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Streamlines: New generator and UI usability improvements (#7424)
Co-authored-by: jonjenssen <jonjenssen@users.noreply.github.com> Co-authored-by: Magne Sjaastad <magne.sjaastad@ceetronsolutions.com>
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/////////////////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 2021 Equinor ASA
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//
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// ResInsight is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY
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// WARRANTY; without even the implied warranty of MERCHANTABILITY or
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// FITNESS FOR A PARTICULAR PURPOSE.
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//
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// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
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// for more details.
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//
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/////////////////////////////////////////////////////////////////////////////////
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#include "RimStreamlineDataAccess.h"
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#include "RigCaseCellResultsData.h"
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#include "RigCell.h"
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#include "RigEclipseCaseData.h"
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#include "RigEclipseResultAddress.h"
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#include "RigMainGrid.h"
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#include "RigResultAccessor.h"
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#include "RigResultAccessorFactory.h"
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#include "cafAssert.h"
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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RimStreamlineDataAccess::RimStreamlineDataAccess()
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: m_data( nullptr )
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, m_grid( nullptr )
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{
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}
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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RimStreamlineDataAccess::~RimStreamlineDataAccess()
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{
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}
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//--------------------------------------------------------------------------------------------------
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/// Set up data accessors to access the selected flroil/gas/wat data for all faces
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//--------------------------------------------------------------------------------------------------
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bool RimStreamlineDataAccess::setupDataAccess( RigMainGrid* grid,
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RigEclipseCaseData* data,
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std::list<RiaDefines::PhaseType> phases,
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int timeIdx )
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{
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m_grid = grid;
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m_data = data;
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m_dataAccess.clear();
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for ( auto phase : phases )
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{
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m_dataAccess[phase] = std::vector<cvf::ref<RigResultAccessor>>();
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// Note: NEG_? accessors are set to POS_? accessors, but will be referring the neighbor cell when used
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m_dataAccess[phase].push_back( getDataAccessor( cvf::StructGridInterface::FaceType::POS_I, phase, timeIdx ) );
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m_dataAccess[phase].push_back( getDataAccessor( cvf::StructGridInterface::FaceType::POS_I, phase, timeIdx ) );
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m_dataAccess[phase].push_back( getDataAccessor( cvf::StructGridInterface::FaceType::POS_J, phase, timeIdx ) );
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m_dataAccess[phase].push_back( getDataAccessor( cvf::StructGridInterface::FaceType::POS_J, phase, timeIdx ) );
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m_dataAccess[phase].push_back( getDataAccessor( cvf::StructGridInterface::FaceType::POS_K, phase, timeIdx ) );
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m_dataAccess[phase].push_back( getDataAccessor( cvf::StructGridInterface::FaceType::POS_K, phase, timeIdx ) );
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}
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for ( auto& pair : m_dataAccess )
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{
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for ( auto& access : pair.second )
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{
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if ( access.isNull() ) return false;
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}
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}
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return true;
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}
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//--------------------------------------------------------------------------------------------------
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/// Return a data accessor for the given phase and face and time step
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//--------------------------------------------------------------------------------------------------
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cvf::ref<RigResultAccessor> RimStreamlineDataAccess::getDataAccessor( cvf::StructGridInterface::FaceType faceIdx,
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RiaDefines::PhaseType phase,
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int timeIdx )
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{
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RiaDefines::PorosityModelType porModel = RiaDefines::PorosityModelType::MATRIX_MODEL;
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RigCaseCellResultsData* data = m_data->results( porModel );
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QString resultname = gridResultNameFromPhase( phase, faceIdx );
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int gridIdx = 0;
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RigEclipseResultAddress address( RiaDefines::ResultCatType::DYNAMIC_NATIVE, resultname );
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// Make sure we have the data we need loaded for the given phase and time step index
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data->ensureKnownResultLoadedForTimeStep( address, timeIdx );
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return RigResultAccessorFactory::createFromResultAddress( m_data, gridIdx, porModel, timeIdx, address );
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}
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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QString RimStreamlineDataAccess::gridResultNameFromPhase( RiaDefines::PhaseType phase,
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cvf::StructGridInterface::FaceType faceIdx ) const
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{
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QString retval = "";
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switch ( phase )
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{
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case RiaDefines::PhaseType::GAS_PHASE:
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retval += "FLRGAS";
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break;
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case RiaDefines::PhaseType::OIL_PHASE:
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retval += "FLROIL";
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break;
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case RiaDefines::PhaseType::WATER_PHASE:
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retval += "FLRWAT";
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break;
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default:
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CAF_ASSERT( false );
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break;
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}
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switch ( faceIdx )
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{
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case cvf::StructGridInterface::FaceType::POS_I:
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retval += "I+";
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break;
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case cvf::StructGridInterface::FaceType::POS_J:
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retval += "J+";
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break;
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case cvf::StructGridInterface::FaceType::POS_K:
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retval += "K+";
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break;
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default:
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CAF_ASSERT( false );
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break;
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}
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return retval;
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}
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//--------------------------------------------------------------------------------------------------
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/// Return the face scalar value for the given cell and NEG_? face, by using the neighbor cell
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//--------------------------------------------------------------------------------------------------
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double RimStreamlineDataAccess::negFaceValueDividedByArea( RigCell cell,
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cvf::StructGridInterface::FaceType faceIdx,
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RiaDefines::PhaseType phase ) const
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{
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double retval = 0.0;
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RigCell neighborCell = cell.neighborCell( faceIdx );
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if ( neighborCell.isInvalid() ) return retval;
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std::vector<cvf::ref<RigResultAccessor>> access = m_dataAccess.at( phase );
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retval = access[faceIdx]->cellScalar( neighborCell.mainGridCellIndex() );
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double area = cell.faceNormalWithAreaLength( faceIdx ).length();
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if ( area != 0.0 )
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retval /= area;
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else
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retval = 0.0;
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if ( std::isinf( retval ) ) retval = 0.0;
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return retval;
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}
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//--------------------------------------------------------------------------------------------------
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/// Return the face scalar value for the given cell and POS_? face
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//--------------------------------------------------------------------------------------------------
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double RimStreamlineDataAccess::posFaceValueDividedByArea( RigCell cell,
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cvf::StructGridInterface::FaceType faceIdx,
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RiaDefines::PhaseType phase ) const
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{
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std::vector<cvf::ref<RigResultAccessor>> access = m_dataAccess.at( phase );
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double retval = access[faceIdx]->cellScalar( cell.mainGridCellIndex() );
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double length = cell.faceNormalWithAreaLength( faceIdx ).length();
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if ( length != 0.0 )
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retval /= length;
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else
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retval = 0.0;
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if ( std::isinf( retval ) ) retval = 0.0;
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return retval;
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}
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//--------------------------------------------------------------------------------------------------
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/// Return the face scalar value for the given cell and face
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//--------------------------------------------------------------------------------------------------
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double RimStreamlineDataAccess::faceValueDividedByArea( RigCell cell,
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cvf::StructGridInterface::FaceType faceIdx,
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RiaDefines::PhaseType phase ) const
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{
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if ( faceIdx % 2 == 0 ) return posFaceValueDividedByArea( cell, faceIdx, phase );
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// NEG_? face values must be read from the neighbor cells
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return negFaceValueDividedByArea( cell, faceIdx, phase );
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}
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//--------------------------------------------------------------------------------------------------
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/// Return the face scalar value for the given cell and face, by combining flow for all specified phases
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//--------------------------------------------------------------------------------------------------
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double RimStreamlineDataAccess::combinedFaceValueByArea( RigCell cell,
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cvf::StructGridInterface::FaceType faceIdx,
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std::list<RiaDefines::PhaseType> phases,
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RiaDefines::PhaseType& outDominantPhase ) const
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{
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double retValue = 0.0;
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outDominantPhase = phases.front();
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double max = 0.0;
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for ( auto phase : phases )
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{
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double tmp = 0.0;
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if ( faceIdx % 2 == 0 )
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tmp = posFaceValueDividedByArea( cell, faceIdx, phase );
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else
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tmp = negFaceValueDividedByArea( cell, faceIdx, phase );
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if ( abs( tmp ) > max )
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{
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outDominantPhase = phase;
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max = abs( tmp );
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}
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retValue += tmp;
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}
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return retValue;
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}
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