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https://github.com/OPM/ResInsight.git
synced 2025-02-25 18:55:39 -06:00
Refactor grid export and fault export
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@@ -353,203 +353,6 @@ bool RifReaderEclipseOutput::transferGeometry(const ecl_grid_type* mainEclGrid,
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return true;
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}
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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bool RifReaderEclipseOutput::saveEclipseGrid(const QString& fileName, RigEclipseCaseData* eclipseCase, const cvf::Vec3st& min, const cvf::Vec3st& max, const cvf::Vec3st& refinement)
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{
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if (!eclipseCase)
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{
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return false;
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}
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const RigActiveCellInfo* activeCellInfo = eclipseCase->activeCellInfo(RiaDefines::MATRIX_MODEL);
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const RigActiveCellInfo* fractureActiveCellInfo = eclipseCase->activeCellInfo(RiaDefines::FRACTURE_MODEL);
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CVF_ASSERT(activeCellInfo && fractureActiveCellInfo);
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const RigMainGrid* mainGrid = eclipseCase->mainGrid();
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int ecl_nx = static_cast<int>((max.x() - min.x()) * refinement.x() + 1);
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int ecl_ny = static_cast<int>((max.y() - min.y()) * refinement.y() + 1);
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int ecl_nz = static_cast<int>((max.z() - min.z()) * refinement.z() + 1);
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size_t cellsPerOriginal = refinement.x() * refinement.y() * refinement.z();
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caf::ProgressInfo progress(mainGrid->cellCount() * 2, "Save Eclipse Grid");
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int cellProgressInterval = 1000;
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std::vector<float*> ecl_corners; ecl_corners.reserve(mainGrid->cellCount() * cellsPerOriginal);
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std::vector<int*> ecl_coords; ecl_coords.reserve(mainGrid->cellCount() * cellsPerOriginal);
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int incrementalIndex = 0;
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for (size_t k = min.z() * refinement.z(); k <= max.z() * refinement.z(); ++k)
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{
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size_t mainK = k / refinement.z();
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size_t k0 = k - min.z() * refinement.z();
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for (size_t j = min.y() * refinement.y(); j <= max.y() * refinement.y(); ++j)
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{
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size_t mainJ = j / refinement.y();
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size_t j0 = j - min.y() * refinement.y();
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for (size_t i = min.x() * refinement.x(); i <= max.x() * refinement.x(); ++i)
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{
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size_t mainI = i / refinement.x();
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size_t i0 = i - min.x() * refinement.x();
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size_t mainIndex = mainGrid->cellIndexFromIJK(mainI, mainJ, mainK);
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int active = activeCellInfo->isActive(mainIndex) ? 1 : 0;
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int* ecl_cell_coords = new int[5];
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ecl_cell_coords[0] = (int)(i0 + 1);
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ecl_cell_coords[1] = (int)(j0 + 1);
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ecl_cell_coords[2] = (int)(k0 + 1);
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ecl_cell_coords[3] = incrementalIndex++;
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ecl_cell_coords[4] = active;
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ecl_coords.push_back(ecl_cell_coords);
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std::array<cvf::Vec3d, 8> cellCorners;
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mainGrid->cellCornerVertices(mainIndex, cellCorners.data());
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auto refinedCoords = RiaCellDividingTools::createHexCornerCoords(
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cellCorners, refinement.x(), refinement.y(), refinement.z());
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size_t subI = i % refinement.x();
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size_t subJ = j % refinement.y();
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size_t subK = k % refinement.z();
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size_t subIndex = subI + subJ * refinement.x() + subK * refinement.x() * refinement.y();
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float* ecl_cell_corners = new float[24];
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for (size_t cIdx = 0; cIdx < 8; ++cIdx)
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{
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cvf::Vec3d cellCorner = refinedCoords[subIndex * 8 + cIdx];
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ecl_cell_corners[cellMappingECLRi[cIdx] * 3] = cellCorner[0];
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ecl_cell_corners[cellMappingECLRi[cIdx] * 3 + 1] = cellCorner[1];
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ecl_cell_corners[cellMappingECLRi[cIdx] * 3 + 2] = -cellCorner[2];
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}
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ecl_corners.push_back(ecl_cell_corners);
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}
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}
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if (incrementalIndex % cellProgressInterval == 0)
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{
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progress.setProgress(incrementalIndex);
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}
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}
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ecl_grid_type* mainEclGrid = ecl_grid_alloc_GRID_data((int) ecl_coords.size(), ecl_nx, ecl_ny, ecl_nz, 5, &ecl_coords[0], &ecl_corners[0], false, NULL);
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progress.setProgress(mainGrid->cellCount());
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for (float* floatArray : ecl_corners)
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{
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delete floatArray;
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}
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for (int* intArray : ecl_coords)
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{
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delete intArray;
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}
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FILE* filePtr = RifEclipseOutputFileTools::fopen(fileName, "w");
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if (!filePtr)
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{
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return false;
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}
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ecl_grid_fprintf_grdecl(mainEclGrid, filePtr);
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ecl_grid_free(mainEclGrid);
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fclose(filePtr);
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return true;
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}
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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bool RifReaderEclipseOutput::saveEclipseResults(const QString& resultFileName,
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RigEclipseCaseData* eclipseCase,
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const std::vector<QString>& keywords,
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const QString& fileWriteMode,
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const cvf::Vec3st& min,
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const cvf::Vec3st& max,
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const cvf::Vec3st& refinement)
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{
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FILE* filePtr = RifEclipseOutputFileTools::fopen(resultFileName, fileWriteMode);
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if (!filePtr)
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{
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return false;
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}
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RigCaseCellResultsData* cellResultsData = eclipseCase->results(RiaDefines::MATRIX_MODEL);
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RigActiveCellInfo* activeCells = cellResultsData->activeCellInfo();
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RigMainGrid* mainGrid = eclipseCase->mainGrid();
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caf::ProgressInfo progress(keywords.size(), "Saving Keywords");
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for (const QString& keyword : keywords)
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{
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std::vector<double> resultValues;
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RigEclipseResultAddress resAddr(RiaDefines::STATIC_NATIVE, keyword);
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cellResultsData->ensureKnownResultLoaded(resAddr);
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resultValues = cellResultsData->cellScalarResults(resAddr)[0];
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CVF_ASSERT(!resultValues.empty());
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std::vector<double> filteredResults;
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filteredResults.reserve(resultValues.size());
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for (size_t k = min.z() * refinement.z(); k <= max.z() * refinement.z(); ++k)
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{
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size_t mainK = k / refinement.z();
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for (size_t j = min.y() * refinement.y(); j <= max.y() * refinement.y(); ++j)
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{
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size_t mainJ = j / refinement.y();
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for (size_t i = min.x() * refinement.x(); i <= max.x() * refinement.x(); ++i)
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{
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size_t mainI = i / refinement.x();
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size_t mainIndex = mainGrid->cellIndexFromIJK(mainI, mainJ, mainK);
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size_t resIndex = activeCells->cellResultIndex(mainIndex);
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if (resIndex != cvf::UNDEFINED_SIZE_T)
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{
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filteredResults.push_back(resultValues[resIndex]);
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}
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}
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}
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}
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ecl_kw_type* ecl_kw = nullptr;
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if (keyword.endsWith("NUM"))
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{
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std::vector<int> resultValuesInt; resultValuesInt.reserve(filteredResults.size());
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for (double val : filteredResults)
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{
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resultValuesInt.push_back(static_cast<int>(val));
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}
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ecl_kw = ecl_kw_alloc_new(keyword.toLatin1().data(), (int) resultValuesInt.size(), ECL_INT, resultValuesInt.data());
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}
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else
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{
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std::vector<float> resultValuesFloat;
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resultValuesFloat.reserve(filteredResults.size());
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for (double val : filteredResults)
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{
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resultValuesFloat.push_back(static_cast<float>(val));
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}
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ecl_kw = ecl_kw_alloc_new(keyword.toLatin1().data(), (int) resultValuesFloat.size(), ECL_FLOAT, resultValuesFloat.data());
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}
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ecl_kw_fprintf_grdecl(ecl_kw, filePtr);
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ecl_kw_free(ecl_kw);
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progress.incrementProgress();
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}
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fclose(filePtr);
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return true;
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}
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//--------------------------------------------------------------------------------------------------
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/// Open file and read geometry into given reservoir object
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//--------------------------------------------------------------------------------------------------
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@@ -794,6 +597,14 @@ void RifReaderEclipseOutput::setFileDataAccess(RifEclipseRestartDataAccess* rest
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m_dynamicResultsAccess = restartDataAccess;
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}
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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const size_t* RifReaderEclipseOutput::eclipseCellIndexMapping()
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{
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return cellMappingECLRi;
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}
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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