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ResInsight/ApplicationLibCode/ReservoirDataModel/RigGridScalarDataAccess.cpp
Magne Sjaastad f8c5cf389f
clang-format: Set column width to 140 
* Set column width to 140
* Use c++20
* Remove redundant virtual
2023-02-26 10:48:40 +01:00

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/////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2011-2012 Statoil ASA, Ceetron AS
//
// ResInsight is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE.
//
// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
// for more details.
//
/////////////////////////////////////////////////////////////////////////////////
#include "RigResultAccessObjectFactory.h"
#include "cvfLibCore.h"
#include "cvfAssert.h"
#include "cvfObject.h"
#include "RigActiveCellInfo.h"
#include "RigCaseCellResultsData.h"
#include "RigCaseData.h"
#include "RigGridBase.h"
#include "RigMainGrid.h"
#include <math.h>
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
class RigGridAllCellsScalarDataAccess : public cvf::StructGridScalarDataAccess
{
public:
RigGridAllCellsScalarDataAccess( const RigGridBase* grid, std::vector<double>* reservoirResultValues );
virtual double cellScalar( size_t gridLocalCellIndex ) const;
virtual void setCellScalar( size_t cellIndex, double value );
private:
const RigGridBase* m_grid;
std::vector<double>* m_reservoirResultValues;
};
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RigGridAllCellsScalarDataAccess::RigGridAllCellsScalarDataAccess( const RigGridBase* grid, std::vector<double>* reservoirResultValues )
: m_grid( grid )
, m_reservoirResultValues( reservoirResultValues )
{
CVF_ASSERT( reservoirResultValues != NULL );
CVF_ASSERT( grid != NULL );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RigGridAllCellsScalarDataAccess::cellScalar( size_t gridLocalCellIndex ) const
{
if ( m_reservoirResultValues->size() == 0 ) return HUGE_VAL;
size_t globalGridCellIndex = m_grid->globalGridCellIndex( gridLocalCellIndex );
CVF_TIGHT_ASSERT( globalGridCellIndex < m_reservoirResultValues->size() );
return m_reservoirResultValues->at( globalGridCellIndex );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RigGridAllCellsScalarDataAccess::setCellScalar( size_t gridLocalCellIndex, double scalarValue )
{
size_t globalGridCellIndex = m_grid->globalGridCellIndex( gridLocalCellIndex );
CVF_TIGHT_ASSERT( globalGridCellIndex < m_reservoirResultValues->size() );
( *m_reservoirResultValues )[globalGridCellIndex] = scalarValue;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
class RigGridActiveCellsScalarDataAccess : public cvf::StructGridScalarDataAccess
{
public:
RigGridActiveCellsScalarDataAccess( const RigGridBase* grid, std::vector<double>* reservoirResultValues, const RigActiveCellInfo* activeCellInfo )
: m_grid( grid )
, m_reservoirResultValues( reservoirResultValues )
, m_activeCellInfo( activeCellInfo )
{
CVF_ASSERT( grid != NULL );
}
virtual double cellScalar( size_t gridLocalCellIndex ) const
{
if ( m_reservoirResultValues == NULL || m_reservoirResultValues->size() == 0 ) return HUGE_VAL;
size_t globalGridCellIndex = m_grid->globalGridCellIndex( gridLocalCellIndex );
size_t resultValueIndex = m_activeCellInfo->cellResultIndex( globalGridCellIndex );
if ( resultValueIndex == cvf::UNDEFINED_SIZE_T ) return HUGE_VAL;
CVF_TIGHT_ASSERT( resultValueIndex < m_reservoirResultValues->size() );
return m_reservoirResultValues->at( resultValueIndex );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
virtual void setCellScalar( size_t gridLocalCellIndex, double scalarValue )
{
size_t globalGridCellIndex = m_grid->globalGridCellIndex( gridLocalCellIndex );
size_t resultValueIndex = m_activeCellInfo->cellResultIndex( globalGridCellIndex );
CVF_TIGHT_ASSERT( m_reservoirResultValues != NULL && resultValueIndex < m_reservoirResultValues->size() );
( *m_reservoirResultValues )[resultValueIndex] = scalarValue;
}
private:
const RigActiveCellInfo* m_activeCellInfo;
const RigGridBase* m_grid;
std::vector<double>* m_reservoirResultValues;
};
class StructGridScalarDataAccessHugeVal : public cvf::StructGridScalarDataAccess
{
public:
virtual double cellScalar( size_t cellIndex ) const { return HUGE_VAL; }
virtual void setCellScalar( size_t cellIndex, double value ) {}
};
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
cvf::ref<cvf::StructGridScalarDataAccess>
RigResultAccessObjectFactory::createNativeDataAccessObject( RigCaseData* eclipseCase,
size_t gridIndex,
RifReaderInterface::PorosityModelResultType porosityModel,
size_t timeStepIndex,
size_t scalarSetIndex )
{
CVF_ASSERT( gridIndex < eclipseCase->gridCount() );
CVF_ASSERT( eclipseCase );
CVF_ASSERT( eclipseCase->results( porosityModel ) );
CVF_ASSERT( eclipseCase->activeCellInfo( porosityModel ) );
RigGridBase* grid = eclipseCase->grid( gridIndex );
if ( !eclipseCase || !eclipseCase->results( porosityModel ) || !eclipseCase->activeCellInfo( porosityModel ) )
{
return NULL;
}
std::vector<std::vector<double>>& scalarSetResults = eclipseCase->results( porosityModel )->cellScalarResults( scalarSetIndex );
// A generated result with a generated results for a subset of time steps, will end up with a result container with
// less entries than time steps See RiaSetGridProperty command in RiaPropertyDataCommands
//
// Some functions requires a valid data access object to be present, these might be rewritten to avoid this dummy
// object always returning HUGE_VAL
if ( timeStepIndex >= scalarSetResults.size() )
{
cvf::ref<cvf::StructGridScalarDataAccess> object = new StructGridScalarDataAccessHugeVal;
return object;
}
std::vector<double>* resultValues = NULL;
if ( timeStepIndex < scalarSetResults.size() )
{
resultValues = &( scalarSetResults[timeStepIndex] );
}
bool useGlobalActiveIndex = eclipseCase->results( porosityModel )->isUsingGlobalActiveIndex( scalarSetIndex );
if ( useGlobalActiveIndex )
{
cvf::ref<cvf::StructGridScalarDataAccess> object =
new RigGridActiveCellsScalarDataAccess( grid, resultValues, eclipseCase->activeCellInfo( porosityModel ) );
return object;
}
else
{
cvf::ref<cvf::StructGridScalarDataAccess> object = new RigGridAllCellsScalarDataAccess( grid, resultValues );
return object;
}
}
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