ResInsight/ApplicationCode/ReservoirDataModel/RigEclipseNativeVisibleCellsStatCalc.h

/////////////////////////////////////////////////////////////////////////////////
//
//  Copyright (C) 2015-     Statoil ASA
//  Copyright (C) 2015-     Ceetron Solutions 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.
//
/////////////////////////////////////////////////////////////////////////////////

#pragma once


//==================================================================================================
/// 
//==================================================================================================
#include "RigStatisticsCalculator.h"

#include "RigCaseCellResultsData.h"
#include "RigActiveCellInfo.h"

#include "cvfArray.h"



class RigEclipseNativeVisibleCellsStatCalc : public RigStatisticsCalculator
{
public:
    RigEclipseNativeVisibleCellsStatCalc(RigCaseCellResultsData* cellResultsData, 
                                         size_t scalarResultIndex, 
                                         const cvf::UByteArray* cellVisibilities);

    virtual void    minMaxCellScalarValues(size_t timeStepIndex, double& min, double& max);
    virtual void    posNegClosestToZero(size_t timeStepIndex, double& pos, double& neg);
    virtual void    valueSumAndSampleCount(size_t timeStepIndex, double& valueSum, size_t& sampleCount);
    virtual void    addDataToHistogramCalculator(size_t timeStepIndex, RigHistogramCalculator& histogramCalculator);
    virtual void    uniqueValues(size_t timeStepIndex, std::set<int>& values);
    virtual size_t  timeStepCount();
    virtual void    mobileVolumeWeightedMean(size_t timeStepIndex, double &result);


private:
    RigCaseCellResultsData*         m_caseData;
    size_t                          m_scalarResultIndex;
    cvf::cref<cvf::UByteArray>      m_cellVisibilities;

    template <typename StatisticsAccumulator>
    void traverseCells(StatisticsAccumulator& accumulator, size_t timeStepIndex)
    {
        std::vector<double>& values = m_caseData->cellScalarResults(m_scalarResultIndex, timeStepIndex);

        if (values.empty())
        {
            // Can happen if values do not exist for the current time step index.
            return;
        }

        const RigActiveCellInfo* actCellInfo = m_caseData->activeCellInfo();
        size_t cellCount = actCellInfo->reservoirCellCount();

        CVF_TIGHT_ASSERT(cellCount == m_cellVisibilities->size());

        for (size_t cIdx = 0; cIdx < cellCount; ++cIdx)
        {
            if (!(*m_cellVisibilities)[cIdx]) continue;

            size_t cellResultIndex = cIdx;
            if (m_caseData->isUsingGlobalActiveIndex(m_scalarResultIndex))
            {
                cellResultIndex = actCellInfo->cellResultIndex(cIdx);
            }

            if (cellResultIndex != cvf::UNDEFINED_SIZE_T && cellResultIndex < values.size())
            {
                accumulator.addValue(values[cellResultIndex]);
            }
        }
    }

};