------------------------------------------------
/// 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;
}