ResInsight/ApplicationLibCode/ReservoirDataModel/RigAccWellFlowCalculator.h

/////////////////////////////////////////////////////////////////////////////////
//
//  Copyright (C) 2017     Statoil ASA
//
//  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 <cvfArray.h>

#include <cstddef>
#include <map>
#include <vector>

//==================================================================================================
///
///
//==================================================================================================

class RigMainGrid;
class RigActiveCellInfo;

class RigEclCellIndexCalculator
{
public:
    RigEclCellIndexCalculator( const RigMainGrid* mainGrid, const RigActiveCellInfo* activeCellInfo, const cvf::UByteArray* cellVisibilities )
        : m_mainGrid( mainGrid )
        , m_activeCellInfo( activeCellInfo )
        , m_cellVisibilities( cellVisibilities )
    {
    }

    size_t resultCellIndex( size_t gridIndex, size_t gridCellIndex ) const;
    bool   isCellVisible( size_t gridIndex, size_t gridCellIndex ) const;

private:
    const RigMainGrid*       m_mainGrid;
    const RigActiveCellInfo* m_activeCellInfo;
    const cvf::UByteArray*   m_cellVisibilities;
};

//==================================================================================================
///
///
//==================================================================================================

#include <QString>

#include "cvfVector3.h"

struct RigWellResultPoint;

class RigAccWellFlowCalculator
{
public:
    RigAccWellFlowCalculator( const std::vector<std::vector<cvf::Vec3d>>&          pipeBranchesCLCoords,
                              const std::vector<std::vector<RigWellResultPoint>>&  pipeBranchesCellIds,
                              const std::map<QString, const std::vector<double>*>& tracerCellFractionValues,
                              const RigEclCellIndexCalculator&                     cellIndexCalculator,
                              double                                               smallContribThreshold,
                              bool                                                 isProducer );

    RigAccWellFlowCalculator( const std::vector<std::vector<cvf::Vec3d>>&         pipeBranchesCLCoords,
                              const std::vector<std::vector<RigWellResultPoint>>& pipeBranchesCellIds,
                              double                                              smallContribThreshold );

    RigAccWellFlowCalculator( const std::vector<cvf::Vec3d>&         pipeBranchCLCoords,
                              const std::vector<RigWellResultPoint>& pipeBranchCellIds,
                              const std::vector<double>&             pipeBranchMeasuredDepths,
                              bool                                   totalFlowOnly );

    const std::vector<double>& connectionNumbersFromTop( size_t branchIdx ) const;
    const std::vector<double>& accumulatedTracerFlowPrConnection( const QString& tracerName, size_t branchIdx ) const;
    const std::vector<double>& tracerFlowPrConnection( const QString& tracerName, size_t branchIdx ) const;

    const std::vector<double>& pseudoLengthFromTop( size_t branchIdx ) const;
    const std::vector<double>& trueVerticalDepth( size_t branchIdx ) const;
    const std::vector<double>& accumulatedTracerFlowPrPseudoLength( const QString& tracerName, size_t branchIdx ) const;
    const std::vector<double>& tracerFlowPrPseudoLength( const QString& tracerName, size_t branchIdx ) const;

    const std::vector<QString>& tracerNames() const { return m_tracerNames; }

    std::vector<std::pair<QString, double>> totalTracerFractions() const;

private:
    void initializePipeBranchesMeasuredDepths();

    bool isConnectionFlowConsistent( const RigWellResultPoint& wellCell ) const;
    bool isFlowRateConsistent( double flowRate ) const;

    void calculateFlowData();
    void calculateAccumulatedFlowPrConnection( size_t branchIdx, size_t startConnectionNumberFromTop );
    void calculateFlowPrPseudoLength( size_t branchIdx, double startPseudoLengthFromTop );

    std::vector<double> calculateWellCellFlowPrTracer( const RigWellResultPoint&  wellCell,
                                                       const std::vector<double>& currentAccumulatedFlowPrTracer ) const;
    void                sortTracers();
    void                groupSmallContributions();

    void groupSmallTracers( std::map<QString, std::vector<double>>* branchFlowSet, const std::vector<QString>& tracersToGroup );

    bool                isWellFlowConsistent() const;
    std::vector<double> calculateAccumulatedFractions( const std::vector<double>& accumulatedFlowPrTracer ) const;
    std::vector<size_t> wrpToUniqueWrpIndexFromBottom( const std::vector<RigWellResultPoint>& branchCells ) const;
    static size_t       connectionIndexFromTop( const std::vector<size_t>& resPointToConnectionIndexFromBottom, size_t clSegIdx );
    std::vector<size_t> findDownStreamBranchIdxs( const RigWellResultPoint& connectionPoint ) const;

    std::vector<std::pair<QString, double>> totalWellFlowPrTracer() const;

    std::vector<std::vector<cvf::Vec3d>>         m_pipeBranchesCLCoords;
    std::vector<std::vector<RigWellResultPoint>> m_pipeBranchesWellResultPoints;
    std::vector<std::vector<double>>             m_pipeBranchesMeasuredDepths;

    const std::map<QString, const std::vector<double>*>* m_tracerCellFractionValues;
    RigEclCellIndexCalculator                            m_cellIndexCalculator;
    std::vector<QString>                                 m_tracerNames;
    double                                               m_smallContributionsThreshold;
    bool                                                 m_isProducer;
    bool                                                 m_useTotalWellPhaseRateOnly;

    struct BranchFlow
    {
        std::vector<double>                    depthValuesFromTop;
        std::vector<double>                    trueVerticalDepth;
        std::map<QString, std::vector<double>> accFlowPrTracer;
        std::map<QString, std::vector<double>> flowPrTracer;
    };

    void storeFlowOnDepth( BranchFlow*                branchFlow,
                           double                     depthValue,
                           const std::vector<double>& accFlowPrTracer,
                           const std::vector<double>& flowPrTracer );
    void storeFlowOnDepthWTvd( BranchFlow*                branchFlow,
                               double                     depthValue,
                               double                     trueVerticalDepth,
                               const std::vector<double>& accFlowPrTracer,
                               const std::vector<double>& flowPrTracer );

    std::vector<double> accumulatedDsBranchFlowPrTracer( const BranchFlow& downStreamBranchFlow ) const;
    void addDownStreamBranchFlow( std::vector<double>* accFlowPrTracer, const std::vector<double>& accBranchFlowPrTracer ) const;

    std::vector<BranchFlow> m_connectionFlowPrBranch;
    std::vector<BranchFlow> m_pseudoLengthFlowPrBranch;
};