diff --git a/opm/autodiff/SimulatorFullyImplicitBlackoilOutput.hpp b/opm/autodiff/SimulatorFullyImplicitBlackoilOutput.hpp index 301fa8a4d..80a9e5c2c 100644 --- a/opm/autodiff/SimulatorFullyImplicitBlackoilOutput.hpp +++ b/opm/autodiff/SimulatorFullyImplicitBlackoilOutput.hpp @@ -479,7 +479,7 @@ namespace Opm output.emplace_back(data::CellData{ "1OVERBW", Opm::UnitSystem::measure::water_inverse_formation_volume_factor, - std::move(adbToDoubleVector(sd.rq[aqua_idx].b)), + adbToDoubleVector(sd.rq[aqua_idx].b), true}); } if (liquid_active && rstKeywords["BO"] > 0) { @@ -487,7 +487,7 @@ namespace Opm output.emplace_back(data::CellData{ "1OVERBO", Opm::UnitSystem::measure::oil_inverse_formation_volume_factor, - std::move(adbToDoubleVector(sd.rq[liquid_idx].b)), + adbToDoubleVector(sd.rq[liquid_idx].b), true}); } if (vapour_active && rstKeywords["BG"] > 0) { @@ -495,7 +495,7 @@ namespace Opm output.emplace_back(data::CellData{ "1OVERBG", Opm::UnitSystem::measure::gas_inverse_formation_volume_factor, - std::move(adbToDoubleVector(sd.rq[vapour_idx].b)), + adbToDoubleVector(sd.rq[vapour_idx].b), true}); } @@ -508,21 +508,21 @@ namespace Opm output.emplace_back(data::CellData{ "WAT_DEN", Opm::UnitSystem::measure::density, - std::move(adbToDoubleVector(sd.rq[aqua_idx].rho)), + adbToDoubleVector(sd.rq[aqua_idx].rho), true}); } if (liquid_active) { output.emplace_back(data::CellData{ "OIL_DEN", Opm::UnitSystem::measure::density, - std::move(adbToDoubleVector(sd.rq[liquid_idx].rho)), + adbToDoubleVector(sd.rq[liquid_idx].rho), true}); } if (vapour_active) { output.emplace_back(data::CellData{ "GAS_DEN", Opm::UnitSystem::measure::density, - std::move(adbToDoubleVector(sd.rq[vapour_idx].rho)), + adbToDoubleVector(sd.rq[vapour_idx].rho), true}); } } @@ -536,21 +536,21 @@ namespace Opm output.emplace_back(data::CellData{ "WAT_VISC", Opm::UnitSystem::measure::viscosity, - std::move(adbToDoubleVector(sd.rq[aqua_idx].mu)), + adbToDoubleVector(sd.rq[aqua_idx].mu), true}); } if (liquid_active) { output.emplace_back(data::CellData{ "OIL_VISC", Opm::UnitSystem::measure::viscosity, - std::move(adbToDoubleVector(sd.rq[liquid_idx].mu)), + adbToDoubleVector(sd.rq[liquid_idx].mu), true}); } if (vapour_active) { output.emplace_back(data::CellData{ "GAS_VISC", Opm::UnitSystem::measure::viscosity, - std::move(adbToDoubleVector(sd.rq[vapour_idx].mu)), + adbToDoubleVector(sd.rq[vapour_idx].mu), true}); } } @@ -564,7 +564,7 @@ namespace Opm output.emplace_back(data::CellData{ "WATKR", Opm::UnitSystem::measure::permeability, - std::move(adbToDoubleVector(sd.rq[aqua_idx].kr)), + adbToDoubleVector(sd.rq[aqua_idx].kr), true}); } else { @@ -581,7 +581,7 @@ namespace Opm output.emplace_back(data::CellData{ "OILKR", Opm::UnitSystem::measure::permeability, - std::move(adbToDoubleVector(sd.rq[liquid_idx].kr)), + adbToDoubleVector(sd.rq[liquid_idx].kr), true}); } else { @@ -598,7 +598,7 @@ namespace Opm output.emplace_back(data::CellData{ "GASKR", Opm::UnitSystem::measure::permeability, - std::move(adbToDoubleVector(sd.rq[vapour_idx].kr)), + adbToDoubleVector(sd.rq[vapour_idx].kr), true}); } else { @@ -618,7 +618,7 @@ namespace Opm output.emplace_back(data::CellData{ "RSSAT", Opm::UnitSystem::measure::gas_oil_ratio, - std::move(adbToDoubleVector(sd.rsSat)), + adbToDoubleVector(sd.rsSat), true}); } if (vapour_active && liquid_active && rstKeywords["RVSAT"] > 0) { @@ -626,7 +626,7 @@ namespace Opm output.emplace_back(data::CellData{ "RVSAT", Opm::UnitSystem::measure::oil_gas_ratio, - std::move(adbToDoubleVector(sd.rvSat)), + adbToDoubleVector(sd.rvSat), true}); } @@ -698,7 +698,7 @@ namespace Opm output.emplace_back(data::CellData{ "WIP", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_AQUA])), + adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_AQUA]), false}); } if (liquid_active) { @@ -707,7 +707,7 @@ namespace Opm output.emplace_back(data::CellData{ "OIPL", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_LIQUID])), + adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_LIQUID]), false}); } //Oil in place (gas phase only) @@ -715,7 +715,7 @@ namespace Opm output.emplace_back(data::CellData{ "OIPG", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_VAPORIZED_OIL])), + adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_VAPORIZED_OIL]), false}); } // Oil in place (in liquid and gas phases) @@ -725,7 +725,7 @@ namespace Opm output.emplace_back(data::CellData{ "OIP", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(oip)), + adbVToDoubleVector(oip), false}); } } @@ -735,7 +735,7 @@ namespace Opm output.emplace_back(data::CellData{ "GIPG", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_VAPOUR])), + adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_VAPOUR]), false}); } // Gas in place (liquid phase only) @@ -743,7 +743,7 @@ namespace Opm output.emplace_back(data::CellData{ "GIPL", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_DISSOLVED_GAS])), + adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_DISSOLVED_GAS]), false}); } // Gas in place (in both liquid and gas phases) @@ -753,7 +753,7 @@ namespace Opm output.emplace_back(data::CellData{ "GIP", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(gip)), + adbVToDoubleVector(gip), false}); } } @@ -762,7 +762,7 @@ namespace Opm output.emplace_back(data::CellData{ "RPV", Opm::UnitSystem::measure::volume, - std::move(adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_PV])), + adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_PV]), false}); } // Pressure averaged value (hydrocarbon pore volume weighted) @@ -770,7 +770,7 @@ namespace Opm output.emplace_back(data::CellData{ "PRH", Opm::UnitSystem::measure::pressure, - std::move(adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_WEIGHTED_PRESSURE])), + adbVToDoubleVector(sd.fip[Model::SimulatorData::FIP_WEIGHTED_PRESSURE]), false}); } }